From 5c105d9f3fd086aff195d3849dcf847d6b0bd927 Mon Sep 17 00:00:00 2001 From: blogic Date: Fri, 5 Oct 2012 10:12:53 +0000 Subject: branch Attitude Adjustment git-svn-id: svn://svn.openwrt.org/openwrt/branches/attitude_adjustment@33625 3c298f89-4303-0410-b956-a3cf2f4a3e73 --- .../patches/2.19.1/110-arm-eabi-conf.patch | 22 + .../patches/2.19.1/111-pr7093.elf32-arm.c.patch | 13 + .../2.19.1/112-arm-uclibc-gas-needs-libm.patch | 35 + .../binutils/patches/2.19.1/120-sh-conf.patch | 40 + .../binutils/patches/2.19.1/200-mips_non_pic.patch | 202 + .../patches/2.19.1/300-001_ld_makefile_patch.patch | 22 + .../2.19.1/300-012_check_ldrunpath_length.patch | 20 + .../2.19.1/600-ubicom32_binutils_20090818.patch | 48949 +++++++++++++++++++ toolchain/binutils/patches/2.19.1/700-avr32.patch | 30629 ++++++++++++ .../patches/2.20.1/110-arm-eabi-conf.patch | 22 + .../patches/2.20.1/111-pr7093.elf32-arm.c.patch | 13 + .../2.20.1/112-arm-uclibc-gas-needs-libm.patch | 35 + .../binutils/patches/2.20.1/120-sh-conf.patch | 40 + .../binutils/patches/2.20.1/200-mips_non_pic.patch | 209 + .../patches/2.20.1/300-001_ld_makefile_patch.patch | 22 + .../2.20.1/300-012_check_ldrunpath_length.patch | 20 + .../2.20.1/310-backport_fPIE_mips_fix.patch | 15 + .../patches/2.20.1/400-autoreconf-compat.patch | 84 + toolchain/binutils/patches/2.20.1/700-avr32.patch | 30797 ++++++++++++ .../patches/2.21.1/110-arm-eabi-conf.patch | 22 + .../patches/2.21.1/111-pr7093.elf32-arm.c.patch | 13 + .../2.21.1/112-arm-uclibc-gas-needs-libm.patch | 35 + .../binutils/patches/2.21.1/120-sh-conf.patch | 40 + .../binutils/patches/2.21.1/200-mips_non_pic.patch | 209 + .../patches/2.21.1/300-001_ld_makefile_patch.patch | 22 + .../2.21.1/300-012_check_ldrunpath_length.patch | 20 + toolchain/binutils/patches/2.21.1/700-avr32.patch | 30879 ++++++++++++ .../binutils/patches/2.21/110-arm-eabi-conf.patch | 22 + .../patches/2.21/111-pr7093.elf32-arm.c.patch | 13 + .../2.21/112-arm-uclibc-gas-needs-libm.patch | 35 + toolchain/binutils/patches/2.21/120-sh-conf.patch | 40 + .../binutils/patches/2.21/200-mips_non_pic.patch | 209 + .../patches/2.21/300-001_ld_makefile_patch.patch | 22 + .../2.21/300-012_check_ldrunpath_length.patch | 20 + toolchain/binutils/patches/2.21/700-avr32.patch | 30879 ++++++++++++ .../2.22/112-arm-uclibc-gas-needs-libm.patch | 35 + toolchain/binutils/patches/2.22/120-sh-conf.patch | 22 + .../patches/2.22/300-001_ld_makefile_patch.patch | 22 + .../2.22/300-012_check_ldrunpath_length.patch | 20 + .../patches/2.22/400-fix_arm_gc_sections.patch | 12 + .../binutils/patches/2.22/999-ppc-textrels.patch | 74 + 41 files changed, 173854 insertions(+) create mode 100644 toolchain/binutils/patches/2.19.1/110-arm-eabi-conf.patch create mode 100644 toolchain/binutils/patches/2.19.1/111-pr7093.elf32-arm.c.patch create mode 100644 toolchain/binutils/patches/2.19.1/112-arm-uclibc-gas-needs-libm.patch create mode 100644 toolchain/binutils/patches/2.19.1/120-sh-conf.patch create mode 100644 toolchain/binutils/patches/2.19.1/200-mips_non_pic.patch create mode 100644 toolchain/binutils/patches/2.19.1/300-001_ld_makefile_patch.patch create mode 100644 toolchain/binutils/patches/2.19.1/300-012_check_ldrunpath_length.patch create mode 100644 toolchain/binutils/patches/2.19.1/600-ubicom32_binutils_20090818.patch create mode 100644 toolchain/binutils/patches/2.19.1/700-avr32.patch create mode 100644 toolchain/binutils/patches/2.20.1/110-arm-eabi-conf.patch create mode 100644 toolchain/binutils/patches/2.20.1/111-pr7093.elf32-arm.c.patch create mode 100644 toolchain/binutils/patches/2.20.1/112-arm-uclibc-gas-needs-libm.patch create mode 100644 toolchain/binutils/patches/2.20.1/120-sh-conf.patch create mode 100644 toolchain/binutils/patches/2.20.1/200-mips_non_pic.patch create mode 100644 toolchain/binutils/patches/2.20.1/300-001_ld_makefile_patch.patch create mode 100644 toolchain/binutils/patches/2.20.1/300-012_check_ldrunpath_length.patch create mode 100644 toolchain/binutils/patches/2.20.1/310-backport_fPIE_mips_fix.patch create mode 100644 toolchain/binutils/patches/2.20.1/400-autoreconf-compat.patch create mode 100644 toolchain/binutils/patches/2.20.1/700-avr32.patch create mode 100644 toolchain/binutils/patches/2.21.1/110-arm-eabi-conf.patch create mode 100644 toolchain/binutils/patches/2.21.1/111-pr7093.elf32-arm.c.patch create mode 100644 toolchain/binutils/patches/2.21.1/112-arm-uclibc-gas-needs-libm.patch create mode 100644 toolchain/binutils/patches/2.21.1/120-sh-conf.patch create mode 100644 toolchain/binutils/patches/2.21.1/200-mips_non_pic.patch create mode 100644 toolchain/binutils/patches/2.21.1/300-001_ld_makefile_patch.patch create mode 100644 toolchain/binutils/patches/2.21.1/300-012_check_ldrunpath_length.patch create mode 100644 toolchain/binutils/patches/2.21.1/700-avr32.patch create mode 100644 toolchain/binutils/patches/2.21/110-arm-eabi-conf.patch create mode 100644 toolchain/binutils/patches/2.21/111-pr7093.elf32-arm.c.patch create mode 100644 toolchain/binutils/patches/2.21/112-arm-uclibc-gas-needs-libm.patch create mode 100644 toolchain/binutils/patches/2.21/120-sh-conf.patch create mode 100644 toolchain/binutils/patches/2.21/200-mips_non_pic.patch create mode 100644 toolchain/binutils/patches/2.21/300-001_ld_makefile_patch.patch create mode 100644 toolchain/binutils/patches/2.21/300-012_check_ldrunpath_length.patch create mode 100644 toolchain/binutils/patches/2.21/700-avr32.patch create mode 100644 toolchain/binutils/patches/2.22/112-arm-uclibc-gas-needs-libm.patch create mode 100644 toolchain/binutils/patches/2.22/120-sh-conf.patch create mode 100644 toolchain/binutils/patches/2.22/300-001_ld_makefile_patch.patch create mode 100644 toolchain/binutils/patches/2.22/300-012_check_ldrunpath_length.patch create mode 100644 toolchain/binutils/patches/2.22/400-fix_arm_gc_sections.patch create mode 100644 toolchain/binutils/patches/2.22/999-ppc-textrels.patch (limited to 'toolchain/binutils/patches') diff --git a/toolchain/binutils/patches/2.19.1/110-arm-eabi-conf.patch b/toolchain/binutils/patches/2.19.1/110-arm-eabi-conf.patch new file mode 100644 index 000000000..02f663bc5 --- /dev/null +++ b/toolchain/binutils/patches/2.19.1/110-arm-eabi-conf.patch @@ -0,0 +1,22 @@ +--- a/configure ++++ b/configure +@@ -2313,7 +2313,7 @@ case "${target}" in + noconfigdirs="$noconfigdirs target-libffi target-qthreads" + libgloss_dir=arm + ;; +- arm*-*-linux-gnueabi) ++ arm*-*-linux-*gnueabi) + noconfigdirs="$noconfigdirs target-qthreads" + case ${with_newlib} in + no) noconfigdirs="$noconfigdirs target-newlib target-libgloss" +--- a/configure.ac ++++ b/configure.ac +@@ -562,7 +562,7 @@ case "${target}" in + noconfigdirs="$noconfigdirs target-libffi target-qthreads" + libgloss_dir=arm + ;; +- arm*-*-linux-gnueabi) ++ arm*-*-linux-*gnueabi) + noconfigdirs="$noconfigdirs target-qthreads" + case ${with_newlib} in + no) noconfigdirs="$noconfigdirs target-newlib target-libgloss" diff --git a/toolchain/binutils/patches/2.19.1/111-pr7093.elf32-arm.c.patch b/toolchain/binutils/patches/2.19.1/111-pr7093.elf32-arm.c.patch new file mode 100644 index 000000000..45765deec --- /dev/null +++ b/toolchain/binutils/patches/2.19.1/111-pr7093.elf32-arm.c.patch @@ -0,0 +1,13 @@ +--- a/bfd/elf32-arm.c ++++ b/bfd/elf32-arm.c +@@ -4621,6 +4621,10 @@ bfd_elf32_arm_init_maps (bfd *abfd) + Elf_Internal_Shdr *hdr; + unsigned int i, localsyms; + ++ /* PR 7093: Make sure that we are dealing with an arm elf binary. */ ++ if (! is_arm_elf (abfd)) ++ return; ++ + if ((abfd->flags & DYNAMIC) != 0) + return; + diff --git a/toolchain/binutils/patches/2.19.1/112-arm-uclibc-gas-needs-libm.patch b/toolchain/binutils/patches/2.19.1/112-arm-uclibc-gas-needs-libm.patch new file mode 100644 index 000000000..9f0002517 --- /dev/null +++ b/toolchain/binutils/patches/2.19.1/112-arm-uclibc-gas-needs-libm.patch @@ -0,0 +1,35 @@ +Source: Khem Raj +Disposition: submit upstream. + +Description: + +We do not need to have the libtool patch anymore for binutils after +libtool has been updated upstream it include support for it. However +for building gas natively on uclibc systems we have to link it with +-lm so that it picks up missing symbols. + +/local/build_area/BUILD/arm_v5t_le_uclibc/binutils-2.17.50/objdir/libiberty/pic/libiberty.a(floatformat.o): In function `floatformat_from_double': +floatformat.c:(.text+0x1ec): undefined reference to `frexp' +floatformat.c:(.text+0x2f8): undefined reference to `ldexp' +/local/build_area/BUILD/arm_v5t_le_uclibc/binutils-2.17.50/objdir/libiberty/pic/libiberty.a(floatformat.o): In function `floatformat_to_double': +floatformat.c:(.text+0x38a): undefined reference to `ldexp' +floatformat.c:(.text+0x3d2): undefined reference to `ldexp' +floatformat.c:(.text+0x43e): undefined reference to `ldexp' floatformat.c:(.text+0x4e2): undefined reference to `ldexp' +collect2: ld returned 1 exit status +make[4]: *** [as-new] Error 1 + +--- a/gas/configure.tgt ++++ b/gas/configure.tgt +@@ -415,6 +415,12 @@ case ${generic_target} in + *-*-netware) fmt=elf em=netware ;; + esac + ++case ${generic_target} in ++ arm-*-*uclibc*) ++ need_libm=yes ++ ;; ++esac ++ + case ${cpu_type} in + alpha | arm | i386 | ia64 | mips | ns32k | pdp11 | ppc | sparc | z80 | z8k) + bfd_gas=yes diff --git a/toolchain/binutils/patches/2.19.1/120-sh-conf.patch b/toolchain/binutils/patches/2.19.1/120-sh-conf.patch new file mode 100644 index 000000000..0ad50dded --- /dev/null +++ b/toolchain/binutils/patches/2.19.1/120-sh-conf.patch @@ -0,0 +1,40 @@ +--- a/configure ++++ b/configure +@@ -2281,7 +2281,7 @@ case "${target}" in + am33_2.0-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; +- sh-*-linux*) ++ sh*-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; + sh*-*-pe|mips*-*-pe|*arm-wince-pe) +@@ -2606,7 +2606,7 @@ case "${target}" in + romp-*-*) + noconfigdirs="$noconfigdirs bfd binutils ld gas opcodes target-libgloss ${libgcj}" + ;; +- sh-*-* | sh64-*-*) ++ sh*-*-* | sh64-*-*) + case "${host}" in + i[3456789]86-*-vsta) ;; # don't add gprof back in + i[3456789]86-*-go32*) ;; # don't add gprof back in +--- a/configure.ac ++++ b/configure.ac +@@ -530,7 +530,7 @@ case "${target}" in + am33_2.0-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; +- sh-*-linux*) ++ sh*-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; + sh*-*-pe|mips*-*-pe|*arm-wince-pe) +@@ -855,7 +855,7 @@ case "${target}" in + romp-*-*) + noconfigdirs="$noconfigdirs bfd binutils ld gas opcodes target-libgloss ${libgcj}" + ;; +- sh-*-* | sh64-*-*) ++ sh*-*-* | sh64-*-*) + case "${host}" in + i[[3456789]]86-*-vsta) ;; # don't add gprof back in + i[[3456789]]86-*-go32*) ;; # don't add gprof back in diff --git a/toolchain/binutils/patches/2.19.1/200-mips_non_pic.patch b/toolchain/binutils/patches/2.19.1/200-mips_non_pic.patch new file mode 100644 index 000000000..2d3d8def4 --- /dev/null +++ b/toolchain/binutils/patches/2.19.1/200-mips_non_pic.patch @@ -0,0 +1,202 @@ +--- a/bfd/elf32-mips.c ++++ b/bfd/elf32-mips.c +@@ -1662,6 +1662,15 @@ static const struct ecoff_debug_swap mip + #define elf_backend_plt_readonly 1 + #define elf_backend_plt_sym_val _bfd_mips_elf_plt_sym_val + ++/* Most MIPS ELF files do not contain a traditional PLT; only VxWorks ++ and non-PIC dynamic executables do. These settings only affect ++ _bfd_elf_create_dynamic_sections, which is only called when we ++ do want a traditional PLT. */ ++#undef elf_backend_want_plt_sym ++#define elf_backend_want_plt_sym 1 ++#undef elf_backend_plt_readonly ++#define elf_backend_plt_readonly 1 ++ + #define elf_backend_discard_info _bfd_mips_elf_discard_info + #define elf_backend_ignore_discarded_relocs \ + _bfd_mips_elf_ignore_discarded_relocs +@@ -1686,6 +1695,8 @@ static const struct ecoff_debug_swap mip + #define bfd_elf32_bfd_print_private_bfd_data \ + _bfd_mips_elf_print_private_bfd_data + ++#define elf_backend_plt_sym_val _bfd_mips_elf_plt_sym_val ++ + /* Support for SGI-ish mips targets. */ + #define TARGET_LITTLE_SYM bfd_elf32_littlemips_vec + #define TARGET_LITTLE_NAME "elf32-littlemips" +@@ -1789,6 +1800,7 @@ mips_vxworks_final_write_processing (bfd + #undef elf_backend_additional_program_headers + #undef elf_backend_modify_segment_map + #undef elf_backend_symbol_processing ++#undef elf_backend_plt_sym_val + /* NOTE: elf_backend_rela_normal is not defined for MIPS. */ + + #include "elf32-target.h" +--- a/bfd/elfxx-mips.c ++++ b/bfd/elfxx-mips.c +@@ -677,6 +677,11 @@ static bfd *reldyn_sorting_bfd; + /* Nonzero if ABFD is using NewABI conventions. */ + #define NEWABI_P(abfd) (ABI_N32_P (abfd) || ABI_64_P (abfd)) + ++/* Nonzero if ABFD is a non-PIC object. */ ++#define NON_PIC_P(abfd) \ ++ (((elf_elfheader (abfd)->e_flags & EF_MIPS_PIC) == 0) \ ++ && ((elf_elfheader (abfd)->e_flags & EF_MIPS_CPIC) == EF_MIPS_CPIC)) ++ + /* The IRIX compatibility level we are striving for. */ + #define IRIX_COMPAT(abfd) \ + (get_elf_backend_data (abfd)->elf_backend_mips_irix_compat (abfd)) +@@ -689,6 +694,9 @@ static bfd *reldyn_sorting_bfd; + #define MIPS_ELF_OPTIONS_SECTION_NAME(abfd) \ + (NEWABI_P (abfd) ? ".MIPS.options" : ".options") + ++/* The name of the section holding non-PIC to PIC call stubs. */ ++#define NON_PIC_TO_PIC_STUB_SECTION_NAME ".MIPS.pic_stubs" ++ + /* True if NAME is the recognized name of any SHT_MIPS_OPTIONS section. + Some IRIX system files do not use MIPS_ELF_OPTIONS_SECTION_NAME. */ + #define MIPS_ELF_OPTIONS_SECTION_NAME_P(NAME) \ +@@ -7583,7 +7591,9 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + + /* We need a stub, not a plt entry for the undefined + function. But we record it as if it needs plt. See +- _bfd_elf_adjust_dynamic_symbol. */ ++ _bfd_elf_adjust_dynamic_symbol. Note that these relocations ++ are always used for PIC calls, even when using the new ++ non-PIC ABI. */ + h->needs_plt = 1; + h->type = STT_FUNC; + } +@@ -7689,6 +7699,8 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + case R_MIPS_32: + case R_MIPS_REL32: + case R_MIPS_64: ++ if (h != NULL) ++ h->non_got_ref = TRUE; + /* In VxWorks executables, references to external symbols + are handled using copy relocs or PLT stubs, so there's + no need to add a .rela.dyn entry for this relocation. */ +@@ -7744,11 +7756,21 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + case R_MIPS_GPREL16: + case R_MIPS_LITERAL: + case R_MIPS_GPREL32: ++ if (h != NULL ++ && (r_type == R_MIPS_GPREL16 || r_type == R_MIPS_GPREL32)) ++ h->non_got_ref = TRUE; ++ + if (SGI_COMPAT (abfd)) + mips_elf_hash_table (info)->compact_rel_size += + sizeof (Elf32_External_crinfo); + break; + ++ case R_MIPS_HI16: ++ case R_MIPS_LO16: ++ if (h != NULL && strcmp (h->root.root.string, "_gp_disp") != 0) ++ h->non_got_ref = TRUE; ++ break; ++ + /* This relocation describes the C++ object vtable hierarchy. + Reconstruct it for later use during GC. */ + case R_MIPS_GNU_VTINHERIT: +@@ -7771,20 +7793,20 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + + /* We must not create a stub for a symbol that has relocations + related to taking the function's address. This doesn't apply to +- VxWorks, where CALL relocs refer to a .got.plt entry instead of +- a normal .got entry. */ ++ VxWorks or the non-PIC ABI, where CALL relocs refer to a ++ .got.plt entry instead of a normal .got entry. */ + if (!htab->is_vxworks && h != NULL) + switch (r_type) + { +- default: +- ((struct mips_elf_link_hash_entry *) h)->no_fn_stub = TRUE; +- break; + case R_MIPS16_CALL16: + case R_MIPS_CALL16: + case R_MIPS_CALL_HI16: + case R_MIPS_CALL_LO16: + case R_MIPS_JALR: + break; ++ default: ++ ((struct mips_elf_link_hash_entry *) h)->no_fn_stub = TRUE; ++ break; + } + + /* See if this reloc would need to refer to a MIPS16 hard-float stub, +@@ -12458,7 +12480,9 @@ _bfd_mips_elf_merge_private_bfd_data (bf + break; + } + } +- if (null_input_bfd) ++ /* Dynamic objects normally have no sections, and do not reach ++ here - but they might if used as DYNOBJ. */ ++ if (null_input_bfd || (ibfd->flags & DYNAMIC) != 0) + return TRUE; + + ok = TRUE; +--- a/bfd/elfxx-mips.h ++++ b/bfd/elfxx-mips.h +@@ -63,6 +63,9 @@ extern bfd_boolean _bfd_mips_elf_finish_ + extern bfd_boolean _bfd_mips_vxworks_finish_dynamic_symbol + (bfd *, struct bfd_link_info *, struct elf_link_hash_entry *, + Elf_Internal_Sym *); ++extern bfd_boolean _bfd_mips_nonpic_finish_dynamic_symbol ++ (bfd *, struct bfd_link_info *, struct elf_link_hash_entry *, ++ Elf_Internal_Sym *); + extern bfd_boolean _bfd_mips_elf_finish_dynamic_sections + (bfd *, struct bfd_link_info *); + extern void _bfd_mips_elf_final_write_processing +@@ -153,6 +156,15 @@ extern const struct bfd_elf_special_sect + + extern bfd_boolean _bfd_mips_elf_common_definition (Elf_Internal_Sym *); + ++extern bfd_vma _bfd_mips_elf_plt_sym_val ++ (bfd_vma, const asection *, const arelent *); ++extern void _bfd_mips_elf_begin_write_processing ++ (bfd *abfd, struct bfd_link_info *link_info); ++extern bfd_boolean bfd_mips_elf_maybe_create_non_pic_to_pic_stubs_section ++ (struct bfd_link_info *); ++extern void _bfd_mips_post_process_headers ++ (bfd *abfd, struct bfd_link_info *link_info); ++ + #define elf_backend_common_definition _bfd_mips_elf_common_definition + #define elf_backend_name_local_section_symbols \ + _bfd_mips_elf_name_local_section_symbols +--- a/gas/config/tc-mips.c ++++ b/gas/config/tc-mips.c +@@ -1874,6 +1874,12 @@ md_begin (void) + as_bad (_("-G may not be used in position-independent code")); + g_switch_value = 0; + } ++ else if (mips_abicalls) ++ { ++ if (g_switch_seen && g_switch_value != 0) ++ as_bad (_("-G may not be used with abicalls")); ++ g_switch_value = 0; ++ } + + if (! bfd_set_arch_mach (stdoutput, bfd_arch_mips, file_mips_arch)) + as_warn (_("Could not set architecture and machine")); +@@ -11254,6 +11260,8 @@ struct option md_longopts[] = + {"mno-pdr", no_argument, NULL, OPTION_NO_PDR}, + #define OPTION_MVXWORKS_PIC (OPTION_ELF_BASE + 12) + {"mvxworks-pic", no_argument, NULL, OPTION_MVXWORKS_PIC}, ++#define OPTION_NON_PIC_ABICALLS (OPTION_ELF_BASE + 13) ++ {"mnon-pic-abicalls", no_argument, NULL, OPTION_NON_PIC_ABICALLS}, + #endif /* OBJ_ELF */ + + {NULL, no_argument, NULL, 0} +@@ -11672,6 +11680,11 @@ md_parse_option (int c, char *arg) + case OPTION_MVXWORKS_PIC: + mips_pic = VXWORKS_PIC; + break; ++ ++ case OPTION_NON_PIC_ABICALLS: ++ mips_pic = NO_PIC; ++ mips_abicalls = TRUE; ++ break; + #endif /* OBJ_ELF */ + + default: diff --git a/toolchain/binutils/patches/2.19.1/300-001_ld_makefile_patch.patch b/toolchain/binutils/patches/2.19.1/300-001_ld_makefile_patch.patch new file mode 100644 index 000000000..74e9f5821 --- /dev/null +++ b/toolchain/binutils/patches/2.19.1/300-001_ld_makefile_patch.patch @@ -0,0 +1,22 @@ +--- a/ld/Makefile.am ++++ b/ld/Makefile.am +@@ -18,7 +18,7 @@ AM_CFLAGS = $(WARN_CFLAGS) + # We put the scripts in the directory $(scriptdir)/ldscripts. + # We can't put the scripts in $(datadir) because the SEARCH_DIR + # directives need to be different for native and cross linkers. +-scriptdir = $(tooldir)/lib ++scriptdir = $(libdir) + + EMUL = @EMUL@ + EMULATION_OFILES = @EMULATION_OFILES@ +--- a/ld/Makefile.in ++++ b/ld/Makefile.in +@@ -291,7 +291,7 @@ AM_CFLAGS = $(WARN_CFLAGS) + # We put the scripts in the directory $(scriptdir)/ldscripts. + # We can't put the scripts in $(datadir) because the SEARCH_DIR + # directives need to be different for native and cross linkers. +-scriptdir = $(tooldir)/lib ++scriptdir = $(libdir) + BASEDIR = $(srcdir)/.. + BFDDIR = $(BASEDIR)/bfd + INCDIR = $(BASEDIR)/include diff --git a/toolchain/binutils/patches/2.19.1/300-012_check_ldrunpath_length.patch b/toolchain/binutils/patches/2.19.1/300-012_check_ldrunpath_length.patch new file mode 100644 index 000000000..bcafe572f --- /dev/null +++ b/toolchain/binutils/patches/2.19.1/300-012_check_ldrunpath_length.patch @@ -0,0 +1,20 @@ +--- a/ld/emultempl/elf32.em ++++ b/ld/emultempl/elf32.em +@@ -1219,6 +1219,8 @@ fragment <arch != b->arch) ++ return NULL; ++ ++ if (a->bits_per_word != b->bits_per_word) ++ return NULL; ++ ++ if (a->mach > b->mach) ++ return a; ++ ++ if (b->mach > a->mach) ++ return b; ++ ++ if (b->mach == bfd_mach_ubicom32ver4 && ++ strcmp("ubicom32uclinux", b->printable_name) == 0) { ++ return b; ++ } ++ ++ return a; ++} ++ ++const bfd_arch_info_type bfd_ubicom32_uclinux_arch = ++{ ++ 32, /* bits per word */ ++ 32, /* bits per address */ ++ 8, /* bits per byte */ ++ bfd_arch_ubicom32, /* architecture */ ++ bfd_mach_ubicom32ver4, /* machine */ ++ "ubicom32", /* architecture name */ ++ "ubicom32uclinux", /* printable name */ ++ 3, /* section align power */ ++ FALSE, /* the default ? */ ++ ubicom32_arch_compatible, /* architecture comparison fn */ ++ bfd_default_scan, /* string to architecture convert fn */ ++ NULL /* next in list */ ++}; ++ ++const bfd_arch_info_type bfd_ubicom32_posix_arch = ++{ ++ 32, /* bits per word */ ++ 32, /* bits per address */ ++ 8, /* bits per byte */ ++ bfd_arch_ubicom32, /* architecture */ ++ bfd_mach_ubicom32ver4, /* machine */ ++ "ubicom32", /* architecture name */ ++ "ubicom32posix", /* printable name */ ++ 3, /* section align power */ ++ FALSE, /* the default ? */ ++ bfd_default_compatible, /* architecture comparison fn */ ++ bfd_default_scan, /* string to architecture convert fn */ ++ &bfd_ubicom32_uclinux_arch, /* next in list */ ++}; ++ ++const bfd_arch_info_type bfd_ubicom32_ver4_arch = ++{ ++ 32, /* bits per word */ ++ 32, /* bits per address */ ++ 8, /* bits per byte */ ++ bfd_arch_ubicom32, /* architecture */ ++ bfd_mach_ubicom32ver4, /* machine */ ++ "ubicom32", /* architecture name */ ++ "ubicom32ver4", /* printable name */ ++ 3, /* section align power */ ++ FALSE, /* the default ? */ ++ ubicom32_arch_compatible, /* architecture comparison fn */ ++ bfd_default_scan, /* string to architecture convert fn */ ++ &bfd_ubicom32_posix_arch /* next in list */ ++}; ++ ++const bfd_arch_info_type bfd_ubicom32_nonext_arch = ++{ ++ 32, /* bits per word */ ++ 32, /* bits per address */ ++ 8, /* bits per byte */ ++ bfd_arch_ubicom32, /* architecture */ ++ bfd_mach_ubicom32dsp, /* machine */ ++ "ubicom32", /* architecture name */ ++ "ubicom32dsp", /* printable name */ ++ 3, /* section align power */ ++ FALSE, /* the default ? */ ++ bfd_default_compatible, /* architecture comparison fn */ ++ bfd_default_scan, /* string to architecture convert fn */ ++ & bfd_ubicom32_ver4_arch /* next in list */ ++}; ++ ++const bfd_arch_info_type bfd_ubicom32_arch = ++{ ++ 32, /* bits per word */ ++ 32, /* bits per address */ ++ 8, /* bits per byte */ ++ bfd_arch_ubicom32, /* architecture */ ++ bfd_mach_ubicom32, /* machine */ ++ "ubicom32", /* architecture name */ ++ "ubicom32", /* printable name */ ++ 3, /* section align power */ ++ TRUE, /* the default ? */ ++ bfd_default_compatible, /* architecture comparison fn */ ++ bfd_default_scan, /* string to architecture convert fn */ ++ & bfd_ubicom32_nonext_arch /* next in list */ ++}; +--- a/bfd/doc/archures.texi ++++ b/bfd/doc/archures.texi +@@ -303,6 +303,11 @@ enum bfd_architecture + bfd_arch_ip2k, /* Ubicom IP2K microcontrollers. */ + #define bfd_mach_ip2022 1 + #define bfd_mach_ip2022ext 2 ++ bfd_arch_ubicom32, ++#define bfd_mach_ubicom32 0 ++#define bfd_mach_ubicom32dsp 1 ++#define bfd_mach_ubicom32ver4 2 ++#define bfd_mach_ubicom32posix 3 + bfd_arch_iq2000, /* Vitesse IQ2000. */ + #define bfd_mach_iq2000 1 + #define bfd_mach_iq10 2 +--- /dev/null ++++ b/bfd/elf32-ubicom32.c +@@ -0,0 +1,5008 @@ ++/* Ubicom32 specific support for 32-bit ELF ++ Copyright 2000 Free Software Foundation, Inc. ++ ++This file is part of BFD, the Binary File Descriptor library. ++ ++This program is free software; you can redistribute it and/or modify ++it under the terms of the GNU General Public License as published by ++the Free Software Foundation; either version 2 of the License, or ++(at your option) any later version. ++ ++This program is distributed in the hope that it will be useful, ++but WITHOUT ANY WARRANTY; without even the implied warranty of ++MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++GNU General Public License for more details. ++ ++You should have received a copy of the GNU General Public License ++along with this program; if not, write to the Free Software ++Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ ++ ++#include ++#include "bfd.h" ++#include "sysdep.h" ++#include "libbfd.h" ++#include "elf-bfd.h" ++#include "elf/ubicom32.h" ++#include "elf/dwarf2.h" ++ ++/* Call offset = signed 24bit word offset ++ => 26bit signed byte offset. */ ++#define UBICOM32_CALL_MAX_POS_OFFS ((1 << 25) - 1) ++#define UBICOM32_CALL_MAX_NEG_OFFS (-(1 << 25)) ++ ++#define UNDEFINED_SYMBOL (~(bfd_vma)0) ++#define BASEADDR(SEC) ((SEC)->output_section->vma + (SEC)->output_offset) ++ ++#if 0 ++#define DPRINTF(fmt, ...) { printf("DBG %4d:" fmt, __LINE__, __VA_ARGS__); fflush(stdout); } ++#else ++#define DPRINTF(fmt, ...) {} ++#endif ++struct debugLineInfo { ++ unsigned int startOffset; ++ unsigned int length; ++ char *sectionName; ++ unsigned int startRelocIndex; ++ unsigned int endRelocIndex; ++ unsigned int discard; ++}; ++ ++struct debugLineInfoHeader { ++ unsigned int numEntries; ++ struct debugLineInfo linfo[1]; ++}; ++ ++/* we want RELA relocations, not REL */ ++#undef USE_REL ++#define USE_RELA ++ ++static bfd_reloc_status_type ubicom32_elf_generic_reloc ++ PARAMS ((bfd *abfd, arelent *reloc_entry, asymbol *symbol, PTR data, ++ asection *input_section, bfd *output_bfd, char **error_message)); ++static bfd_reloc_status_type ubicom32_elf_relocate_hi16 ++ PARAMS ((bfd *, Elf_Internal_Rela *, bfd_byte *, bfd_vma)); ++static bfd_reloc_status_type ubicom32_elf_relocate_lo16 ++ PARAMS ((bfd *, Elf_Internal_Rela *, bfd_byte *, bfd_vma)); ++static bfd_reloc_status_type ubicom32_elf_relocate_hi24 ++ PARAMS ((bfd *, Elf_Internal_Rela *, bfd_byte *, bfd_vma)); ++static bfd_reloc_status_type ubicom32_elf_relocate_lo7_s ++ PARAMS ((bfd *, Elf_Internal_Rela *, bfd_byte *, bfd_vma)); ++static bfd_reloc_status_type ubicom32_elf_relocate_lo7_2_s ++ PARAMS ((bfd *, Elf_Internal_Rela *, bfd_byte *, bfd_vma)); ++static bfd_reloc_status_type ubicom32_elf_relocate_lo7_4_s ++ PARAMS ((bfd *, Elf_Internal_Rela *, bfd_byte *, bfd_vma)); ++static bfd_reloc_status_type ubicom32_elf_relocate_lo7_d ++ PARAMS ((bfd *, Elf_Internal_Rela *, bfd_byte *, bfd_vma)); ++static bfd_reloc_status_type ubicom32_elf_relocate_lo7_2_d ++ PARAMS ((bfd *, Elf_Internal_Rela *, bfd_byte *, bfd_vma)); ++static bfd_reloc_status_type ubicom32_elf_relocate_lo7_4_d ++ PARAMS ((bfd *, Elf_Internal_Rela *, bfd_byte *, bfd_vma)); ++static bfd_reloc_status_type ubicom32_elf_relocate_pcrel24 ++ PARAMS ((bfd *, asection *, Elf_Internal_Rela *, bfd_byte *, bfd_vma)); ++static bfd_reloc_status_type ubicom32_elf_relocate_lo_calli ++ PARAMS ((bfd *, Elf_Internal_Rela *, bfd_byte *, bfd_vma, int)); ++ ++static void ubicom32_info_to_howto_rela ++ PARAMS ((bfd *, arelent *, Elf_Internal_Rela *)); ++ ++static reloc_howto_type * ubicom32_reloc_type_lookup ++ PARAMS ((bfd *abfd, bfd_reloc_code_real_type code)); ++ ++static bfd_vma symbol_value ++ PARAMS ((bfd *, Elf_Internal_Rela *)); ++static Elf_Internal_Shdr *file_symtab_hdr ++ PARAMS ((bfd *)); ++static Elf_Internal_Sym *file_isymbuf ++ PARAMS ((bfd *)); ++static Elf_Internal_Rela *section_relocs ++ PARAMS ((bfd *, asection *)); ++static bfd_byte *section_contents ++ PARAMS ((bfd *, asection *)); ++static bfd_boolean ubicom32_elf_relax_section ++ PARAMS ((bfd *, asection *, struct bfd_link_info *, bfd_boolean *)); ++static bfd_boolean ubicom32_elf_relax_calli ++ PARAMS ((bfd *, asection *, bfd_boolean *)); ++static bfd_boolean ubicom32_elf_relax_delete_bytes ++ PARAMS ((bfd *, asection *, bfd_vma, int)); ++static void adjust_sec_relocations ++ PARAMS ((bfd *, asection *, asection *, bfd_vma, int)); ++static void adjust_all_relocations ++ PARAMS ((bfd *, asection *, bfd_vma, int)); ++ ++static bfd_reloc_status_type ubicom32_final_link_relocate ++ PARAMS ((reloc_howto_type *, bfd *, asection *, bfd_byte *, ++ Elf_Internal_Rela *, bfd_vma)); ++static bfd_boolean ubicom32_elf_relocate_section ++ PARAMS ((bfd *, struct bfd_link_info *, bfd *, asection *, ++ bfd_byte *, Elf_Internal_Rela *, Elf_Internal_Sym *, ++ asection **)); ++ ++static bfd_boolean ubicom32_elf_gc_sweep_hook ++ PARAMS ((bfd *, struct bfd_link_info *, asection *, const ++ Elf_Internal_Rela *)); ++static asection * ubicom32_elf_gc_mark_hook ++ PARAMS ((asection *, struct bfd_link_info *, Elf_Internal_Rela *, struct ++ elf_link_hash_entry *, Elf_Internal_Sym *)); ++static bfd_boolean ubicom32_elf_check_relocs ++ PARAMS ((bfd *, struct bfd_link_info *, asection *, ++ const Elf_Internal_Rela *)); ++extern bfd_boolean ubicom32_elf_discard_info ++ PARAMS ((bfd *, struct elf_reloc_cookie *, struct bfd_link_info *)); ++ ++static bfd_boolean ubicom32_elf_object_p PARAMS ((bfd *)); ++static bfd_boolean ubicom32_elf_set_private_flags PARAMS ((bfd *, flagword)); ++static bfd_boolean ubicom32_elf_copy_private_bfd_data PARAMS ((bfd *, bfd *)); ++static bfd_boolean ubicom32_elf_merge_private_bfd_data PARAMS ((bfd *, bfd *)); ++static bfd_boolean ubicom32_elf_print_private_bfd_data PARAMS ((bfd *, PTR)); ++ ++//static unsigned long read_unsigned_leb128 (bfd *, char *, unsigned int *); ++ ++//static long read_signed_leb128 (bfd *, char *, unsigned int *); ++ ++/* read dwarf information from a buffer */ ++ ++#define UBICOM32_HOWTO(t,rs,s,bs,pr,bp,name,sm,dm) \ ++ HOWTO(t, /* type */ \ ++ rs, /* rightshift */ \ ++ s, /* size (0 = byte, 1 = short, 2 = long) */ \ ++ bs, /* bitsize */ \ ++ pr, /* pc_relative */ \ ++ bp, /* bitpos */ \ ++ complain_overflow_bitfield, /* complain_on_overflow */ \ ++ ubicom32_elf_generic_reloc, /* special_function */ \ ++ name, /* name */ \ ++ FALSE, /* partial_inplace */ \ ++ sm, /* src_mask */ \ ++ dm, /* dst_mask */ \ ++ pr) /* pcrel_offset */ ++ ++/* Special Note: For addresses, we must always zero out the top byte of a ++ address because the harvard address space is represented as ++ a single virtual address space that uses the top byte to denote ++ whether the address belongs in the data or program space. This is ++ done to accomodate GDB which cannot handle program and data addresses ++ overlapping. */ ++ ++static reloc_howto_type ubicom32_elf_howto_table [] = ++{ ++ /* This reloc does nothing. */ ++ UBICOM32_HOWTO (R_UBICOM32_NONE, 0, 2, 32, FALSE, 0, "R_UBICOM32_NONE", 0, 0), ++ ++ /* A 16 bit absolute relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_16, 0, 1, 16, FALSE, 0, "R_UBICOM32_16", 0, 0xffff), ++ ++ /* A 32 bit absolute relocation. Must zero top byte of virtual address. */ ++ UBICOM32_HOWTO (R_UBICOM32_32, 0, 2, 32, FALSE, 0, "R_UBICOM32_32", 0, 0xffffffff), ++ ++ /* A 16 bit indirect relocation, low 16 bits of 32 */ ++ UBICOM32_HOWTO (R_UBICOM32_LO16, 0, 2, 16, FALSE, 0, "R_UBICOM32_LO16", 0x0, 0x0000ffff), ++ ++ /* A 16 bit indirect relocation, high 16 bits of 32 - must zero top byte of virtual address */ ++ UBICOM32_HOWTO (R_UBICOM32_HI16, 0, 2, 16, FALSE, 0, "R_UBICOM32_HI16", 0x0, 0x0000ffff), ++ ++ /* A 21 bit relative relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_21_PCREL, 2, 2, 21, TRUE, 0, "R_UBICOM32_21_PCREL", 0x0, 0x001fffff), ++ ++ /* A 24 bit relative relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_24_PCREL, 2, 2, 24, TRUE, 0, "R_UBICOM32_24_PCREL", 0x0, 0x071fffff), ++ ++ /* A 24 bit indirect relocation, bits 31:7 - assume top byte zero. */ ++ UBICOM32_HOWTO (R_UBICOM32_HI24, 7, 2, 24, FALSE, 0, "R_UBICOM32_HI24", 0x0, 0x0001ffff), ++ ++ /* A source operand low 7 bit indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_LO7_S, 0, 2, 7, FALSE, 0, "R_UBICOM32_LO7_S", 0x0, 0x0000031f), ++ ++ /* A source operand low 7 bit .2 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_LO7_2_S, 1, 2, 7, FALSE, 0, "R_UBICOM32_LO7_2_S", 0x0, 0x0000031f), ++ ++ /* A source operand low 7 bit .4 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_LO7_4_S, 2, 2, 7, FALSE, 0, "R_UBICOM32_LO7_4_S", 0x0, 0x0000031f), ++ ++ /* A destination operand low 7 bit indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_LO7_D, 0, 2, 7, FALSE, 0, "R_UBICOM32_LO7_D", 0x0, 0x031f0000), ++ ++ /* A destination operand low 7 bit .2 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_LO7_2_D, 1, 2, 7, FALSE, 0, "R_UBICOM32_LO7_2_D", 0x0, 0x031f0000), ++ ++ /* A destination operand low 7 bit .2 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_LO7_4_D, 2, 2, 7, FALSE, 0, "R_UBICOM32_LO7_4_D", 0x0, 0x031f0000), ++ ++ /* A 32 bit absolute relocation in debug section. Must retain top byte of virtual address. */ ++ UBICOM32_HOWTO (R_UBICOM32_32_HARVARD, 0, 2, 32, FALSE, 0, "R_UBICOM32_32_HARVARD", 0, 0xffffffff), ++ ++ /* A calli offset operand low 7 bit .4 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_LO7_CALLI, 2, 2, 7, FALSE, 0, "R_UBICOM32_LO7_CALLI", 0x0, 0x071f071f), ++ ++ /* A calli offset operand low 18 bit .4 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_LO16_CALLI, 2, 2, 16, FALSE, 0, "R_UBICOM32_LO16_CALLI", 0x0, 0x071f071f), ++ ++ /* A 24 bit indirect relocation, bits 31:7 - assume top byte zero. */ ++ UBICOM32_HOWTO (R_UBICOM32_GOT_HI24, 7, 2, 24, FALSE, 0, "R_UBICOM32_GOT_HI24", 0x0, 0x0001ffff), ++ ++ /* A source operand low 7 bit indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_GOT_LO7_S, 0, 2, 7, FALSE, 0, "R_UBICOM32_GOT_LO7_S", 0x0, 0x0000031f), ++ ++ /* A source operand low 7 bit .2 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_GOT_LO7_2_S, 1, 2, 7, FALSE, 0, "R_UBICOM32_GOT_LO7_2_S", 0x0, 0x0000031f), ++ ++ /* A source operand low 7 bit .4 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_GOT_LO7_4_S, 2, 2, 7, FALSE, 0, "R_UBICOM32_GOT_LO7_4_S", 0x0, 0x0000031f), ++ ++ /* A destination operand low 7 bit indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_GOT_LO7_D, 0, 2, 7, FALSE, 0, "R_UBICOM32_GOT_LO7_D", 0x0, 0x031f0000), ++ ++ /* A destination operand low 7 bit .2 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_GOT_LO7_2_D, 1, 2, 7, FALSE, 0, "R_UBICOM32_GOT_LO7_2_D", 0x0, 0x031f0000), ++ ++ /* A destination operand low 7 bit .2 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_GOT_LO7_4_D, 2, 2, 7, FALSE, 0, "R_UBICOM32_GOT_LO7_4_D", 0x0, 0x031f0000), ++ ++ /* A 24 bit indirect relocation, bits 31:7 - assume top byte zero. */ ++ UBICOM32_HOWTO (R_UBICOM32_FUNCDESC_GOT_HI24, 7, 2, 24, FALSE, 0, "R_UBICOM32_FUNCDESC_GOT_HI24", 0x0, 0x0001ffff), ++ ++ /* A source operand low 7 bit indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_FUNCDESC_GOT_LO7_S, 0, 2, 7, FALSE, 0, "R_UBICOM32_FUNCDESC_GOT_LO7_S", 0x0, 0x0000031f), ++ ++ /* A source operand low 7 bit .2 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_FUNCDESC_GOT_LO7_2_S, 1, 2, 7, FALSE, 0, "R_UBICOM32_FUNCDESC_GOT_LO7_2_S", 0x0, 0x0000031f), ++ ++ /* A source operand low 7 bit .4 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_FUNCDESC_GOT_LO7_4_S, 2, 2, 7, FALSE, 0, "R_UBICOM32_FUNCDESC_GOT_LO7_4_S", 0x0, 0x0000031f), ++ ++ /* A destination operand low 7 bit indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_FUNCDESC_GOT_LO7_D, 0, 2, 7, FALSE, 0, "R_UBICOM32_FUNCDESC_GOT_LO7_D", 0x0, 0x031f0000), ++ ++ /* A destination operand low 7 bit .2 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_FUNCDESC_GOT_LO7_2_D, 1, 2, 7, FALSE, 0, "R_UBICOM32_FUNCDESC_GOT_LO7_2_D", 0x0, 0x031f0000), ++ ++ /* A destination operand low 7 bit .2 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_FUNCDESC_GOT_LO7_4_D, 2, 2, 7, FALSE, 0, "R_UBICOM32_FUNCDESC_GOT_LO7_4_D", 0x0, 0x031f0000), ++ ++ /* A calli offset operand low 7 bit .4 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_GOT_LO7_CALLI, 2, 2, 7, FALSE, 0, "R_UBICOM32_GOT_LO7_CALLI", 0x0, 0x071f071f), ++ ++ /* A calli offset operand low 7 bit .4 insn indirect relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_FUNCDESC_GOT_LO7_CALLI, 2, 2, 7, FALSE, 0, "R_UBICOM32_FUNCDESC_GOT_LO7_CALLI", 0x0, 0x071f071f), ++ ++ /* A 32 bit absolute relocation. Must zero top byte of virtual address. */ ++ UBICOM32_HOWTO (R_UBICOM32_FUNCDESC_VALUE, 0, 2, 32, FALSE, 0, "R_UBICOM32_FUNCDESC_VALUE", 0, 0xffffffff), ++ ++ /* A 32 bit absolute relocation. Must zero top byte of virtual address. */ ++ UBICOM32_HOWTO (R_UBICOM32_FUNCDESC, 0, 2, 32, FALSE, 0, "R_UBICOM32_FUNCDESC", 0, 0xffffffff), ++ ++ /* A 16 bit absolute relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_GOTOFFSET_LO, 0, 1, 16, FALSE, 0, "R_UBICOM32_GOTOFFSET_LO", 0, 0xffff), ++ ++ /* A 16 bit absolute relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_GOTOFFSET_HI, 0, 1, 16, FALSE, 0, "R_UBICOM32_GOTOFFSET_HI", 0, 0xffff), ++ ++ /* A 16 bit absolute relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_FUNCDESC_GOTOFFSET_LO, 0, 1, 16, FALSE, 0, "R_UBICOM32_FUNCDESC_GOTOFFSET_LO", 0, 0xffff), ++ ++ /* A 16 bit absolute relocation. */ ++ UBICOM32_HOWTO (R_UBICOM32_FUNCDESC_GOTOFFSET_HI, 0, 1, 16, FALSE, 0, "R_UBICOM32_FUNCDESC_GOTOFFSET_HI", 0, 0xffff), ++}; ++ ++/* GNU extension to record C++ vtable hierarchy */ ++static reloc_howto_type ubicom32_elf_vtinherit_howto = ++ HOWTO (R_UBICOM32_GNU_VTINHERIT, /* type */ ++ 0, /* rightshift */ ++ 2, /* size (0 = byte, 1 = short, 2 = long) */ ++ 0, /* bitsize */ ++ FALSE, /* pc_relative */ ++ 0, /* bitpos */ ++ complain_overflow_dont, /* complain_on_overflow */ ++ NULL, /* special_function */ ++ "R_UBICOM32_GNU_VTINHERIT", /* name */ ++ FALSE, /* partial_inplace */ ++ 0, /* src_mask */ ++ 0, /* dst_mask */ ++ FALSE); /* pcrel_offset */ ++ ++ /* GNU extension to record C++ vtable member usage */ ++static reloc_howto_type ubicom32_elf_vtentry_howto = ++ HOWTO (R_UBICOM32_GNU_VTENTRY, /* type */ ++ 0, /* rightshift */ ++ 2, /* size (0 = byte, 1 = short, 2 = long) */ ++ 0, /* bitsize */ ++ FALSE, /* pc_relative */ ++ 0, /* bitpos */ ++ complain_overflow_dont, /* complain_on_overflow */ ++ _bfd_elf_rel_vtable_reloc_fn, /* special_function */ ++ "R_UBICOM32_GNU_VTENTRY", /* name */ ++ FALSE, /* partial_inplace */ ++ 0, /* src_mask */ ++ 0, /* dst_mask */ ++ FALSE); /* pcrel_offset */ ++ ++extern const bfd_target bfd_elf32_ubicom32fdpic_vec; ++#define IS_FDPIC(bfd) ((bfd)->xvec == &bfd_elf32_ubicom32fdpic_vec) ++ ++/* Relocation helpers */ ++bfd_reloc_status_type ++ubicom32_elf_generic_reloc (abfd, ++ reloc_entry, ++ symbol, ++ data, ++ input_section, ++ output_bfd, ++ error_message) ++ bfd *abfd ATTRIBUTE_UNUSED; ++ arelent *reloc_entry; ++ asymbol *symbol; ++ PTR data ATTRIBUTE_UNUSED; ++ asection *input_section; ++ bfd *output_bfd; ++ char **error_message ATTRIBUTE_UNUSED; ++{ ++ if (output_bfd != (bfd *) NULL ++ && (symbol->flags & BSF_SECTION_SYM) == 0 ++ && (! reloc_entry->howto->partial_inplace ++ || reloc_entry->addend == 0)) ++ { ++ reloc_entry->address += input_section->output_offset; ++ symbol = *reloc_entry->sym_ptr_ptr; ++ ++ if((symbol->flags & BSF_OBJECT) == 0) ++ { ++ reloc_entry->addend -= symbol->value; ++ } ++ return bfd_reloc_ok; ++ } ++ ++ return bfd_reloc_continue; ++} ++ ++bfd_reloc_status_type ++ubicom32_elf_relocate_hi16 (input_bfd, relhi, contents, value) ++ bfd *input_bfd; ++ Elf_Internal_Rela *relhi; ++ bfd_byte *contents; ++ bfd_vma value; ++{ ++ bfd_vma insn; ++ ++ insn = bfd_get_32 (input_bfd, contents + relhi->r_offset); ++ ++ value += relhi->r_addend; ++ value >>= 16; ++ value &= 0xffff; /* take off top byte of virtual address */ ++ insn = ((insn & ~0xFFFF) | value); ++ ++ bfd_put_32 (input_bfd, insn, contents + relhi->r_offset); ++ return bfd_reloc_ok; ++} ++ ++bfd_reloc_status_type ++ubicom32_elf_relocate_lo16 (input_bfd, relhi, contents, value) ++ bfd *input_bfd; ++ Elf_Internal_Rela *relhi; ++ bfd_byte *contents; ++ bfd_vma value; ++{ ++ bfd_vma insn; ++ ++ insn = bfd_get_32 (input_bfd, contents + relhi->r_offset); ++ ++ value += relhi->r_addend; ++ value &= 0xFFFF; ++ insn = ((insn & ~0xFFFF) | value); ++ ++ bfd_put_32 (input_bfd, insn, contents + relhi->r_offset); ++ return bfd_reloc_ok; ++} ++ ++bfd_reloc_status_type ++ubicom32_elf_relocate_hi24 (input_bfd, relhi, contents, value) ++ bfd *input_bfd; ++ Elf_Internal_Rela *relhi; ++ bfd_byte *contents; ++ bfd_vma value; ++{ ++ bfd_vma insn; ++ ++ insn = bfd_get_32 (input_bfd, contents + relhi->r_offset); ++ ++ value += relhi->r_addend; ++ if (value & 0x80000000) { ++ fprintf (stderr,"@@@: You are trying load the address of something at %08lx\n This is >= 0x80000000 and the moveai instruction does not support it!\n",value); ++ } ++ value &= 0x7fffffff; /* zero off top bit of virtual address */ ++ value >>= 7; ++ insn = (insn & ~0x071FFFFF); ++ ++ insn |= (value & 0x1FFFFF); ++ insn |= (value & 0xe00000) << 3; ++ ++ bfd_put_32 (input_bfd, insn, contents + relhi->r_offset); ++ return bfd_reloc_ok; ++} ++ ++bfd_reloc_status_type ++ubicom32_elf_relocate_lo7_s (input_bfd, relhi, contents, value) ++ bfd *input_bfd; ++ Elf_Internal_Rela *relhi; ++ bfd_byte *contents; ++ bfd_vma value; ++{ ++ bfd_vma insn; ++ bfd_vma top; ++ bfd_vma bottom; ++ ++ insn = bfd_get_32 (input_bfd, contents + relhi->r_offset); ++ ++ value += relhi->r_addend; ++ value &= 0x7f; ++ ++ /* must split up value into top 2 bits and bottom 5 bits */ ++ top = value >> 5; ++ bottom = value & 0x1f; ++ insn = ((insn & ~0x31f) | (top << 8) | bottom); ++ ++ bfd_put_32 (input_bfd, insn, contents + relhi->r_offset); ++ return bfd_reloc_ok; ++} ++ ++bfd_reloc_status_type ++ubicom32_elf_relocate_lo7_2_s (input_bfd, relhi, contents, value) ++ bfd *input_bfd; ++ Elf_Internal_Rela *relhi; ++ bfd_byte *contents; ++ bfd_vma value; ++{ ++ bfd_vma insn; ++ bfd_vma top; ++ bfd_vma bottom; ++ ++ insn = bfd_get_32 (input_bfd, contents + relhi->r_offset); ++ ++ value += relhi->r_addend; ++ value &= 0x7f; ++ value >>= 1; /* must shift by 1 because this is .2 insn */ ++ ++ /* must split up value into top 2 bits and bottom 5 bits */ ++ top = value >> 5; ++ bottom = value & 0x1f; ++ insn = ((insn & ~0x31f) | (top << 8) | bottom); ++ ++ bfd_put_32 (input_bfd, insn, contents + relhi->r_offset); ++ return bfd_reloc_ok; ++} ++ ++bfd_reloc_status_type ++ubicom32_elf_relocate_lo7_4_s (input_bfd, relhi, contents, value) ++ bfd *input_bfd; ++ Elf_Internal_Rela *relhi; ++ bfd_byte *contents; ++ bfd_vma value; ++{ ++ bfd_vma insn; ++ bfd_vma top; ++ bfd_vma bottom; ++ ++ insn = bfd_get_32 (input_bfd, contents + relhi->r_offset); ++ ++ value += relhi->r_addend; ++ value &= 0x7f; ++ value >>= 2; /* must shift by 1 because this is .4 insn */ ++ ++ /* must split up value into top 2 bits and bottom 5 bits */ ++ top = value >> 5; ++ bottom = value & 0x1f; ++ insn = ((insn & ~0x31f) | (top << 8) | bottom); ++ ++ bfd_put_32 (input_bfd, insn, contents + relhi->r_offset); ++ return bfd_reloc_ok; ++} ++ ++bfd_reloc_status_type ++ubicom32_elf_relocate_lo7_d (input_bfd, relhi, contents, value) ++ bfd *input_bfd; ++ Elf_Internal_Rela *relhi; ++ bfd_byte *contents; ++ bfd_vma value; ++{ ++ bfd_vma insn; ++ bfd_vma top; ++ bfd_vma bottom; ++ ++ insn = bfd_get_32 (input_bfd, contents + relhi->r_offset); ++ ++ value += relhi->r_addend; ++ value &= 0x7f; ++ ++ /* must split up value into top 2 bits and bottom 5 bits */ ++ top = value >> 5; ++ bottom = value & 0x1f; ++ insn = ((insn & ~0x031f0000) | (top << 24) | (bottom << 16)); ++ ++ bfd_put_32 (input_bfd, insn, contents + relhi->r_offset); ++ return bfd_reloc_ok; ++} ++ ++bfd_reloc_status_type ++ubicom32_elf_relocate_lo7_2_d (input_bfd, relhi, contents, value) ++ bfd *input_bfd; ++ Elf_Internal_Rela *relhi; ++ bfd_byte *contents; ++ bfd_vma value; ++{ ++ bfd_vma insn; ++ bfd_vma top; ++ bfd_vma bottom; ++ ++ insn = bfd_get_32 (input_bfd, contents + relhi->r_offset); ++ ++ value += relhi->r_addend; ++ value &= 0x7f; ++ value >>= 1; /* must shift by 1 because this is for a .2 insn */ ++ ++ /* must split up value into top 2 bits and bottom 5 bits */ ++ top = value >> 5; ++ bottom = value & 0x1f; ++ insn = ((insn & ~0x031f0000) | (top << 24) | (bottom << 16)); ++ ++ bfd_put_32 (input_bfd, insn, contents + relhi->r_offset); ++ return bfd_reloc_ok; ++} ++ ++bfd_reloc_status_type ++ubicom32_elf_relocate_lo7_4_d (input_bfd, relhi, contents, value) ++ bfd *input_bfd; ++ Elf_Internal_Rela *relhi; ++ bfd_byte *contents; ++ bfd_vma value; ++{ ++ bfd_vma insn; ++ bfd_vma top; ++ bfd_vma bottom; ++ ++ insn = bfd_get_32 (input_bfd, contents + relhi->r_offset); ++ ++ value += relhi->r_addend; ++ value &= 0x7f; ++ value >>= 2; /* must shift by 2 because this is for a .4 insn */ ++ ++ /* must split up value into top 2 bits and bottom 5 bits */ ++ top = value >> 5; ++ bottom = value & 0x1f; ++ insn = ((insn & ~0x031f0000) | (top << 24) | (bottom << 16)); ++ ++ bfd_put_32 (input_bfd, insn, contents + relhi->r_offset); ++ return bfd_reloc_ok; ++} ++ ++/* Perform the relocation for call instructions */ ++static bfd_reloc_status_type ++ubicom32_elf_relocate_pcrel24 (input_bfd, input_section, rello, contents, value) ++ bfd *input_bfd; ++ asection *input_section; ++ Elf_Internal_Rela *rello; ++ bfd_byte *contents; ++ bfd_vma value; ++{ ++ bfd_vma insn; ++ bfd_vma value_top; ++ bfd_vma value_bottom; ++ ++ /* Grab the instruction */ ++ insn = bfd_get_32 (input_bfd, contents + rello->r_offset); ++ ++ value -= input_section->output_section->vma + input_section->output_offset; ++ value -= rello->r_offset; ++ value += rello->r_addend; ++ ++ /* insn uses bottom 24 bits of relocation value times 4 */ ++ if (value & 0x03) ++ return bfd_reloc_dangerous; ++ ++ value = (value & 0x3ffffff) >> 2; ++ ++ if ((long) value > 0xffffff) ++ return bfd_reloc_overflow; ++ ++ value_top = (value >> 21) << 24; ++ value_bottom = value & 0x1fffff; ++ ++ insn = insn & 0xf8e00000; ++ insn = insn | value_top | value_bottom; ++ ++ bfd_put_32 (input_bfd, insn, contents + rello->r_offset); ++ ++ return bfd_reloc_ok; ++} ++ ++static bfd_reloc_status_type ++ubicom32_elf_relocate_gotoffset_lo (input_bfd, input_section, rello, contents, value) ++ bfd *input_bfd; ++ asection *input_section; ++ Elf_Internal_Rela *rello; ++ bfd_byte *contents; ++ bfd_vma value; ++{ ++ bfd_vma insn; ++ ++ /* Grab the instruction */ ++ insn = bfd_get_32 (input_bfd, contents + rello->r_offset); ++ ++ /* Truncte to 16 and store. */ ++ value &= 0xffff; ++ ++ insn = (insn & 0xffff0000) | value; ++ ++ /* output it. */ ++ bfd_put_32 (input_bfd, insn, contents + rello->r_offset); ++} ++ ++static bfd_reloc_status_type ++ubicom32_elf_relocate_funcdesc_gotoffset_lo (input_bfd, input_section, rello, contents, value) ++ bfd *input_bfd; ++ asection *input_section; ++ Elf_Internal_Rela *rello; ++ bfd_byte *contents; ++ bfd_vma value; ++{ ++ bfd_vma insn; ++ ++ /* Grab the instruction */ ++ insn = bfd_get_32 (input_bfd, contents + rello->r_offset); ++ ++ /* Truncte to 16 and store. */ ++ value &= 0xffff; ++ ++ insn = (insn & 0xffff0000) | value; ++ ++ /* output it. */ ++ bfd_put_32 (input_bfd, insn, contents + rello->r_offset); ++} ++ ++static bfd_reloc_status_type ++ubicom32_elf_relocate_funcdesc (input_bfd, input_section, rello, contents, value) ++ bfd *input_bfd; ++ asection *input_section; ++ Elf_Internal_Rela *rello; ++ bfd_byte *contents; ++ bfd_vma value; ++{ ++ bfd_vma insn; ++ ++ /* Grab the instruction */ ++ insn = bfd_get_32 (input_bfd, contents + rello->r_offset); ++ ++ /* Truncte to 16 and store. */ ++ value &= 0xffff; ++ ++ insn = (insn & 0xffff0000) | value; ++ ++ /* output it. */ ++ bfd_put_32 (input_bfd, insn, contents + rello->r_offset); ++} ++ ++bfd_reloc_status_type ++ubicom32_elf_relocate_lo_calli (input_bfd, relhi, contents, value, bits) ++ bfd *input_bfd; ++ Elf_Internal_Rela *relhi; ++ bfd_byte *contents; ++ bfd_vma value; ++ int bits; ++{ ++ bfd_vma insn; ++ ++ insn = bfd_get_32 (input_bfd, contents + relhi->r_offset); ++ ++ value += relhi->r_addend; ++ value &= (1 << bits) - 1; ++ value >>= 2; /* must shift by 2 because this is .4 insn */ ++ ++ /* must split up value into top 2 bits and bottom 5 bits */ ++ insn &= ~0x071f071f; ++ insn |= (value & 0x1f) << 0; ++ value >>= 5; ++ insn |= (value & 0x07) << 8; ++ value >>= 3; ++ insn |= (value & 0x1f) << 16; ++ value >>= 5; ++ insn |= (value & 0x07) << 24; ++ ++ bfd_put_32 (input_bfd, insn, contents + relhi->r_offset); ++ return bfd_reloc_ok; ++} ++ ++ ++/* Set the howto pointer for a UBICOM32 ELF reloc. */ ++ ++static void ++ubicom32_info_to_howto_rela (abfd, cache_ptr, dst) ++ bfd * abfd ATTRIBUTE_UNUSED; ++ arelent * cache_ptr; ++ Elf_Internal_Rela * dst; ++{ ++ unsigned int r_type; ++ ++ r_type = ELF32_R_TYPE (dst->r_info); ++ switch (r_type) ++ { ++ case R_UBICOM32_GNU_VTINHERIT: ++ cache_ptr->howto = &ubicom32_elf_vtinherit_howto; ++ break; ++ ++ case R_UBICOM32_GNU_VTENTRY: ++ cache_ptr->howto = &ubicom32_elf_vtentry_howto; ++ break; ++ ++ default: ++ cache_ptr->howto = &ubicom32_elf_howto_table[r_type]; ++ break; ++ } ++} ++ ++ ++static reloc_howto_type * ++ubicom32_reloc_type_lookup (abfd, code) ++ bfd * abfd ATTRIBUTE_UNUSED; ++ bfd_reloc_code_real_type code; ++{ ++ switch (code) ++ { ++ case BFD_RELOC_NONE: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_NONE]; ++ ++ case BFD_RELOC_16: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_16]; ++ ++ case BFD_RELOC_32: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_32]; ++ ++ case BFD_RELOC_LO16: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_LO16]; ++ ++ case BFD_RELOC_HI16: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_HI16]; ++ ++ case BFD_RELOC_UBICOM32_HI24: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_HI24]; ++ ++ case BFD_RELOC_UBICOM32_LO7_S: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_LO7_S]; ++ ++ case BFD_RELOC_UBICOM32_LO7_2_S: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_LO7_2_S]; ++ ++ case BFD_RELOC_UBICOM32_LO7_4_S: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_LO7_4_S]; ++ ++ case BFD_RELOC_UBICOM32_LO7_D: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_LO7_D]; ++ ++ case BFD_RELOC_UBICOM32_LO7_2_D: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_LO7_2_D]; ++ ++ case BFD_RELOC_UBICOM32_LO7_4_D: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_LO7_4_D]; ++ ++ case BFD_RELOC_UBICOM32_21_PCREL: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_21_PCREL]; ++ ++ case BFD_RELOC_UBICOM32_24_PCREL: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_24_PCREL]; ++ ++ case BFD_RELOC_UBICOM32_GOT_HI24: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_GOT_HI24]; ++ ++ case BFD_RELOC_UBICOM32_GOT_LO7_S: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_GOT_LO7_S]; ++ ++ case BFD_RELOC_UBICOM32_GOT_LO7_2_S: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_GOT_LO7_2_S]; ++ ++ case BFD_RELOC_UBICOM32_GOT_LO7_4_S: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_GOT_LO7_4_S]; ++ ++ case BFD_RELOC_UBICOM32_GOT_LO7_D: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_GOT_LO7_D]; ++ ++ case BFD_RELOC_UBICOM32_GOT_LO7_2_D: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_GOT_LO7_2_D]; ++ ++ case BFD_RELOC_UBICOM32_GOT_LO7_4_D: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_GOT_LO7_4_D]; ++ ++ case BFD_RELOC_UBICOM32_FUNCDESC_GOT_HI24: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_FUNCDESC_GOT_HI24]; ++ ++ case BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_S: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_FUNCDESC_GOT_LO7_S]; ++ ++ case BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_2_S: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_FUNCDESC_GOT_LO7_2_S]; ++ ++ case BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_4_S: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_FUNCDESC_GOT_LO7_4_S]; ++ ++ case BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_D: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_FUNCDESC_GOT_LO7_D]; ++ ++ case BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_2_D: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_FUNCDESC_GOT_LO7_2_D]; ++ ++ case BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_4_D: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_FUNCDESC_GOT_LO7_4_D]; ++ ++ case BFD_RELOC_UBICOM32_LO7_CALLI: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_LO7_CALLI]; ++ ++ case BFD_RELOC_UBICOM32_GOT_LO7_CALLI: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_GOT_LO7_CALLI]; ++ ++ case BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_CALLI: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_FUNCDESC_GOT_LO7_CALLI]; ++ ++ case BFD_RELOC_UBICOM32_LO16_CALLI: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_LO16_CALLI]; ++ ++ case BFD_RELOC_UBICOM32_FUNCDESC_VALUE: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_FUNCDESC_VALUE]; ++ ++ case BFD_RELOC_UBICOM32_FUNCDESC: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_FUNCDESC]; ++ ++ case BFD_RELOC_UBICOM32_GOTOFFSET_LO: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_GOTOFFSET_LO]; ++ ++ case BFD_RELOC_UBICOM32_GOTOFFSET_HI: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_GOTOFFSET_HI]; ++ ++ case BFD_RELOC_UBICOM32_FUNCDESC_GOTOFFSET_LO: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_FUNCDESC_GOTOFFSET_LO]; ++ ++ case BFD_RELOC_UBICOM32_FUNCDESC_GOTOFFSET_HI: ++ return &ubicom32_elf_howto_table[(int)R_UBICOM32_FUNCDESC_GOTOFFSET_HI]; ++ ++ case BFD_RELOC_VTABLE_INHERIT: ++ return &ubicom32_elf_vtinherit_howto; ++ ++ case BFD_RELOC_VTABLE_ENTRY: ++ return &ubicom32_elf_vtentry_howto; ++ ++ default: ++ /* Pacify gcc -Wall. */ ++ return NULL; ++ } ++ ++ return NULL; ++} ++ ++static reloc_howto_type * ++ubicom32_reloc_name_lookup (bfd *abfd ATTRIBUTE_UNUSED, ++ const char *r_name) ++{ ++ unsigned int i; ++ ++ for (i = 0; ++ i < (sizeof (ubicom32_elf_howto_table) ++ / sizeof (ubicom32_elf_howto_table[0])); ++ i++) ++ if (ubicom32_elf_howto_table[i].name != NULL ++ && strcasecmp (ubicom32_elf_howto_table[i].name, r_name) == 0) ++ return &ubicom32_elf_howto_table[i]; ++ ++ return NULL; ++} ++ ++/* Return the value of the symbol associated with the relocation IREL. */ ++ ++static bfd_vma ++symbol_value (abfd, irel) ++ bfd *abfd; ++ Elf_Internal_Rela *irel; ++{ ++ Elf_Internal_Shdr *symtab_hdr = file_symtab_hdr (abfd); ++ Elf_Internal_Sym *isymbuf = file_isymbuf (abfd); ++ ++ if (ELF32_R_SYM (irel->r_info) < symtab_hdr->sh_info) ++ { ++ Elf_Internal_Sym *isym; ++ asection *sym_sec; ++ ++ isym = isymbuf + ELF32_R_SYM (irel->r_info); ++ if (isym->st_shndx == SHN_UNDEF) ++ sym_sec = bfd_und_section_ptr; ++ else if (isym->st_shndx == SHN_ABS) ++ sym_sec = bfd_abs_section_ptr; ++ else if (isym->st_shndx == SHN_COMMON) ++ sym_sec = bfd_com_section_ptr; ++ else ++ sym_sec = bfd_section_from_elf_index (abfd, isym->st_shndx); ++ ++ return isym->st_value + BASEADDR (sym_sec); ++ } ++ else ++ { ++ unsigned long indx; ++ struct elf_link_hash_entry *h; ++ ++ indx = ELF32_R_SYM (irel->r_info) - symtab_hdr->sh_info; ++ h = elf_sym_hashes (abfd)[indx]; ++ BFD_ASSERT (h != NULL); ++ ++ if (h->root.type != bfd_link_hash_defined ++ && h->root.type != bfd_link_hash_defweak) ++ return UNDEFINED_SYMBOL; ++ ++ return (h->root.u.def.value + BASEADDR (h->root.u.def.section)); ++ } ++} ++ ++ ++static Elf_Internal_Shdr * ++file_symtab_hdr (abfd) ++ bfd *abfd; ++{ ++ return &elf_tdata (abfd)->symtab_hdr; ++} ++ ++static Elf_Internal_Sym * ++file_isymbuf (abfd) ++ bfd *abfd; ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ ++ symtab_hdr = file_symtab_hdr (abfd); ++ if (symtab_hdr->sh_info == 0) ++ return NULL; ++ ++ if (symtab_hdr->contents == NULL) ++ { ++ Elf_Internal_Sym * contents = bfd_elf_get_elf_syms (abfd, symtab_hdr, symtab_hdr->sh_info, 0, ++ NULL, NULL, NULL); ++ symtab_hdr->contents = (unsigned char *) contents; ++ } ++ ++ return (Elf_Internal_Sym *) symtab_hdr->contents; ++} ++ ++static Elf_Internal_Rela * ++section_relocs (abfd, sec) ++ bfd *abfd; ++ asection *sec; ++{ ++ if ((sec->flags & SEC_RELOC) == 0) ++ return NULL; ++ ++ if (sec->reloc_count == 0) ++ return NULL; ++ ++ if (elf_section_data (sec)->relocs == NULL) ++ elf_section_data (sec)->relocs = ++ _bfd_elf_link_read_relocs (abfd, sec, NULL, NULL, 1); ++ ++ return elf_section_data (sec)->relocs; ++} ++ ++static bfd_byte * ++section_contents (abfd, sec) ++ bfd *abfd; ++ asection *sec; ++{ ++ bfd_byte *contents; ++ ++ sec->rawsize = sec->rawsize ? sec->rawsize: sec->size; ++ ++ if (elf_section_data (sec)->this_hdr.contents) ++ return elf_section_data (sec)->this_hdr.contents; ++ ++ contents = (bfd_byte *) bfd_malloc (sec->rawsize); ++ if (contents == NULL) ++ return NULL; ++ ++ if (! bfd_get_section_contents (abfd, sec, contents, ++ (file_ptr) 0, sec->rawsize)) ++ { ++ free (contents); ++ return NULL; ++ } ++ ++ elf_section_data (sec)->this_hdr.contents = contents; ++ return contents; ++} ++ ++/* This function handles relaxing for the ubicom32. ++ ++ Principle: Start with the first page and remove page instructions that ++ are not require on this first page. By removing page instructions more ++ code will fit into this page - repeat until nothing more can be achieved ++ for this page. Move on to the next page. ++ ++ Processing the pages one at a time from the lowest page allows a removal ++ only policy to be used - pages can be removed but are never reinserted. */ ++ ++static bfd_boolean ++ubicom32_elf_relax_section (abfd, sec, link_info, again) ++ bfd *abfd; ++ asection *sec; ++ struct bfd_link_info *link_info; ++ bfd_boolean *again; ++{ ++ /* Assume nothing changes. */ ++ *again = FALSE; ++ ++ /* We don't have to do anything for a relocatable link, ++ if this section does not have relocs, or if this is ++ not a code section. */ ++ if (link_info->relocatable ++ || (sec->flags & SEC_RELOC) == 0 ++ || sec->reloc_count == 0 ++ || (sec->flags & SEC_CODE) == 0) ++ return TRUE; ++ ++ /* If this is the first time we have been called ++ for this section, initialise the cooked size. ++ if (sec->_cooked_size == 0) ++ sec->_cooked_size = sec->rawsize; ++ */ ++ ++ /* This is where all the relaxation actually get done. */ ++ if (!ubicom32_elf_relax_calli (abfd, sec, again)) ++ return FALSE; ++ ++ if (sec->rawsize != sec->size) ++ sec->size = sec->rawsize; ++ ++ /* Success! */ ++ return TRUE; ++} ++ ++static bfd_boolean ++ubicom32_elf_relax_calli (abfd, sec, again) ++ bfd *abfd; ++ asection *sec; ++ bfd_boolean *again; ++{ ++ bfd_byte *contents = section_contents (abfd, sec); ++ Elf_Internal_Rela *irelbase = section_relocs (abfd, sec); ++ Elf_Internal_Rela *irelend = irelbase + sec->reloc_count; ++ Elf_Internal_Rela *irel_moveai = NULL; ++ Elf_Internal_Rela *irel; ++ unsigned long insn; ++ bfd_vma symval; ++ bfd_vma pc; ++ bfd_vma dest; ++ signed long offs; ++ ++ /* Walk thru the section looking for relaxation opertunities. */ ++ for (irel = irelbase; irel < irelend; irel++) ++ { ++ /* Remember last moveai instruction */ ++ if (ELF32_R_TYPE (irel->r_info) == (int) R_UBICOM32_HI24) ++ { ++ irel_moveai = irel; ++ continue; ++ } ++ ++ /* Ignore non calli instructions */ ++ if (ELF32_R_TYPE (irel->r_info) != (int) R_UBICOM32_LO7_CALLI) ++ continue; ++ ++ /* calli instruction => verify it is a calli instruction ++ using a5 with a 5 bit positive offset */ ++ insn = bfd_get_32 (abfd, (bfd_byte *)(contents + irel->r_offset)); ++ if ((insn & 0xffffffe0) != 0xf0a000a0) ++ continue; ++ symval = symbol_value (abfd, irel); ++ if (symval == UNDEFINED_SYMBOL) ++ continue; ++ dest = symval + irel->r_addend; ++ ++ /* Check proceeding instruction for a valid moveai */ ++ if (!irel_moveai) ++ continue; ++ if (irel_moveai->r_offset != (irel->r_offset - 4)) ++ continue; ++ insn = bfd_get_32 (abfd, (bfd_byte *)(contents + irel_moveai->r_offset)); ++ if ((insn & 0xf8e00000) != 0xe0a00000) ++ continue; ++ symval = symbol_value (abfd, irel_moveai); ++ if (symval == UNDEFINED_SYMBOL) ++ continue; ++ symval += irel_moveai->r_addend; ++ if (symval != dest) ++ continue; ++ ++ /* Check offset required */ ++ pc = BASEADDR (sec) + irel_moveai->r_offset; ++ offs = dest - pc; ++ if (offs > (UBICOM32_CALL_MAX_POS_OFFS + 4)) ++ continue; ++ if (offs < UBICOM32_CALL_MAX_NEG_OFFS) ++ continue; ++ ++ /* Replace calli with a call instruction */ ++ irel->r_info = ELF32_R_INFO (ELF32_R_SYM (irel->r_info), R_UBICOM32_24_PCREL); ++ bfd_put_32 (abfd, 0xd8a00000, contents + irel->r_offset); ++ ++ /* Delete moveai instruction */ ++ irel_moveai->r_info = ELF32_R_INFO (ELF32_R_SYM (irel_moveai->r_info), R_UBICOM32_NONE); ++ if (!ubicom32_elf_relax_delete_bytes (abfd, sec, irel_moveai->r_offset, 4)) ++ return FALSE; ++ ++ /* Modified => will need to iterate relaxation again. */ ++ *again = TRUE; ++ } ++ ++ return TRUE; ++} ++ ++/* Delete some bytes from a section while relaxing. */ ++ ++static bfd_boolean ++ubicom32_elf_relax_delete_bytes (abfd, sec, addr, count) ++ bfd *abfd; ++ asection *sec; ++ bfd_vma addr; ++ int count; ++{ ++ bfd_byte *contents = elf_section_data (sec)->this_hdr.contents; ++ bfd_vma endaddr = sec->rawsize; ++ ++ /* Actually delete the bytes. */ ++ memmove (contents + addr, contents + addr + count, ++ endaddr - addr - count); ++ ++ sec->rawsize -= count; ++ ++ adjust_all_relocations (abfd, sec, addr + count, -count); ++ return TRUE; ++} ++ ++/* Adjust all the relocations entries after adding or inserting instructions. */ ++ ++static void ++adjust_sec_relocations (abfd, sec_to_process, addr_sec, addr, count) ++ bfd *abfd; ++ asection *sec_to_process; ++ asection *addr_sec; ++ bfd_vma addr; ++ int count; ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Sym *isymbuf, *isym; ++ Elf_Internal_Rela *irel, *irelend, *irelbase; ++ unsigned int addr_shndx; ++ ++ irelbase = section_relocs (abfd, sec_to_process); ++ if (irelbase == NULL) ++ return; ++ irelend = irelbase + sec_to_process->reloc_count; ++ ++ symtab_hdr = file_symtab_hdr (abfd); ++ isymbuf = file_isymbuf (abfd); ++ ++ addr_shndx = _bfd_elf_section_from_bfd_section (abfd, addr_sec); ++ ++ for (irel = irelbase; irel < irelend; irel++) ++ { ++ if (ELF32_R_TYPE (irel->r_info) != R_UBICOM32_NONE) ++ { ++ /* Get the value of the symbol referred to by the reloc. */ ++ if (ELF32_R_SYM (irel->r_info) < symtab_hdr->sh_info) ++ { ++ asection *sym_sec; ++ bfd_vma xaddr, symval, relval; ++ ++ /* A local symbol. */ ++ isym = isymbuf + ELF32_R_SYM (irel->r_info); ++ sym_sec = bfd_section_from_elf_index (abfd, isym->st_shndx); ++ xaddr = BASEADDR (addr_sec) + addr; ++ symval = BASEADDR (sym_sec) + isym->st_value; ++ relval = symval + irel->r_addend; ++ ++ if ((isym->st_shndx == addr_shndx) ++ && (xaddr > symval) ++ && (xaddr <= relval)) ++ irel->r_addend += count; ++ } ++ } ++ ++ /* Adjust irel base address for PC space relocations after a deleted instruction. */ ++ if (sec_to_process == addr_sec) ++ { ++ if (addr <= irel->r_offset) ++ irel->r_offset += count; ++ } ++ } ++} ++ ++static void ++adjust_all_relocations (abfd, sec, addr, count) ++ bfd *abfd; ++ asection *sec; ++ bfd_vma addr; ++ int count; ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Sym *isymbuf, *isym, *isymend; ++ struct elf_link_hash_entry **sym_hashes; ++ struct elf_link_hash_entry **end_hashes; ++ unsigned int symcount; ++ asection *section; ++ unsigned int shndx; ++ ++ symtab_hdr = file_symtab_hdr (abfd); ++ isymbuf = file_isymbuf (abfd); ++ ++ shndx = _bfd_elf_section_from_bfd_section (abfd, sec); ++ ++ /* Adjust all relocations that are affected. */ ++ for (section = abfd->sections; section != NULL; section = section->next) ++ adjust_sec_relocations (abfd, section, sec, addr, count); ++ ++ /* Adjust the local symbols defined in this section. */ ++ isymend = isymbuf + symtab_hdr->sh_info; ++ for (isym = isymbuf; isym < isymend; isym++) ++ { ++ if (isym->st_shndx == shndx ++ && addr <= isym->st_value) ++ isym->st_value += count; ++ } ++ ++ /* Now adjust the global symbols defined in this section. */ ++ symcount = (symtab_hdr->sh_size / sizeof (Elf32_External_Sym) ++ - symtab_hdr->sh_info); ++ sym_hashes = elf_sym_hashes (abfd); ++ end_hashes = sym_hashes + symcount; ++ for (; sym_hashes < end_hashes; sym_hashes++) ++ { ++ struct elf_link_hash_entry *sym_hash = *sym_hashes; ++ ++ if ((sym_hash->root.type == bfd_link_hash_defined ++ || sym_hash->root.type == bfd_link_hash_defweak) ++ && sym_hash->root.u.def.section == sec) ++ { ++ if (addr <= sym_hash->root.u.def.value) ++ sym_hash->root.u.def.value += count; ++ } ++ } ++} ++ ++/* Perform a single relocation. By default we use the standard BFD ++ routines. */ ++ ++static bfd_reloc_status_type ++ubicom32_final_link_relocate (howto, input_bfd, input_section, contents, rel, relocation) ++ reloc_howto_type * howto; ++ bfd * input_bfd; ++ asection * input_section; ++ bfd_byte * contents; ++ Elf_Internal_Rela * rel; ++ bfd_vma relocation; ++{ ++ bfd_reloc_status_type r = bfd_reloc_ok; ++ ++ switch (howto->type) ++ { ++ default: ++ r = _bfd_final_link_relocate (howto, input_bfd, input_section, ++ contents, rel->r_offset, ++ relocation, rel->r_addend); ++ } ++ ++ return r; ++} ++ ++/* Relocate a UBICOM32 ELF section. ++ There is some attempt to make this function usable for many architectures, ++ both USE_REL and USE_RELA ['twould be nice if such a critter existed], ++ if only to serve as a learning tool. ++ ++ The RELOCATE_SECTION function is called by the new ELF backend linker ++ to handle the relocations for a section. ++ ++ The relocs are always passed as Rela structures; if the section ++ actually uses Rel structures, the r_addend field will always be ++ zero. ++ ++ This function is responsible for adjusting the section contents as ++ necessary, and (if using Rela relocs and generating a relocatable ++ output file) adjusting the reloc addend as necessary. ++ ++ This function does not have to worry about setting the reloc ++ address or the reloc symbol index. ++ ++ LOCAL_SYMS is a pointer to the swapped in local symbols. ++ ++ LOCAL_SECTIONS is an array giving the section in the input file ++ corresponding to the st_shndx field of each local symbol. ++ ++ The global hash table entry for the global symbols can be found ++ via elf_sym_hashes (input_bfd). ++ ++ When generating relocatable output, this function must handle ++ STB_LOCAL/STT_SECTION symbols specially. The output symbol is ++ going to be the section symbol corresponding to the output ++ section, which means that the addend must be adjusted ++ accordingly. */ ++ ++static bfd_boolean ++ubicom32_elf_relocate_section (output_bfd, info, input_bfd, input_section, ++ contents, relocs, local_syms, local_sections) ++ bfd * output_bfd ATTRIBUTE_UNUSED; ++ struct bfd_link_info * info; ++ bfd * input_bfd; ++ asection * input_section; ++ bfd_byte * contents; ++ Elf_Internal_Rela * relocs; ++ Elf_Internal_Sym * local_syms; ++ asection ** local_sections; ++{ ++ Elf_Internal_Shdr * symtab_hdr; ++ struct elf_link_hash_entry ** sym_hashes; ++ Elf_Internal_Rela * rel; ++ Elf_Internal_Rela * relend; ++ struct debugLineInfoHeader *lh = NULL; ++ int cooked_size, discard_size; ++ bfd_byte *src, *dest, *content_end; ++ unsigned int i; ++ ++ symtab_hdr = & elf_tdata (input_bfd)->symtab_hdr; ++ sym_hashes = elf_sym_hashes (input_bfd); ++ relend = relocs + input_section->reloc_count; ++ ++ for (rel = relocs; rel < relend; rel ++) ++ { ++ reloc_howto_type * howto; ++ unsigned long r_symndx; ++ Elf_Internal_Sym * sym; ++ asection * sec; ++ struct elf_link_hash_entry * h; ++ bfd_vma relocation; ++ bfd_reloc_status_type r; ++ const char * name = NULL; ++ int r_type; ++ ++ r_type = ELF32_R_TYPE (rel->r_info); ++ ++ if ( r_type == R_UBICOM32_GNU_VTINHERIT ++ || r_type == R_UBICOM32_GNU_VTENTRY) ++ continue; ++ ++ r_symndx = ELF32_R_SYM (rel->r_info); ++ ++ if (info->relocatable) ++ { ++ /* This is a relocatable link. We don't have to change ++ anything, unless the reloc is against a section symbol, ++ in which case we have to adjust according to where the ++ section symbol winds up in the output section. */ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ sym = local_syms + r_symndx; ++ ++ if (ELF_ST_TYPE (sym->st_info) == STT_SECTION) ++ { ++ sec = local_sections [r_symndx]; ++ rel->r_addend += sec->output_offset + sym->st_value; ++ } ++ } ++ ++ continue; ++ } ++ ++ /* This is a final link. */ ++ howto = ubicom32_elf_howto_table + ELF32_R_TYPE (rel->r_info); ++ h = NULL; ++ sym = NULL; ++ sec = NULL; ++ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ sym = local_syms + r_symndx; ++ sec = local_sections [r_symndx]; ++ relocation = (sec->output_section->vma ++ + sec->output_offset ++ + sym->st_value); ++ ++ name = bfd_elf_string_from_elf_section ++ (input_bfd, symtab_hdr->sh_link, sym->st_name); ++ name = (name == NULL) ? bfd_section_name (input_bfd, sec) : name; ++ } ++ else ++ { ++ h = sym_hashes [r_symndx - symtab_hdr->sh_info]; ++ ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *) h->root.u.i.link; ++ ++ name = h->root.root.string; ++ ++ if (h->root.type == bfd_link_hash_defined ++ || h->root.type == bfd_link_hash_defweak) ++ { ++ sec = h->root.u.def.section; ++ relocation = (h->root.u.def.value ++ + sec->output_section->vma ++ + sec->output_offset); ++ } ++ else if (h->root.type == bfd_link_hash_undefweak) ++ { ++ relocation = 0; ++ } ++ else ++ { ++ if (! ((*info->callbacks->undefined_symbol) ++ (info, h->root.root.string, input_bfd, ++ input_section, rel->r_offset, ++ (!info->shared )))) ++ return FALSE; ++ relocation = 0; ++ } ++ } ++ ++ switch (r_type) ++ { ++ case R_UBICOM32_LO16: ++ r = ubicom32_elf_relocate_lo16 (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_HI16: ++ r = ubicom32_elf_relocate_hi16 (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_HI24: ++ r = ubicom32_elf_relocate_hi24 (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_LO7_S: ++ r = ubicom32_elf_relocate_lo7_s (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_LO7_2_S: ++ r = ubicom32_elf_relocate_lo7_2_s (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_LO7_4_S: ++ r = ubicom32_elf_relocate_lo7_4_s (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_LO7_D: ++ r = ubicom32_elf_relocate_lo7_d (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_LO7_2_D: ++ r = ubicom32_elf_relocate_lo7_2_d (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_LO7_4_D: ++ r = ubicom32_elf_relocate_lo7_4_d (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_24_PCREL: ++ r = ubicom32_elf_relocate_pcrel24 (input_bfd, input_section, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_LO7_CALLI: ++ r = ubicom32_elf_relocate_lo_calli (input_bfd, rel, contents, relocation, 7); ++ break; ++ ++ case R_UBICOM32_LO16_CALLI: ++ r = ubicom32_elf_relocate_lo_calli (input_bfd, rel, contents, relocation, 18); ++ break; ++ ++ case R_UBICOM32_32: ++ /* relocation &= ~(0xff << 24); */ ++ /* FALLTHROUGH */ ++ ++ default: ++ r = ubicom32_final_link_relocate (howto, input_bfd, input_section, ++ contents, rel, relocation); ++ break; ++ } ++ ++ if (r != bfd_reloc_ok) ++ { ++ const char * msg = (const char *) NULL; ++ ++ switch (r) ++ { ++ case bfd_reloc_overflow: ++ r = info->callbacks->reloc_overflow ++ (info, NULL, name, howto->name, (bfd_vma) 0, ++ input_bfd, input_section, rel->r_offset); ++ break; ++ ++ case bfd_reloc_undefined: ++ r = info->callbacks->undefined_symbol ++ (info, name, input_bfd, input_section, rel->r_offset, TRUE); ++ break; ++ ++ case bfd_reloc_outofrange: ++ msg = _("internal error: out of range error"); ++ break; ++ ++ case bfd_reloc_notsupported: ++ msg = _("internal error: unsupported relocation error"); ++ break; ++ ++ case bfd_reloc_dangerous: ++ msg = _("internal error: dangerous relocation"); ++ break; ++ ++ default: ++ msg = _("internal error: unknown error"); ++ break; ++ } ++ ++ if (msg) ++ r = info->callbacks->warning ++ (info, msg, name, input_bfd, input_section, rel->r_offset); ++ ++ if (! r) ++ return FALSE; ++ } ++ } ++ ++ /* ++ * now we have to collapse the .debug_line section if it has a ++ * sec_info section ++ */ ++ ++ if(strcmp(input_section->name, ".debug_line")) ++ return TRUE; ++ ++ /* this is a .debug_line section. See it has a sec_info entry */ ++ if(elf_section_data(input_section)->sec_info == NULL) ++ return TRUE; ++ ++ lh = (struct debugLineInfoHeader *) elf_section_data(input_section)->sec_info; ++ ++ if(lh->numEntries == 0) ++ return TRUE; ++ ++ dest = contents + lh->linfo[0].startOffset; ++ ++ cooked_size = input_section->rawsize; ++ content_end = contents + cooked_size; ++ discard_size = 0; ++ ++ for(i=0; i< lh->numEntries; i++) ++ { ++ if(lh->linfo[i].discard) ++ discard_size += lh->linfo[i].length; ++ else ++ { ++ src = contents + lh->linfo[i].startOffset; ++ (void) memcpy(dest, src, lh->linfo[i].length); ++ dest += lh->linfo[i].length; ++ } ++ } ++ ++ src = contents + lh->linfo[lh->numEntries-1].startOffset + lh->linfo[lh->numEntries-1].length; ++ if(src < content_end) ++ (void) memcpy(dest, src, content_end - src); ++ ++ i = bfd_get_32(input_bfd, contents); ++ i -= discard_size; ++ bfd_put_32(input_bfd, i, contents); ++ //input_section->rawsize -= discard_size; ++ return TRUE; ++} ++ ++ ++/* Update the got entry reference counts for the section being ++ removed. */ ++ ++static bfd_boolean ++ubicom32_elf_gc_sweep_hook (abfd, info, sec, relocs) ++ bfd * abfd ATTRIBUTE_UNUSED; ++ struct bfd_link_info * info ATTRIBUTE_UNUSED; ++ asection * sec ATTRIBUTE_UNUSED; ++ const Elf_Internal_Rela * relocs ATTRIBUTE_UNUSED; ++{ ++ return TRUE; ++} ++ ++/* Return the section that should be marked against GC for a given ++ relocation. */ ++ ++static asection * ++ubicom32_elf_gc_mark_hook (sec, info, rel, h, sym) ++ asection * sec; ++ struct bfd_link_info * info ATTRIBUTE_UNUSED; ++ Elf_Internal_Rela * rel; ++ struct elf_link_hash_entry * h; ++ Elf_Internal_Sym * sym; ++{ ++ if (h != NULL) ++ { ++ switch (ELF32_R_TYPE (rel->r_info)) ++ { ++ case R_UBICOM32_GNU_VTINHERIT: ++ case R_UBICOM32_GNU_VTENTRY: ++ break; ++ ++ default: ++ switch (h->root.type) ++ { ++ case bfd_link_hash_defined: ++ case bfd_link_hash_defweak: ++ return h->root.u.def.section; ++ ++ case bfd_link_hash_common: ++ return h->root.u.c.p->section; ++ ++ default: ++ break; ++ } ++ } ++ } ++ else ++ { ++ if (!(elf_bad_symtab (sec->owner) ++ && ELF_ST_BIND (sym->st_info) != STB_LOCAL) ++ && ! ((sym->st_shndx <= 0 || sym->st_shndx >= SHN_LORESERVE) ++ && sym->st_shndx != SHN_COMMON)) ++ { ++ return bfd_section_from_elf_index (sec->owner, sym->st_shndx); ++ } ++ } ++ ++ return NULL; ++} ++ ++/* Look through the relocs for a section during the first phase. ++ Since we don't do .gots or .plts, we just need to consider the ++ virtual table relocs for gc. */ ++ ++static bfd_boolean ++ubicom32_elf_check_relocs (abfd, info, sec, relocs) ++ bfd *abfd; ++ struct bfd_link_info *info; ++ asection *sec; ++ const Elf_Internal_Rela *relocs; ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ struct elf_link_hash_entry **sym_hashes, **sym_hashes_end; ++ Elf_Internal_Rela *rel; ++ Elf_Internal_Rela *rel_end; ++ Elf_Internal_Rela *my_rel = ( Elf_Internal_Rela*)relocs; ++ if (info->relocatable) ++ return TRUE; ++ ++ symtab_hdr = &elf_tdata (abfd)->symtab_hdr; ++ sym_hashes = elf_sym_hashes (abfd); ++ sym_hashes_end = sym_hashes + symtab_hdr->sh_size/sizeof(Elf32_External_Sym); ++ if (!elf_bad_symtab (abfd)) ++ sym_hashes_end -= symtab_hdr->sh_info; ++ ++ rel_end = my_rel + sec->reloc_count; ++ for (rel = my_rel; rel < rel_end; rel++) ++ { ++ struct elf_link_hash_entry *h; ++ unsigned long r_symndx; ++ ++ r_symndx = ELF32_R_SYM (rel->r_info); ++ if (r_symndx < symtab_hdr->sh_info) ++ h = NULL; ++ else ++ h = sym_hashes [r_symndx - symtab_hdr->sh_info]; ++ ++ switch (ELF32_R_TYPE (rel->r_info)) ++ { ++ /* This relocation describes the C++ object vtable hierarchy. ++ Reconstruct it for later use during GC. */ ++ case R_UBICOM32_GNU_VTINHERIT: ++ if (!bfd_elf_gc_record_vtinherit (abfd, sec, h, rel->r_offset)) ++ return FALSE; ++ break; ++ ++ /* This relocation describes which C++ vtable entries are actually ++ used. Record for later use during GC. */ ++ case R_UBICOM32_GNU_VTENTRY: ++ if (!bfd_elf_gc_record_vtentry (abfd, sec, h, rel->r_addend)) ++ return FALSE; ++ break; ++ ++ case R_UBICOM32_32: ++ /* For debug section, change to harvard relocations */ ++ if (memcmp (sec->name, ".debug", 6) == 0 ++ || memcmp (sec->name, ".stab", 5) == 0) ++ rel->r_info = ELF32_R_INFO (ELF32_R_SYM (rel->r_info), R_UBICOM32_32_HARVARD); ++ break; ++ } ++ } ++ return TRUE; ++} ++ ++static bfd_boolean ++ubicom32_elf_object_p (abfd) ++ bfd *abfd; ++{ ++ flagword mach = elf_elfheader (abfd)->e_flags & 0xffff; ++ bfd_default_set_arch_mach (abfd, bfd_arch_ubicom32, mach); ++ return (((elf_elfheader (abfd)->e_flags & EF_UBICOM32_FDPIC) != 0) ++ == (IS_FDPIC (abfd))); ++} ++ ++ ++/* Function to set the ELF flag bits */ ++ ++static bfd_boolean ++ubicom32_elf_set_private_flags (abfd, flags) ++ bfd *abfd; ++ flagword flags; ++{ ++ elf_elfheader (abfd)->e_flags = flags; ++ elf_flags_init (abfd) = TRUE; ++ return TRUE; ++} ++ ++static bfd_boolean ++ubicom32_elf_copy_private_bfd_data (ibfd, obfd) ++ bfd *ibfd; ++ bfd *obfd; ++{ ++ if (bfd_get_flavour (ibfd) != bfd_target_elf_flavour ++ || bfd_get_flavour (obfd) != bfd_target_elf_flavour) ++ return TRUE; ++ ++ BFD_ASSERT (!elf_flags_init (obfd) ++ || elf_elfheader (obfd)->e_flags == elf_elfheader (ibfd)->e_flags); ++ ++ elf_elfheader (obfd)->e_flags = elf_elfheader (ibfd)->e_flags; ++ elf_flags_init (obfd) = TRUE; ++ return TRUE; ++} ++ ++/* Merge backend specific data from an object file to the output ++ object file when linking. */ ++static bfd_boolean ++ubicom32_elf_merge_private_bfd_data (ibfd, obfd) ++ bfd *ibfd; ++ bfd *obfd; ++{ ++ flagword old_flags, new_flags; ++ bfd_boolean error = FALSE; ++ ++ new_flags = elf_elfheader (ibfd)->e_flags; ++ old_flags = elf_elfheader (obfd)->e_flags; ++ ++#ifdef DEBUG ++ (*_bfd_error_handler) ("old_flags = 0x%.8lx, new_flags = 0x%.8lx, init = %s, filename = %s", ++ old_flags, new_flags, elf_flags_init (obfd) ? "yes" : "no", ++ bfd_get_filename (ibfd)); ++#endif ++ ++ if (!elf_flags_init (obfd)) /* First call, no flags set */ ++ { ++ elf_flags_init (obfd) = TRUE; ++ elf_elfheader (obfd)->e_flags = new_flags; ++ } ++ else ++ { ++ if (new_flags != old_flags) ++ { ++ /* Mismatched flags. */ ++ char *output_cpu_version = ((old_flags &0xffff) == 1) ? "V3" : (((old_flags &0xffff) == 2) ? "V4" : "unknown"); ++ char *input_cpu_version = ((new_flags &0xffff) == 1) ? "V3" : (((new_flags &0xffff) == 2) ? "V4" : "unknown"); ++ char *output_filename = bfd_get_filename (obfd); ++ char *input_filename = bfd_get_filename (ibfd); ++ char *output_pic = (old_flags & EF_UBICOM32_PIC_FLAGS) ? ((old_flags & EF_UBICOM32_PIC) ? "FPIC" : "FDPIC") : NULL; ++ char *input_pic = (new_flags & EF_UBICOM32_PIC_FLAGS) ? ((new_flags & EF_UBICOM32_PIC) ? "FPIC" : "FDPIC") : NULL; ++ ++ (*_bfd_error_handler) ("Linking mismatched file types. Output file = %s file type 0x%.8lx, input file = %s file type 0x%.8lx", ++ output_filename, old_flags, input_filename, new_flags); ++ ++ if (output_pic) ++ { ++ (*_bfd_error_handler)("Output file %s %s for cpu version %s", output_filename, output_pic, output_cpu_version); ++ } ++ else ++ { ++ (*_bfd_error_handler)("Output file %s for cpu version %s", output_filename, output_cpu_version); ++ } ++ ++ if (input_pic) ++ { ++ (*_bfd_error_handler)("Input file %s %s for cpu version %s", input_filename, input_pic, input_cpu_version); ++ } ++ else ++ { ++ (*_bfd_error_handler)("Input file %s for cpu version %s", input_filename, input_cpu_version); ++ } ++ ++ (*_bfd_error_handler) ("Link ABORTED."); ++ _exit(EXIT_FAILURE); ++ } ++ } ++ if (error) ++ bfd_set_error (bfd_error_bad_value); ++ ++ return !error; ++} ++ ++static bfd_boolean ++ubicom32_elf_print_private_bfd_data (abfd, ptr) ++ bfd *abfd; ++ PTR ptr; ++{ ++ FILE *file = (FILE *) ptr; ++ flagword flags; ++ ++ BFD_ASSERT (abfd != NULL && ptr != NULL); ++ ++ /* Print normal ELF private data. */ ++ _bfd_elf_print_private_bfd_data (abfd, ptr); ++ ++ flags = elf_elfheader (abfd)->e_flags; ++ fprintf (file, _("private flags = 0x%lx:"), (long)flags); ++ ++ fputc ('\n', file); ++ ++ return TRUE; ++} ++ ++bfd_boolean ++ubicom32_elf_discard_info(abfd, cookie, info) ++ bfd *abfd; ++ struct elf_reloc_cookie *cookie ATTRIBUTE_UNUSED; ++ struct bfd_link_info *info; ++ ++{ ++ unsigned int hasDebugLine=0; ++ unsigned needExclude = 0; ++ asection *o; ++ asection *sec= NULL; ++ bfd_byte *contents = NULL; ++ bfd_byte *contentsEnd; ++ Elf_Internal_Rela *irel, *irelend, *irelbase; ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Sym *isym; ++ Elf_Internal_Sym *isymbuf = NULL; ++ struct debugLineInfoHeader *lh = NULL; ++ unsigned int maxLineInfoEntries = 10; ++ unsigned int offset, contentLength; ++ unsigned char *ptr, *sequence_start; ++ unsigned int setupEntry=1; ++ unsigned int opcode_base, op_code; ++ unsigned int bytes_read; ++ ++ for (o = abfd->sections; o != NULL; o = o->next) ++ { ++ if(!hasDebugLine) ++ if(!strcmp(o->name, ".debug_line")) ++ { ++ hasDebugLine =1; ++ sec = o; ++ } ++ ++ /* Keep special sections. Keep .debug sections. */ ++ if (o->flags & SEC_EXCLUDE) ++ { ++ needExclude = 1; ++ } ++ } ++ ++ if(needExclude == 0 || hasDebugLine ==0) ++ return FALSE; ++ ++ /* ++ * you can be here only if we have .debug_line section and some ++ * section is being excudled ++ */ ++ ++ /* ++ * We need to extract .debug_line section contents and its ++ * relocation contents. ++ */ ++ ++ /* We don't have to do anything for a relocatable link, ++ if this section does not have relocs */ ++ if (info->relocatable ++ || (sec->flags & SEC_RELOC) == 0 ++ || sec->reloc_count == 0) ++ return FALSE; ++ ++ /* If this is the first time we have been called ++ for this section, initialise the cooked size. ++ if (sec->_cooked_size == 0) ++ sec->_cooked_size = sec->rawsize; ++ */ ++ ++ symtab_hdr = &elf_tdata (abfd)->symtab_hdr; ++ ++ irelbase = _bfd_elf_link_read_relocs (abfd, sec, NULL, ++ (Elf_Internal_Rela *)NULL, ++ info->keep_memory); ++ ++ if(irelbase == NULL) ++ return FALSE; ++ ++ irelend = irelbase +sec->reloc_count; ++ ++ /* Get section contents cached copy if it exists. */ ++ if (contents == NULL) ++ { ++ contents = section_contents(abfd, sec); ++ } ++ ++ if (isymbuf == NULL && symtab_hdr->sh_info != 0) ++ { ++ isymbuf = (Elf_Internal_Sym *) symtab_hdr->contents; ++ if (isymbuf == NULL) ++ isymbuf = bfd_elf_get_elf_syms (abfd, symtab_hdr, ++ symtab_hdr->sh_info, 0, ++ NULL, NULL, NULL); ++ if (isymbuf == NULL) ++ return FALSE; ++ } ++ ++ /* allocate the line header and initialize it */ ++ lh = (struct debugLineInfoHeader *) ++ realloc( (void *)lh, sizeof (struct debugLineInfo)*maxLineInfoEntries + ++ sizeof(unsigned int)); ++ ++ lh->numEntries = 0; ++ ++ /* the first 4 bytes contains the length */ ++ contentLength = bfd_get_32 (abfd, (bfd_byte *)contents); ++ contentsEnd = contents + contentLength + 4; ++ ++ ptr = (unsigned char *)contents; ++ ptr +=6; ++ /* read the header length */ ++ offset = bfd_get_32(abfd, (bfd_byte *)ptr); ++ ptr += 4; ++ ptr += offset; ++ ++ /* extract the base opcode */ ++ opcode_base = (unsigned char)contents[14]; ++ sequence_start = NULL; ++ while(ptr < (unsigned char *) contentsEnd) ++ { ++ if(setupEntry) ++ { ++ if(lh->numEntries == maxLineInfoEntries) ++ { ++ /* need to do some reallocing. Bump up the entries by 10 */ ++ maxLineInfoEntries += 10; ++ lh = (struct debugLineInfoHeader *) ++ realloc( (void *)lh, ++ sizeof (struct debugLineInfo)*maxLineInfoEntries + ++ sizeof(unsigned int)); ++ } ++ ++ /* zero out the entry */ ++ memset((void *) &lh->linfo[lh->numEntries], ++ 0, ++ sizeof(struct debugLineInfo)); ++ lh->linfo[lh->numEntries].startOffset = (bfd_byte *)ptr - contents; ++ setupEntry = 0; ++ sequence_start = ptr; ++ } ++ ++ /* We need to run the state machine */ ++ op_code = bfd_get_8 (abfd, (bfd_byte *)ptr); ++ ptr += 1; ++ ++ if(op_code >= opcode_base) ++ continue; ++ ++ switch(op_code) ++ { ++ case DW_LNS_extended_op: ++ ptr += 1; /* ignore length */ ++ op_code = bfd_get_8 (abfd, (bfd_byte *)ptr); ++ ptr += 1; ++ switch (op_code) ++ { ++ case DW_LNE_end_sequence: ++ /* end of sequence. Time to record stuff */ ++ lh->linfo[lh->numEntries++].length = ++ (bfd_byte *)ptr - sequence_start; ++ setupEntry = 1; ++ break; ++ case DW_LNE_set_address: ++ ptr += 4; ++ break; ++ case DW_LNE_define_file: ++ { ++ ptr += (strlen((char *)ptr) + 1); ++ (void) read_unsigned_leb128(abfd, ptr, &bytes_read); ++ ptr += bytes_read; ++ (void) read_unsigned_leb128(abfd, ptr, &bytes_read); ++ ptr += bytes_read; ++ (void) read_unsigned_leb128(abfd, ptr, &bytes_read); ++ ptr += bytes_read; ++ break; ++ } ++ } ++ case DW_LNS_negate_stmt: ++ case DW_LNS_set_basic_block: ++ case DW_LNS_const_add_pc: ++ case DW_LNS_copy: ++ break; ++ case DW_LNS_advance_pc: ++ case DW_LNS_set_file: ++ case DW_LNS_set_column: ++ (void) read_unsigned_leb128 (abfd, ptr, &bytes_read); ++ ptr += bytes_read; ++ break; ++ case DW_LNS_advance_line: ++ (void) read_signed_leb128 (abfd, ptr, &bytes_read); ++ ptr += bytes_read; ++ break; ++ case DW_LNS_fixed_advance_pc: ++ ptr += 2; ++ break; ++ } ++ } ++ ++ /* ++ * now scan through the relocations and match the ++ * lineinfo to a section name ++ */ ++ for(irel = irelbase; irel< irelend; irel++) ++ { ++ bfd_vma offset; ++ asection *sym_sec; ++ int i; ++ ++ offset = irel->r_offset; ++ isym = isymbuf + ELF32_R_SYM (irel->r_info); ++ ++ sym_sec = bfd_section_from_elf_index (abfd, isym->st_shndx); ++ ++ /* find which line section this rel entry belongs to */ ++ for(i=0; i< (int) lh->numEntries; i++) ++ { ++ if(lh->linfo[i].startOffset <= offset && ++ offset < lh->linfo[i].startOffset + lh->linfo[i].length) ++ break; ++ } ++ ++ if(lh->linfo[i].sectionName == NULL) ++ lh->linfo[i].sectionName = strdup(sym_sec->name); ++ } ++ ++ /* now scan through and find the exclude sections */ ++ for (o = abfd->sections; o != NULL; o = o->next) ++ { ++ if (o->flags & SEC_EXCLUDE) ++ { ++ /* go through the lh entries and mark as discard */ ++ int i; ++ for(i=0; i< (int) lh->numEntries; i++) ++ { ++ if(!strcmp(o->name, lh->linfo[i].sectionName)) ++ lh->linfo[i].discard = 1; ++ } ++ } ++ } ++ ++ elf_section_data(sec)->sec_info = (PTR)(lh); ++ ++ return TRUE; ++} ++ ++ ++/* An extension of the elf hash table data structure, containing some ++ additional Blackfin-specific data. */ ++struct ubicom32fdpic_elf_link_hash_table ++{ ++ struct elf_link_hash_table elf; ++ ++ /* A pointer to the .got section. */ ++ asection *sgot; ++ /* A pointer to the .rel.got section. */ ++ asection *sgotrel; ++ /* A pointer to the .rofixup section. */ ++ asection *sgotfixup; ++ /* A pointer to the .plt section. */ ++ asection *splt; ++ /* A pointer to the .rel.plt section. */ ++ asection *spltrel; ++ /* GOT base offset. */ ++ bfd_vma got0; ++ /* Location of the first non-lazy PLT entry, i.e., the number of ++ bytes taken by lazy PLT entries. */ ++ bfd_vma plt0; ++ /* A hash table holding information about which symbols were ++ referenced with which PIC-related relocations. */ ++ struct htab *relocs_info; ++}; ++ ++/* Get the Ubicom32 ELF linker hash table from a link_info structure. */ ++ ++#define ubicom32fdpic_hash_table(info) \ ++ ((struct ubicom32fdpic_elf_link_hash_table *) ((info)->hash)) ++ ++#define ubicom32fdpic_got_section(info) \ ++ (ubicom32fdpic_hash_table (info)->sgot) ++#define ubicom32fdpic_gotrel_section(info) \ ++ (ubicom32fdpic_hash_table (info)->sgotrel) ++#define ubicom32fdpic_gotfixup_section(info) \ ++ (ubicom32fdpic_hash_table (info)->sgotfixup) ++#define ubicom32fdpic_plt_section(info) \ ++ (ubicom32fdpic_hash_table (info)->splt) ++#define ubicom32fdpic_pltrel_section(info) \ ++ (ubicom32fdpic_hash_table (info)->spltrel) ++#define ubicom32fdpic_relocs_info(info) \ ++ (ubicom32fdpic_hash_table (info)->relocs_info) ++#define ubicom32fdpic_got_initial_offset(info) \ ++ (ubicom32fdpic_hash_table (info)->got0) ++#define ubicom32fdpic_plt_initial_offset(info) \ ++ (ubicom32fdpic_hash_table (info)->plt0) ++ ++/* The name of the dynamic interpreter. This is put in the .interp ++ section. */ ++ ++#define ELF_DYNAMIC_INTERPRETER "/lib/ld.so.1" ++ ++#define DEFAULT_STACK_SIZE 0x20000 ++ ++/* This structure is used to collect the number of entries present in ++ each addressable range of the got. */ ++struct _ubicom32fdpic_dynamic_got_info ++{ ++ /* Several bits of information about the current link. */ ++ struct bfd_link_info *info; ++ /* Total size needed for GOT entries. */ ++ bfd_vma gotoffset_lo, gotoffset_hi; ++ /* Total size needed for function descriptor entries. */ ++ bfd_vma fd_gotoffset_lo, fd_gotoffset_hi; ++ /* Total size needed function descriptor entries referenced in PLT ++ entries, that would be profitable to place in offsets close to ++ the PIC register. */ ++ bfd_vma fdplt, privfdplt; ++ /* Total size needed by lazy PLT entries. */ ++ bfd_vma lzplt; ++ bfd_vma num_plts; ++ ++ /* Number of relocations carried over from input object files. */ ++ unsigned long relocs; ++ /* Number of fixups introduced by relocations in input object files. */ ++ unsigned long fixups; ++}; ++ ++/* This structure is used to assign offsets to got entries, function ++ descriptors, plt entries and lazy plt entries. */ ++struct ubicom32fdpic_dynamic_got_plt_info ++{ ++ /* Summary information collected with _bfinfdpic_count_got_plt_entries. */ ++ struct _ubicom32fdpic_dynamic_got_info g; ++ ++ bfd_signed_vma current_got; /* This will be used during got entry allocation */ ++ bfd_signed_vma current_fd; /* This will be used for function descriptro allocation. The numbers will go negative */ ++ bfd_signed_vma current_privfd; /* This will be used for function descriptro allocation. The numbers will go negative */ ++ bfd_vma current_plt; /* This is the offset to the PLT entry. We will need this to resolve the call entries. */ ++ bfd_vma current_plt_trampoline; /* This is the offset to the PLT trampoline entry. */ ++ bfd_vma total_fdplt; /* Total size of function descriptors. This is the memory above GOT pointer. */ ++ bfd_vma total_got; /* This is the total of got entries for got_lo and got_funcdesc_lo references. */ ++ bfd_vma total_lzplt; /* This is the total area for the PLT entries. This does not have the trampoline entry. */ ++ bfd_vma total_trampoline; /* This is the total area for the PLT trampoline entries. */ ++}; ++ ++/* Decide whether a reference to a symbol can be resolved locally or ++ not. If the symbol is protected, we want the local address, but ++ its function descriptor must be assigned by the dynamic linker. */ ++#define UBICOM32FDPIC_SYM_LOCAL(INFO, H) \ ++ (_bfd_elf_symbol_refs_local_p ((H), (INFO), 1) \ ++ || ! elf_hash_table (INFO)->dynamic_sections_created) ++#define UBICOM32FDPIC_FUNCDESC_LOCAL(INFO, H) \ ++ ((H)->dynindx == -1 || ! elf_hash_table (INFO)->dynamic_sections_created) ++ ++/* This structure collects information on what kind of GOT, PLT or ++ function descriptors are required by relocations that reference a ++ certain symbol. */ ++struct ubicom32fdpic_relocs_info ++{ ++ /* The index of the symbol, as stored in the relocation r_info, if ++ we have a local symbol; -1 otherwise. */ ++ long symndx; ++ union ++ { ++ /* The input bfd in which the symbol is defined, if it's a local ++ symbol. */ ++ bfd *abfd; ++ /* If symndx == -1, the hash table entry corresponding to a global ++ symbol (even if it turns out to bind locally, in which case it ++ should ideally be replaced with section's symndx + addend). */ ++ struct elf_link_hash_entry *h; ++ } d; ++ /* The addend of the relocation that references the symbol. */ ++ bfd_vma addend; ++ ++ /* The fields above are used to identify an entry. The fields below ++ contain information on how an entry is used and, later on, which ++ locations it was assigned. */ ++ /* The following 2 fields record whether the symbol+addend above was ++ ever referenced with a GOT relocation. The 17M4 suffix indicates a ++ GOT17M4 relocation; hilo is used for GOTLO/GOTHI pairs. */ ++ unsigned gotoffset_lo; ++ unsigned gotoffset_hi; ++ /* Whether a FUNCDESC relocation references symbol+addend. */ ++ unsigned fd; ++ /* Whether a FUNCDESC_GOT relocation references symbol+addend. */ ++ unsigned fd_gotoffset_lo; ++ unsigned fd_gotoffset_hi; ++ /* Whether symbol+addend is referenced with GOTOFF17M4, GOTOFFLO or ++ GOTOFFHI relocations. The addend doesn't really matter, since we ++ envision that this will only be used to check whether the symbol ++ is mapped to the same segment as the got. */ ++ unsigned gotoff; ++ /* Whether symbol+addend is referenced by a LABEL24 relocation. */ ++ unsigned call; ++ /* Whether symbol+addend is referenced by a 32 or FUNCDESC_VALUE ++ relocation. */ ++ unsigned sym; ++ /* Whether we need a PLT entry for a symbol. Should be implied by ++ something like: ++ (call && symndx == -1 && ! BFINFDPIC_SYM_LOCAL (info, d.h)) */ ++ unsigned plt:1; ++ /* Whether a function descriptor should be created in this link unit ++ for symbol+addend. Should be implied by something like: ++ (plt || fd_gotoffset_lo || fd_gotoffset_hi ++ || ((fd || fdgot17m4 || fdgothilo) ++ && (symndx != -1 || BFINFDPIC_FUNCDESC_LOCAL (info, d.h)))) */ ++ unsigned privfd:1; ++ /* Whether a lazy PLT entry is needed for this symbol+addend. ++ Should be implied by something like: ++ (privfd && symndx == -1 && ! BFINFDPIC_SYM_LOCAL (info, d.h) ++ && ! (info->flags & DF_BIND_NOW)) */ ++ unsigned lazyplt:1; ++ /* Whether we've already emitted GOT relocations and PLT entries as ++ needed for this symbol. */ ++ unsigned done:1; ++ ++ /* The number of R_byte4_data, R_BFIN_FUNCDESC and R_BFIN_FUNCDESC_VALUE ++ relocations referencing the symbol. */ ++ unsigned relocs32, relocsfd, relocsfdv; ++ ++ /* The number of .rofixups entries and dynamic relocations allocated ++ for this symbol, minus any that might have already been used. */ ++ unsigned fixups, dynrelocs; ++ ++ /* The offsets of the GOT entries assigned to symbol+addend, to the ++ function descriptor's address, and to a function descriptor, ++ respectively. Should be zero if unassigned. The offsets are ++ counted from the value that will be assigned to the PIC register, ++ not from the beginning of the .got section. */ ++ bfd_signed_vma got_entry, fdgot_entry, fd_entry; ++ /* The offsets of the PLT entries assigned to symbol+addend, ++ non-lazy and lazy, respectively. If unassigned, should be ++ (bfd_vma)-1. */ ++ bfd_vma plt_entry; ++ bfd_vma plt_trampoline_entry; ++ ++ /* plt_type is 1 for Sequence type 2 (0 - 255) it is 2 for > 255 */ ++ bfd_vma plt_type; ++ ++ /* rel_offset. Plt relocation offset need to be encoded into the plt entry. */ ++ bfd_vma rel_offset; ++ ++ /* bfd_vma lzplt_entry; not used in ubicom32 */ ++}; ++ ++/* Compute the total GOT size required by each symbol in each range. ++ Symbols may require up to 4 words in the GOT: an entry pointing to ++ the symbol, an entry pointing to its function descriptor, and a ++ private function descriptors taking two words. */ ++ ++#if 0 ++static bfd_vma plt_code[] = { ++ 0xc90f0000, //movei d15,#0 ++ 0x0123e30f, //lea.4 a3,(a0,d15) ++ 0x0124630f, //move.4 a4,(a0,d15) ++ 0x01206461, //move.4 a0,4(a3) ++ 0xf0800080, //calli a4,0(a4) ++}; ++#endif ++ ++static bfd_vma plt_trampoline[] = { ++ 0xc9280000, // movei mac_hi,#0 ++ 0x00002400, // ret (a0) ++}; ++ ++static bfd_vma plt_code_seq1[] = { ++ 0xc90fffe8, //movei d15,#-24 ++ 0x0123e30f, //lea.4 a3,(a0,d15) ++ 0x01206461, //move.4 a0,4(a3) ++ 0x00002460, //ret (a3) ++}; ++ ++static bfd_vma plt_code_seq2[] = { ++ 0x0123f71f, // pdec a3,4(a0) ++ 0x01206461, // move.4 a0,4(a3) ++ 0x00002460, // ret (a3) ++}; ++ ++#define NUM_PLT_CODE_WORDS (sizeof (plt_code) / sizeof (bfd_vma)) ++#define LZPLT_NORMAL_SIZE (sizeof(plt_code)) ++ ++#define NUM_PLT_CODE_WORDS_SEQ1 (sizeof (plt_code_seq1) / sizeof (bfd_vma)) ++#define LZPLT_SIZE_SEQ1 (sizeof(plt_code_seq1)) ++ ++#define NUM_PLT_CODE_WORDS_SEQ2 (sizeof (plt_code_seq2) / sizeof (bfd_vma)) ++#define LZPLT_SIZE_SEQ2 (sizeof(plt_code_seq2)) ++ ++#define NUM_PLT_TRAMPOLINE_WORDS (sizeof (plt_trampoline) / sizeof (bfd_vma)) ++#define PLT_TRAMPOLINE_SIZE (sizeof(plt_trampoline)) ++ ++//#define FUNCTION_DESCRIPTOR_SIZE 12 ++#define FUNCTION_DESCRIPTOR_SIZE 8 ++/* Decide whether a reference to a symbol can be resolved locally or ++ not. If the symbol is protected, we want the local address, but ++ its function descriptor must be assigned by the dynamic linker. */ ++#define UBICOM32FPIC_SYM_LOCAL(INFO, H) \ ++ (_bfd_elf_symbol_refs_local_p ((H), (INFO), 1) \ ++ || ! elf_hash_table (INFO)->dynamic_sections_created) ++#define UBICOM32FPIC_FUNCDESC_LOCAL(INFO, H) \ ++ ((H)->dynindx == -1 || ! elf_hash_table (INFO)->dynamic_sections_created) ++ ++ ++static int ++ubicom32fdpic_count_got_plt_entries (void **entryp, void *dinfo_) ++{ ++ struct ubicom32fdpic_relocs_info *entry = *entryp; ++ struct _ubicom32fdpic_dynamic_got_info *dinfo = dinfo_; ++ unsigned relocs = 0, fixups = 0; ++ ++ /* Allocate space for a GOT entry pointing to the symbol. */ ++ if (entry->gotoffset_lo) ++ { ++ dinfo->gotoffset_lo += 4; ++ entry->relocs32++; ++ } ++ ++ /* Allocate space for a GOT entry pointing to the function ++ descriptor. */ ++ if (entry->fd_gotoffset_lo) ++ { ++ dinfo->gotoffset_lo += 4; ++ entry->relocsfd++; ++ } ++ else if (entry->fd_gotoffset_hi) ++ { ++ dinfo->gotoffset_lo += 4; ++ entry->relocsfd++; ++ } ++ ++ /* Decide whether we need a PLT entry, a function descriptor in the ++ GOT, and a lazy PLT entry for this symbol. */ ++ entry->plt = entry->call ++ && entry->symndx == -1 && ! UBICOM32FPIC_SYM_LOCAL (dinfo->info, entry->d.h) ++ && elf_hash_table (dinfo->info)->dynamic_sections_created; ++ entry->privfd = entry->plt ++ || ((entry->fd_gotoffset_lo || entry->fd_gotoffset_hi || entry->fd) ++ && (entry->symndx != -1 ++ || UBICOM32FPIC_FUNCDESC_LOCAL (dinfo->info, entry->d.h))); ++ entry->lazyplt = entry->privfd ++ && entry->symndx == -1 && ! UBICOM32FPIC_SYM_LOCAL (dinfo->info, entry->d.h) ++ && ! (dinfo->info->flags & DF_BIND_NOW) ++ && elf_hash_table (dinfo->info)->dynamic_sections_created; ++ ++ /* Allocate space for a function descriptor. */ ++ if (entry->privfd && entry->plt) ++ { ++ dinfo->fdplt += FUNCTION_DESCRIPTOR_SIZE; ++ entry->relocsfdv++; ++ } ++ else if (entry->privfd) ++ { ++ /* privfd with plt = 0 */ ++ //printf("Privfd set with plt 0 gotoff_lo = %d fd_gotoffset_lo = %d entry = 0x%x\n", entry->gotoffset_lo, entry->fd_gotoffset_lo, entry); ++ //printf("symnxd = 0x%x sym_local = %d funcdesc_local = %d\n", entry->symndx, ++ // UBICOM32FPIC_SYM_LOCAL (dinfo->info, entry->d.h), ++ // UBICOM32FPIC_FUNCDESC_LOCAL (dinfo->info, entry->d.h)); ++ //printf("Name = %s\n\n", entry->d.h->root.root.string); ++ dinfo->privfdplt += FUNCTION_DESCRIPTOR_SIZE; ++ entry->relocsfdv++; ++ } ++ ++ ++ if (entry->lazyplt) ++ { ++ //dinfo->lzplt += LZPLT_NORMAL_SIZE; ++ dinfo->num_plts++; ++ ++#if 0 ++ if (dinfo->num_plts > 256) ++ dinfo->lzplt += LZPLT_SIZE_SEQ1; ++ else ++ dinfo->lzplt += LZPLT_SIZE_SEQ2; ++ ++ DPRINTF("lzplt %d num_plt %d\n", dinfo->lzplt, dinfo->num_plts); ++#endif ++ } ++ ++ if (!dinfo->info->executable || dinfo->info->pie) ++ relocs = entry->relocs32 + entry->relocsfd + entry->relocsfdv; ++ else ++ { ++ if (entry->symndx != -1 || UBICOM32FPIC_SYM_LOCAL (dinfo->info, entry->d.h)) ++ { ++ if (entry->symndx != -1 ++ || entry->d.h->root.type != bfd_link_hash_undefweak) ++ fixups += entry->relocs32 + 2 * entry->relocsfdv; ++ } ++ else ++ relocs += entry->relocs32 + entry->relocsfdv; ++ ++ if (entry->symndx != -1 ++ || UBICOM32FPIC_FUNCDESC_LOCAL (dinfo->info, entry->d.h)) ++ { ++ if (entry->symndx != -1 ++ || entry->d.h->root.type != bfd_link_hash_undefweak) ++ fixups += entry->relocsfd; ++ } ++ else ++ relocs += entry->relocsfd; ++ } ++ ++ entry->dynrelocs += relocs; ++ entry->fixups += fixups; ++ dinfo->relocs += relocs; ++ dinfo->fixups += fixups; ++ ++ return 1; ++} ++ ++/* Create a Ubicom32 ELF linker hash table. */ ++static struct bfd_link_hash_table * ++ubicom32fdpic_elf_link_hash_table_create (bfd *abfd) ++{ ++ struct ubicom32fdpic_elf_link_hash_table *ret; ++ bfd_size_type amt = sizeof (struct ubicom32fdpic_elf_link_hash_table); ++ ++ ret = bfd_zalloc (abfd, amt); ++ if (ret == NULL) ++ return NULL; ++ ++ if (!_bfd_elf_link_hash_table_init (&ret->elf, abfd, ++ _bfd_elf_link_hash_newfunc, ++ sizeof (struct elf_link_hash_entry))) ++ { ++ free (ret); ++ return NULL; ++ } ++ ++ return &ret->elf.root; ++} ++ ++/* Compute a hash with the key fields of an ubicom32fdpic_relocs_info entry. */ ++static hashval_t ++ubicom32fdpic_relocs_info_hash (const void *entry_) ++{ ++ const struct ubicom32fdpic_relocs_info *entry = entry_; ++ ++ return (entry->symndx == -1 ++ ? (long) entry->d.h->root.root.hash ++ : entry->symndx + (long) entry->d.abfd->id * 257) + entry->addend; ++} ++ ++/* Test whether the key fields of two ubicom32fdpic_relocs_info entries are ++ identical. */ ++static int ++ubicom32fdpic_relocs_info_eq (const void *entry1, const void *entry2) ++{ ++ const struct ubicom32fdpic_relocs_info *e1 = entry1; ++ const struct ubicom32fdpic_relocs_info *e2 = entry2; ++ ++ return e1->symndx == e2->symndx && e1->addend == e2->addend ++ && (e1->symndx == -1 ? e1->d.h == e2->d.h : e1->d.abfd == e2->d.abfd); ++} ++ ++/* Find or create an entry in a hash table HT that matches the key ++ fields of the given ENTRY. If it's not found, memory for a new ++ entry is allocated in ABFD's obstack. */ ++static struct ubicom32fdpic_relocs_info * ++ubicom32fdpic_relocs_info_find (struct htab *ht, ++ bfd *abfd, ++ const struct ubicom32fdpic_relocs_info *entry, ++ enum insert_option insert) ++{ ++ struct ubicom32fdpic_relocs_info **loc = ++ (struct ubicom32fdpic_relocs_info **) htab_find_slot (ht, entry, insert); ++ ++ if (! loc) ++ return NULL; ++ ++ if (*loc) ++ return *loc; ++ ++ *loc = bfd_zalloc (abfd, sizeof (**loc)); ++ ++ if (! *loc) ++ return *loc; ++ ++ (*loc)->symndx = entry->symndx; ++ (*loc)->d = entry->d; ++ (*loc)->addend = entry->addend; ++ (*loc)->plt_entry = (bfd_vma)-1; ++ /* (*loc)->lzplt_entry = (bfd_vma)-1; */ ++ ++ return *loc; ++} ++ ++/* Obtain the address of the entry in HT associated with H's symbol + ++ addend, creating a new entry if none existed. ABFD is only used ++ for memory allocation purposes. */ ++inline static struct ubicom32fdpic_relocs_info * ++ubicom32fdpic_relocs_info_for_global (struct htab *ht, ++ bfd *abfd, ++ struct elf_link_hash_entry *h, ++ bfd_vma addend, ++ enum insert_option insert) ++{ ++ struct ubicom32fdpic_relocs_info entry; ++ ++ entry.symndx = -1; ++ entry.d.h = h; ++ entry.addend = addend; ++ ++ return ubicom32fdpic_relocs_info_find (ht, abfd, &entry, insert); ++} ++ ++/* Obtain the address of the entry in HT associated with the SYMNDXth ++ local symbol of the input bfd ABFD, plus the addend, creating a new ++ entry if none existed. */ ++inline static struct ubicom32fdpic_relocs_info * ++ubicom32fdpic_relocs_info_for_local (struct htab *ht, ++ bfd *abfd, ++ long symndx, ++ bfd_vma addend, ++ enum insert_option insert) ++{ ++ struct ubicom32fdpic_relocs_info entry; ++ ++ entry.symndx = symndx; ++ entry.d.abfd = abfd; ++ entry.addend = addend; ++ ++ return ubicom32fdpic_relocs_info_find (ht, abfd, &entry, insert); ++} ++ ++/* Merge fields set by check_relocs() of two entries that end up being ++ mapped to the same (presumably global) symbol. */ ++ ++inline static void ++ubicom32fdpic_pic_merge_early_relocs_info (struct ubicom32fdpic_relocs_info *e2, ++ struct ubicom32fdpic_relocs_info const *e1) ++{ ++ e2->gotoffset_lo |= e1->gotoffset_lo; ++ e2->gotoffset_hi |= e1->gotoffset_hi; ++ e2->fd_gotoffset_lo |= e1->fd_gotoffset_lo; ++ e2->fd_gotoffset_hi |= e1->fd_gotoffset_hi; ++ e2->fd |= e1->fd; ++ e2->gotoff |= e1->gotoff; ++ e2->call |= e1->call; ++ e2->sym |= e1->sym; ++} ++ ++/* Add a dynamic relocation to the SRELOC section. */ ++ ++inline static bfd_vma ++ubicom32fdpic_add_dyn_reloc (bfd *output_bfd, asection *sreloc, bfd_vma offset, ++ int reloc_type, long dynindx, bfd_vma addend, ++ struct ubicom32fdpic_relocs_info *entry) ++{ ++ Elf_Internal_Rela outrel; ++ bfd_vma reloc_offset; ++ ++ outrel.r_offset = offset; ++ outrel.r_info = ELF32_R_INFO (dynindx, reloc_type); ++ outrel.r_addend = addend; ++ ++ reloc_offset = sreloc->reloc_count * sizeof (Elf32_External_Rel); ++ BFD_ASSERT (reloc_offset < sreloc->size); ++ bfd_elf32_swap_reloc_out (output_bfd, &outrel, ++ sreloc->contents + reloc_offset); ++ sreloc->reloc_count++; ++ ++ /* If the entry's index is zero, this relocation was probably to a ++ linkonce section that got discarded. We reserved a dynamic ++ relocation, but it was for another entry than the one we got at ++ the time of emitting the relocation. Unfortunately there's no ++ simple way for us to catch this situation, since the relocation ++ is cleared right before calling relocate_section, at which point ++ we no longer know what the relocation used to point to. */ ++ if (entry->symndx) ++ { ++ BFD_ASSERT (entry->dynrelocs > 0); ++ entry->dynrelocs--; ++ } ++ ++ return reloc_offset; ++} ++ ++/* Add a fixup to the ROFIXUP section. */ ++ ++static bfd_vma ++ubicom32fdpic_add_rofixup (bfd *output_bfd, asection *rofixup, bfd_vma offset, ++ struct ubicom32fdpic_relocs_info *entry) ++{ ++ bfd_vma fixup_offset; ++ ++ if (rofixup->flags & SEC_EXCLUDE) ++ return -1; ++ ++ fixup_offset = rofixup->reloc_count * 4; ++ if (rofixup->contents) ++ { ++ BFD_ASSERT (fixup_offset < rofixup->size); ++ bfd_put_32 (output_bfd, offset, rofixup->contents + fixup_offset); ++ } ++ rofixup->reloc_count++; ++ ++ if (entry && entry->symndx) ++ { ++ /* See discussion about symndx == 0 in _ubicom32fdpic_add_dyn_reloc ++ above. */ ++ BFD_ASSERT (entry->fixups > 0); ++ entry->fixups--; ++ } ++ ++ return fixup_offset; ++} ++ ++/* Find the segment number in which OSEC, and output section, is ++ located. */ ++ ++static unsigned ++ubicom32fdpic_osec_to_segment (bfd *output_bfd, asection *osec) ++{ ++ Elf_Internal_Phdr *p = _bfd_elf_find_segment_containing_section (output_bfd, osec); ++ ++ return (p != NULL) ? p - elf_tdata (output_bfd)->phdr : -1; ++} ++ ++inline static bfd_boolean ++ubicom32fdpic_osec_readonly_p (bfd *output_bfd, asection *osec) ++{ ++ unsigned seg = ubicom32fdpic_osec_to_segment (output_bfd, osec); ++ ++ return ! (elf_tdata (output_bfd)->phdr[seg].p_flags & PF_W); ++} ++ ++#if 0 ++static bfd_vma plt_trampoline[] = { ++ 0x00002400, //ret (a0) ++}; ++#endif ++ ++/* Generate relocations for GOT entries, function descriptors, and ++ code for PLT and lazy PLT entries. */ ++ ++static bfd_boolean ++ubicom32fdpic_emit_got_relocs_plt_entries (struct ubicom32fdpic_relocs_info *entry, ++ bfd *output_bfd, ++ struct bfd_link_info *info, ++ asection *sec, ++ Elf_Internal_Sym *sym, ++ bfd_vma addend) ++ ++{ ++ bfd_vma fd_lazy_rel_offset = (bfd_vma)-1; ++ int dynindx = -1; ++ ++ if (entry->done) ++ return TRUE; ++ entry->done = 1; ++ ++ if (entry->got_entry || entry->fdgot_entry || entry->fd_entry) ++ { ++ DPRINTF(" emit %p got %d fdgot %d fd %d addend %d\n", entry, entry->got_entry, entry->fdgot_entry, entry->fd_entry, addend); ++ /* If the symbol is dynamic, consider it for dynamic ++ relocations, otherwise decay to section + offset. */ ++ if (entry->symndx == -1 && entry->d.h->dynindx != -1) ++ dynindx = entry->d.h->dynindx; ++ else ++ { ++ if (sec->output_section ++ && ! bfd_is_abs_section (sec->output_section) ++ && ! bfd_is_und_section (sec->output_section)) ++ dynindx = elf_section_data (sec->output_section)->dynindx; ++ else ++ dynindx = 0; ++ } ++ } ++ ++ /* Generate relocation for GOT entry pointing to the symbol. */ ++ if (entry->got_entry) ++ { ++ DPRINTF(" emit got entry %d:%p\n", entry->got_entry, entry); ++ ++ int idx = dynindx; ++ bfd_vma ad = addend; ++ ++ /* If the symbol is dynamic but binds locally, use ++ section+offset. */ ++ if (sec && (entry->symndx != -1 ++ || UBICOM32FDPIC_SYM_LOCAL (info, entry->d.h))) ++ { ++ if (entry->symndx == -1) ++ ad += entry->d.h->root.u.def.value; ++ else ++ ad += sym->st_value; ++ ad += sec->output_offset; ++ if (sec->output_section && elf_section_data (sec->output_section)) ++ idx = elf_section_data (sec->output_section)->dynindx; ++ else ++ idx = 0; ++ } ++ ++ /* If we're linking an executable at a fixed address, we can ++ omit the dynamic relocation as long as the symbol is local to ++ this module. */ ++ if (info->executable && !info->pie ++ && (entry->symndx != -1 ++ || UBICOM32FDPIC_SYM_LOCAL (info, entry->d.h))) ++ { ++ if (sec) ++ ad += sec->output_section->vma; ++ if (entry->symndx != -1 ++ || entry->d.h->root.type != bfd_link_hash_undefweak) ++ ubicom32fdpic_add_rofixup (output_bfd, ++ ubicom32fdpic_gotfixup_section (info), ++ ubicom32fdpic_got_section (info)->output_section->vma ++ + ubicom32fdpic_got_section (info)->output_offset ++ + ubicom32fdpic_got_initial_offset (info) ++ + entry->got_entry, entry); ++ } ++ else ++ ubicom32fdpic_add_dyn_reloc (output_bfd, ubicom32fdpic_gotrel_section (info), ++ _bfd_elf_section_offset ++ (output_bfd, info, ++ ubicom32fdpic_got_section (info), ++ ubicom32fdpic_got_initial_offset (info) ++ + entry->got_entry) ++ + ubicom32fdpic_got_section (info) ++ ->output_section->vma ++ + ubicom32fdpic_got_section (info)->output_offset, ++ R_UBICOM32_32, idx, ad, entry); ++ ++ bfd_put_32 (output_bfd, ad, ++ ubicom32fdpic_got_section (info)->contents ++ + ubicom32fdpic_got_initial_offset (info) ++ + entry->got_entry); ++ } ++ ++ /* Generate relocation for GOT entry pointing to a canonical ++ function descriptor. */ ++ if (entry->fdgot_entry) ++ { ++ DPRINTF(" emit got fdgot entry %d:%p\n", entry->fdgot_entry, entry); ++ ++ int reloc, idx; ++ bfd_vma ad = 0; ++ ++ if (! (entry->symndx == -1 ++ && entry->d.h->root.type == bfd_link_hash_undefweak ++ && UBICOM32FDPIC_SYM_LOCAL (info, entry->d.h))) ++ { ++ /* If the symbol is dynamic and there may be dynamic symbol ++ resolution because we are, or are linked with, a shared ++ library, emit a FUNCDESC relocation such that the dynamic ++ linker will allocate the function descriptor. If the ++ symbol needs a non-local function descriptor but binds ++ locally (e.g., its visibility is protected, emit a ++ dynamic relocation decayed to section+offset. */ ++ if (entry->symndx == -1 ++ && ! UBICOM32FDPIC_FUNCDESC_LOCAL (info, entry->d.h) ++ && UBICOM32FDPIC_SYM_LOCAL (info, entry->d.h) ++ && !(info->executable && !info->pie)) ++ { ++ reloc = R_UBICOM32_FUNCDESC; ++ idx = elf_section_data (entry->d.h->root.u.def.section ++ ->output_section)->dynindx; ++ ad = entry->d.h->root.u.def.section->output_offset ++ + entry->d.h->root.u.def.value; ++ } ++ else if (entry->symndx == -1 ++ && ! UBICOM32FDPIC_FUNCDESC_LOCAL (info, entry->d.h)) ++ { ++ reloc = R_UBICOM32_FUNCDESC; ++ idx = dynindx; ++ ad = addend; ++ if (ad) ++ return FALSE; ++ } ++ else ++ { ++ /* Otherwise, we know we have a private function descriptor, ++ so reference it directly. */ ++ if (elf_hash_table (info)->dynamic_sections_created) ++ BFD_ASSERT (entry->privfd); ++ reloc = R_UBICOM32_32; ++ idx = elf_section_data (ubicom32fdpic_got_section (info) ++ ->output_section)->dynindx; ++ ad = ubicom32fdpic_got_section (info)->output_offset ++ + ubicom32fdpic_got_initial_offset (info) + entry->fd_entry; ++ } ++ ++ /* If there is room for dynamic symbol resolution, emit the ++ dynamic relocation. However, if we're linking an ++ executable at a fixed location, we won't have emitted a ++ dynamic symbol entry for the got section, so idx will be ++ zero, which means we can and should compute the address ++ of the private descriptor ourselves. */ ++ if (info->executable && !info->pie ++ && (entry->symndx != -1 ++ || UBICOM32FDPIC_FUNCDESC_LOCAL (info, entry->d.h))) ++ { ++ ad += ubicom32fdpic_got_section (info)->output_section->vma; ++ ubicom32fdpic_add_rofixup (output_bfd, ++ ubicom32fdpic_gotfixup_section (info), ++ ubicom32fdpic_got_section (info) ++ ->output_section->vma ++ + ubicom32fdpic_got_section (info) ++ ->output_offset ++ + ubicom32fdpic_got_initial_offset (info) ++ + entry->fdgot_entry, entry); ++ } ++ else ++ ubicom32fdpic_add_dyn_reloc (output_bfd, ++ ubicom32fdpic_gotrel_section (info), ++ _bfd_elf_section_offset ++ (output_bfd, info, ++ ubicom32fdpic_got_section (info), ++ ubicom32fdpic_got_initial_offset (info) ++ + entry->fdgot_entry) ++ + ubicom32fdpic_got_section (info) ++ ->output_section->vma ++ + ubicom32fdpic_got_section (info) ++ ->output_offset, ++ reloc, idx, ad, entry); ++ } ++ ++ bfd_put_32 (output_bfd, ad, ++ ubicom32fdpic_got_section (info)->contents ++ + ubicom32fdpic_got_initial_offset (info) ++ + entry->fdgot_entry); ++ } ++ ++ /* Generate relocation to fill in a private function descriptor in ++ the GOT. */ ++ if (entry->fd_entry) ++ { ++ ++ int idx = dynindx; ++ bfd_vma ad = addend; ++ bfd_vma ofst; ++ long lowword, highword; ++ ++ /* If the symbol is dynamic but binds locally, use ++ section+offset. */ ++ if (sec && (entry->symndx != -1 ++ || UBICOM32FDPIC_SYM_LOCAL (info, entry->d.h))) ++ { ++ if (entry->symndx == -1) ++ ad += entry->d.h->root.u.def.value; ++ else ++ ad += sym->st_value; ++ ad += sec->output_offset; ++ if (sec->output_section && elf_section_data (sec->output_section)) ++ idx = elf_section_data (sec->output_section)->dynindx; ++ else ++ idx = 0; ++ } ++ ++ /* If we're linking an executable at a fixed address, we can ++ omit the dynamic relocation as long as the symbol is local to ++ this module. */ ++ if (info->executable && !info->pie ++ && (entry->symndx != -1 || UBICOM32FDPIC_SYM_LOCAL (info, entry->d.h))) ++ { ++ if (sec) ++ ad += sec->output_section->vma; ++ ofst = 0; ++ if (entry->symndx != -1 ++ || entry->d.h->root.type != bfd_link_hash_undefweak) ++ { ++ ubicom32fdpic_add_rofixup (output_bfd, ++ ubicom32fdpic_gotfixup_section (info), ++ ubicom32fdpic_got_section (info) ++ ->output_section->vma ++ + ubicom32fdpic_got_section (info) ++ ->output_offset ++ + ubicom32fdpic_got_initial_offset (info) ++ + entry->fd_entry, entry); ++ ubicom32fdpic_add_rofixup (output_bfd, ++ ubicom32fdpic_gotfixup_section (info), ++ ubicom32fdpic_got_section (info) ++ ->output_section->vma ++ + ubicom32fdpic_got_section (info) ++ ->output_offset ++ + ubicom32fdpic_got_initial_offset (info) ++ + entry->fd_entry + 4, entry); ++ } ++ } ++ else ++ { ++ ofst ++ = ubicom32fdpic_add_dyn_reloc (output_bfd, ++ entry->lazyplt ++ ? ubicom32fdpic_pltrel_section (info) ++ : ubicom32fdpic_gotrel_section (info), ++ _bfd_elf_section_offset ++ (output_bfd, info, ++ ubicom32fdpic_got_section (info), ++ ubicom32fdpic_got_initial_offset (info) ++ + entry->fd_entry) ++ + ubicom32fdpic_got_section (info) ++ ->output_section->vma ++ + ubicom32fdpic_got_section (info) ++ ->output_offset, ++ R_UBICOM32_FUNCDESC_VALUE, idx, ad, entry); ++ } ++ ++ /* If we've omitted the dynamic relocation, just emit the fixed ++ addresses of the symbol and of the local GOT base offset. */ ++ if (info->executable && !info->pie && sec && sec->output_section) ++ { ++ lowword = ad; ++ highword = ubicom32fdpic_got_section (info)->output_section->vma ++ + ubicom32fdpic_got_section (info)->output_offset ++ + ubicom32fdpic_got_initial_offset (info); ++ } ++ else if (entry->lazyplt) ++ { ++ if (ad) ++ return FALSE; ++ ++ fd_lazy_rel_offset = ofst; ++ ++ /* A function descriptor used for lazy or local resolving is ++ initialized such that its high word contains the output ++ section index in which the PLT entries are located, and ++ the low word contains the address to the base of the PLT. ++ That location contains the PLT trampoline instruction ret 0(a0). ++ assigned to that section. */ ++ lowword = ubicom32fdpic_plt_section (info)->output_offset ++ + ubicom32fdpic_plt_section (info)->output_section->vma + entry->plt_trampoline_entry; ++ highword = ubicom32fdpic_osec_to_segment ++ (output_bfd, ubicom32fdpic_plt_section (info)->output_section); ++ } ++ else ++ { ++ /* A function descriptor for a local function gets the index ++ of the section. For a non-local function, it's ++ disregarded. */ ++ lowword = ad; ++ if (entry->symndx == -1 && entry->d.h->dynindx != -1 ++ && entry->d.h->dynindx == idx) ++ highword = 0; ++ else ++ highword = ubicom32fdpic_osec_to_segment ++ (output_bfd, sec->output_section); ++ } ++ ++ DPRINTF(" emit got fd_entry %d:%p lw 0x%x hw 0x%x fd_l_r_off 0x%x\n", entry->fd_entry, entry, lowword, highword, fd_lazy_rel_offset); ++ ++ ++ bfd_put_32 (output_bfd, lowword, ++ ubicom32fdpic_got_section (info)->contents ++ + ubicom32fdpic_got_initial_offset (info) ++ + entry->fd_entry); ++ bfd_put_32 (output_bfd, highword, ++ ubicom32fdpic_got_section (info)->contents ++ + ubicom32fdpic_got_initial_offset (info) ++ + entry->fd_entry + 4); ++ ++#if 0 ++ /* Load the fixup offset here. */ ++ bfd_put_32 (output_bfd, fd_lazy_rel_offset, ++ ubicom32fdpic_got_section (info)->contents ++ + ubicom32fdpic_got_initial_offset (info) ++ + entry->fd_entry + 8); ++#endif ++ ++ entry->rel_offset = fd_lazy_rel_offset; ++ } ++ ++ /* Generate code for the PLT entry. */ ++ if (entry->plt_entry != (bfd_vma) -1) ++ { ++ static output_trampoline_code = 1; ++ bfd_byte *plt_output_code = ubicom32fdpic_plt_section (info)->contents; ++ int i; ++ bfd_vma *plt_code; ++ ++ DPRINTF(" emit fd entry %x:%p plt=%2x code=%p\n", entry->fd_entry, entry, entry->plt_entry, plt_output_code); ++ ++#if 0 ++ if (output_trampoline_code) ++ { ++ /* output the trampoline code.*/ ++ bfd_put_32 (output_bfd, plt_trampoline[0], plt_output_code); ++ } ++#endif ++ ++ /* output the trampoline entry. */ ++ ++ plt_output_code += entry->plt_trampoline_entry; ++ plt_code = plt_trampoline; ++ plt_code[0] = (plt_code[0] & 0xFFFF0000) | (entry->rel_offset &0xffff); ++ bfd_put_32 (output_bfd, plt_code[0], plt_output_code); ++ bfd_put_32 (output_bfd, plt_code[1], plt_output_code + 4); ++ ++ ++ /* output the plt itself. */ ++ plt_output_code = ubicom32fdpic_plt_section (info)->contents; ++ plt_output_code += entry->plt_entry; ++ BFD_ASSERT (entry->fd_entry); ++ ++ if (entry->plt_type == 2) ++ { ++ bfd_vma data_lo = (entry->fd_entry >> 2) & 0xff; ++ ++ /* Output seqence 2. */ ++ plt_code = plt_code_seq2; ++ ++ /* Code the entry into the PDEC instruction. */ ++ plt_code[0] &= 0xFFFFF8E0; ++ plt_code[0] |= (data_lo & 0x1F); ++ plt_code[0] |= (data_lo & 0xE0) << 3; ++ ++ /* Write out the sequence. */ ++ for (i = 0; i < NUM_PLT_CODE_WORDS_SEQ2; i++) ++ { ++ bfd_put_32 (output_bfd, plt_code[i], plt_output_code); ++ plt_output_code += 4; ++ } ++ } ++ else if (entry->plt_type == 1) ++ { ++ /* Outupt sequence 1 */ ++ plt_code = plt_code_seq1; ++ ++ /* Code the entry into the movei instruction. */ ++ plt_code[0] = (plt_code[0] & 0xFFFF0000) | ((entry->fd_entry >> 2) & 0xFFFF); ++ ++ /* Write out the sequence. */ ++ for (i = 0; i < NUM_PLT_CODE_WORDS_SEQ1; i++) ++ { ++ bfd_put_32 (output_bfd, plt_code[i], plt_output_code); ++ plt_output_code += 4; ++ } ++ } ++ else ++ BFD_ASSERT(0); ++ ++#if 0 ++ /* We have to output 5 words. The very first movei has to be modified with whatever is in fd_entry. */ ++ plt_code[0] = (plt_code[0] & 0xFFFF0000) | ((entry->fd_entry >> 2) & 0xFFFF); ++ ++ for (i = 0; i < NUM_PLT_CODE_WORDS; i++) ++ { ++ bfd_put_32 (output_bfd, plt_code[i], plt_output_code); ++ plt_output_code += 4; ++ } ++#endif ++ } ++ ++ return TRUE; ++} ++ ++ ++/* Create a .got section, as well as its additional info field. This ++ is almost entirely copied from ++ elflink.c:_bfd_elf_create_got_section(). */ ++ ++static bfd_boolean ++ubicom32fdpic_elf_create_got_section (bfd *abfd, struct bfd_link_info *info) ++{ ++ flagword flags, pltflags; ++ asection *s; ++ struct elf_link_hash_entry *h; ++ const struct elf_backend_data *bed = get_elf_backend_data (abfd); ++ int ptralign; ++ int offset; ++ ++ /* This function may be called more than once. */ ++ s = bfd_get_section_by_name (abfd, ".got"); ++ if (s != NULL && (s->flags & SEC_LINKER_CREATED) != 0) ++ return TRUE; ++ ++ /* Machine specific: although pointers are 32-bits wide, we want the ++ GOT to be aligned to a 64-bit boundary, such that function ++ descriptors in it can be accessed with 64-bit loads and ++ stores. */ ++ ptralign = 3; ++ ++ flags = (SEC_ALLOC | SEC_LOAD | SEC_HAS_CONTENTS | SEC_IN_MEMORY ++ | SEC_LINKER_CREATED); ++ pltflags = flags; ++ ++ s = bfd_make_section_with_flags (abfd, ".got", flags); ++ if (s == NULL ++ || !bfd_set_section_alignment (abfd, s, ptralign)) ++ return FALSE; ++ ++ if (bed->want_got_plt) ++ { ++ s = bfd_make_section_with_flags (abfd, ".got.plt", flags); ++ if (s == NULL ++ || !bfd_set_section_alignment (abfd, s, ptralign)) ++ return FALSE; ++ } ++ ++ if (bed->want_got_sym) ++ { ++ /* Define the symbol _GLOBAL_OFFSET_TABLE_ at the start of the .got ++ (or .got.plt) section. We don't do this in the linker script ++ because we don't want to define the symbol if we are not creating ++ a global offset table. */ ++ h = _bfd_elf_define_linkage_sym (abfd, info, s, "_GLOBAL_OFFSET_TABLE_"); ++ elf_hash_table (info)->hgot = h; ++ if (h == NULL) ++ return FALSE; ++ ++ /* Machine-specific: we want the symbol for executables as ++ well. */ ++ if (! bfd_elf_link_record_dynamic_symbol (info, h)) ++ return FALSE; ++ } ++ ++ /* The first bit of the global offset table is the header. */ ++ s->size += bed->got_header_size; ++ ++ /* This is the machine-specific part. Create and initialize section ++ data for the got. */ ++ if (IS_FDPIC (abfd)) ++ { ++ ubicom32fdpic_got_section (info) = s; ++ ubicom32fdpic_relocs_info (info) = htab_try_create (1, ++ ubicom32fdpic_relocs_info_hash, ++ ubicom32fdpic_relocs_info_eq, ++ (htab_del) NULL); ++ if (! ubicom32fdpic_relocs_info (info)) ++ return FALSE; ++ ++ s = bfd_make_section_with_flags (abfd, ".rel.got", ++ (flags | SEC_READONLY)); ++ if (s == NULL ++ || ! bfd_set_section_alignment (abfd, s, 2)) ++ return FALSE; ++ ++ ubicom32fdpic_gotrel_section (info) = s; ++ ++ /* Machine-specific. */ ++ s = bfd_make_section_with_flags (abfd, ".rofixup", ++ (flags | SEC_READONLY)); ++ if (s == NULL ++ || ! bfd_set_section_alignment (abfd, s, 2)) ++ return FALSE; ++ ++ ubicom32fdpic_gotfixup_section (info) = s; ++ offset = -2048; ++ flags = BSF_GLOBAL; ++ } ++ else ++ { ++ offset = 2048; ++ flags = BSF_GLOBAL | BSF_WEAK; ++ } ++ ++ return TRUE; ++} ++ ++/* Make sure the got and plt sections exist, and that our pointers in ++ the link hash table point to them. */ ++ ++static bfd_boolean ++ubicom32fdpic_elf_create_dynamic_sections (bfd *abfd, struct bfd_link_info *info) ++{ flagword flags, pltflags; ++ asection *s; ++ const struct elf_backend_data *bed = get_elf_backend_data (abfd); ++ ++ /* We need to create .plt, .rel[a].plt, .got, .got.plt, .dynbss, and ++ .rel[a].bss sections. */ ++ DPRINTF(" ubicom32fdpic_elf_create_dynamic_sections %p %p\n", abfd, info); ++ ++ flags = (SEC_ALLOC | SEC_LOAD | SEC_HAS_CONTENTS | SEC_IN_MEMORY ++ | SEC_LINKER_CREATED); ++ ++ pltflags = flags; ++ pltflags |= SEC_CODE; ++ if (bed->plt_not_loaded) ++ pltflags &= ~ (SEC_CODE | SEC_LOAD | SEC_HAS_CONTENTS); ++ if (bed->plt_readonly) ++ pltflags |= SEC_READONLY; ++ ++ s = bfd_make_section_with_flags (abfd, ".plt", pltflags); ++ if (s == NULL ++ || ! bfd_set_section_alignment (abfd, s, bed->plt_alignment)) ++ return FALSE; ++ /* Blackfin-specific: remember it. */ ++ ubicom32fdpic_plt_section (info) = s; ++ ++ if (bed->want_plt_sym) ++ { ++ /* Define the symbol _PROCEDURE_LINKAGE_TABLE_ at the start of the ++ .plt section. */ ++ struct elf_link_hash_entry *h; ++ struct bfd_link_hash_entry *bh = NULL; ++ ++ if (! (_bfd_generic_link_add_one_symbol ++ (info, abfd, "_PROCEDURE_LINKAGE_TABLE_", BSF_GLOBAL, s, 0, NULL, ++ FALSE, get_elf_backend_data (abfd)->collect, &bh))) ++ return FALSE; ++ h = (struct elf_link_hash_entry *) bh; ++ h->def_regular = 1; ++ h->type = STT_OBJECT; ++ ++ if (! info->executable ++ && ! bfd_elf_link_record_dynamic_symbol (info, h)) ++ return FALSE; ++ } ++ ++ /* Blackfin-specific: we want rel relocations for the plt. */ ++ s = bfd_make_section_with_flags (abfd, ".rel.plt", flags | SEC_READONLY); ++ if (s == NULL ++ || ! bfd_set_section_alignment (abfd, s, bed->s->log_file_align)) ++ return FALSE; ++ /* Blackfin-specific: remember it. */ ++ ubicom32fdpic_pltrel_section (info) = s; ++ ++ /* Blackfin-specific: we want to create the GOT in the Blackfin way. */ ++ if (! ubicom32fdpic_elf_create_got_section (abfd, info)) ++ return FALSE; ++ ++ /* Blackfin-specific: make sure we created everything we wanted. */ ++ BFD_ASSERT (ubicom32fdpic_got_section (info) && ubicom32fdpic_gotrel_section (info) ++ /* && ubicom32fdpic_gotfixup_section (info) */ ++ && ubicom32fdpic_plt_section (info) ++ && ubicom32fdpic_pltrel_section (info)); ++ ++ if (bed->want_dynbss) ++ { ++ /* The .dynbss section is a place to put symbols which are defined ++ by dynamic objects, are referenced by regular objects, and are ++ not functions. We must allocate space for them in the process ++ image and use a R_*_COPY reloc to tell the dynamic linker to ++ initialize them at run time. The linker script puts the .dynbss ++ section into the .bss section of the final image. */ ++ s = bfd_make_section_with_flags (abfd, ".dynbss", ++ SEC_ALLOC | SEC_LINKER_CREATED); ++ if (s == NULL) ++ return FALSE; ++ ++ /* The .rel[a].bss section holds copy relocs. This section is not ++ normally needed. We need to create it here, though, so that the ++ linker will map it to an output section. We can't just create it ++ only if we need it, because we will not know whether we need it ++ until we have seen all the input files, and the first time the ++ main linker code calls BFD after examining all the input files ++ (size_dynamic_sections) the input sections have already been ++ mapped to the output sections. If the section turns out not to ++ be needed, we can discard it later. We will never need this ++ section when generating a shared object, since they do not use ++ copy relocs. */ ++ if (! info->shared) ++ { ++ s = bfd_make_section_with_flags (abfd, ++ (bed->default_use_rela_p ++ ? ".rela.bss" : ".rel.bss"), ++ flags | SEC_READONLY); ++ if (s == NULL ++ || ! bfd_set_section_alignment (abfd, s, bed->s->log_file_align)) ++ return FALSE; ++ } ++ } ++ ++ return TRUE; ++} ++ ++/* We need dynamic symbols for every section, since segments can ++ relocate independently. */ ++static bfd_boolean ++ubicom32fdpic_elf_link_omit_section_dynsym (bfd *output_bfd ATTRIBUTE_UNUSED, ++ struct bfd_link_info *info ++ ATTRIBUTE_UNUSED, ++ asection *p ATTRIBUTE_UNUSED) ++{ ++ switch (elf_section_data (p)->this_hdr.sh_type) ++ { ++ case SHT_PROGBITS: ++ case SHT_NOBITS: ++ /* If sh_type is yet undecided, assume it could be ++ SHT_PROGBITS/SHT_NOBITS. */ ++ case SHT_NULL: ++ return FALSE; ++ ++ /* There shouldn't be section relative relocations ++ against any other section. */ ++ default: ++ return TRUE; ++ } ++} ++ ++/* Look through the relocs for a section during the first phase. ++ ++ Besides handling virtual table relocs for gc, we have to deal with ++ all sorts of PIC-related relocations. We describe below the ++ general plan on how to handle such relocations, even though we only ++ collect information at this point, storing them in hash tables for ++ perusal of later passes. ++ ++*/ ++static bfd_boolean ++ubicom32fdpic_elf_check_relocs (bfd *abfd, struct bfd_link_info *info, ++ asection *sec, const Elf_Internal_Rela *relocs) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ struct elf_link_hash_entry **sym_hashes, **sym_hashes_end; ++ const Elf_Internal_Rela *rel; ++ const Elf_Internal_Rela *rel_end; ++ bfd *dynobj; ++ struct ubicom32fdpic_relocs_info *picrel; ++ ++ if (info->relocatable) ++ return TRUE; ++ ++ symtab_hdr = &elf_tdata (abfd)->symtab_hdr; ++ sym_hashes = elf_sym_hashes (abfd); ++ sym_hashes_end = sym_hashes + symtab_hdr->sh_size/sizeof(Elf32_External_Sym); ++ if (!elf_bad_symtab (abfd)) ++ sym_hashes_end -= symtab_hdr->sh_info; ++ ++ dynobj = elf_hash_table (info)->dynobj; ++ rel_end = relocs + sec->reloc_count; ++ for (rel = relocs; rel < rel_end; rel++) ++ { ++ struct elf_link_hash_entry *h; ++ unsigned long r_symndx; ++ ++ r_symndx = ELF32_R_SYM (rel->r_info); ++ if (r_symndx < symtab_hdr->sh_info) ++ h = NULL; ++ else ++ h = sym_hashes[r_symndx - symtab_hdr->sh_info]; ++ ++ switch (ELF32_R_TYPE (rel->r_info)) ++ { ++ case R_UBICOM32_GOTOFFSET_HI: ++ case R_UBICOM32_GOTOFFSET_LO: ++ case R_UBICOM32_FUNCDESC_GOTOFFSET_HI: ++ case R_UBICOM32_FUNCDESC_GOTOFFSET_LO: ++ case R_UBICOM32_FUNCDESC: ++ case R_UBICOM32_FUNCDESC_VALUE: ++ if (! IS_FDPIC (abfd)) ++ goto bad_reloc; ++ /* Fall through. */ ++ case R_UBICOM32_24_PCREL: ++ case R_UBICOM32_32: ++ if (IS_FDPIC (abfd) && ! dynobj) ++ { ++ elf_hash_table (info)->dynobj = dynobj = abfd; ++ if (! ubicom32fdpic_elf_create_got_section (abfd, info)) ++ return FALSE; ++ } ++ if (! IS_FDPIC (abfd)) ++ { ++ picrel = NULL; ++ break; ++ } ++ if (h != NULL) ++ { ++ if (h->dynindx == -1) ++ switch (ELF_ST_VISIBILITY (h->other)) ++ { ++ case STV_INTERNAL: ++ case STV_HIDDEN: ++ break; ++ default: ++ bfd_elf_link_record_dynamic_symbol (info, h); ++ break; ++ } ++ picrel ++ = ubicom32fdpic_relocs_info_for_global (ubicom32fdpic_relocs_info (info), ++ abfd, h, ++ rel->r_addend, INSERT); ++ } ++ else ++ picrel = ubicom32fdpic_relocs_info_for_local (ubicom32fdpic_relocs_info (info), ++ abfd, r_symndx, ++ rel->r_addend, INSERT); ++ if (! picrel) ++ return FALSE; ++ break; ++ ++ default: ++ picrel = NULL; ++ break; ++ } ++ ++ switch (ELF32_R_TYPE (rel->r_info)) ++ { ++ case R_UBICOM32_24_PCREL: ++ if (IS_FDPIC (abfd)) ++ picrel->call++; ++ break; ++ ++ case R_UBICOM32_FUNCDESC_VALUE: ++ picrel->relocsfdv++; ++ picrel->sym++; ++ break; ++ ++ case R_UBICOM32_32: ++ if (! IS_FDPIC (abfd)) ++ break; ++ ++ picrel->sym++; ++ if (bfd_get_section_flags (abfd, sec) & SEC_ALLOC) ++ picrel->relocs32++; ++ break; ++ ++ case R_UBICOM32_GOTOFFSET_HI: ++ picrel->gotoffset_hi++; ++ break; ++ ++ case R_UBICOM32_GOTOFFSET_LO: ++ picrel->gotoffset_lo++; ++ break; ++ ++ case R_UBICOM32_FUNCDESC_GOTOFFSET_HI: ++ picrel->fd_gotoffset_hi++; ++ break; ++ ++ case R_UBICOM32_FUNCDESC_GOTOFFSET_LO: ++ picrel->fd_gotoffset_lo++; ++ break; ++ ++ case R_UBICOM32_FUNCDESC: ++ picrel->fd++; ++ picrel->relocsfd++; ++ break; ++ ++ /* This relocation describes the C++ object vtable hierarchy. ++ Reconstruct it for later use during GC. */ ++ case R_UBICOM32_GNU_VTINHERIT: ++ if (!bfd_elf_gc_record_vtinherit (abfd, sec, h, rel->r_offset)) ++ return FALSE; ++ break; ++ ++ /* This relocation describes which C++ vtable entries are actually ++ used. Record for later use during GC. */ ++ case R_UBICOM32_GNU_VTENTRY: ++ if (!bfd_elf_gc_record_vtentry (abfd, sec, h, rel->r_addend)) ++ return FALSE; ++ break; ++ ++ case R_UBICOM32_21_PCREL: ++ case R_UBICOM32_HI24: ++ case R_UBICOM32_LO7_S: ++ break; ++ ++ default: ++ bad_reloc: ++ (*_bfd_error_handler) ++ (_("%B: unsupported (ubicom32) relocation type %i"), ++ abfd, ELF32_R_TYPE (rel->r_info)); ++ return FALSE; ++ } ++ } ++ ++ return TRUE; ++} ++ ++/* Follow indirect and warning hash entries so that each got entry ++ points to the final symbol definition. P must point to a pointer ++ to the hash table we're traversing. Since this traversal may ++ modify the hash table, we set this pointer to NULL to indicate ++ we've made a potentially-destructive change to the hash table, so ++ the traversal must be restarted. */ ++static int ++ubicom32fdpic_resolve_final_relocs_info (void **entryp, void *p) ++{ ++ struct ubicom32fdpic_relocs_info *entry = *entryp; ++ htab_t *htab = p; ++ ++ if (entry->symndx == -1) ++ { ++ struct elf_link_hash_entry *h = entry->d.h; ++ struct ubicom32fdpic_relocs_info *oentry; ++ ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ if (entry->d.h == h) ++ return 1; ++ ++ oentry = ubicom32fdpic_relocs_info_for_global (*htab, 0, h, entry->addend, ++ NO_INSERT); ++ ++ if (oentry) ++ { ++ /* Merge the two entries. */ ++ ubicom32fdpic_pic_merge_early_relocs_info (oentry, entry); ++ htab_clear_slot (*htab, entryp); ++ return 1; ++ } ++ ++ entry->d.h = h; ++ ++ /* If we can't find this entry with the new bfd hash, re-insert ++ it, and get the traversal restarted. */ ++ if (! htab_find (*htab, entry)) ++ { ++ htab_clear_slot (*htab, entryp); ++ entryp = htab_find_slot (*htab, entry, INSERT); ++ if (! *entryp) ++ *entryp = entry; ++ /* Abort the traversal, since the whole table may have ++ moved, and leave it up to the parent to restart the ++ process. */ ++ *(htab_t *)p = NULL; ++ return 0; ++ } ++ } ++ ++ return 1; ++} ++ ++/* Assign GOT offsets to private function descriptors used by PLT ++ entries (or referenced by 32-bit offsets), as well as PLT entries ++ and lazy PLT entries. */ ++static int ++ubicom32fdpic_assign_plt_entries (void **entryp, void *info_) ++{ ++ struct ubicom32fdpic_relocs_info *entry = *entryp; ++ struct ubicom32fdpic_dynamic_got_plt_info *dinfo = info_; ++ ++ if (entry->privfd && entry->fd_entry == 0) ++ { ++ // dinfo->current_fd -= FUNCTION_DESCRIPTOR_SIZE; ++ // entry->fd_entry = dinfo->current_fd; ++ DPRINTF(" late assign fd % 5d:%p \n", entry->fd_entry, entry); ++ } ++ ++ if (entry->plt) ++ { ++ /* We use the section's raw size to mark the location of the ++ next PLT entry. */ ++ entry->plt_entry = dinfo->current_plt; ++ entry->plt_trampoline_entry = dinfo->current_plt_trampoline; ++ dinfo->current_plt_trampoline += PLT_TRAMPOLINE_SIZE; ++ ++ if (entry->fd_entry >= (-512)) ++ { ++ /* This entry is going to be of type seq2 */ ++ dinfo->current_plt += LZPLT_SIZE_SEQ2; ++ entry->plt_type = 2; ++ } ++ else ++ { ++ /* This entry is going to be of type seq1 */ ++ dinfo->current_plt += LZPLT_SIZE_SEQ1; ++ entry->plt_type = 1; ++ } ++ DPRINTF(" assign plt % 4d for fd=% 4d:%p next %d plttype %d\n", entry->plt_entry, entry->fd_entry, entry, dinfo->current_plt, entry->plt_type); ++ ++ } ++ ++ return 1; ++} ++ ++/* Assign GOT offsets for every GOT entry and function descriptor. ++ Doing everything in a single pass is tricky. */ ++static int ++ubicom32fdpic_assign_got_entries (void **entryp, void *info_) ++{ ++ struct ubicom32fdpic_relocs_info *entry = *entryp; ++ struct ubicom32fdpic_dynamic_got_plt_info *dinfo = info_; ++ ++ if (entry->gotoffset_lo || entry->gotoffset_hi) ++ { ++ entry->got_entry = dinfo->current_got; ++ DPRINTF(" assign got % 5d:%p \n", entry->got_entry, entry); ++ dinfo->current_got += 4; ++ } ++ ++ if (entry->fd_gotoffset_lo || entry->fd_gotoffset_hi) ++ { ++ entry->fdgot_entry = dinfo->current_got; ++ DPRINTF(" assign fdgot % 5d:%p \n", entry->fdgot_entry, entry); ++ dinfo->current_got += 4; ++ } ++ ++ if (entry->plt) ++ { ++ dinfo->current_fd -= FUNCTION_DESCRIPTOR_SIZE; ++ entry->fd_entry = dinfo->current_fd; ++ ++ dinfo->total_trampoline += PLT_TRAMPOLINE_SIZE; ++ ++ if (entry->fd_entry >= (-512)) ++ { ++ /* This entry is going to be of type seq2 */ ++ dinfo->total_lzplt += LZPLT_SIZE_SEQ2; ++ entry->plt_type = 2; ++ } ++ else ++ { ++ /* This entry is going to be of type seq1 */ ++ dinfo->total_lzplt += LZPLT_SIZE_SEQ1; ++ entry->plt_type = 1; ++ } ++ ++ DPRINTF(" assign fd % 5d:%p \n", entry->fd_entry, entry); ++ } ++ else if (entry->privfd) ++ { ++ dinfo->current_privfd -= FUNCTION_DESCRIPTOR_SIZE; ++ entry->fd_entry = dinfo->current_privfd; ++ DPRINTF(" assign private fd % 5d:%p %p \n", entry->fd_entry, entry, entry->plt); ++ } ++ ++ return 1; ++} ++ ++/* Set the sizes of the dynamic sections. */ ++ ++static bfd_boolean ++ubicom32fdpic_elf_size_dynamic_sections (bfd *output_bfd, ++ struct bfd_link_info *info) ++{ ++ bfd *dynobj; ++ asection *s; ++ struct ubicom32fdpic_dynamic_got_plt_info gpinfo; ++ bfd_vma total_plt_size; ++ ++ dynobj = elf_hash_table (info)->dynobj; ++ BFD_ASSERT (dynobj != NULL); ++ ++ if (elf_hash_table (info)->dynamic_sections_created) ++ { ++ /* Set the contents of the .interp section to the interpreter. */ ++ if (info->executable) ++ { ++ s = bfd_get_section_by_name (dynobj, ".interp"); ++ BFD_ASSERT (s != NULL); ++ s->size = sizeof ELF_DYNAMIC_INTERPRETER; ++ s->contents = (bfd_byte *) ELF_DYNAMIC_INTERPRETER; ++ } ++ } ++ ++ memset (&gpinfo, 0, sizeof (gpinfo)); ++ gpinfo.g.info = info; ++ ++ for (;;) ++ { ++ htab_t relocs = ubicom32fdpic_relocs_info (info); ++ ++ htab_traverse (relocs, ubicom32fdpic_resolve_final_relocs_info, &relocs); ++ ++ if (relocs == ubicom32fdpic_relocs_info (info)) ++ break; ++ } ++ ++ htab_traverse (ubicom32fdpic_relocs_info (info), ubicom32fdpic_count_got_plt_entries, ++ &gpinfo.g); ++ ++ /* At this point we know how many PLT entries we need. We know how many got entries we need and the total number of function descriptors in this link. */ ++ gpinfo.total_fdplt = gpinfo.g.fdplt + gpinfo.g.privfdplt; ++ gpinfo.total_got = gpinfo.g.gotoffset_lo; ++ gpinfo.total_lzplt = 0; ++ ++ gpinfo.current_got = 12; /* The first 12 bytes are reserved to get to resolver. */ ++ gpinfo.current_fd = 0; /* We will decrement this by FUNCTION_DESCRIPTOR_SIZE for each allocation. */ ++ gpinfo.current_privfd = -gpinfo.g.fdplt; /* We will decrement this by FUNCTION_DESCRIPTOR_SIZE for each allocation. */ ++ gpinfo.current_plt = 0; /* Initialize this to 0. The trampoline code is at the start of the plt section. ++ We will decrement this by LZPLT_NORMAL_SIZE each time we allocate. */ ++ gpinfo.current_plt_trampoline = 0; ++ ++ DPRINTF("Total plts = %d \n", gpinfo.g.num_plts); ++ ++ /* Now assign (most) GOT offsets. */ ++ htab_traverse (ubicom32fdpic_relocs_info (info), ubicom32fdpic_assign_got_entries, ++ &gpinfo); ++ ++ ++ ubicom32fdpic_got_section (info)->size = gpinfo.total_fdplt + gpinfo.total_got + 12; ++ ++ DPRINTF("GOT size = fd=%d, got=%d\n", gpinfo.total_fdplt, gpinfo.total_got); ++ ++ if (ubicom32fdpic_got_section (info)->size == 0) ++ ubicom32fdpic_got_section (info)->flags |= SEC_EXCLUDE; ++ else if (ubicom32fdpic_got_section (info)->size == 12 ++ && ! elf_hash_table (info)->dynamic_sections_created) ++ { ++ ubicom32fdpic_got_section (info)->flags |= SEC_EXCLUDE; ++ ubicom32fdpic_got_section (info)->size = 0; ++ } ++ else ++ { ++ DPRINTF(" Alloc GOT size = %d\n", ubicom32fdpic_got_section (info)->size); ++ ubicom32fdpic_got_section (info)->contents = ++ (bfd_byte *) bfd_zalloc (dynobj, ++ ubicom32fdpic_got_section (info)->size); ++ if (ubicom32fdpic_got_section (info)->contents == NULL) ++ return FALSE; ++ } ++ ++ if (elf_hash_table (info)->dynamic_sections_created) ++ /* Subtract the number of lzplt entries, since those will generate ++ relocations in the pltrel section. */ ++ ubicom32fdpic_gotrel_section (info)->size = ++ (gpinfo.g.relocs - gpinfo.g.num_plts) ++ * get_elf_backend_data (output_bfd)->s->sizeof_rel; ++ else ++ BFD_ASSERT (gpinfo.g.relocs == 0); ++ if (ubicom32fdpic_gotrel_section (info)->size == 0) ++ ubicom32fdpic_gotrel_section (info)->flags |= SEC_EXCLUDE; ++ else ++ { ++ ubicom32fdpic_gotrel_section (info)->contents = ++ (bfd_byte *) bfd_zalloc (dynobj, ++ ubicom32fdpic_gotrel_section (info)->size); ++ if (ubicom32fdpic_gotrel_section (info)->contents == NULL) ++ return FALSE; ++ } ++ ++ ubicom32fdpic_gotfixup_section (info)->size = (gpinfo.g.fixups + 1) * 4; ++ if (ubicom32fdpic_gotfixup_section (info)->size == 0) ++ ubicom32fdpic_gotfixup_section (info)->flags |= SEC_EXCLUDE; ++ else ++ { ++ ubicom32fdpic_gotfixup_section (info)->contents = ++ (bfd_byte *) bfd_zalloc (dynobj, ++ ubicom32fdpic_gotfixup_section (info)->size); ++ if (ubicom32fdpic_gotfixup_section (info)->contents == NULL) ++ return FALSE; ++ } ++ ++ if (elf_hash_table (info)->dynamic_sections_created) ++ { ++ ubicom32fdpic_pltrel_section (info)->size = ++ gpinfo.g.num_plts * get_elf_backend_data (output_bfd)->s->sizeof_rel; ++ if (ubicom32fdpic_pltrel_section (info)->size == 0) ++ ubicom32fdpic_pltrel_section (info)->flags |= SEC_EXCLUDE; ++ else ++ { ++ ubicom32fdpic_pltrel_section (info)->contents = ++ (bfd_byte *) bfd_zalloc (dynobj, ++ ubicom32fdpic_pltrel_section (info)->size); ++ if (ubicom32fdpic_pltrel_section (info)->contents == NULL) ++ return FALSE; ++ } ++ } ++ ++ /* The Pltsection is g.lzplt . The 4 is for the trampoline code. */ ++ total_plt_size = gpinfo.total_lzplt + gpinfo.total_trampoline; ++ gpinfo.current_plt_trampoline = gpinfo.total_lzplt; ++ ++ if (elf_hash_table (info)->dynamic_sections_created) ++ { ++ DPRINTF(" PLT size = %d\n", (total_plt_size )); ++ ubicom32fdpic_plt_section (info)->size = (total_plt_size); ++ } ++ ++ /* Save information that we're going to need to generate GOT and PLT ++ entries. */ ++ ubicom32fdpic_got_initial_offset (info) = gpinfo.total_fdplt; ++ ++ if (get_elf_backend_data (output_bfd)->want_got_sym) ++ elf_hash_table (info)->hgot->root.u.def.value ++ += ubicom32fdpic_got_initial_offset (info); ++ ++ /* Allocate the PLT section contents. */ ++ if (elf_hash_table (info)->dynamic_sections_created) ++ { ++ if (ubicom32fdpic_plt_section (info)->size == 4) ++ { ++ ubicom32fdpic_plt_section (info)->flags |= SEC_EXCLUDE; ++ ubicom32fdpic_plt_section (info)->size = 0; ++ } ++ else ++ { ++ DPRINTF(" Alloc PLT size = %d\n", (total_plt_size)); ++ ubicom32fdpic_plt_section (info)->contents = ++ (bfd_byte *) bfd_zalloc (dynobj, ++ ubicom32fdpic_plt_section (info)->size); ++ if (ubicom32fdpic_plt_section (info)->contents == NULL) ++ return FALSE; ++ } ++ } ++ ++ ++ htab_traverse (ubicom32fdpic_relocs_info (info), ubicom32fdpic_assign_plt_entries, ++ &gpinfo); ++ ++ ++ if (elf_hash_table (info)->dynamic_sections_created) ++ { ++ if (ubicom32fdpic_got_section (info)->size) ++ if (!_bfd_elf_add_dynamic_entry (info, DT_PLTGOT, 0)) ++ return FALSE; ++ ++ if (ubicom32fdpic_pltrel_section (info)->size) ++ if (!_bfd_elf_add_dynamic_entry (info, DT_PLTRELSZ, 0) ++ || !_bfd_elf_add_dynamic_entry (info, DT_PLTREL, DT_REL) ++ || !_bfd_elf_add_dynamic_entry (info, DT_JMPREL, 0)) ++ return FALSE; ++ ++ if (ubicom32fdpic_gotrel_section (info)->size) ++ if (!_bfd_elf_add_dynamic_entry (info, DT_REL, 0) ++ || !_bfd_elf_add_dynamic_entry (info, DT_RELSZ, 0) ++ || !_bfd_elf_add_dynamic_entry (info, DT_RELENT, ++ sizeof (Elf32_External_Rel))) ++ return FALSE; ++ } ++ ++ s = bfd_get_section_by_name (dynobj, ".rela.bss"); ++ if (s && s->size == 0) ++ s->flags |= SEC_EXCLUDE; ++ ++ s = bfd_get_section_by_name (dynobj, ".rel.plt"); ++ if (s && s->size == 0) ++ s->flags |= SEC_EXCLUDE; ++ ++ return TRUE; ++} ++ ++ ++/* Adjust a symbol defined by a dynamic object and referenced by a ++ regular object. */ ++ ++static bfd_boolean ++ubicom32fdpic_elf_adjust_dynamic_symbol ++(struct bfd_link_info *info ATTRIBUTE_UNUSED, ++ struct elf_link_hash_entry *h ATTRIBUTE_UNUSED) ++{ ++ bfd * dynobj; ++ ++ dynobj = elf_hash_table (info)->dynobj; ++ ++ /* Make sure we know what is going on here. */ ++ BFD_ASSERT (dynobj != NULL ++ && (h->u.weakdef != NULL ++ || (h->def_dynamic ++ && h->ref_regular ++ && !h->def_regular))); ++ ++ /* If this is a weak symbol, and there is a real definition, the ++ processor independent code will have arranged for us to see the ++ real definition first, and we can just use the same value. */ ++ if (h->u.weakdef != NULL) ++ { ++ BFD_ASSERT (h->u.weakdef->root.type == bfd_link_hash_defined ++ || h->u.weakdef->root.type == bfd_link_hash_defweak); ++ h->root.u.def.section = h->u.weakdef->root.u.def.section; ++ h->root.u.def.value = h->u.weakdef->root.u.def.value; ++ } ++ ++ return TRUE; ++} ++ ++static bfd_boolean ++ubicom32fdpic_elf_always_size_sections (bfd *output_bfd, ++ struct bfd_link_info *info) ++{ ++ if (!info->relocatable) ++ { ++ struct elf_link_hash_entry *h; ++ ++ /* Force a PT_GNU_STACK segment to be created. */ ++ if (! elf_tdata (output_bfd)->stack_flags) ++ elf_tdata (output_bfd)->stack_flags = PF_R | PF_W | PF_X; ++ ++ /* Define __stacksize if it's not defined yet. */ ++ h = elf_link_hash_lookup (elf_hash_table (info), "__stacksize", ++ FALSE, FALSE, FALSE); ++ if (! h || h->root.type != bfd_link_hash_defined ++ || h->type != STT_OBJECT ++ || !h->def_regular) ++ { ++ struct bfd_link_hash_entry *bh = NULL; ++ ++ if (!(_bfd_generic_link_add_one_symbol ++ (info, output_bfd, "__stacksize", ++ BSF_GLOBAL, bfd_abs_section_ptr, DEFAULT_STACK_SIZE, ++ (const char *) NULL, FALSE, ++ get_elf_backend_data (output_bfd)->collect, &bh))) ++ return FALSE; ++ ++ h = (struct elf_link_hash_entry *) bh; ++ h->def_regular = 1; ++ h->type = STT_OBJECT; ++ } ++ } ++ ++ return TRUE; ++} ++ ++static bfd_boolean ++ubicom32fdpic_elf_finish_dynamic_sections (bfd *output_bfd, ++ struct bfd_link_info *info) ++{ ++ bfd *dynobj; ++ asection *sdyn; ++ ++ dynobj = elf_hash_table (info)->dynobj; ++ ++ if (ubicom32fdpic_got_section (info)) ++ { ++ BFD_ASSERT (ubicom32fdpic_gotrel_section (info)->size ++ == (ubicom32fdpic_gotrel_section (info)->reloc_count ++ * sizeof (Elf32_External_Rel))); ++ ++ if (ubicom32fdpic_gotfixup_section (info)) ++ { ++ struct elf_link_hash_entry *hgot = elf_hash_table (info)->hgot; ++ bfd_vma got_value = hgot->root.u.def.value ++ + hgot->root.u.def.section->output_section->vma ++ + hgot->root.u.def.section->output_offset; ++ ++ ubicom32fdpic_add_rofixup (output_bfd, ubicom32fdpic_gotfixup_section (info), ++ got_value, 0); ++ ++ if (ubicom32fdpic_gotfixup_section (info)->size ++ != (ubicom32fdpic_gotfixup_section (info)->reloc_count * 4)) ++ { ++ (*_bfd_error_handler) ++ ("LINKER BUG: .rofixup section size mismatch Size %d, should be %d ", ++ ubicom32fdpic_gotfixup_section (info)->size, ubicom32fdpic_gotfixup_section (info)->reloc_count * 4); ++ return FALSE; ++ } ++ } ++ } ++ if (elf_hash_table (info)->dynamic_sections_created) ++ { ++ BFD_ASSERT (ubicom32fdpic_pltrel_section (info)->size ++ == (ubicom32fdpic_pltrel_section (info)->reloc_count ++ * sizeof (Elf32_External_Rel))); ++ } ++ ++ sdyn = bfd_get_section_by_name (dynobj, ".dynamic"); ++ ++ if (elf_hash_table (info)->dynamic_sections_created) ++ { ++ Elf32_External_Dyn * dyncon; ++ Elf32_External_Dyn * dynconend; ++ ++ BFD_ASSERT (sdyn != NULL); ++ ++ dyncon = (Elf32_External_Dyn *) sdyn->contents; ++ dynconend = (Elf32_External_Dyn *) (sdyn->contents + sdyn->size); ++ ++ for (; dyncon < dynconend; dyncon++) ++ { ++ Elf_Internal_Dyn dyn; ++ ++ bfd_elf32_swap_dyn_in (dynobj, dyncon, &dyn); ++ ++ switch (dyn.d_tag) ++ { ++ default: ++ break; ++ ++ case DT_PLTGOT: ++ dyn.d_un.d_ptr = ubicom32fdpic_got_section (info)->output_section->vma ++ + ubicom32fdpic_got_section (info)->output_offset ++ + ubicom32fdpic_got_initial_offset (info); ++ bfd_elf32_swap_dyn_out (output_bfd, &dyn, dyncon); ++ break; ++ ++ case DT_JMPREL: ++ dyn.d_un.d_ptr = ubicom32fdpic_pltrel_section (info) ++ ->output_section->vma ++ + ubicom32fdpic_pltrel_section (info)->output_offset; ++ bfd_elf32_swap_dyn_out (output_bfd, &dyn, dyncon); ++ break; ++ ++ case DT_PLTRELSZ: ++ dyn.d_un.d_val = ubicom32fdpic_pltrel_section (info)->size; ++ bfd_elf32_swap_dyn_out (output_bfd, &dyn, dyncon); ++ break; ++ } ++ } ++ } ++ ++ return TRUE; ++} ++ ++/* Perform any actions needed for dynamic symbols. */ ++static bfd_boolean ++ubicom32fdpic_elf_finish_dynamic_symbol ++(bfd *output_bfd ATTRIBUTE_UNUSED, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED, ++ struct elf_link_hash_entry *h ATTRIBUTE_UNUSED, ++ Elf_Internal_Sym *sym ATTRIBUTE_UNUSED) ++{ ++ return TRUE; ++} ++ ++static bfd_boolean ++ubicom32fdpic_elf_modify_program_headers (bfd *output_bfd, ++ struct bfd_link_info *info) ++{ ++ struct elf_obj_tdata *tdata = elf_tdata (output_bfd); ++ struct elf_segment_map *m; ++ Elf_Internal_Phdr *p; ++ ++ if (! info) ++ return TRUE; ++ ++ for (p = tdata->phdr, m = tdata->segment_map; m != NULL; m = m->next, p++) ++ if (m->p_type == PT_GNU_STACK) ++ break; ++ ++ if (m) ++ { ++ struct elf_link_hash_entry *h; ++ ++ /* Obtain the pointer to the __stacksize symbol. */ ++ h = elf_link_hash_lookup (elf_hash_table (info), "__stacksize", ++ FALSE, FALSE, FALSE); ++ if (h) ++ { ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *) h->root.u.i.link; ++ BFD_ASSERT (h->root.type == bfd_link_hash_defined); ++ } ++ ++ /* Set the header p_memsz from the symbol value. We ++ intentionally ignore the symbol section. */ ++ if (h && h->root.type == bfd_link_hash_defined) ++ p->p_memsz = h->root.u.def.value; ++ else ++ p->p_memsz = DEFAULT_STACK_SIZE; ++ ++ p->p_align = 8; ++ } ++ ++ return TRUE; ++} ++ ++static bfd_boolean ++ubicom32fdpic_elf_gc_sweep_hook (bfd *abfd, ++ struct bfd_link_info *info, ++ asection *sec, ++ const Elf_Internal_Rela *relocs) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ struct elf_link_hash_entry **sym_hashes, **sym_hashes_end; ++ const Elf_Internal_Rela *rel; ++ const Elf_Internal_Rela *rel_end; ++ struct ubicom32fdpic_relocs_info *picrel; ++ ++ BFD_ASSERT (IS_FDPIC (abfd)); ++ ++ symtab_hdr = &elf_tdata (abfd)->symtab_hdr; ++ sym_hashes = elf_sym_hashes (abfd); ++ sym_hashes_end = sym_hashes + symtab_hdr->sh_size/sizeof(Elf32_External_Sym); ++ if (!elf_bad_symtab (abfd)) ++ sym_hashes_end -= symtab_hdr->sh_info; ++ ++ rel_end = relocs + sec->reloc_count; ++ for (rel = relocs; rel < rel_end; rel++) ++ { ++ struct elf_link_hash_entry *h; ++ unsigned long r_symndx; ++ ++ r_symndx = ELF32_R_SYM (rel->r_info); ++ if (r_symndx < symtab_hdr->sh_info) ++ h = NULL; ++ else ++ h = sym_hashes[r_symndx - symtab_hdr->sh_info]; ++ ++ if (h != NULL) ++ picrel = ubicom32fdpic_relocs_info_for_global (ubicom32fdpic_relocs_info (info), ++ abfd, h, ++ rel->r_addend, NO_INSERT); ++ else ++ picrel = ubicom32fdpic_relocs_info_for_local (ubicom32fdpic_relocs_info ++ (info), abfd, r_symndx, ++ rel->r_addend, NO_INSERT); ++ ++ if (!picrel) ++ continue; ++ ++ switch (ELF32_R_TYPE (rel->r_info)) ++ { ++ case R_UBICOM32_24_PCREL: ++ picrel->call--; ++ break; ++ ++ case R_UBICOM32_FUNCDESC_VALUE: ++ picrel->relocsfdv--; ++ picrel->sym--; ++ break; ++ ++ case R_UBICOM32_GOTOFFSET_LO: ++ picrel->gotoffset_lo--; ++ break; ++ ++ case R_UBICOM32_FUNCDESC_GOTOFFSET_LO: ++ picrel->fd_gotoffset_lo--; ++ break; ++ ++ case R_UBICOM32_FUNCDESC_GOTOFFSET_HI: ++ picrel->fd_gotoffset_hi--; ++ break; ++ ++ case R_UBICOM32_FUNCDESC: ++ picrel->fd--; ++ picrel->relocsfd--; ++ break; ++ ++ case R_UBICOM32_32: ++ if (! IS_FDPIC (abfd)) ++ break; ++ ++ if (picrel->sym) ++ picrel->relocs32--;; ++ ++ picrel->sym--; ++ break; ++ ++ default: ++ break; ++ } ++ } ++ ++ return TRUE; ++} ++/* Decide whether to attempt to turn absptr or lsda encodings in ++ shared libraries into pcrel within the given input section. */ ++ ++static bfd_boolean ++ubicom32fdpic_elf_use_relative_eh_frame ++(bfd *input_bfd ATTRIBUTE_UNUSED, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED, ++ asection *eh_frame_section ATTRIBUTE_UNUSED) ++{ ++ /* We can't use PC-relative encodings in FDPIC binaries, in general. */ ++ return FALSE; ++} ++ ++/* Adjust the contents of an eh_frame_hdr section before they're output. */ ++ ++static bfd_byte ++ubicom32fdpic_elf_encode_eh_address (bfd *abfd, ++ struct bfd_link_info *info, ++ asection *osec, bfd_vma offset, ++ asection *loc_sec, bfd_vma loc_offset, ++ bfd_vma *encoded) ++{ ++ struct elf_link_hash_entry *h; ++ ++ h = elf_hash_table (info)->hgot; ++ BFD_ASSERT (h && h->root.type == bfd_link_hash_defined); ++ ++ if (! h || (ubicom32fdpic_osec_to_segment (abfd, osec) ++ == ubicom32fdpic_osec_to_segment (abfd, loc_sec->output_section))) ++ return _bfd_elf_encode_eh_address (abfd, info, osec, offset, ++ loc_sec, loc_offset, encoded); ++ ++ BFD_ASSERT (ubicom32fdpic_osec_to_segment (abfd, osec) ++ == (ubicom32fdpic_osec_to_segment ++ (abfd, h->root.u.def.section->output_section))); ++ ++ *encoded = osec->vma + offset ++ - (h->root.u.def.value ++ + h->root.u.def.section->output_section->vma ++ + h->root.u.def.section->output_offset); ++ ++ return DW_EH_PE_datarel | DW_EH_PE_sdata4; ++} ++static bfd_boolean ++ubicom32fdpic_elf_copy_private_bfd_data (bfd *ibfd, bfd *obfd) ++{ ++ unsigned i; ++ ++ if (bfd_get_flavour (ibfd) != bfd_target_elf_flavour ++ || bfd_get_flavour (obfd) != bfd_target_elf_flavour) ++ return TRUE; ++ ++ if (! ubicom32_elf_copy_private_bfd_data (ibfd, obfd)) ++ return FALSE; ++ ++ if (! elf_tdata (ibfd) || ! elf_tdata (ibfd)->phdr ++ || ! elf_tdata (obfd) || ! elf_tdata (obfd)->phdr) ++ return TRUE; ++ ++ /* Copy the stack size. */ ++ for (i = 0; i < elf_elfheader (ibfd)->e_phnum; i++) ++ if (elf_tdata (ibfd)->phdr[i].p_type == PT_GNU_STACK) ++ { ++ Elf_Internal_Phdr *iphdr = &elf_tdata (ibfd)->phdr[i]; ++ ++ for (i = 0; i < elf_elfheader (obfd)->e_phnum; i++) ++ if (elf_tdata (obfd)->phdr[i].p_type == PT_GNU_STACK) ++ { ++ memcpy (&elf_tdata (obfd)->phdr[i], iphdr, sizeof (*iphdr)); ++ ++ /* Rewrite the phdrs, since we're only called after they ++ were first written. */ ++ if (bfd_seek (obfd, (bfd_signed_vma) get_elf_backend_data (obfd) ++ ->s->sizeof_ehdr, SEEK_SET) != 0 ++ || get_elf_backend_data (obfd)->s ++ ->write_out_phdrs (obfd, elf_tdata (obfd)->phdr, ++ elf_elfheader (obfd)->e_phnum) != 0) ++ return FALSE; ++ break; ++ } ++ ++ break; ++ } ++ ++ return TRUE; ++} ++ ++static bfd_boolean ++ubicom32fdpic_elf_relocate_section (bfd * output_bfd, ++ struct bfd_link_info *info, ++ bfd * input_bfd, ++ asection * input_section, ++ bfd_byte * contents, ++ Elf_Internal_Rela * relocs, ++ Elf_Internal_Sym * local_syms, ++ asection ** local_sections) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ struct elf_link_hash_entry **sym_hashes; ++ Elf_Internal_Rela *rel; ++ Elf_Internal_Rela *relend; ++ unsigned isec_segment, got_segment, plt_segment, ++ check_segment[2]; ++ int silence_segment_error = !(info->shared || info->pie); ++ ++ if (info->relocatable) ++ return TRUE; ++ ++ symtab_hdr = & elf_tdata (input_bfd)->symtab_hdr; ++ sym_hashes = elf_sym_hashes (input_bfd); ++ relend = relocs + input_section->reloc_count; ++ ++ isec_segment = ubicom32fdpic_osec_to_segment (output_bfd, ++ input_section->output_section); ++ if (IS_FDPIC (output_bfd) && ubicom32fdpic_got_section (info)) ++ got_segment = ubicom32fdpic_osec_to_segment (output_bfd, ++ ubicom32fdpic_got_section (info) ++ ->output_section); ++ else ++ got_segment = -1; ++ if (IS_FDPIC (output_bfd) && elf_hash_table (info)->dynamic_sections_created) ++ plt_segment = ubicom32fdpic_osec_to_segment (output_bfd, ++ ubicom32fdpic_plt_section (info) ++ ->output_section); ++ else ++ plt_segment = -1; ++ ++ for (rel = relocs; rel < relend; rel ++) ++ { ++ reloc_howto_type *howto; ++ unsigned long r_symndx; ++ Elf_Internal_Sym *sym; ++ asection *sec; ++ struct elf_link_hash_entry *h; ++ bfd_vma relocation; ++ bfd_reloc_status_type r; ++ const char * name = NULL; ++ int r_type; ++ asection *osec; ++ struct ubicom32fdpic_relocs_info *picrel; ++ bfd_vma orig_addend = rel->r_addend; ++ ++ r_type = ELF32_R_TYPE (rel->r_info); ++ ++ if (r_type == R_UBICOM32_GNU_VTINHERIT ++ || r_type == R_UBICOM32_GNU_VTENTRY) ++ continue; ++ ++ /* This is a final link. */ ++ r_symndx = ELF32_R_SYM (rel->r_info); ++ ++ //howto = ubicom32_reloc_type_lookup (input_bfd, r_type); ++ howto = ubicom32_elf_howto_table + ELF32_R_TYPE (rel->r_info); ++ if (howto == NULL) ++ { ++ bfd_set_error (bfd_error_bad_value); ++ return FALSE; ++ } ++ ++ h = NULL; ++ sym = NULL; ++ sec = NULL; ++ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ sym = local_syms + r_symndx; ++ osec = sec = local_sections [r_symndx]; ++ relocation = _bfd_elf_rela_local_sym (output_bfd, sym, &sec, rel); ++ ++ name = bfd_elf_string_from_elf_section ++ (input_bfd, symtab_hdr->sh_link, sym->st_name); ++ name = (name == NULL) ? bfd_section_name (input_bfd, sec) : name; ++ } ++ else ++ { ++ h = sym_hashes [r_symndx - symtab_hdr->sh_info]; ++ ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *) h->root.u.i.link; ++ ++ name = h->root.root.string; ++ ++ if ((h->root.type == bfd_link_hash_defined ++ || h->root.type == bfd_link_hash_defweak) ++ && ! UBICOM32FDPIC_SYM_LOCAL (info, h)) ++ { ++ sec = NULL; ++ relocation = 0; ++ } ++ else ++ if (h->root.type == bfd_link_hash_defined ++ || h->root.type == bfd_link_hash_defweak) ++ { ++ sec = h->root.u.def.section; ++ relocation = (h->root.u.def.value ++ + sec->output_section->vma ++ + sec->output_offset); ++ } ++ else if (h->root.type == bfd_link_hash_undefweak) ++ { ++ relocation = 0; ++ } ++ else if (info->unresolved_syms_in_objects == RM_IGNORE ++ && ELF_ST_VISIBILITY (h->other) == STV_DEFAULT) ++ relocation = 0; ++ else ++ { ++ if (! ((*info->callbacks->undefined_symbol) ++ (info, h->root.root.string, input_bfd, ++ input_section, rel->r_offset, ++ (info->unresolved_syms_in_objects == RM_GENERATE_ERROR ++ || ELF_ST_VISIBILITY (h->other))))) ++ return FALSE; ++ relocation = 0; ++ } ++ osec = sec; ++ } ++ ++ switch (r_type) ++ { ++ case R_UBICOM32_24_PCREL: ++ case R_UBICOM32_32: ++ if (! IS_FDPIC (output_bfd)) ++ goto non_fdpic; ++ ++ case R_UBICOM32_FUNCDESC_VALUE: ++ case R_UBICOM32_FUNCDESC: ++ case R_UBICOM32_GOTOFFSET_LO: ++ case R_UBICOM32_GOTOFFSET_HI: ++ case R_UBICOM32_FUNCDESC_GOTOFFSET_LO: ++ case R_UBICOM32_FUNCDESC_GOTOFFSET_HI: ++ if (h != NULL) ++ picrel = ubicom32fdpic_relocs_info_for_global (ubicom32fdpic_relocs_info ++ (info), input_bfd, h, ++ orig_addend, INSERT); ++ else ++ /* In order to find the entry we created before, we must ++ use the original addend, not the one that may have been ++ modified by _bfd_elf_rela_local_sym(). */ ++ picrel = ubicom32fdpic_relocs_info_for_local (ubicom32fdpic_relocs_info ++ (info), input_bfd, r_symndx, ++ orig_addend, INSERT); ++ if (! picrel) ++ return FALSE; ++ ++ if (!ubicom32fdpic_emit_got_relocs_plt_entries (picrel, output_bfd, info, ++ osec, sym, ++ rel->r_addend)) ++ { ++ (*_bfd_error_handler) ++ (_("%B: relocation at `%A+0x%x' references symbol `%s' with nonzero addend"), ++ input_bfd, input_section, rel->r_offset, name); ++ return FALSE; ++ ++ } ++ ++ break; ++ case R_UBICOM32_21_PCREL: ++ case R_UBICOM32_HI24: ++ case R_UBICOM32_LO7_S: ++ //printf("Seeing this stuff Don;t know what to do. r_type %d r_symndx %d %s %s\n", r_type, r_symndx, input_bfd->filename, input_section->name); ++ break; ++ ++ default: ++ non_fdpic: ++ picrel = NULL; ++ //printf("h = 0x%x %d\n", h, UBICOM32FDPIC_SYM_LOCAL (info, h)); ++ if (h && ! UBICOM32FDPIC_SYM_LOCAL (info, h)) ++ { ++ printf("h = 0x%x %d\n", h, UBICOM32FDPIC_SYM_LOCAL (info, h)); ++ printf("Seeing this stuff. r_type %d r_symndx %d %s %s\n", r_type, r_symndx, input_bfd->filename, input_section->name); ++ info->callbacks->warning ++ (info, _("relocation references symbol not defined in the module"), ++ name, input_bfd, input_section, rel->r_offset); ++ return FALSE; ++ } ++ break; ++ } ++ ++ switch (r_type) ++ { ++ case R_UBICOM32_21_PCREL: ++ case R_UBICOM32_HI24: ++ case R_UBICOM32_LO7_S: ++ //printf("Seeing this stuff. r_type %d r_symndx %d %s %s\n", r_type, r_symndx, input_bfd->filename, input_section->name); ++ check_segment[0] = check_segment[1] = got_segment; ++ break; ++ ++ case R_UBICOM32_24_PCREL: ++ check_segment[0] = isec_segment; ++ if (! IS_FDPIC (output_bfd)) ++ check_segment[1] = isec_segment; ++ else if (picrel->plt) ++ { ++ relocation = ubicom32fdpic_plt_section (info)->output_section->vma ++ + ubicom32fdpic_plt_section (info)->output_offset ++ + picrel->plt_entry; ++ ++ /* subtract rel->addend. This will get added back in the 23pcrel howto routine. */ ++ relocation -= rel->r_addend; ++ ++ check_segment[1] = plt_segment; ++ } ++ /* We don't want to warn on calls to undefined weak symbols, ++ as calls to them must be protected by non-NULL tests ++ anyway, and unprotected calls would invoke undefined ++ behavior. */ ++ else if (picrel->symndx == -1 ++ && picrel->d.h->root.type == bfd_link_hash_undefweak) ++ check_segment[1] = check_segment[0]; ++ else ++ check_segment[1] = sec ++ ? ubicom32fdpic_osec_to_segment (output_bfd, sec->output_section) ++ : (unsigned)-1; ++ break; ++ ++ case R_UBICOM32_GOTOFFSET_LO: ++ relocation = picrel->got_entry >> 2; ++ check_segment[0] = check_segment[1] = got_segment; ++ break; ++ ++ case R_UBICOM32_FUNCDESC_GOTOFFSET_LO: ++ relocation = picrel->fdgot_entry >> 2; ++ check_segment[0] = check_segment[1] = got_segment; ++ break; ++ ++ case R_UBICOM32_FUNCDESC: ++ { ++ int dynindx; ++ bfd_vma addend = rel->r_addend; ++ ++ if (! (h && h->root.type == bfd_link_hash_undefweak ++ && UBICOM32FDPIC_SYM_LOCAL (info, h))) ++ { ++ /* If the symbol is dynamic and there may be dynamic ++ symbol resolution because we are or are linked with a ++ shared library, emit a FUNCDESC relocation such that ++ the dynamic linker will allocate the function ++ descriptor. If the symbol needs a non-local function ++ descriptor but binds locally (e.g., its visibility is ++ protected, emit a dynamic relocation decayed to ++ section+offset. */ ++ if (h && ! UBICOM32FDPIC_FUNCDESC_LOCAL (info, h) ++ && UBICOM32FDPIC_SYM_LOCAL (info, h) ++ && !(info->executable && !info->pie)) ++ { ++ dynindx = elf_section_data (h->root.u.def.section ++ ->output_section)->dynindx; ++ addend += h->root.u.def.section->output_offset ++ + h->root.u.def.value; ++ } ++ else if (h && ! UBICOM32FDPIC_FUNCDESC_LOCAL (info, h)) ++ { ++ if (addend) ++ { ++ info->callbacks->warning ++ (info, _("R_UBICOM32_FUNCDESC references dynamic symbol with nonzero addend"), ++ name, input_bfd, input_section, rel->r_offset); ++ return FALSE; ++ } ++ dynindx = h->dynindx; ++ } ++ else ++ { ++ /* Otherwise, we know we have a private function ++ descriptor, so reference it directly. */ ++ BFD_ASSERT (picrel->privfd); ++ r_type = R_UBICOM32_32; // was FUNCDESC but bfin uses 32 bit ++ dynindx = elf_section_data (ubicom32fdpic_got_section (info) ++ ->output_section)->dynindx; ++ addend = ubicom32fdpic_got_section (info)->output_offset ++ + ubicom32fdpic_got_initial_offset (info) ++ + picrel->fd_entry; ++ } ++ ++ /* If there is room for dynamic symbol resolution, emit ++ the dynamic relocation. However, if we're linking an ++ executable at a fixed location, we won't have emitted a ++ dynamic symbol entry for the got section, so idx will ++ be zero, which means we can and should compute the ++ address of the private descriptor ourselves. */ ++ if (info->executable && !info->pie ++ && (!h || UBICOM32FDPIC_FUNCDESC_LOCAL (info, h))) ++ { ++ addend += ubicom32fdpic_got_section (info)->output_section->vma; ++ if ((bfd_get_section_flags (output_bfd, ++ input_section->output_section) ++ & (SEC_ALLOC | SEC_LOAD)) == (SEC_ALLOC | SEC_LOAD)) ++ { ++ if (ubicom32fdpic_osec_readonly_p (output_bfd, ++ input_section ++ ->output_section)) ++ { ++ info->callbacks->warning ++ (info, ++ _("cannot emit fixups in read-only section"), ++ name, input_bfd, input_section, rel->r_offset); ++ return FALSE; ++ } ++ ubicom32fdpic_add_rofixup (output_bfd, ++ ubicom32fdpic_gotfixup_section ++ (info), ++ _bfd_elf_section_offset ++ (output_bfd, info, ++ input_section, rel->r_offset) ++ + input_section ++ ->output_section->vma ++ + input_section->output_offset, ++ picrel); ++ } ++ } ++ else if ((bfd_get_section_flags (output_bfd, ++ input_section->output_section) ++ & (SEC_ALLOC | SEC_LOAD)) == (SEC_ALLOC | SEC_LOAD)) ++ { ++ bfd_vma offset; ++ ++ if (ubicom32fdpic_osec_readonly_p (output_bfd, ++ input_section ++ ->output_section)) ++ { ++ info->callbacks->warning ++ (info, ++ _("cannot emit dynamic relocations in read-only section"), ++ name, input_bfd, input_section, rel->r_offset); ++ return FALSE; ++ } ++ offset = _bfd_elf_section_offset (output_bfd, info, ++ input_section, rel->r_offset); ++ /* Only output a reloc for a not deleted entry. */ ++ if (offset >= (bfd_vma) -2) ++ ubicom32fdpic_add_dyn_reloc (output_bfd, ++ ubicom32fdpic_gotrel_section (info), ++ 0, ++ R_UBICOM32_NONE, ++ dynindx, addend, picrel); ++ else ++ ubicom32fdpic_add_dyn_reloc (output_bfd, ++ ubicom32fdpic_gotrel_section (info), ++ offset + input_section ++ ->output_section->vma ++ + input_section->output_offset, ++ r_type, ++ dynindx, addend, picrel); ++ } ++ else ++ addend += ubicom32fdpic_got_section (info)->output_section->vma; ++ } ++ ++ /* We want the addend in-place because dynamic ++ relocations are REL. Setting relocation to it should ++ arrange for it to be installed. */ ++ relocation = addend - rel->r_addend; ++ } ++ check_segment[0] = check_segment[1] = got_segment; ++ break; ++ ++ case R_UBICOM32_32: ++ if (! IS_FDPIC (output_bfd)) ++ { ++ check_segment[0] = check_segment[1] = -1; ++ break; ++ } ++ /* Fall through. */ ++ case R_UBICOM32_FUNCDESC_VALUE: ++ { ++ int dynindx; ++ bfd_vma addend = rel->r_addend; ++ bfd_vma offset; ++ offset = _bfd_elf_section_offset (output_bfd, info, ++ input_section, rel->r_offset); ++ ++ /* If the symbol is dynamic but binds locally, use ++ section+offset. */ ++ if (h && ! UBICOM32FDPIC_SYM_LOCAL (info, h)) ++ { ++ if (addend && r_type == R_UBICOM32_FUNCDESC_VALUE) ++ { ++ info->callbacks->warning ++ (info, _("R_UBICOM32_FUNCDESC_VALUE references dynamic symbol with nonzero addend"), ++ name, input_bfd, input_section, rel->r_offset); ++ return FALSE; ++ } ++ dynindx = h->dynindx; ++ } ++ else ++ { ++ if (h) ++ addend += h->root.u.def.value; ++ else ++ addend += sym->st_value; ++ if (osec) ++ addend += osec->output_offset; ++ if (osec && osec->output_section ++ && ! bfd_is_abs_section (osec->output_section) ++ && ! bfd_is_und_section (osec->output_section)) ++ dynindx = elf_section_data (osec->output_section)->dynindx; ++ else ++ dynindx = 0; ++ } ++ ++ /* If we're linking an executable at a fixed address, we ++ can omit the dynamic relocation as long as the symbol ++ is defined in the current link unit (which is implied ++ by its output section not being NULL). */ ++ if (info->executable && !info->pie ++ && (!h || UBICOM32FDPIC_SYM_LOCAL (info, h))) ++ { ++ if (osec) ++ addend += osec->output_section->vma; ++ if (IS_FDPIC (input_bfd) ++ && (bfd_get_section_flags (output_bfd, ++ input_section->output_section) ++ & (SEC_ALLOC | SEC_LOAD)) == (SEC_ALLOC | SEC_LOAD)) ++ { ++ if (ubicom32fdpic_osec_readonly_p (output_bfd, ++ input_section ++ ->output_section)) ++ { ++ info->callbacks->warning ++ (info, ++ _("cannot emit fixups in read-only section"), ++ name, input_bfd, input_section, rel->r_offset); ++ return FALSE; ++ } ++ if (!h || h->root.type != bfd_link_hash_undefweak) ++ { ++ /* Only output a reloc for a not deleted entry. */ ++ if (offset >= (bfd_vma)-2) ++ ubicom32fdpic_add_rofixup (output_bfd, ++ ubicom32fdpic_gotfixup_section ++ (info), -1, picrel); ++ else ++ ubicom32fdpic_add_rofixup (output_bfd, ++ ubicom32fdpic_gotfixup_section ++ (info), ++ offset + input_section ++ ->output_section->vma ++ + input_section->output_offset, ++ picrel); ++ ++ if (r_type == R_UBICOM32_FUNCDESC_VALUE) ++ { ++ if (offset >= (bfd_vma)-2) ++ ubicom32fdpic_add_rofixup ++ (output_bfd, ++ ubicom32fdpic_gotfixup_section (info), ++ -1, picrel); ++ else ++ ubicom32fdpic_add_rofixup ++ (output_bfd, ++ ubicom32fdpic_gotfixup_section (info), ++ offset + input_section->output_section->vma ++ + input_section->output_offset + 4, picrel); ++ } ++ } ++ } ++ } ++ else ++ { ++ if ((bfd_get_section_flags (output_bfd, ++ input_section->output_section) ++ & (SEC_ALLOC | SEC_LOAD)) == (SEC_ALLOC | SEC_LOAD)) ++ { ++ if (ubicom32fdpic_osec_readonly_p (output_bfd, ++ input_section ++ ->output_section)) ++ { ++ info->callbacks->warning ++ (info, ++ _("cannot emit dynamic relocations in read-only section"), ++ name, input_bfd, input_section, rel->r_offset); ++ return FALSE; ++ } ++ /* Only output a reloc for a not deleted entry. */ ++ if (offset >= (bfd_vma)-2) ++ ubicom32fdpic_add_dyn_reloc (output_bfd, ++ ubicom32fdpic_gotrel_section (info), ++ 0, R_UBICOM32_NONE, dynindx, addend, picrel); ++ else ++ ubicom32fdpic_add_dyn_reloc (output_bfd, ++ ubicom32fdpic_gotrel_section (info), ++ offset ++ + input_section ++ ->output_section->vma ++ + input_section->output_offset, ++ r_type, dynindx, addend, picrel); ++ } ++ else if (osec) ++ addend += osec->output_section->vma; ++ /* We want the addend in-place because dynamic ++ relocations are REL. Setting relocation to it ++ should arrange for it to be installed. */ ++ relocation = addend - rel->r_addend; ++ } ++ ++ if (r_type == R_UBICOM32_FUNCDESC_VALUE && offset < (bfd_vma)-2) ++ { ++ /* If we've omitted the dynamic relocation, just emit ++ the fixed addresses of the symbol and of the local ++ GOT base offset. */ ++ if (info->executable && !info->pie ++ && (!h || UBICOM32FDPIC_SYM_LOCAL (info, h))) ++ bfd_put_32 (output_bfd, ++ ubicom32fdpic_got_section (info)->output_section->vma ++ + ubicom32fdpic_got_section (info)->output_offset ++ + ubicom32fdpic_got_initial_offset (info), ++ contents + rel->r_offset + 4); ++ else ++ /* A function descriptor used for lazy or local ++ resolving is initialized such that its high word ++ contains the output section index in which the ++ PLT entries are located, and the low word ++ contains the offset of the lazy PLT entry entry ++ point into that section. */ ++ bfd_put_32 (output_bfd, ++ h && ! UBICOM32FDPIC_SYM_LOCAL (info, h) ++ ? 0 ++ : ubicom32fdpic_osec_to_segment (output_bfd, ++ sec ++ ->output_section), ++ contents + rel->r_offset + 4); ++ } ++ } ++ check_segment[0] = check_segment[1] = got_segment; ++ break; ++ ++ default: ++ check_segment[0] = isec_segment; ++ check_segment[1] = sec ++ ? ubicom32fdpic_osec_to_segment (output_bfd, sec->output_section) ++ : (unsigned)-1; ++ break; ++ } ++ ++ if (check_segment[0] != check_segment[1] && IS_FDPIC (output_bfd)) ++ { ++#if 1 /* If you take this out, remove the #error from fdpic-static-6.d ++ in the ld testsuite. */ ++ /* This helps catch problems in GCC while we can't do more ++ than static linking. The idea is to test whether the ++ input file basename is crt0.o only once. */ ++ if (silence_segment_error == 1) ++ silence_segment_error = ++ (strlen (input_bfd->filename) == 6 ++ && strcmp (input_bfd->filename, "crt0.o") == 0) ++ || (strlen (input_bfd->filename) > 6 ++ && strcmp (input_bfd->filename ++ + strlen (input_bfd->filename) - 7, ++ "/crt0.o") == 0) ++ ? -1 : 0; ++#endif ++ if (!silence_segment_error ++ /* We don't want duplicate errors for undefined ++ symbols. */ ++ && !(picrel && picrel->symndx == -1 ++ && picrel->d.h->root.type == bfd_link_hash_undefined)) ++ info->callbacks->warning ++ (info, ++ (info->shared || info->pie) ++ ? _("relocations between different segments are not supported") ++ : _("warning: relocation references a different segment"), ++ name, input_bfd, input_section, rel->r_offset); ++ if (!silence_segment_error && (info->shared || info->pie)) ++ return FALSE; ++ elf_elfheader (output_bfd)->e_flags |= 0x80000000; ++ } ++ ++ switch (r_type) ++ { ++ case R_UBICOM32_LO16: ++ r = ubicom32_elf_relocate_lo16 (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_HI16: ++ r = ubicom32_elf_relocate_hi16 (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_HI24: ++ r = ubicom32_elf_relocate_hi24 (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_LO7_S: ++ r = ubicom32_elf_relocate_lo7_s (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_LO7_2_S: ++ r = ubicom32_elf_relocate_lo7_2_s (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_LO7_4_S: ++ r = ubicom32_elf_relocate_lo7_4_s (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_LO7_D: ++ r = ubicom32_elf_relocate_lo7_d (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_LO7_2_D: ++ r = ubicom32_elf_relocate_lo7_2_d (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_LO7_4_D: ++ r = ubicom32_elf_relocate_lo7_4_d (input_bfd, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_24_PCREL: ++ r = ubicom32_elf_relocate_pcrel24 (input_bfd, input_section, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_LO7_CALLI: ++ r = ubicom32_elf_relocate_lo_calli (input_bfd, rel, contents, relocation, 7); ++ break; ++ ++ case R_UBICOM32_LO16_CALLI: ++ r = ubicom32_elf_relocate_lo_calli (input_bfd, rel, contents, relocation, 18); ++ break; ++ ++ case R_UBICOM32_GOTOFFSET_LO: ++ r = ubicom32_elf_relocate_gotoffset_lo(input_bfd, input_section, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_FUNCDESC_GOTOFFSET_LO: ++ r = ubicom32_elf_relocate_funcdesc_gotoffset_lo(input_bfd, input_section, rel, contents, relocation); ++ break; ++ ++ case R_UBICOM32_32: ++ case R_UBICOM32_FUNCDESC: ++ /* relocation &= ~(0xff << 24); */ ++ /* FALLTHROUGH */ ++ ++ default: ++ r = ubicom32_final_link_relocate (howto, input_bfd, input_section, ++ contents, rel, relocation); ++ break; ++ } ++ } ++ ++ return TRUE; ++} ++ ++#define elf_info_to_howto ubicom32_info_to_howto_rela ++#define elf_info_to_howto_rel NULL ++ ++#define bfd_elf32_bfd_reloc_type_lookup ubicom32_reloc_type_lookup ++#define bfd_elf32_bfd_reloc_name_lookup ubicom32_reloc_name_lookup ++#define bfd_elf32_bfd_relax_section ubicom32_elf_relax_section ++ ++#define elf_backend_relocate_section ubicom32_elf_relocate_section ++#define elf_backend_gc_mark_hook ubicom32_elf_gc_mark_hook ++#define elf_backend_gc_sweep_hook ubicom32_elf_gc_sweep_hook ++#define elf_backend_check_relocs ubicom32_elf_check_relocs ++#define elf_backend_object_p ubicom32_elf_object_p ++ ++#define elf_backend_discard_info ubicom32_elf_discard_info ++ ++#define elf_backend_can_gc_sections 1 ++ ++#define bfd_elf32_bfd_set_private_flags ubicom32_elf_set_private_flags ++#define bfd_elf32_bfd_copy_private_bfd_data ubicom32_elf_copy_private_bfd_data ++#define bfd_elf32_bfd_merge_private_bfd_data ubicom32_elf_merge_private_bfd_data ++#define bfd_elf32_bfd_print_private_bfd_data ubicom32_elf_print_private_bfd_data ++ ++#define bfd_elf32_bfd_extcode_relax NULL ++ ++#define TARGET_BIG_SYM bfd_elf32_ubicom32_vec ++#define TARGET_BIG_NAME "elf32-ubicom32" ++ ++#define ELF_ARCH bfd_arch_ubicom32 ++#define ELF_MACHINE_CODE EM_UBICOM32 ++#define ELF_MAXPAGESIZE 0x1000 ++ ++#include "elf32-target.h" ++ ++#undef TARGET_BIG_SYM ++#define TARGET_BIG_SYM bfd_elf32_ubicom32fdpic_vec ++#undef TARGET_BIG_NAME ++#define TARGET_BIG_NAME "elf32-ubicom32fdpic" ++#undef elf32_bed ++#define elf32_bed elf32_ubicom32fdpic_bed ++ ++#undef elf_backend_relocate_section ++#define elf_backend_relocate_section ubicom32fdpic_elf_relocate_section ++ ++#undef elf_backend_check_relocs ++#define elf_backend_check_relocs ubicom32fdpic_elf_check_relocs ++ ++#undef elf_backend_gc_sweep_hook ++#define elf_backend_gc_sweep_hook ubicom32fdpic_elf_gc_sweep_hook ++#undef bfd_elf32_bfd_link_hash_table_create ++#define bfd_elf32_bfd_link_hash_table_create \ ++ ubicom32fdpic_elf_link_hash_table_create ++#undef elf_backend_always_size_sections ++#define elf_backend_always_size_sections \ ++ ubicom32fdpic_elf_always_size_sections ++#undef elf_backend_modify_program_headers ++#define elf_backend_modify_program_headers \ ++ ubicom32fdpic_elf_modify_program_headers ++#undef bfd_elf32_bfd_copy_private_bfd_data ++#define bfd_elf32_bfd_copy_private_bfd_data \ ++ ubicom32fdpic_elf_copy_private_bfd_data ++ ++#undef elf_backend_create_dynamic_sections ++#define elf_backend_create_dynamic_sections \ ++ ubicom32fdpic_elf_create_dynamic_sections ++#undef elf_backend_adjust_dynamic_symbol ++#define elf_backend_adjust_dynamic_symbol \ ++ ubicom32fdpic_elf_adjust_dynamic_symbol ++#undef elf_backend_size_dynamic_sections ++#define elf_backend_size_dynamic_sections \ ++ ubicom32fdpic_elf_size_dynamic_sections ++#undef elf_backend_finish_dynamic_symbol ++#define elf_backend_finish_dynamic_symbol \ ++ ubicom32fdpic_elf_finish_dynamic_symbol ++#undef elf_backend_finish_dynamic_sections ++#define elf_backend_finish_dynamic_sections \ ++ ubicom32fdpic_elf_finish_dynamic_sections ++ ++#undef elf_backend_can_make_relative_eh_frame ++#define elf_backend_can_make_relative_eh_frame \ ++ ubicom32fdpic_elf_use_relative_eh_frame ++#undef elf_backend_can_make_lsda_relative_eh_frame ++#define elf_backend_can_make_lsda_relative_eh_frame \ ++ ubicom32fdpic_elf_use_relative_eh_frame ++#undef elf_backend_encode_eh_address ++#define elf_backend_encode_eh_address \ ++ ubicom32fdpic_elf_encode_eh_address ++ ++#undef elf_backend_may_use_rel_p ++#define elf_backend_may_use_rel_p 1 ++#undef elf_backend_may_use_rela_p ++#define elf_backend_may_use_rela_p 1 ++/* We use REL for dynamic relocations only. */ ++#undef elf_backend_default_use_rela_p ++#define elf_backend_default_use_rela_p 1 ++ ++#undef elf_backend_omit_section_dynsym ++#define elf_backend_omit_section_dynsym ubicom32fdpic_elf_link_omit_section_dynsym ++ ++#undef elf_backend_can_refcount ++#define elf_backend_can_refcount 1 ++ ++#undef elf_backend_want_got_plt ++#define elf_backend_want_got_plt 0 ++ ++#undef elf_backend_plt_readonly ++#define elf_backend_plt_readonly 1 ++ ++#undef elf_backend_want_plt_sym ++#define elf_backend_want_plt_sym 1 ++ ++#undef elf_backend_got_header_size ++#define elf_backend_got_header_size 12 ++ ++#undef elf_backend_rela_normal ++#define elf_backend_rela_normal 1 ++ ++#include "elf32-target.h" +--- a/bfd/libbfd.h ++++ b/bfd/libbfd.h +@@ -1689,6 +1689,39 @@ static const char *const bfd_reloc_code_ + "BFD_RELOC_IP2K_FR_OFFSET", + "BFD_RELOC_VPE4KMATH_DATA", + "BFD_RELOC_VPE4KMATH_INSN", ++ "BFD_RELOC_UBICOM32_21_PCREL", ++ "BFD_RELOC_UBICOM32_24_PCREL", ++ "BFD_RELOC_UBICOM32_HI24", ++ "BFD_RELOC_UBICOM32_LO7_S", ++ "BFD_RELOC_UBICOM32_LO7_2_S", ++ "BFD_RELOC_UBICOM32_LO7_4_S", ++ "BFD_RELOC_UBICOM32_LO7_D", ++ "BFD_RELOC_UBICOM32_LO7_2_D", ++ "BFD_RELOC_UBICOM32_LO7_4_D", ++ "BFD_RELOC_UBICOM32_LO7_CALLI", ++ "BFD_RELOC_UBICOM32_LO16_CALLI", ++ "BFD_RELOC_UBICOM32_GOT_HI24", ++ "BFD_RELOC_UBICOM32_GOT_LO7_S", ++ "BFD_RELOC_UBICOM32_GOT_LO7_2_S", ++ "BFD_RELOC_UBICOM32_GOT_LO7_4_S", ++ "BFD_RELOC_UBICOM32_GOT_LO7_D", ++ "BFD_RELOC_UBICOM32_GOT_LO7_2_D", ++ "BFD_RELOC_UBICOM32_GOT_LO7_4_D", ++ "BFD_RELOC_UBICOM32_FUNCDESC_GOT_HI24", ++ "BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_S", ++ "BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_2_S", ++ "BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_4_S", ++ "BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_D", ++ "BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_2_D", ++ "BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_4_D", ++ "BFD_RELOC_UBICOM32_GOT_LO7_CALLI", ++ "BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_CALLI", ++ "BFD_RELOC_UBICOM32_FUNCDESC_VALUE", ++ "BFD_RELOC_UBICOM32_FUNCDESC", ++ "BFD_RELOC_UBICOM32_GOTOFFSET_LO", ++ "BFD_RELOC_UBICOM32_GOTOFFSET_HI", ++ "BFD_RELOC_UBICOM32_FUNCDESC_GOTOFFSET_LO", ++ "BFD_RELOC_UBICOM32_FUNCDESC_GOTOFFSET_HI", + "BFD_RELOC_VTABLE_INHERIT", + "BFD_RELOC_VTABLE_ENTRY", + "BFD_RELOC_IA64_IMM14", +--- a/bfd/Makefile.am ++++ b/bfd/Makefile.am +@@ -114,6 +114,7 @@ ALL_MACHINES = \ + cpu-tic4x.lo \ + cpu-tic54x.lo \ + cpu-tic80.lo \ ++ cpu-ubicom32.lo \ + cpu-v850.lo \ + cpu-vax.lo \ + cpu-we32k.lo \ +@@ -180,6 +181,7 @@ ALL_MACHINES_CFILES = \ + cpu-tic4x.c \ + cpu-tic54x.c \ + cpu-tic80.c \ ++ cpu-ubicom32.c \ + cpu-v850.c \ + cpu-vax.c \ + cpu-we32k.c \ +@@ -292,6 +294,7 @@ BFD32_BACKENDS = \ + elfxx-sparc.lo \ + elf32-sparc.lo \ + elf32-spu.lo \ ++ elf32-ubicom32.lo \ + elf32-v850.lo \ + elf32-vax.lo \ + elf32-xstormy16.lo \ +@@ -473,6 +476,7 @@ BFD32_BACKENDS_CFILES = \ + elfxx-sparc.c \ + elf32-sparc.c \ + elf32-spu.c \ ++ elf32-ubicom32.c \ + elf32-v850.c \ + elf32-vax.c \ + elf32-xstormy16.c \ +@@ -1131,6 +1135,7 @@ cpu-tic30.lo: cpu-tic30.c $(INCDIR)/file + cpu-tic4x.lo: cpu-tic4x.c $(INCDIR)/filenames.h $(INCDIR)/hashtab.h + cpu-tic54x.lo: cpu-tic54x.c $(INCDIR)/filenames.h $(INCDIR)/hashtab.h + cpu-tic80.lo: cpu-tic80.c $(INCDIR)/filenames.h $(INCDIR)/hashtab.h ++cpu-ubicom32.lo: cpu-ubicom32.c $(INCDIR)/filenames.h + cpu-v850.lo: cpu-v850.c $(INCDIR)/filenames.h $(INCDIR)/hashtab.h \ + $(INCDIR)/safe-ctype.h + cpu-vax.lo: cpu-vax.c $(INCDIR)/filenames.h $(INCDIR)/hashtab.h +@@ -1556,6 +1561,10 @@ elf32-spu.lo: elf32-spu.c $(INCDIR)/file + $(INCDIR)/bfdlink.h $(INCDIR)/hashtab.h elf-bfd.h $(INCDIR)/elf/common.h \ + $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h $(INCDIR)/elf/spu.h \ + $(INCDIR)/elf/reloc-macros.h elf32-spu.h elf32-target.h ++elf32-ubicom32.lo: elf32-ubicom32.c $(INCDIR)/filenames.h elf-bfd.h \ ++ $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h $(INCDIR)/elf/external.h \ ++ $(INCDIR)/bfdlink.h $(INCDIR)/elf/ubicom32.h $(INCDIR)/elf/reloc-macros.h \ ++ elf32-target.h + elf32-v850.lo: elf32-v850.c $(INCDIR)/filenames.h $(INCDIR)/bfdlink.h \ + $(INCDIR)/hashtab.h elf-bfd.h $(INCDIR)/elf/common.h \ + $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h $(INCDIR)/elf/v850.h \ +--- a/bfd/Makefile.in ++++ b/bfd/Makefile.in +@@ -367,6 +367,7 @@ ALL_MACHINES = \ + cpu-tic4x.lo \ + cpu-tic54x.lo \ + cpu-tic80.lo \ ++ cpu-ubicom32.lo \ + cpu-v850.lo \ + cpu-vax.lo \ + cpu-we32k.lo \ +@@ -433,6 +434,7 @@ ALL_MACHINES_CFILES = \ + cpu-tic4x.c \ + cpu-tic54x.c \ + cpu-tic80.c \ ++ cpu-ubicom32.c \ + cpu-v850.c \ + cpu-vax.c \ + cpu-we32k.c \ +@@ -546,6 +548,7 @@ BFD32_BACKENDS = \ + elfxx-sparc.lo \ + elf32-sparc.lo \ + elf32-spu.lo \ ++ elf32-ubicom32.lo \ + elf32-v850.lo \ + elf32-vax.lo \ + elf32-xstormy16.lo \ +@@ -727,6 +730,7 @@ BFD32_BACKENDS_CFILES = \ + elfxx-sparc.c \ + elf32-sparc.c \ + elf32-spu.c \ ++ elf32-ubicom32.c \ + elf32-v850.c \ + elf32-vax.c \ + elf32-xstormy16.c \ +@@ -1715,6 +1719,7 @@ cpu-tic30.lo: cpu-tic30.c $(INCDIR)/file + cpu-tic4x.lo: cpu-tic4x.c $(INCDIR)/filenames.h $(INCDIR)/hashtab.h + cpu-tic54x.lo: cpu-tic54x.c $(INCDIR)/filenames.h $(INCDIR)/hashtab.h + cpu-tic80.lo: cpu-tic80.c $(INCDIR)/filenames.h $(INCDIR)/hashtab.h ++cpu-ubicom32.lo: cpu-ubicom32.c $(INCDIR)/filenames.h + cpu-v850.lo: cpu-v850.c $(INCDIR)/filenames.h $(INCDIR)/hashtab.h \ + $(INCDIR)/safe-ctype.h + cpu-vax.lo: cpu-vax.c $(INCDIR)/filenames.h $(INCDIR)/hashtab.h +@@ -2140,6 +2145,10 @@ elf32-spu.lo: elf32-spu.c $(INCDIR)/file + $(INCDIR)/bfdlink.h $(INCDIR)/hashtab.h elf-bfd.h $(INCDIR)/elf/common.h \ + $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h $(INCDIR)/elf/spu.h \ + $(INCDIR)/elf/reloc-macros.h elf32-spu.h elf32-target.h ++elf32-ubicom32.lo: elf32-ubicom32.c $(INCDIR)/filenames.h elf-bfd.h \ ++ $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h $(INCDIR)/elf/external.h \ ++ $(INCDIR)/bfdlink.h $(INCDIR)/elf/ubicom32.h $(INCDIR)/elf/reloc-macros.h \ ++ elf32-target.h + elf32-v850.lo: elf32-v850.c $(INCDIR)/filenames.h $(INCDIR)/bfdlink.h \ + $(INCDIR)/hashtab.h elf-bfd.h $(INCDIR)/elf/common.h \ + $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h $(INCDIR)/elf/v850.h \ +--- a/bfd/reloc.c ++++ b/bfd/reloc.c +@@ -4227,6 +4227,75 @@ ENUMDOC + Scenix VPE4K coprocessor - data/insn-space addressing + + ENUM ++ BFD_RELOC_UBICOM32_21_PCREL ++ENUMX ++ BFD_RELOC_UBICOM32_24_PCREL ++ENUMX ++ BFD_RELOC_UBICOM32_HI24 ++ENUMX ++ BFD_RELOC_UBICOM32_LO7_S ++ENUMX ++ BFD_RELOC_UBICOM32_LO7_2_S ++ENUMX ++ BFD_RELOC_UBICOM32_LO7_4_S ++ENUMX ++ BFD_RELOC_UBICOM32_LO7_D ++ENUMX ++ BFD_RELOC_UBICOM32_LO7_2_D ++ENUMX ++ BFD_RELOC_UBICOM32_LO7_4_D ++ENUMX ++ BFD_RELOC_UBICOM32_LO7_CALLI ++ENUMX ++ BFD_RELOC_UBICOM32_LO16_CALLI ++ENUMX ++ BFD_RELOC_UBICOM32_GOT_HI24 ++ENUMX ++ BFD_RELOC_UBICOM32_GOT_LO7_S ++ENUMX ++ BFD_RELOC_UBICOM32_GOT_LO7_2_S ++ENUMX ++ BFD_RELOC_UBICOM32_GOT_LO7_4_S ++ENUMX ++ BFD_RELOC_UBICOM32_GOT_LO7_D ++ENUMX ++ BFD_RELOC_UBICOM32_GOT_LO7_2_D ++ENUMX ++ BFD_RELOC_UBICOM32_GOT_LO7_4_D ++ENUMX ++ BFD_RELOC_UBICOM32_FUNCDESC_GOT_HI24 ++ENUMX ++ BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_S ++ENUMX ++ BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_2_S ++ENUMX ++ BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_4_S ++ENUMX ++ BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_D ++ENUMX ++ BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_2_D ++ENUMX ++ BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_4_D ++ENUMX ++ BFD_RELOC_UBICOM32_GOT_LO7_CALLI ++ENUMX ++ BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_CALLI ++ENUMX ++ BFD_RELOC_UBICOM32_FUNCDESC_VALUE ++ENUMX ++ BFD_RELOC_UBICOM32_FUNCDESC ++ENUMX ++ BFD_RELOC_UBICOM32_GOTOFFSET_LO ++ENUMX ++ BFD_RELOC_UBICOM32_GOTOFFSET_HI ++ENUMX ++ BFD_RELOC_UBICOM32_FUNCDESC_GOTOFFSET_LO ++ENUMX ++ BFD_RELOC_UBICOM32_FUNCDESC_GOTOFFSET_HI ++ENUMDOC ++ Ubicom UBICOM32 Relocations. ++ ++ENUM + BFD_RELOC_VTABLE_INHERIT + ENUMX + BFD_RELOC_VTABLE_ENTRY +--- a/bfd/targets.c ++++ b/bfd/targets.c +@@ -663,6 +663,8 @@ extern const bfd_target bfd_elf32_spu_ve + extern const bfd_target bfd_elf32_tradbigmips_vec; + extern const bfd_target bfd_elf32_tradlittlemips_vec; + extern const bfd_target bfd_elf32_us_cris_vec; ++extern const bfd_target bfd_elf32_ubicom32_vec; ++extern const bfd_target bfd_elf32_ubicom32fdpic_vec; + extern const bfd_target bfd_elf32_v850_vec; + extern const bfd_target bfd_elf32_vax_vec; + extern const bfd_target bfd_elf32_xc16x_vec; +@@ -1001,6 +1003,7 @@ static const bfd_target * const _bfd_tar + &bfd_elf32_tradbigmips_vec, + &bfd_elf32_tradlittlemips_vec, + &bfd_elf32_us_cris_vec, ++ &bfd_elf32_ubicom32_vec, + &bfd_elf32_v850_vec, + &bfd_elf32_vax_vec, + &bfd_elf32_xc16x_vec, +--- a/binutils/Makefile.am ++++ b/binutils/Makefile.am +@@ -584,7 +584,7 @@ readelf.o: readelf.c config.h sysdep.h $ + $(INCDIR)/elf/dlx.h $(INCDIR)/elf/fr30.h $(INCDIR)/elf/frv.h \ + $(INCDIR)/elf/hppa.h $(INCDIR)/elf/i386.h $(INCDIR)/elf/i370.h \ + $(INCDIR)/elf/i860.h $(INCDIR)/elf/i960.h $(INCDIR)/elf/ia64.h \ +- $(INCDIR)/elf/ip2k.h $(INCDIR)/elf/iq2000.h $(INCDIR)/elf/m32c.h \ ++ $(INCDIR)/elf/ip2k.h $(INCDIR)/elf/ubicom32.h $(INCDIR)/elf/iq2000.h $(INCDIR)/elf/m32c.h \ + $(INCDIR)/elf/m32r.h $(INCDIR)/elf/m68k.h $(INCDIR)/elf/m68hc11.h \ + $(INCDIR)/elf/mcore.h $(INCDIR)/elf/mep.h $(INCDIR)/elf/mips.h \ + $(INCDIR)/elf/mmix.h $(INCDIR)/elf/mn10200.h $(INCDIR)/elf/mn10300.h \ +--- a/binutils/Makefile.in ++++ b/binutils/Makefile.in +@@ -1338,7 +1338,7 @@ readelf.o: readelf.c config.h sysdep.h $ + $(INCDIR)/elf/dlx.h $(INCDIR)/elf/fr30.h $(INCDIR)/elf/frv.h \ + $(INCDIR)/elf/hppa.h $(INCDIR)/elf/i386.h $(INCDIR)/elf/i370.h \ + $(INCDIR)/elf/i860.h $(INCDIR)/elf/i960.h $(INCDIR)/elf/ia64.h \ +- $(INCDIR)/elf/ip2k.h $(INCDIR)/elf/iq2000.h $(INCDIR)/elf/m32c.h \ ++ $(INCDIR)/elf/ip2k.h $(INCDIR)/elf/ubicom32.h $(INCDIR)/elf/iq2000.h $(INCDIR)/elf/m32c.h \ + $(INCDIR)/elf/m32r.h $(INCDIR)/elf/m68k.h $(INCDIR)/elf/m68hc11.h \ + $(INCDIR)/elf/mcore.h $(INCDIR)/elf/mep.h $(INCDIR)/elf/mips.h \ + $(INCDIR)/elf/mmix.h $(INCDIR)/elf/mn10200.h $(INCDIR)/elf/mn10300.h \ +--- a/binutils/readelf.c ++++ b/binutils/readelf.c +@@ -152,6 +152,7 @@ + #include "elf/sh.h" + #include "elf/sparc.h" + #include "elf/spu.h" ++#include "elf/ubicom32.h" + #include "elf/v850.h" + #include "elf/vax.h" + #include "elf/x86-64.h" +@@ -612,6 +613,7 @@ guess_is_rela (unsigned int e_machine) + case EM_SPARC32PLUS: + case EM_SPARCV9: + case EM_SPU: ++ case EM_UBICOM32: + case EM_V850: + case EM_CYGNUS_V850: + case EM_VAX: +@@ -1159,6 +1161,10 @@ dump_relocations (FILE *file, + rtype = elf_crx_reloc_type (type); + break; + ++ case EM_UBICOM32: ++ rtype = elf_ubicom32_reloc_type (type); ++ break; ++ + case EM_VAX: + rtype = elf_vax_reloc_type (type); + break; +@@ -1812,6 +1818,7 @@ get_machine_name (unsigned e_machine) + case EM_DLX: return "OpenDLX"; + case EM_IP2K_OLD: + case EM_IP2K: return "Ubicom IP2xxx 8-bit microcontrollers"; ++ case EM_UBICOM32: return "Ubicom32 32-bit microcontrollers"; + case EM_IQ2000: return "Vitesse IQ2000"; + case EM_XTENSA_OLD: + case EM_XTENSA: return "Tensilica Xtensa Processor"; +--- a/configure ++++ b/configure +@@ -2666,6 +2666,12 @@ case "${target}" in + xtensa*-*-*) + noconfigdirs="$noconfigdirs ${libgcj}" + ;; ++ ubicom32-*-*linux*) ++ noconfigdirs="$noconfigdirs target-libffi target-newlib" ++ ;; ++ ubicom32-*-*) ++ noconfigdirs="$noconfigdirs target-libffi target-newlib" ++ ;; + ip2k-*-*) + noconfigdirs="$noconfigdirs target-libiberty target-libstdc++-v3 ${libgcj}" + ;; +--- a/configure.ac ++++ b/configure.ac +@@ -915,6 +915,12 @@ case "${target}" in + xtensa*-*-*) + noconfigdirs="$noconfigdirs ${libgcj}" + ;; ++ ubicom32-*-*linux*) ++ noconfigdirs="$noconfigdirs target-libffi target-newlib" ++ ;; ++ ubicom32-*-*) ++ noconfigdirs="$noconfigdirs target-libffi" ++ ;; + ip2k-*-*) + noconfigdirs="$noconfigdirs target-libiberty target-libstdc++-v3 ${libgcj}" + ;; +--- /dev/null ++++ b/gas/config/tc-ubicom32.c +@@ -0,0 +1,609 @@ ++/* tc-ubicom32.c -- Assembler for the Ubicom32 ++ Copyright (C) 2000, 2002 Free Software Foundation. ++ ++ This file is part of GAS, the GNU Assembler. ++ ++ GAS is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2, or (at your option) ++ any later version. ++ ++ GAS is distributed in the hope that it will be useful, ++ but WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ GNU General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with GAS; see the file COPYING. If not, write to ++ the Free Software Foundation, 59 Temple Place - Suite 330, ++ Boston, MA 02111-1307, USA. */ ++ ++#include ++#include ++ ++#include "as.h" ++#include "dwarf2dbg.h" ++#include "subsegs.h" ++#include "symcat.h" ++#include "opcodes/ubicom32-desc.h" ++#include "opcodes/ubicom32-opc.h" ++#include "cgen.h" ++#include "elf/common.h" ++#include "elf/ubicom32.h" ++#include "libbfd.h" ++ ++extern void gas_cgen_md_operand (expressionS *); ++ ++/* Structure to hold all of the different components describing ++ an individual instruction. */ ++typedef struct ++{ ++ const CGEN_INSN * insn; ++ const CGEN_INSN * orig_insn; ++ CGEN_FIELDS fields; ++#if CGEN_INT_INSN_P ++ CGEN_INSN_INT buffer [1]; ++#define INSN_VALUE(buf) (*(buf)) ++#else ++ unsigned char buffer [CGEN_MAX_INSN_SIZE]; ++#define INSN_VALUE(buf) (buf) ++#endif ++ char * addr; ++ fragS * frag; ++ int num_fixups; ++ fixS * fixups [GAS_CGEN_MAX_FIXUPS]; ++ int indices [MAX_OPERAND_INSTANCES]; ++} ++ubicom32_insn; ++ ++const char comment_chars[] = ";"; ++const char line_comment_chars[] = "#"; ++const char line_separator_chars[] = ""; ++const char EXP_CHARS[] = "eE"; ++const char FLT_CHARS[] = "dD"; ++ ++/* Ubicom32 specific function to handle FD-PIC pointer initializations. */ ++ ++static void ++ubicom32_pic_ptr (int nbytes) ++{ ++ expressionS exp; ++ char *p; ++ ++ if (nbytes != 4) ++ abort (); ++ ++#ifdef md_flush_pending_output ++ md_flush_pending_output (); ++#endif ++ ++ if (is_it_end_of_statement ()) ++ { ++ demand_empty_rest_of_line (); ++ return; ++ } ++ ++#ifdef md_cons_align ++ md_cons_align (nbytes); ++#endif ++ ++ do ++ { ++ bfd_reloc_code_real_type reloc_type = BFD_RELOC_UBICOM32_FUNCDESC; ++ ++ if (strncasecmp (input_line_pointer, "%funcdesc(", strlen("%funcdesc(")) == 0) ++ { ++ input_line_pointer += strlen("%funcdesc("); ++ expression (&exp); ++ if (*input_line_pointer == ')') ++ input_line_pointer++; ++ else ++ as_bad (_("missing ')'")); ++ } ++ else ++ as_bad ("missing funcdesc in picptr"); ++ ++ p = frag_more (4); ++ memset (p, 0, 4); ++ fix_new_exp (frag_now, p - frag_now->fr_literal, 4, &exp, 0, ++ reloc_type); ++ } ++ while (*input_line_pointer++ == ','); ++ ++ input_line_pointer--; /* Put terminator back into stream. */ ++ demand_empty_rest_of_line (); ++} ++ ++/* The target specific pseudo-ops which we support. */ ++const pseudo_typeS md_pseudo_table[] = ++{ ++ { "file", (void (*)(int))dwarf2_directive_file, 0 }, ++ { "loc", dwarf2_directive_loc, 0 }, ++ { "picptr", ubicom32_pic_ptr, 4 }, ++ { "word", cons, 4 }, ++ { NULL, NULL, 0 } ++}; ++ ++/* A table of the register symbols */ ++#if 0 ++static symbolS *ubicom32_register_table[40]; /* 32 data & 8 address */ ++#endif ++ ++ ++#define OPTION_CPU_IP3035 (OPTION_MD_BASE) ++#define OPTION_CPU_UBICOM32DSP (OPTION_MD_BASE+1) ++#define OPTION_CPU_UBICOM32VER4 (OPTION_MD_BASE+2) ++#define OPTION_CPU_UBICOM32VER3FDPIC (OPTION_MD_BASE+3) ++#define OPTION_CPU_UBICOM32VER4FDPIC (OPTION_MD_BASE+4) ++#define OPTION_CPU_UBICOM32_FDPIC (OPTION_MD_BASE+5) ++ ++struct option md_longopts[] = ++{ ++ { "mubicom32v1", no_argument, NULL, OPTION_CPU_IP3035 }, ++ { "mubicom32v2", no_argument, NULL, OPTION_CPU_UBICOM32DSP }, ++ { "mubicom32v3", no_argument, NULL, OPTION_CPU_UBICOM32DSP }, ++ { "mubicom32v4", no_argument, NULL, OPTION_CPU_UBICOM32VER4 }, ++ { "mubicom32v3fdpic", no_argument, NULL, OPTION_CPU_UBICOM32VER3FDPIC }, ++ { "mubicom32v4fdpic", no_argument, NULL, OPTION_CPU_UBICOM32VER4FDPIC }, ++ { "mfdpic", no_argument, NULL, OPTION_CPU_UBICOM32_FDPIC }, ++ { NULL, no_argument, NULL, 0 }, ++}; ++size_t md_longopts_size = sizeof (md_longopts); ++ ++const char * md_shortopts = ""; ++ ++/* Mach selected from command line. */ ++int ubicom32_mach = 0; ++unsigned ubicom32_mach_bitmask = 0; ++ ++int ++md_parse_option (c, arg) ++ int c ATTRIBUTE_UNUSED; ++ char * arg ATTRIBUTE_UNUSED; ++{ ++ int pic_state = ubicom32_mach & 0xffff0000; ++ switch (c) ++ { ++ case OPTION_CPU_IP3035: ++ ubicom32_mach = bfd_mach_ubicom32; ++ ubicom32_mach_bitmask = 1 << MACH_IP3035; ++ break; ++ ++ case OPTION_CPU_UBICOM32DSP: ++ ubicom32_mach = bfd_mach_ubicom32dsp; ++ ubicom32_mach_bitmask = (1 << MACH_UBICOM32DSP)| (1 << MACH_IP3023COMPATIBILITY); ++ break; ++ ++ case OPTION_CPU_UBICOM32VER4: ++ ubicom32_mach = bfd_mach_ubicom32ver4; ++ ubicom32_mach_bitmask = (1 << MACH_UBICOM32DSP)| (1 << MACH_IP3023COMPATIBILITY) | (1 << MACH_UBICOM32_VER4); ++ break; ++ ++ case OPTION_CPU_UBICOM32VER3FDPIC: ++ ubicom32_mach = bfd_mach_ubicom32dsp | EF_UBICOM32_FDPIC; ++ ubicom32_mach_bitmask = (1 << MACH_UBICOM32DSP)| (1 << MACH_IP3023COMPATIBILITY); ++ break; ++ ++ case OPTION_CPU_UBICOM32VER4FDPIC: ++ ubicom32_mach = bfd_mach_ubicom32ver4 | EF_UBICOM32_FDPIC; ++ ubicom32_mach_bitmask = (1 << MACH_UBICOM32DSP)| (1 << MACH_IP3023COMPATIBILITY) | (1 << MACH_UBICOM32_VER4); ++ break; ++ ++ case OPTION_CPU_UBICOM32_FDPIC: ++ ubicom32_mach |= EF_UBICOM32_FDPIC; ++ break; ++ ++ default: ++ return 0; ++ } ++ ubicom32_mach |= pic_state; ++ ++ return 1; ++} ++ ++ ++void ++md_show_usage (stream) ++ FILE * stream; ++{ ++ fprintf (stream, _("UBICOM32 specific command line options:\n")); ++ fprintf (stream, _(" -mubicom32v1 restrict to IP3023 insns \n")); ++ fprintf (stream, _(" -mubicom32v3 permit DSP extended insn\n")); ++ fprintf (stream, _(" -mubicom32v4 permit DSP extended insn and additional .1 instructions.\n")); ++ fprintf (stream, _(" -mfdpic This in addition to the v3 or v4 flags will produce a FDPIC .o.\n")); ++ ++} ++ ++ ++void ++md_begin () ++{ ++ /* Initialize the `cgen' interface. */ ++ if(ubicom32_mach_bitmask == 0) { ++ /* md_parse_option has not been called */ ++ ubicom32_mach_bitmask = 1<signed_overflow_ok_p=1; ++ ++ /* need a way to detect when we have multiple increments to same An register */ ++ insn.fields.f_s1_i4_1 = 0; ++ insn.fields.f_s1_i4_2 = 0; ++ insn.fields.f_s1_i4_4 = 0; ++ insn.fields.f_d_i4_1 = 0; ++ insn.fields.f_d_i4_2 = 0; ++ insn.fields.f_d_i4_4 = 0; ++ insn.fields.f_s1_direct = 0; ++ insn.fields.f_d_direct = 0; ++ ++ memset(&insn.fields, 0, sizeof(insn.fields)); ++ insn.insn = ubicom32_cgen_assemble_insn ++ (gas_cgen_cpu_desc, str, & insn.fields, insn.buffer, & errmsg); ++ ++ if (!insn.insn) ++ { ++ as_bad ("%s", errmsg); ++ return; ++ } ++ ++ if (insn.fields.f_s1_An == insn.fields.f_d_An) ++ { ++ if ((insn.fields.f_s1_i4_1 != 0 && insn.fields.f_d_i4_1 != 0) || ++ (insn.fields.f_s1_i4_2 != 0 && insn.fields.f_d_i4_2 != 0) || ++ (insn.fields.f_s1_i4_4 != 0 && insn.fields.f_d_i4_4 != 0)) ++ { ++ /* user has tried to increment the same An register in both the s1 ++ and d operands which is illegal */ ++ static char errbuf[255]; ++ char *first_part; ++ first_part = _("s1 and d operands update same An register"); ++ if (strlen (str) > 50) ++ sprintf (errbuf, "%s `%.50s...'", first_part, str); ++ else ++ sprintf (errbuf, "%s `%.50s'", first_part, str); ++ ++ as_bad ("%s", errbuf); ++ return; ++ } ++ } ++ ++ if(insn.fields.f_d_direct && ++ insn.fields.f_d_An == 0 && ++ insn.fields.f_d_imm7_4 == 0 && ++ insn.fields.f_d_imm7_2 == 0 && ++ insn.fields.f_d_imm7_1 == 0 && ++ insn.fields.f_d_i4_1 == 0 && ++ insn.fields.f_d_i4_2 == 0 && ++ insn.fields.f_d_i4_4 == 0) ++ { ++ if (insn.fields.f_d_direct >= A0_ADDRESS && ++ insn.fields.f_d_direct <= A7_ADDRESS) ++ { ++ long d_direct = (insn.fields.f_d_direct - A0_ADDRESS) >> 2; ++ if (d_direct == insn.fields.f_s1_An && ++ (insn.fields.f_s1_i4_1 != 0 || ++ insn.fields.f_s1_i4_2 != 0 || ++ insn.fields.f_s1_i4_4 != 0)) ++ { ++ /* user has tried to increment an An register that is also the destination register */ ++ static char errbuf[255]; ++ char *first_part; ++ first_part = _("s1 and d operands update same An register"); ++ if (strlen (str) > 50) ++ sprintf (errbuf, "%s `%.50s...'", first_part, str); ++ else ++ sprintf (errbuf, "%s `%.50s'", first_part, str); ++ ++ as_bad ("%s", errbuf); ++ return; ++ } ++ } ++ } ++ ++ /* Doesn't really matter what we pass for RELAX_P here. */ ++ gas_cgen_finish_insn (insn.insn, insn.buffer, ++ CGEN_FIELDS_BITSIZE (& insn.fields), 1, NULL); ++ ++} ++ ++/* The syntax in the manual says constants begin with '#'. ++ We just ignore it. */ ++ ++void ++md_operand (expressionP) ++ expressionS * expressionP; ++{ ++ /* In case of a syntax error, escape back to try next syntax combo. */ ++ if (expressionP->X_op == O_absent) ++ gas_cgen_md_operand (expressionP); ++} ++ ++valueT ++md_section_align (segment, size) ++ segT segment; ++ valueT size; ++{ ++ int align = bfd_get_section_alignment (stdoutput, segment); ++ return ((size + (1 << align) - 1) & (-1 << align)); ++} ++ ++ ++/* Be sure to use our register symbols. */ ++symbolS * ++md_undefined_symbol (char * name ATTRIBUTE_UNUSED) ++{ ++#if 0 ++ char c; ++ unsigned int u; ++ ++ if (sscanf(name, "%c%u", &c, &u) == 2) ++ { ++ if (c == 'd' && u < 32) ++ return ubicom32_register_table[u]; ++ if (c == 'a' && u < 8) ++ return ubicom32_register_table[u + 32]; ++ } ++#endif ++ return (0); ++} ++ ++/* Interface to relax_segment. */ ++ ++/* Return an initial guess of the length by which a fragment must grow to ++ hold a branch to reach its destination. ++ Also updates fr_type/fr_subtype as necessary. ++ ++ Called just before doing relaxation. ++ Any symbol that is now undefined will not become defined. ++ The guess for fr_var is ACTUALLY the growth beyond fr_fix. ++ Whatever we do to grow fr_fix or fr_var contributes to our returned value. ++ Although it may not be explicit in the frag, pretend fr_var starts with a ++ 0 value. */ ++ ++int ++md_estimate_size_before_relax (fragP, segment) ++ fragS * fragP; ++ segT segment ATTRIBUTE_UNUSED; ++{ ++ int old_fr_fix = fragP->fr_fix; ++ ++ /* The only thing we have to handle here are symbols outside of the ++ current segment. They may be undefined or in a different segment in ++ which case linker scripts may place them anywhere. ++ However, we can't finish the fragment here and emit the reloc as insn ++ alignment requirements may move the insn about. */ ++ ++ return (fragP->fr_var + fragP->fr_fix - old_fr_fix); ++} ++ ++/* *fragP has been relaxed to its final size, and now needs to have ++ the bytes inside it modified to conform to the new size. ++ ++ Called after relaxation is finished. ++ fragP->fr_type == rs_machine_dependent. ++ fragP->fr_subtype is the subtype of what the address relaxed to. */ ++ ++void ++md_convert_frag (abfd, sec, fragP) ++ bfd * abfd ATTRIBUTE_UNUSED; ++ segT sec ATTRIBUTE_UNUSED; ++ fragS * fragP ATTRIBUTE_UNUSED; ++{ ++} ++ ++ ++/* Functions concerning relocs. */ ++ ++long ++md_pcrel_from_section (fixS *fixP ATTRIBUTE_UNUSED, segT sec ATTRIBUTE_UNUSED) ++{ ++ /* Leave it for the linker to figure out so relaxation can work*/ ++ return 0; ++} ++ ++/* Return the bfd reloc type for OPERAND of INSN at fixup FIXP. ++ Returns BFD_RELOC_NONE if no reloc type can be found. ++ *FIXP may be modified if desired. */ ++ ++bfd_reloc_code_real_type ++md_cgen_lookup_reloc (insn, operand, fixP) ++ const CGEN_INSN * insn ATTRIBUTE_UNUSED; ++ const CGEN_OPERAND * operand; ++ fixS * fixP; ++{ ++ switch (operand->type) ++ { ++ case UBICOM32_OPERAND_IMM16_2: ++ case UBICOM32_OPERAND_IMM24: ++ case UBICOM32_OPERAND_S1_IMM7_1: ++ case UBICOM32_OPERAND_S1_IMM7_2: ++ case UBICOM32_OPERAND_S1_IMM7_4: ++ case UBICOM32_OPERAND_D_IMM7_1: ++ case UBICOM32_OPERAND_D_IMM7_2: ++ case UBICOM32_OPERAND_D_IMM7_4: ++ case UBICOM32_OPERAND_OFFSET16: ++ /* The relocation type should be recorded in opinfo */ ++ if (fixP->fx_cgen.opinfo != 0) ++ return fixP->fx_cgen.opinfo; ++ ++ case UBICOM32_OPERAND_OFFSET21: ++ fixP->fx_pcrel = TRUE; ++ return BFD_RELOC_UBICOM32_21_PCREL; ++ ++ case UBICOM32_OPERAND_OFFSET24: ++ fixP->fx_pcrel = TRUE; ++ return BFD_RELOC_UBICOM32_24_PCREL; ++ ++ default: ++ /* Pacify gcc -Wall. */ ++ return BFD_RELOC_NONE; ++ } ++} ++ ++/* See whether we need to force a relocation into the output file. */ ++ ++int ++ubicom32_force_relocation (fix) ++ fixS * fix; ++{ ++ if (fix->fx_r_type == BFD_RELOC_UNUSED) ++ return 0; ++ ++ /* Force all relocations so linker relaxation can work. */ ++ return 1; ++} ++ ++/* Write a value out to the object file, using the appropriate endianness. */ ++ ++void ++md_number_to_chars (buf, val, n) ++ char * buf; ++ valueT val; ++ int n; ++{ ++ number_to_chars_bigendian (buf, val, n); ++} ++ ++/* Turn a string in input_line_pointer into a floating point constant of type ++ type, and store the appropriate bytes in *litP. The number of LITTLENUMS ++ emitted is stored in *sizeP . An error message is returned, or NULL on OK. ++*/ ++ ++/* Equal to MAX_PRECISION in atof-ieee.c */ ++#define MAX_LITTLENUMS 6 ++ ++char * ++md_atof (int type, ++ char * litP, ++ int * sizeP) ++{ ++ int prec; ++ LITTLENUM_TYPE words [MAX_LITTLENUMS]; ++ LITTLENUM_TYPE *wordP; ++ char * t; ++ //char * atof_ieee (void); ++ ++ switch (type) ++ { ++ case 'f': ++ case 'F': ++ case 's': ++ case 'S': ++ prec = 2; ++ break; ++ ++ case 'd': ++ case 'D': ++ case 'r': ++ case 'R': ++ prec = 4; ++ break; ++ ++ /* FIXME: Some targets allow other format chars for bigger sizes here. */ ++ ++ default: ++ * sizeP = 0; ++ return _("Bad call to md_atof()"); ++ } ++ ++ t = atof_ieee (input_line_pointer, type, words); ++ if (t) ++ input_line_pointer = t; ++ * sizeP = prec * sizeof (LITTLENUM_TYPE); ++ ++ /* This loops outputs the LITTLENUMs in REVERSE order; in accord with ++ the ubicom32 endianness. */ ++ for (wordP = words; prec--;) ++ { ++ md_number_to_chars (litP, (valueT) (*wordP++), sizeof (LITTLENUM_TYPE)); ++ litP += sizeof (LITTLENUM_TYPE); ++ } ++ ++ return 0; ++} ++ ++bfd_boolean ++ubicom32_fix_adjustable (fixP) ++ fixS * fixP; ++{ ++ bfd_reloc_code_real_type reloc_type; ++ ++ if ((int) fixP->fx_r_type >= (int) BFD_RELOC_UNUSED) ++ { ++ const CGEN_INSN *insn = NULL; ++ int opindex = (int) fixP->fx_r_type - (int) BFD_RELOC_UNUSED; ++ const CGEN_OPERAND *operand = cgen_operand_lookup_by_num(gas_cgen_cpu_desc, opindex); ++ reloc_type = md_cgen_lookup_reloc (insn, operand, fixP); ++ } ++ else ++ reloc_type = fixP->fx_r_type; ++ ++ if (fixP->fx_addsy == NULL) ++ return 1; ++ ++ if (!S_IS_LOCAL (fixP->fx_addsy)) ++ /* Let the linker resolve all symbols not within the local function ++ so the linker can relax correctly. */ ++ return 0; ++ ++ if (S_IS_WEAK (fixP->fx_addsy)) ++ return 0; ++ ++ /* We need the symbol name for the VTABLE entries */ ++ if ( reloc_type == BFD_RELOC_VTABLE_INHERIT ++ || reloc_type == BFD_RELOC_VTABLE_ENTRY) ++ return 0; ++ ++ return 1; ++} +--- /dev/null ++++ b/gas/config/tc-ubicom32.h +@@ -0,0 +1,74 @@ ++/* tc-ubicom32.h -- Header file for tc-ubicom32.c. ++ Copyright (C) 2000 Free Software Foundation, Inc. ++ ++ This file is part of GAS, the GNU Assembler. ++ ++ GAS is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2, or (at your option) ++ any later version. ++ ++ GAS is distributed in the hope that it will be useful, ++ but WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ GNU General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with GAS; see the file COPYING. If not, write to ++ the Free Software Foundation, 59 Temple Place - Suite 330, ++ Boston, MA 02111-1307, USA. */ ++ ++#define TC_UBICOM32 ++ ++#if 0 ++#ifndef BFD_ASSEMBLER ++/* leading space so will compile with cc */ ++ #error UBICOM32 support requires BFD_ASSEMBLER ++#endif ++#endif ++ ++#define LISTING_HEADER "IP3xxx GAS " ++ ++/* The target BFD architecture. */ ++#define TARGET_ARCH bfd_arch_ubicom32 ++ ++#define TARGET_FORMAT "elf32-ubicom32" ++ ++#define TARGET_BYTES_BIG_ENDIAN 1 ++ ++/* Permit temporary numeric labels. */ ++#define LOCAL_LABELS_FB 1 ++ ++/* .-foo gets turned into PC relative relocs. */ ++#define DIFF_EXPR_OK ++ ++/* UBICOM32 uses '(' and ')' as punctuation in addressing mode syntax. */ ++#define RELAX_PAREN_GROUPING ++ ++/* We don't need to handle .word strangely. */ ++#define WORKING_DOT_WORD ++ ++#define MD_APPLY_FIX3 ++#define md_apply_fix gas_cgen_md_apply_fix ++ ++/* special characters for hex and bin literals */ ++#define LITERAL_PREFIXDOLLAR_HEX ++#define LITERAL_PREFIXPERCENT_BIN ++#define DOUBLESLASH_LINE_COMMENTS ++ ++/* call md_pcrel_from_section, not md_pcrel_from */ ++long md_pcrel_from_section PARAMS ((struct fix *, segT)); ++#define MD_PCREL_FROM_SECTION(FIXP, SEC) md_pcrel_from_section (FIXP, SEC) ++ ++#define obj_fix_adjustable(fixP) ubicom32_fix_adjustable (fixP) ++extern bfd_boolean ubicom32_fix_adjustable PARAMS ((struct fix *)); ++ ++/* Permit temporary numeric labels. */ ++#define LOCAL_LABELS_FB 1 ++ ++#define TC_HANDLES_FX_DONE ++ ++#define tc_gen_reloc gas_cgen_tc_gen_reloc ++ ++#define TC_FORCE_RELOCATION(fixp) ubicom32_force_relocation(fixp) ++extern int ubicom32_force_relocation PARAMS ((struct fix *)); +--- a/gas/configure ++++ b/gas/configure +@@ -11188,7 +11188,7 @@ _ACEOF + fi + ;; + +- fr30 | ip2k | iq2000 | m32r | openrisc) ++ fr30 | ubicom32 | ip2k | iq2000 | m32r | openrisc) + using_cgen=yes + ;; + +--- a/gas/configure.in ++++ b/gas/configure.in +@@ -307,7 +307,7 @@ changequote([,])dnl + fi + ;; + +- fr30 | ip2k | iq2000 | m32r | openrisc) ++ fr30 | ubicom32 | ip2k | iq2000 | m32r | openrisc) + using_cgen=yes + ;; + +--- a/gas/configure.tgt ++++ b/gas/configure.tgt +@@ -81,6 +81,7 @@ case ${cpu} in + strongarm*be) cpu_type=arm endian=big ;; + strongarm*b) cpu_type=arm endian=big ;; + strongarm*) cpu_type=arm endian=little ;; ++ ubicom32) cpu_type=ubicom32 endian=big ;; + v850*) cpu_type=v850 ;; + x86_64*) cpu_type=i386 arch=x86_64;; + xscale*be|xscale*b) cpu_type=arm endian=big ;; +@@ -384,6 +385,8 @@ case ${generic_target} in + tic4x-*-* | c4x-*-*) fmt=coff bfd_gas=yes ;; + tic54x-*-* | c54x*-*-*) fmt=coff bfd_gas=yes need_libm=yes;; + ++ ubicom32-*-*) fmt=elf ;; ++ + v850-*-*) fmt=elf ;; + v850e-*-*) fmt=elf ;; + v850ea-*-*) fmt=elf ;; +--- a/gas/Makefile.am ++++ b/gas/Makefile.am +@@ -92,6 +92,7 @@ CPU_TYPES = \ + tic30 \ + tic4x \ + tic54x \ ++ ubicom32 \ + v850 \ + vax \ + xc16x \ +@@ -287,6 +288,7 @@ TARGET_CPU_CFILES = \ + config/tc-tic30.c \ + config/tc-tic4x.c \ + config/tc-tic54x.c \ ++ config/tc-ubicom32.c \ + config/tc-vax.c \ + config/tc-v850.c \ + config/tc-xstormy16.c \ +@@ -1415,6 +1417,14 @@ DEPTC_tic54x_coff = $(srcdir)/config/obj + $(BFDDIR)/libcoff.h $(INCDIR)/bfdlink.h $(INCDIR)/safe-ctype.h \ + sb.h macro.h subsegs.h $(INCDIR)/obstack.h struc-symbol.h \ + $(INCDIR)/opcode/tic54x.h ++DEPTC_ubicom32_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ ++ $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h $(INCDIR)/elf/external.h \ ++ $(INCDIR)/bfdlink.h $(srcdir)/config/tc-ubicom32.h dwarf2dbg.h \ ++ subsegs.h $(INCDIR)/obstack.h $(srcdir)/../opcodes/ubicom32-desc.h \ ++ $(INCDIR)/opcode/cgen-bitset.h $(INCDIR)/opcode/cgen.h \ ++ $(INCDIR)/opcode/cgen-bitset.h $(srcdir)/../opcodes/ubicom32-opc.h \ ++ cgen.h $(INCDIR)/elf/common.h $(INCDIR)/elf/ubicom32.h \ ++ $(INCDIR)/elf/reloc-macros.h $(BFDDIR)/libbfd.h $(INCDIR)/hashtab.h + DEPTC_v850_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ + $(INCDIR)/elf/common.h $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/bfdlink.h $(srcdir)/config/tc-v850.h $(INCDIR)/elf/v850.h \ +@@ -1791,6 +1801,11 @@ DEPOBJ_tic54x_coff = $(srcdir)/config/ob + $(INCDIR)/coff/internal.h $(INCDIR)/coff/tic54x.h $(INCDIR)/coff/ti.h \ + $(BFDDIR)/libcoff.h $(INCDIR)/bfdlink.h $(INCDIR)/obstack.h \ + subsegs.h ++DEPOBJ_ubicomm32_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ ++ $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h $(INCDIR)/elf/external.h \ ++ $(INCDIR)/bfdlink.h $(srcdir)/config/tc-ubicom32.h dwarf2dbg.h \ ++ $(INCDIR)/safe-ctype.h subsegs.h $(INCDIR)/obstack.h \ ++ $(INCDIR)/obstack.h struc-symbol.h dwarf2dbg.h $(INCDIR)/aout/aout64.h + DEPOBJ_v850_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ + $(INCDIR)/elf/common.h $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/bfdlink.h $(srcdir)/config/tc-v850.h $(INCDIR)/elf/v850.h \ +@@ -2106,6 +2121,11 @@ DEP_tic4x_coff = $(srcdir)/config/obj-co + DEP_tic54x_coff = $(srcdir)/config/obj-coff.h $(srcdir)/config/tc-tic54x.h \ + $(INCDIR)/coff/internal.h $(INCDIR)/coff/tic54x.h $(INCDIR)/coff/ti.h \ + $(BFDDIR)/libcoff.h $(INCDIR)/bfdlink.h ++DEP_ubicom32_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ ++ $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h $(INCDIR)/elf/external.h \ ++ $(INCDIR)/bfdlink.h $(srcdir)/config/tc-ubicom32.h dwarf2dbg.h \ ++ $(srcdir)/config/obj-coff.h $(INCDIR)/coff/internal.h \ ++ $(BFDDIR)/libcoff.h + DEP_v850_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ + $(INCDIR)/elf/common.h $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/bfdlink.h $(srcdir)/config/tc-v850.h $(INCDIR)/elf/v850.h \ +--- a/gas/Makefile.in ++++ b/gas/Makefile.in +@@ -341,6 +341,7 @@ CPU_TYPES = \ + tic30 \ + tic4x \ + tic54x \ ++ ubicom32 \ + v850 \ + vax \ + xc16x \ +@@ -534,6 +535,7 @@ TARGET_CPU_CFILES = \ + config/tc-tic30.c \ + config/tc-tic4x.c \ + config/tc-tic54x.c \ ++ config/tc-ubicom32.c \ + config/tc-vax.c \ + config/tc-v850.c \ + config/tc-xstormy16.c \ +@@ -594,6 +596,7 @@ TARGET_CPU_HFILES = \ + config/tc-tic30.h \ + config/tc-tic4x.h \ + config/tc-tic54x.h \ ++ config/tc-ubicom32.h \ + config/tc-vax.h \ + config/tc-v850.h \ + config/tc-xstormy16.h \ +@@ -1244,6 +1247,13 @@ DEPTC_tic54x_coff = $(srcdir)/config/obj + $(BFDDIR)/libcoff.h $(INCDIR)/bfdlink.h $(INCDIR)/safe-ctype.h \ + sb.h macro.h subsegs.h $(INCDIR)/obstack.h struc-symbol.h \ + $(INCDIR)/opcode/tic54x.h ++DEPTC_ubicom32_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ ++ $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h $(INCDIR)/elf/external.h \ ++ $(INCDIR)/bfdlink.h $(srcdir)/config/tc-ubicom32.h dwarf2dbg.h \ ++ subsegs.h $(INCDIR)/obstack.h $(srcdir)/../opcodes/ubicom32-desc.h \ ++ $(INCDIR)/opcode/cgen-bitset.h $(INCDIR)/opcode/cgen.h \ ++ $(srcdir)/../opcodes/ubicom32-opc.h cgen.h $(INCDIR)/elf/ubicom32.h \ ++ $(INCDIR)/elf/reloc-macros.h $(BFDDIR)/libbfd.h $(INCDIR)/hashtab.h + + DEPTC_v850_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ + $(INCDIR)/elf/common.h $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h \ +@@ -1700,6 +1710,11 @@ DEPOBJ_tic54x_coff = $(srcdir)/config/ob + $(INCDIR)/coff/internal.h $(INCDIR)/coff/tic54x.h $(INCDIR)/coff/ti.h \ + $(BFDDIR)/libcoff.h $(INCDIR)/bfdlink.h $(INCDIR)/obstack.h \ + subsegs.h ++DEPOBJ_ubicom32_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ ++ $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h $(INCDIR)/elf/external.h \ ++ $(INCDIR)/bfdlink.h $(srcdir)/config/tc-ubicom32.h dwarf2dbg.h \ ++ $(INCDIR)/safe-ctype.h subsegs.h $(INCDIR)/obstack.h \ ++ struc-symbol.h $(INCDIR)/aout/aout64.h + + DEPOBJ_v850_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ + $(INCDIR)/elf/common.h $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h \ +@@ -2096,6 +2111,11 @@ DEP_tic54x_coff = $(srcdir)/config/obj-c + $(INCDIR)/coff/internal.h $(INCDIR)/coff/tic54x.h $(INCDIR)/coff/ti.h \ + $(BFDDIR)/libcoff.h $(INCDIR)/bfdlink.h + ++DEP_ubicom32_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ ++ $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h $(INCDIR)/elf/external.h \ ++ $(INCDIR)/bfdlink.h $(srcdir)/config/tc-ubicom32.h dwarf2dbg.h \ ++ $(srcdir)/config/obj-coff.h $(INCDIR)/coff/internal.h \ ++ $(BFDDIR)/libcoff.h + DEP_v850_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ + $(INCDIR)/elf/common.h $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/bfdlink.h $(srcdir)/config/tc-v850.h $(INCDIR)/elf/v850.h \ +--- a/include/dis-asm.h ++++ b/include/dis-asm.h +@@ -275,6 +275,7 @@ extern int print_insn_tic30 (bfd_vma, d + extern int print_insn_tic4x (bfd_vma, disassemble_info *); + extern int print_insn_tic54x (bfd_vma, disassemble_info *); + extern int print_insn_tic80 (bfd_vma, disassemble_info *); ++extern int print_insn_ubicom32 (bfd_vma, disassemble_info *); + extern int print_insn_v850 (bfd_vma, disassemble_info *); + extern int print_insn_vax (bfd_vma, disassemble_info *); + extern int print_insn_w65 (bfd_vma, disassemble_info *); +--- /dev/null ++++ b/include/dis-asm_ubicom32.h +@@ -0,0 +1,339 @@ ++/* Interface between the opcode library and its callers. ++ ++ Copyright 1999, 2000, 2001, 2002, 2003, 2004, 2005 ++ Free Software Foundation, Inc. ++ ++ This program is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2, or (at your option) ++ any later version. ++ ++ This program is distributed in the hope that it will be useful, ++ but WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ GNU General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 51 Franklin Street - Fifth Floor, ++ Boston, MA 02110-1301, USA. ++ ++ Written by Cygnus Support, 1993. ++ ++ The opcode library (libopcodes.a) provides instruction decoders for ++ a large variety of instruction sets, callable with an identical ++ interface, for making instruction-processing programs more independent ++ of the instruction set being processed. */ ++ ++#ifndef DIS_ASM_H ++#define DIS_ASM_H ++ ++#ifdef __cplusplus ++extern "C" { ++#endif ++ ++#include ++#include "bfd.h" ++ ++typedef int (*fprintf_ftype) (void *, const char*, ...) ATTRIBUTE_FPTR_PRINTF_2; ++ ++enum dis_insn_type { ++ dis_noninsn, /* Not a valid instruction */ ++ dis_nonbranch, /* Not a branch instruction */ ++ dis_branch, /* Unconditional branch */ ++ dis_condbranch, /* Conditional branch */ ++ dis_jsr, /* Jump to subroutine */ ++ dis_condjsr, /* Conditional jump to subroutine */ ++ dis_dref, /* Data reference instruction */ ++ dis_dref2 /* Two data references in instruction */ ++}; ++ ++/* This struct is passed into the instruction decoding routine, ++ and is passed back out into each callback. The various fields are used ++ for conveying information from your main routine into your callbacks, ++ for passing information into the instruction decoders (such as the ++ addresses of the callback functions), or for passing information ++ back from the instruction decoders to their callers. ++ ++ It must be initialized before it is first passed; this can be done ++ by hand, or using one of the initialization macros below. */ ++ ++typedef struct disassemble_info { ++ fprintf_ftype fprintf_func; ++ void *stream; ++ void *application_data; ++ ++ /* Target description. We could replace this with a pointer to the bfd, ++ but that would require one. There currently isn't any such requirement ++ so to avoid introducing one we record these explicitly. */ ++ /* The bfd_flavour. This can be bfd_target_unknown_flavour. */ ++ enum bfd_flavour flavour; ++ /* The bfd_arch value. */ ++ enum bfd_architecture arch; ++ /* The bfd_mach value. */ ++ unsigned long mach; ++ /* Endianness (for bi-endian cpus). Mono-endian cpus can ignore this. */ ++ enum bfd_endian endian; ++ /* An arch/mach-specific bitmask of selected instruction subsets, mainly ++ for processors with run-time-switchable instruction sets. The default, ++ zero, means that there is no constraint. CGEN-based opcodes ports ++ may use ISA_foo masks. */ ++ void *insn_sets; ++ ++ /* Some targets need information about the current section to accurately ++ display insns. If this is NULL, the target disassembler function ++ will have to make its best guess. */ ++ asection *section; ++ ++ /* An array of pointers to symbols either at the location being disassembled ++ or at the start of the function being disassembled. The array is sorted ++ so that the first symbol is intended to be the one used. The others are ++ present for any misc. purposes. This is not set reliably, but if it is ++ not NULL, it is correct. */ ++ asymbol **symbols; ++ /* Number of symbols in array. */ ++ int num_symbols; ++ ++ /* For use by the disassembler. ++ The top 16 bits are reserved for public use (and are documented here). ++ The bottom 16 bits are for the internal use of the disassembler. */ ++ unsigned long flags; ++#define INSN_HAS_RELOC 0x80000000 ++ void *private_data; ++ ++ /* Function used to get bytes to disassemble. MEMADDR is the ++ address of the stuff to be disassembled, MYADDR is the address to ++ put the bytes in, and LENGTH is the number of bytes to read. ++ INFO is a pointer to this struct. ++ Returns an errno value or 0 for success. */ ++ int (*read_memory_func) ++ (bfd_vma memaddr, bfd_byte *myaddr, unsigned int length, ++ struct disassemble_info *info); ++ ++ /* Function which should be called if we get an error that we can't ++ recover from. STATUS is the errno value from read_memory_func and ++ MEMADDR is the address that we were trying to read. INFO is a ++ pointer to this struct. */ ++ void (*memory_error_func) ++ (int status, bfd_vma memaddr, struct disassemble_info *info); ++ ++ /* Function called to print ADDR. */ ++ void (*print_address_func) ++ (bfd_vma addr, struct disassemble_info *info); ++ ++ /* Function called to determine if there is a symbol at the given ADDR. ++ If there is, the function returns 1, otherwise it returns 0. ++ This is used by ports which support an overlay manager where ++ the overlay number is held in the top part of an address. In ++ some circumstances we want to include the overlay number in the ++ address, (normally because there is a symbol associated with ++ that address), but sometimes we want to mask out the overlay bits. */ ++ int (* symbol_at_address_func) ++ (bfd_vma addr, struct disassemble_info * info); ++ ++ /* Function called to check if a SYMBOL is can be displayed to the user. ++ This is used by some ports that want to hide special symbols when ++ displaying debugging outout. */ ++ bfd_boolean (* symbol_is_valid) ++ (asymbol *, struct disassemble_info * info); ++ ++ /* These are for buffer_read_memory. */ ++ bfd_byte *buffer; ++ bfd_vma buffer_vma; ++ unsigned int buffer_length; ++ ++ /* This variable may be set by the instruction decoder. It suggests ++ the number of bytes objdump should display on a single line. If ++ the instruction decoder sets this, it should always set it to ++ the same value in order to get reasonable looking output. */ ++ int bytes_per_line; ++ ++ /* The next two variables control the way objdump displays the raw data. */ ++ /* For example, if bytes_per_line is 8 and bytes_per_chunk is 4, the */ ++ /* output will look like this: ++ 00: 00000000 00000000 ++ with the chunks displayed according to "display_endian". */ ++ int bytes_per_chunk; ++ enum bfd_endian display_endian; ++ ++ /* Number of octets per incremented target address ++ Normally one, but some DSPs have byte sizes of 16 or 32 bits. */ ++ unsigned int octets_per_byte; ++ ++ /* The number of zeroes we want to see at the end of a section before we ++ start skipping them. */ ++ unsigned int skip_zeroes; ++ ++ /* The number of zeroes to skip at the end of a section. If the number ++ of zeroes at the end is between SKIP_ZEROES_AT_END and SKIP_ZEROES, ++ they will be disassembled. If there are fewer than ++ SKIP_ZEROES_AT_END, they will be skipped. This is a heuristic ++ attempt to avoid disassembling zeroes inserted by section ++ alignment. */ ++ unsigned int skip_zeroes_at_end; ++ ++ /* Whether the disassembler always needs the relocations. */ ++ bfd_boolean disassembler_needs_relocs; ++ ++ /* Results from instruction decoders. Not all decoders yet support ++ this information. This info is set each time an instruction is ++ decoded, and is only valid for the last such instruction. ++ ++ To determine whether this decoder supports this information, set ++ insn_info_valid to 0, decode an instruction, then check it. */ ++ ++ char insn_info_valid; /* Branch info has been set. */ ++ char branch_delay_insns; /* How many sequential insn's will run before ++ a branch takes effect. (0 = normal) */ ++ char data_size; /* Size of data reference in insn, in bytes */ ++ enum dis_insn_type insn_type; /* Type of instruction */ ++ bfd_vma target; /* Target address of branch or dref, if known; ++ zero if unknown. */ ++ bfd_vma target2; /* Second target address for dref2 */ ++ ++ /* Command line options specific to the target disassembler. */ ++ char * disassembler_options; ++ ++} disassemble_info; ++ ++ ++/* Standard disassemblers. Disassemble one instruction at the given ++ target address. Return number of octets processed. */ ++typedef int (*disassembler_ftype) (bfd_vma, disassemble_info *); ++ ++extern int print_insn_big_mips (bfd_vma, disassemble_info *); ++extern int print_insn_little_mips (bfd_vma, disassemble_info *); ++extern int print_insn_i386 (bfd_vma, disassemble_info *); ++extern int print_insn_i386_att (bfd_vma, disassemble_info *); ++extern int print_insn_i386_intel (bfd_vma, disassemble_info *); ++extern int print_insn_ia64 (bfd_vma, disassemble_info *); ++extern int print_insn_i370 (bfd_vma, disassemble_info *); ++extern int print_insn_m68hc11 (bfd_vma, disassemble_info *); ++extern int print_insn_m68hc12 (bfd_vma, disassemble_info *); ++extern int print_insn_m68k (bfd_vma, disassemble_info *); ++extern int print_insn_z80 (bfd_vma, disassemble_info *); ++extern int print_insn_z8001 (bfd_vma, disassemble_info *); ++extern int print_insn_z8002 (bfd_vma, disassemble_info *); ++extern int print_insn_h8300 (bfd_vma, disassemble_info *); ++extern int print_insn_h8300h (bfd_vma, disassemble_info *); ++extern int print_insn_h8300s (bfd_vma, disassemble_info *); ++extern int print_insn_h8500 (bfd_vma, disassemble_info *); ++extern int print_insn_alpha (bfd_vma, disassemble_info *); ++extern int print_insn_big_arm (bfd_vma, disassemble_info *); ++extern int print_insn_little_arm (bfd_vma, disassemble_info *); ++extern int print_insn_sparc (bfd_vma, disassemble_info *); ++extern int print_insn_avr (bfd_vma, disassemble_info *); ++extern int print_insn_bfin (bfd_vma, disassemble_info *); ++extern int print_insn_d10v (bfd_vma, disassemble_info *); ++extern int print_insn_d30v (bfd_vma, disassemble_info *); ++extern int print_insn_dlx (bfd_vma, disassemble_info *); ++extern int print_insn_fr30 (bfd_vma, disassemble_info *); ++extern int print_insn_hppa (bfd_vma, disassemble_info *); ++extern int print_insn_i860 (bfd_vma, disassemble_info *); ++extern int print_insn_i960 (bfd_vma, disassemble_info *); ++extern int print_insn_m32r (bfd_vma, disassemble_info *); ++extern int print_insn_m88k (bfd_vma, disassemble_info *); ++extern int print_insn_maxq_little (bfd_vma, disassemble_info *); ++extern int print_insn_maxq_big (bfd_vma, disassemble_info *); ++extern int print_insn_mcore (bfd_vma, disassemble_info *); ++extern int print_insn_mmix (bfd_vma, disassemble_info *); ++extern int print_insn_mn10200 (bfd_vma, disassemble_info *); ++extern int print_insn_mn10300 (bfd_vma, disassemble_info *); ++extern int print_insn_mt (bfd_vma, disassemble_info *); ++extern int print_insn_msp430 (bfd_vma, disassemble_info *); ++extern int print_insn_ns32k (bfd_vma, disassemble_info *); ++extern int print_insn_crx (bfd_vma, disassemble_info *); ++extern int print_insn_openrisc (bfd_vma, disassemble_info *); ++extern int print_insn_big_or32 (bfd_vma, disassemble_info *); ++extern int print_insn_little_or32 (bfd_vma, disassemble_info *); ++extern int print_insn_pdp11 (bfd_vma, disassemble_info *); ++extern int print_insn_pj (bfd_vma, disassemble_info *); ++extern int print_insn_big_powerpc (bfd_vma, disassemble_info *); ++extern int print_insn_little_powerpc (bfd_vma, disassemble_info *); ++extern int print_insn_rs6000 (bfd_vma, disassemble_info *); ++extern int print_insn_s390 (bfd_vma, disassemble_info *); ++extern int print_insn_sh (bfd_vma, disassemble_info *); ++extern int print_insn_tic30 (bfd_vma, disassemble_info *); ++extern int print_insn_tic4x (bfd_vma, disassemble_info *); ++extern int print_insn_tic54x (bfd_vma, disassemble_info *); ++extern int print_insn_tic80 (bfd_vma, disassemble_info *); ++extern int print_insn_ubicom32 (bfd_vma, disassemble_info *); ++extern int print_insn_v850 (bfd_vma, disassemble_info *); ++extern int print_insn_vax (bfd_vma, disassemble_info *); ++extern int print_insn_w65 (bfd_vma, disassemble_info *); ++extern int print_insn_xstormy16 (bfd_vma, disassemble_info *); ++extern int print_insn_xtensa (bfd_vma, disassemble_info *); ++extern int print_insn_sh64 (bfd_vma, disassemble_info *); ++extern int print_insn_sh64x_media (bfd_vma, disassemble_info *); ++extern int print_insn_frv (bfd_vma, disassemble_info *); ++extern int print_insn_iq2000 (bfd_vma, disassemble_info *); ++extern int print_insn_xc16x (bfd_vma, disassemble_info *); ++extern int print_insn_m32c (bfd_vma, disassemble_info *); ++ ++extern disassembler_ftype arc_get_disassembler (void *); ++extern disassembler_ftype cris_get_disassembler (bfd *); ++ ++extern void print_mips_disassembler_options (FILE *); ++extern void print_ppc_disassembler_options (FILE *); ++extern void print_arm_disassembler_options (FILE *); ++extern void parse_arm_disassembler_option (char *); ++extern int get_arm_regname_num_options (void); ++extern int set_arm_regname_option (int); ++extern int get_arm_regnames (int, const char **, const char **, const char *const **); ++extern bfd_boolean arm_symbol_is_valid (asymbol *, struct disassemble_info *); ++ ++/* Fetch the disassembler for a given BFD, if that support is available. */ ++extern disassembler_ftype disassembler (bfd *); ++ ++/* Amend the disassemble_info structure as necessary for the target architecture. ++ Should only be called after initialising the info->arch field. */ ++extern void disassemble_init_for_target (struct disassemble_info * info); ++ ++/* Document any target specific options available from the disassembler. */ ++extern void disassembler_usage (FILE *); ++ ++ ++/* This block of definitions is for particular callers who read instructions ++ into a buffer before calling the instruction decoder. */ ++ ++/* Here is a function which callers may wish to use for read_memory_func. ++ It gets bytes from a buffer. */ ++extern int buffer_read_memory ++ (bfd_vma, bfd_byte *, unsigned int, struct disassemble_info *); ++ ++/* This function goes with buffer_read_memory. ++ It prints a message using info->fprintf_func and info->stream. */ ++extern void perror_memory (int, bfd_vma, struct disassemble_info *); ++ ++ ++/* Just print the address in hex. This is included for completeness even ++ though both GDB and objdump provide their own (to print symbolic ++ addresses). */ ++extern void generic_print_address ++ (bfd_vma, struct disassemble_info *); ++ ++/* Always true. */ ++extern int generic_symbol_at_address ++ (bfd_vma, struct disassemble_info *); ++ ++/* Also always true. */ ++extern bfd_boolean generic_symbol_is_valid ++ (asymbol *, struct disassemble_info *); ++ ++/* Method to initialize a disassemble_info struct. This should be ++ called by all applications creating such a struct. */ ++extern void init_disassemble_info (struct disassemble_info *info, void *stream, ++ fprintf_ftype fprintf_func); ++ ++/* For compatibility with existing code. */ ++#define INIT_DISASSEMBLE_INFO(INFO, STREAM, FPRINTF_FUNC) \ ++ init_disassemble_info (&(INFO), (STREAM), (fprintf_ftype) (FPRINTF_FUNC)) ++#define INIT_DISASSEMBLE_INFO_NO_ARCH(INFO, STREAM, FPRINTF_FUNC) \ ++ init_disassemble_info (&(INFO), (STREAM), (fprintf_ftype) (FPRINTF_FUNC)) ++ ++ ++#ifdef __cplusplus ++} ++#endif ++ ++#endif /* ! defined (DIS_ASM_H) */ +--- a/include/elf/common.h ++++ b/include/elf/common.h +@@ -318,6 +318,9 @@ + + #define EM_XSTORMY16 0xad45 + ++#define EM_UBICOM32 0xde3d /* Ubicom32; no ABI */ ++#define EM_UBICOM32MATH 0xde3e /* Ubicom32 co-processor; no ABI */ ++ + /* mn10200 and mn10300 backend magic numbers. + Written in the absense of an ABI. */ + #define EM_CYGNUS_MN10300 0xbeef +--- /dev/null ++++ b/include/elf/ubicom32.h +@@ -0,0 +1,79 @@ ++/* ubicom32 ELF support for BFD. ++ Copyright (C) 2000 Free Software Foundation, Inc. ++ ++This file is part of BFD, the Binary File Descriptor library. ++ ++This program is free software; you can redistribute it and/or modify ++it under the terms of the GNU General Public License as published by ++the Free Software Foundation; either version 2 of the License, or ++(at your option) any later version. ++ ++This program is distributed in the hope that it will be useful, ++but WITHOUT ANY WARRANTY; without even the implied warranty of ++MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++GNU General Public License for more details. ++ ++You should have received a copy of the GNU General Public License ++along with this program; if not, write to the Free Software Foundation, Inc., ++59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ ++ ++#ifndef _ELF_UBICOM32_H ++#define _ELF_UBICOM32_H ++ ++#include "elf/reloc-macros.h" ++ ++/* Relocations. */ ++START_RELOC_NUMBERS (elf_ubicom32_reloc_type) ++ RELOC_NUMBER (R_UBICOM32_NONE, 0) ++ RELOC_NUMBER (R_UBICOM32_16, 1) ++ RELOC_NUMBER (R_UBICOM32_32, 2) ++ RELOC_NUMBER (R_UBICOM32_LO16, 3) ++ RELOC_NUMBER (R_UBICOM32_HI16, 4) ++ RELOC_NUMBER (R_UBICOM32_21_PCREL, 5) ++ RELOC_NUMBER (R_UBICOM32_24_PCREL, 6) ++ RELOC_NUMBER (R_UBICOM32_HI24, 7) ++ RELOC_NUMBER (R_UBICOM32_LO7_S, 8) ++ RELOC_NUMBER (R_UBICOM32_LO7_2_S, 9) ++ RELOC_NUMBER (R_UBICOM32_LO7_4_S, 10) ++ RELOC_NUMBER (R_UBICOM32_LO7_D, 11) ++ RELOC_NUMBER (R_UBICOM32_LO7_2_D, 12) ++ RELOC_NUMBER (R_UBICOM32_LO7_4_D, 13) ++ RELOC_NUMBER (R_UBICOM32_32_HARVARD, 14) ++ RELOC_NUMBER (R_UBICOM32_LO7_CALLI, 15) ++ RELOC_NUMBER (R_UBICOM32_LO16_CALLI, 16) ++ RELOC_NUMBER (R_UBICOM32_GOT_HI24, 17) ++ RELOC_NUMBER (R_UBICOM32_GOT_LO7_S, 18) ++ RELOC_NUMBER (R_UBICOM32_GOT_LO7_2_S, 19) ++ RELOC_NUMBER (R_UBICOM32_GOT_LO7_4_S, 20) ++ RELOC_NUMBER (R_UBICOM32_GOT_LO7_D, 21) ++ RELOC_NUMBER (R_UBICOM32_GOT_LO7_2_D, 22) ++ RELOC_NUMBER (R_UBICOM32_GOT_LO7_4_D, 23) ++ RELOC_NUMBER (R_UBICOM32_FUNCDESC_GOT_HI24, 24) ++ RELOC_NUMBER (R_UBICOM32_FUNCDESC_GOT_LO7_S, 25) ++ RELOC_NUMBER (R_UBICOM32_FUNCDESC_GOT_LO7_2_S, 26) ++ RELOC_NUMBER (R_UBICOM32_FUNCDESC_GOT_LO7_4_S, 27) ++ RELOC_NUMBER (R_UBICOM32_FUNCDESC_GOT_LO7_D, 28) ++ RELOC_NUMBER (R_UBICOM32_FUNCDESC_GOT_LO7_2_D, 29) ++ RELOC_NUMBER (R_UBICOM32_FUNCDESC_GOT_LO7_4_D, 30) ++ RELOC_NUMBER (R_UBICOM32_GOT_LO7_CALLI, 31) ++ RELOC_NUMBER (R_UBICOM32_FUNCDESC_GOT_LO7_CALLI, 32) ++ RELOC_NUMBER (R_UBICOM32_FUNCDESC_VALUE, 33) ++ RELOC_NUMBER (R_UBICOM32_FUNCDESC, 34) ++ RELOC_NUMBER (R_UBICOM32_GOTOFFSET_LO, 35) ++ RELOC_NUMBER (R_UBICOM32_GOTOFFSET_HI, 36) ++ RELOC_NUMBER (R_UBICOM32_FUNCDESC_GOTOFFSET_LO, 37) ++ RELOC_NUMBER (R_UBICOM32_FUNCDESC_GOTOFFSET_HI, 38) ++ RELOC_NUMBER (R_UBICOM32_GNU_VTINHERIT, 200) ++ RELOC_NUMBER (R_UBICOM32_GNU_VTENTRY, 201) ++END_RELOC_NUMBERS(R_UBICOM32_max) ++ ++ ++/* ++ * Processor specific flags for the ELF header e_flags field. ++ */ ++#define EF_UBICOM32_PIC 0x80000000 /* -fpic */ ++#define EF_UBICOM32_FDPIC 0x40000000 /* -mfdpic */ ++ ++#define EF_UBICOM32_PIC_FLAGS (EF_UBICOM32_PIC | EF_UBICOM32_FDPIC) ++ ++#endif /* _ELF_IP_H */ +--- a/ld/configure.tgt ++++ b/ld/configure.tgt +@@ -607,6 +607,15 @@ tic4x-*-* | c4x-*-*) targ_emul=tic4xc + tic54x-*-* | c54x*-*-*) targ_emul=tic54xcoff ;; + tic80-*-*) targ_emul=tic80coff + ;; ++ubicom32-*-linux-*) targ_emul=elf32ubicom32 ++ targ_extra_emuls=elf32ubicom32fdpic ++ targ_extra_libpath=$targ_extra_emuls ++ ;; ++ubicom32-*-*) targ_emul=elf32ubicom32 ++ targ_extra_emuls=elf32ubicom32fdpic ++ targ_extra_libpath=$targ_extra_emuls ++ ;; ++ + v850-*-*) targ_emul=v850 ;; + v850e-*-*) targ_emul=v850 ;; + v850ea-*-*) targ_emul=v850 +--- /dev/null ++++ b/ld/emulparams/elf32ubicom32fdpic.sh +@@ -0,0 +1,28 @@ ++MACHINE= ++SCRIPT_NAME=elf ++OUTPUT_FORMAT="elf32-ubicom32fdpic" ++TEXT_START_ADDR=0x000000 ++MAXPAGESIZE=0x1000 ++TARGET_PAGE_SIZE=0x1000 ++NONPAGED_TEXT_START_ADDR=${TEXT_START_ADDR} ++ARCH=ubicom32 ++TEMPLATE_NAME=elf32 ++ENTRY=_start ++EMBEDDED=yes ++GENERATE_SHLIB_SCRIPT=yes ++EMBEDDED= # This gets us program headers mapped as part of the text segment. ++OTHER_GOT_SYMBOLS= ++OTHER_READONLY_SECTIONS=" ++ .rofixup : { ++ ${RELOCATING+__ROFIXUP_LIST__ = .;} ++ *(.rofixup) ++ ${RELOCATING+__ROFIXUP_END__ = .;} ++ } ++" ++ELFSIZE=32 ++WRITABLE_RODATA="" ++DATA_START_SYMBOLS= ++CTOR_START='___ctors = .;' ++CTOR_END='___ctors_end = .;' ++DTOR_START='___dtors = .;' ++DTOR_END='___dtors_end = .;' +--- /dev/null ++++ b/ld/emulparams/elf32ubicom32.sh +@@ -0,0 +1,23 @@ ++MACHINE= ++SCRIPT_NAME=elf ++OUTPUT_FORMAT="elf32-ubicom32" ++DATA_ADDR=0x100000 ++EXT_DATA_START_ADDR=0x100000 ++EXT_DATA_SIZE=0x10000 ++TEXT_START_ADDR=0x40000000 ++EXT_PROGRAM_START_ADDR=0x40000000 ++EXT_PROGRAM_SIZE=0x80000 ++FLASHRAM_START_ADDR=0x20000000 ++COPROCESSOR_MEMORY=0x400000 ++COPROCESSOR_MEM_SIZE=0x100000 ++ARCH=ubicom32 ++TEMPLATE_NAME=elf32 ++ENTRY=_start ++EMBEDDED=yes ++ELFSIZE=32 ++MAXPAGESIZE=256 ++DATA_START_SYMBOLS= ++CTOR_START='___ctors = .;' ++CTOR_END='___ctors_end = .;' ++DTOR_START='___dtors = .;' ++DTOR_END='___dtors_end = .;' +--- a/ld/Makefile.am ++++ b/ld/Makefile.am +@@ -198,6 +198,8 @@ ALL_EMULATIONS = \ + eelf32ppcsim.o \ + eelf32ppcwindiss.o \ + eelf32ppcvxworks.o \ ++ eelf32ubicom32.o \ ++ eelf32ubicom32fdpic.o \ + eelf32vax.o \ + eelf32xc16x.o \ + eelf32xc16xl.o \ +@@ -927,6 +929,14 @@ eelf64lppc.c: $(srcdir)/emulparams/elf64 + eelf32i370.c: $(srcdir)/emulparams/elf32i370.sh \ + $(ELF_DEPS) $(srcdir)/scripttempl/elfi370.sc ${GEN_DEPENDS} + ${GENSCRIPTS} elf32i370 "$(tdir_elf32i370)" ++eelf32ubicom32.c: $(srcdir)/emulparams/elf32ubicom32.sh \ ++ $(ELF_DEPS) \ ++ $(srcdir)/scripttempl/elf.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} elf32ubicom32 "$(tdir_ubicom32)" ++eelf32ubicom32fdpic.c: $(srcdir)/emulparams/elf32ubicom32fdpic.sh \ ++ $(ELF_DEPS) \ ++ $(srcdir)/scripttempl/elf.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} elf32ubicom32fdpic "$(tdir_ubicom32fdpic)" + eelf32ip2k.c: $(srcdir)/emulparams/elf32ip2k.sh \ + $(ELF_DEPS) $(srcdir)/scripttempl/ip2k.sc ${GEN_DEPENDS} + ${GENSCRIPTS} elf32ip2k "$(tdir_ip2k)" +--- a/ld/Makefile.in ++++ b/ld/Makefile.in +@@ -449,6 +449,8 @@ ALL_EMULATIONS = \ + eelf32ppcsim.o \ + eelf32ppcwindiss.o \ + eelf32ppcvxworks.o \ ++ eelf32ubicom32.o \ ++ eelf32ubicom32fdpic.o \ + eelf32vax.o \ + eelf32xc16x.o \ + eelf32xc16xl.o \ +@@ -1759,6 +1761,14 @@ eelf64lppc.c: $(srcdir)/emulparams/elf64 + eelf32i370.c: $(srcdir)/emulparams/elf32i370.sh \ + $(ELF_DEPS) $(srcdir)/scripttempl/elfi370.sc ${GEN_DEPENDS} + ${GENSCRIPTS} elf32i370 "$(tdir_elf32i370)" ++eelf32ubicom32.c: $(srcdir)/emulparams/elf32ubicom32.sh \ ++ $(ELF_DEPS) \ ++ $(srcdir)/scripttempl/elf.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} elf32ubicom32 "$(tdir_ubicom32)" ++eelf32ubicom32fdpic.c: $(srcdir)/emulparams/elf32ubicom32fdpic.sh \ ++ $(ELF_DEPS) \ ++ $(srcdir)/scripttempl/elf.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} elf32ubicom32fdpic "$(tdir_ubicom32fdpic)" + eelf32ip2k.c: $(srcdir)/emulparams/elf32ip2k.sh \ + $(ELF_DEPS) $(srcdir)/scripttempl/ip2k.sc ${GEN_DEPENDS} + ${GENSCRIPTS} elf32ip2k "$(tdir_ip2k)" +--- /dev/null ++++ b/ld/scripttempl/ubicom32.sc +@@ -0,0 +1,395 @@ ++# ++# Unusual variables checked by this code: ++# EXT_DATA_START_ADDR - virtual address start of extended data storage ++# EXT_DATA_SIZE - size of extended data storage ++# EXT_PROGRAM_START_ADDR - virtual address start of extended prog storage ++# EXT_PROGRAM_SIZE - size of extended program storage ++# FLASHRAM1_START_ADDR - virtual address start of flash ram 1 storage ++# FLASHRAM2_START_ADDR - virtual address start of flash ram 2 storage ++# FLASHRAM3_START_ADDR - virtual address start of flash ram 3 storage ++# FLASHRAM4_START_ADDR - virtual address start of flash ram 4 storage ++# FLASHRAM5_START_ADDR - virtual address start of flash ram 5 storage ++# FLASHRAM6_START_ADDR - virtual address start of flash ram 6 storage ++# FLASHRAM7_START_ADDR - virtual address start of flash ram 7 storage ++# FLASHRAM8_START_ADDR - virtual address start of flash ram 8 storage ++# PROGRAM_SRAM_START_ADDR - virtual address start of program sram storage ++# NOP - two byte opcode for no-op (defaults to 0) ++# DATA_ADDR - if end-of-text-plus-one-page isn't right for data start ++# INITIAL_READONLY_SECTIONS - at start of text segment ++# OTHER_READONLY_SECTIONS - other than .text .init .rodata ... ++# (e.g., .PARISC.milli) ++# OTHER_TEXT_SECTIONS - these get put in .text when relocating ++# OTHER_READWRITE_SECTIONS - other than .data .bss .ctors .sdata ... ++# (e.g., .PARISC.global) ++# OTHER_BSS_SECTIONS - other than .bss .sbss ... ++# OTHER_SECTIONS - at the end ++# EXECUTABLE_SYMBOLS - symbols that must be defined for an ++# executable (e.g., _DYNAMIC_LINK) ++# TEXT_START_SYMBOLS - symbols that appear at the start of the ++# .text section. ++# DATA_START_SYMBOLS - symbols that appear at the start of the ++# .data section. ++# OTHER_GOT_SYMBOLS - symbols defined just before .got. ++# OTHER_GOT_SECTIONS - sections just after .got and .sdata. ++# OTHER_BSS_SYMBOLS - symbols that appear at the start of the ++# .bss section besides __bss_start. ++# DATA_PLT - .plt should be in data segment, not text segment. ++# BSS_PLT - .plt should be in bss segment ++# TEXT_DYNAMIC - .dynamic in text segment, not data segment. ++# EMBEDDED - whether this is for an embedded system. ++# SHLIB_TEXT_START_ADDR - if set, add to SIZEOF_HEADERS to set ++# start address of shared library. ++# INPUT_FILES - INPUT command of files to always include ++# WRITABLE_RODATA - if set, the .rodata section should be writable ++# INIT_START, INIT_END - statements just before and just after ++# combination of .init sections. ++# FINI_START, FINI_END - statements just before and just after ++# combination of .fini sections. ++# ++# When adding sections, do note that the names of some sections are used ++# when specifying the start address of the next. ++# ++ ++test -z "$ENTRY" && ENTRY=_start ++test -z "${BIG_OUTPUT_FORMAT}" && BIG_OUTPUT_FORMAT=${OUTPUT_FORMAT} ++test -z "${LITTLE_OUTPUT_FORMAT}" && LITTLE_OUTPUT_FORMAT=${OUTPUT_FORMAT} ++if [ -z "$MACHINE" ]; then OUTPUT_ARCH=${ARCH}; else OUTPUT_ARCH=${ARCH}:${MACHINE}; fi ++test -z "${ELFSIZE}" && ELFSIZE=32 ++test -z "${ALIGNMENT}" && ALIGNMENT="${ELFSIZE} / 8" ++test "$LD_FLAG" = "N" && DATA_ADDR=. ++INTERP=".interp ${RELOCATING-0} : { *(.interp) } ${RELOCATING+ > datamem}" ++PLT=".plt ${RELOCATING-0} : { *(.plt) } ${RELOCATING+ > datamem}" ++DYNAMIC=".dynamic ${RELOCATING-0} : { *(.dynamic) } ${RELOCATING+ > datamem}" ++RODATA=".rodata ${RELOCATING-0} : { *(.rodata) ${RELOCATING+*(.rodata.*)} ${RELOCATING+*(.gnu.linkonce.r*)} } ${RELOCATING+ > datamem}" ++SBSS2=".sbss2 ${RELOCATING-0} : { *(.sbss2) } ${RELOCATING+ > datamem}" ++SDATA2=".sdata2 ${RELOCATING-0} : { *(.sdata2) } ${RELOCATING+ >datamem}" ++CTOR=".ctors ${CONSTRUCTING-0} : ++ { ++ ${RELOCATING+. = ALIGN(${ALIGNMENT});} ++ ${CONSTRUCTING+${CTOR_START}} ++ LONG (-1) ++ /* gcc uses crtbegin.o to find the start of ++ the constructors, so we make sure it is ++ first. Because this is a wildcard, it ++ doesn't matter if the user does not ++ actually link against crtbegin.o; the ++ linker won't look for a file to match a ++ wildcard. The wildcard also means that it ++ doesn't matter which directory crtbegin.o ++ is in. */ ++ ++ KEEP (*crtbegin.o(.ctors)) ++ ++ /* We don't want to include the .ctor section from ++ from the crtend.o file until after the sorted ctors. ++ The .ctor section from the crtend file contains the ++ end of ctors marker and it must be last */ ++ ++ KEEP (*(EXCLUDE_FILE (*crtend.o $OTHER_EXCLUDE_FILES) .ctors)) ++ KEEP (*(SORT(.ctors.*))) ++ KEEP (*(.ctors)) ++ LONG (0) ++ ${CONSTRUCTING+${CTOR_END}} ++ } ${RELOCATING+ > datamem}" ++ ++DTOR=" .dtors ${CONSTRUCTING-0} : ++ { ++ ${RELOCATING+. = ALIGN(${ALIGNMENT});} ++ ${CONSTRUCTING+${DTOR_START}} ++ LONG (-1) ++ KEEP (*crtbegin.o(.dtors)) ++ KEEP (*(EXCLUDE_FILE (*crtend.o $OTHER_EXCLUDE_FILES) .dtors)) ++ KEEP (*(SORT(.dtors.*))) ++ KEEP (*(.dtors)) ++ LONG (0) ++ ${CONSTRUCTING+${DTOR_END}} ++ } ${RELOCATING+ > datamem}" ++ ++# if this is for an embedded system, don't add SIZEOF_HEADERS. ++if [ -z "$EMBEDDED" ]; then ++ test -z "${TEXT_BASE_ADDRESS}" && TEXT_BASE_ADDRESS="${TEXT_START_ADDR} + SIZEOF_HEADERS" ++else ++ test -z "${TEXT_BASE_ADDRESS}" && TEXT_BASE_ADDRESS="${TEXT_START_ADDR}" ++fi ++ ++cat < flashram} ++ .copro ${RELOCATING-0} : {*(.copro) } ${RELOCATING+ > copromem} ++ ++ ${CREATE_SHLIB-${RELOCATING+. = ${TEXT_BASE_ADDRESS};}} ++ ${CREATE_SHLIB+${RELOCATING+. = ${SHLIB_TEXT_START_ADDR:-0} + SIZEOF_HEADERS;}} ++ .text ${RELOCATING-0} : ++ { ++ ${RELOCATING+${TEXT_START_SYMBOLS}} ++ *(.text) ++ ${RELOCATING+*(.text.*)} ++ *(.stub) ++ /* .gnu.warning sections are handled specially by elf32.em. */ ++ *(.gnu.warning) ++ ${RELOCATING+*(.gnu.linkonce.t*)} ++ ${RELOCATING+${OTHER_TEXT_SECTIONS}} ++ } ${RELOCATING+ > progmem} =${NOP-0} ++ ++ .rel.text ${RELOCATING-0} : ++ { ++ *(.rel.text) ++ ${RELOCATING+*(.rel.text.*)} ++ ${RELOCATING+*(.rel.gnu.linkonce.t*)} ++ } ${RELOCATING+ > progmem} ++ ++ .rela.text ${RELOCATING-0} : ++ { ++ *(.rela.text) ++ ${RELOCATING+*(.rela.text.*)} ++ ${RELOCATING+*(.rela.gnu.linkonce.t*)} ++ } ${RELOCATING+ > progmem} ++ ++ ${RELOCATING+PROVIDE (__etext = .);} ++ ${RELOCATING+PROVIDE (_etext = .);} ++ ${RELOCATING+PROVIDE (etext = .);} ++ ++ /* Adjust the address for the data segment. We want to adjust up to ++ the same address within the page on the next page up. */ ++ ${CREATE_SHLIB-${RELOCATING+. = ${DATA_ADDR-ALIGN(${MAXPAGESIZE}) + (. & (${MAXPAGESIZE} - 1))};}} ++ ${CREATE_SHLIB+${RELOCATING+. = ${SHLIB_DATA_ADDR-ALIGN(${MAXPAGESIZE}) + (. & (${MAXPAGESIZE} - 1))};}} ++ ++ /* Skip first word to ensure first data element can't end up having address ++ 0 in code (NULL pointer) */ ++ . = . + 4; ++ .data ${RELOCATING-0} : ++ { ++ ${RELOCATING+${DATA_START_SYMBOLS}} ++ *(.data) ++ ${RELOCATING+*(.data.*)} ++ ${RELOCATING+*(.gnu.linkonce.d*)} ++ ${CONSTRUCTING+SORT(CONSTRUCTORS)} ++ } ${RELOCATING+ > datamem} ++ .data1 ${RELOCATING-0} : { *(.data1) } ${RELOCATING+ > datamem} ++ .eh_frame ${RELOCATING-0} : ++ { ++ ${RELOCATING+PROVIDE (___eh_frame_begin = .);} ++ *(.eh_frame) ++ LONG (0); ++ ${RELOCATING+PROVIDE (___eh_frame_end = .);} ++ } ${RELOCATING+ > datamem} ++ .gcc_except_table : { *(.gcc_except_table) } ${RELOCATING+ > datamem} ++ ++ /* Read-only sections, placed in data space: */ ++ ${CREATE_SHLIB-${INTERP}} ++ ${INITIAL_READONLY_SECTIONS} ++ ${TEXT_DYNAMIC+${DYNAMIC}} ++ .hash ${RELOCATING-0} : { *(.hash) } ${RELOCATING+ > datamem} ++ .dynsym ${RELOCATING-0} : { *(.dynsym) } ${RELOCATING+ > datamem} ++ .dynstr ${RELOCATING-0} : { *(.dynstr) } ${RELOCATING+ > datamem} ++ .gnu.version ${RELOCATING-0} : { *(.gnu.version) } ${RELOCATING+ > datamem} ++ .gnu.version_d ${RELOCATING-0} : { *(.gnu.version_d) } ${RELOCATING+ > datamem} ++ .gnu.version_r ${RELOCATING-0} : { *(.gnu.version_r) } ${RELOCATING+ > datamem} ++ ++ .rel.init ${RELOCATING-0} : { *(.rel.init) } ${RELOCATING+ > datamem} ++ .rela.init ${RELOCATING-0} : { *(.rela.init) } ${RELOCATING+ > datamem} ++ .rel.fini ${RELOCATING-0} : { *(.rel.fini) } ${RELOCATING+ > datamem} ++ .rela.fini ${RELOCATING-0} : { *(.rela.fini) } ${RELOCATING+ > datamem} ++ .rel.rodata ${RELOCATING-0} : ++ { ++ *(.rel.rodata) ++ ${RELOCATING+*(.rel.rodata.*)} ++ ${RELOCATING+*(.rel.gnu.linkonce.r*)} ++ } ${RELOCATING+ > datamem} ++ .rela.rodata ${RELOCATING-0} : ++ { ++ *(.rela.rodata) ++ ${RELOCATING+*(.rela.rodata.*)} ++ ${RELOCATING+*(.rela.gnu.linkonce.r*)} ++ } ${RELOCATING+ > datamem} ++ ${OTHER_READONLY_RELOC_SECTIONS} ++ .rel.data ${RELOCATING-0} : ++ { ++ *(.rel.data) ++ ${RELOCATING+*(.rel.data.*)} ++ ${RELOCATING+*(.rel.gnu.linkonce.d*)} ++ } ${RELOCATING+ > datamem} ++ .rela.data ${RELOCATING-0} : ++ { ++ *(.rela.data) ++ ${RELOCATING+*(.rela.data.*)} ++ ${RELOCATING+*(.rela.gnu.linkonce.d*)} ++ } ${RELOCATING+ > datamem} ++ .rel.ctors ${RELOCATING-0} : { *(.rel.ctors) } ${RELOCATING+ > datamem} ++ .rela.ctors ${RELOCATING-0} : { *(.rela.ctors) } ${RELOCATING+ > datamem} ++ .rel.dtors ${RELOCATING-0} : { *(.rel.dtors) } ${RELOCATING+ > datamem} ++ .rela.dtors ${RELOCATING-0} : { *(.rela.dtors) } ${RELOCATING+ > datamem} ++ .rel.got ${RELOCATING-0} : { *(.rel.got) } ${RELOCATING+ > datamem} ++ .rela.got ${RELOCATING-0} : { *(.rela.got) } ${RELOCATING+ > datamem} ++ ${OTHER_GOT_RELOC_SECTIONS} ++ .rel.sdata ${RELOCATING-0} : ++ { ++ *(.rel.sdata) ++ ${RELOCATING+*(.rel.sdata.*)} ++ ${RELOCATING+*(.rel.gnu.linkonce.s*)} ++ } ${RELOCATING+ > datamem} ++ .rela.sdata ${RELOCATING-0} : ++ { ++ *(.rela.sdata) ++ ${RELOCATING+*(.rela.sdata.*)} ++ ${RELOCATING+*(.rela.gnu.linkonce.s*)} ++ } ${RELOCATING+ > datamem} ++ .rel.sbss ${RELOCATING-0} : { *(.rel.sbss) } ${RELOCATING+ > datamem} ++ .rela.sbss ${RELOCATING-0} : { *(.rela.sbss) } ${RELOCATING+ > datamem} ++ .rel.sdata2 ${RELOCATING-0} : { *(.rel.sdata2) } ${RELOCATING+ > datamem} ++ .rela.sdata2 ${RELOCATING-0} : { *(.rela.sdata2) } ${RELOCATING+ > datamem} ++ .rel.sbss2 ${RELOCATING-0} : { *(.rel.sbss2) } ${RELOCATING+ > datamem} ++ .rela.sbss2 ${RELOCATING-0} : { *(.rela.sbss2) } ${RELOCATING+ > datamem} ++ .rel.bss ${RELOCATING-0} : { *(.rel.bss) } ${RELOCATING+ > datamem} ++ .rela.bss ${RELOCATING-0} : { *(.rela.bss) } ${RELOCATING+ > datamem} ++ .rel.plt ${RELOCATING-0} : { *(.rel.plt) } ${RELOCATING+ > datamem} ++ .rela.plt ${RELOCATING-0} : { *(.rela.plt) } ${RELOCATING+ > datamem} ++ ${OTHER_PLT_RELOC_SECTIONS} ++ ++ .init ${RELOCATING-0} : ++ { ++ ${RELOCATING+${INIT_START}} ++ KEEP (*(.init)) ++ ${RELOCATING+${INIT_END}} ++ } ${RELOCATING+ > datamem} =${NOP-0} ++ ++ ${DATA_PLT-${BSS_PLT-${PLT}}} ++ ++ .fini ${RELOCATING-0} : ++ { ++ ${RELOCATING+${FINI_START}} ++ KEEP (*(.fini)) ++ ${RELOCATING+${FINI_END}} ++ } ${RELOCATING+ > datamem} =${NOP-0} ++ ++ ${WRITABLE_RODATA-${RODATA}} ++ .rodata1 ${RELOCATING-0} : { *(.rodata1) } ${RELOCATING+ > datamem} ++ ${CREATE_SHLIB-${SDATA2}} ++ ${CREATE_SHLIB-${SBSS2}} ++ ${RELOCATING+${OTHER_READONLY_SECTIONS}} ++ ${WRITABLE_RODATA+${RODATA}} ++ ${RELOCATING+${OTHER_READWRITE_SECTIONS}} ++ ${RELOCATING+. = ALIGN(${ALIGNMENT});} ++ ${RELOCATING+${CTOR}} ++ ${RELOCATING+${DTOR}} ++ ${DATA_PLT+${PLT}} ++ ${RELOCATING+${OTHER_GOT_SYMBOLS}} ++ .got ${RELOCATING-0} : { *(.got.plt) *(.got) } ${RELOCATING+ > datamem} ++ ${CREATE_SHLIB+${SDATA2}} ++ ${CREATE_SHLIB+${SBSS2}} ++ ${TEXT_DYNAMIC-${DYNAMIC}} ++ /* We want the small data sections together, so single-instruction offsets ++ can access them all, and initialized data all before uninitialized, so ++ we can shorten the on-disk segment size. */ ++ .sdata ${RELOCATING-0} : ++ { ++ ${RELOCATING+${SDATA_START_SYMBOLS}} ++ *(.sdata) ++ ${RELOCATING+*(.sdata.*)} ++ ${RELOCATING+*(.gnu.linkonce.s.*)} ++ } ${RELOCATING+ > datamem} ++ ${RELOCATING+${OTHER_GOT_SECTIONS}} ++ ${RELOCATING+_edata = .;} ++ ${RELOCATING+PROVIDE (edata = .);} ++ ${RELOCATING+__bss_start = .;} ++ ${RELOCATING+${OTHER_BSS_SYMBOLS}} ++ .sbss ${RELOCATING-0} : ++ { ++ ${RELOCATING+PROVIDE (__sbss_start = .);} ++ ${RELOCATING+PROVIDE (___sbss_start = .);} ++ *(.dynsbss) ++ *(.sbss) ++ ${RELOCATING+*(.sbss.*)} ++ *(.scommon) ++ ${RELOCATING+PROVIDE (__sbss_end = .);} ++ ${RELOCATING+PROVIDE (___sbss_end = .);} ++ } ${RELOCATING+ > datamem} ++ ${BSS_PLT+${PLT}} ++ .bss ${RELOCATING-0} : ++ { ++ *(.dynbss) ++ *(.bss) ++ ${RELOCATING+*(.bss.*)} ++ *(COMMON) ++ /* Align here to ensure that the .bss section occupies space up to ++ _end. Align after .bss to ensure correct alignment even if the ++ .bss section disappears because there are no input sections. */ ++ ${RELOCATING+. = ALIGN(${ALIGNMENT});} ++ } ${RELOCATING+ > datamem} ++ ${RELOCATING+${OTHER_BSS_SECTIONS}} ++ ${RELOCATING+. = ALIGN(${ALIGNMENT});} ++ ${RELOCATING+_end = .;} ++ ${RELOCATING+${OTHER_BSS_END_SYMBOLS}} ++ ${RELOCATING+PROVIDE (end = .);} ++ ++ /* Stabs debugging sections. */ ++ .stab 0 : { *(.stab) } ++ .stabstr 0 : { *(.stabstr) } ++ .stab.excl 0 : { *(.stab.excl) } ++ .stab.exclstr 0 : { *(.stab.exclstr) } ++ .stab.index 0 : { *(.stab.index) } ++ .stab.indexstr 0 : { *(.stab.indexstr) } ++ ++ .comment 0 : { *(.comment) } ++ ++ /* DWARF debug sections. ++ Symbols in the DWARF debugging sections are relative to the beginning ++ of the section so we begin them at 0. */ ++ ++ /* DWARF 1 */ ++ .debug 0 : { *(.debug) } ++ .line 0 : { *(.line) } ++ ++ /* GNU DWARF 1 extensions */ ++ .debug_srcinfo 0 : { *(.debug_srcinfo) } ++ .debug_sfnames 0 : { *(.debug_sfnames) } ++ ++ /* DWARF 1.1 and DWARF 2 */ ++ .debug_aranges 0 : { *(.debug_aranges) } ++ .debug_pubnames 0 : { *(.debug_pubnames) } ++ ++ /* DWARF 2 */ ++ .debug_info 0 : { *(.debug_info) } ++ .debug_abbrev 0 : { *(.debug_abbrev) } ++ .debug_line 0 : { *(.debug_line) } ++ .debug_frame 0 : { *(.debug_frame) } ++ .debug_str 0 : { *(.debug_str) } ++ .debug_loc 0 : { *(.debug_loc) } ++ .debug_macinfo 0 : { *(.debug_macinfo) } ++ ++ /* SGI/MIPS DWARF 2 extensions */ ++ .debug_weaknames 0 : { *(.debug_weaknames) } ++ .debug_funcnames 0 : { *(.debug_funcnames) } ++ .debug_typenames 0 : { *(.debug_typenames) } ++ .debug_varnames 0 : { *(.debug_varnames) } ++ ++ ${RELOCATING+${OTHER_RELOCATING_SECTIONS}} ++ ++ /* These must appear regardless of ${RELOCATING}. */ ++ ${OTHER_SECTIONS} ++} ++EOF +--- a/opcodes/configure ++++ b/opcodes/configure +@@ -11885,6 +11885,7 @@ if test x${all_targets} = xfalse ; then + bfd_tic4x_arch) ta="$ta tic4x-dis.lo" ;; + bfd_tic54x_arch) ta="$ta tic54x-dis.lo tic54x-opc.lo" ;; + bfd_tic80_arch) ta="$ta tic80-dis.lo tic80-opc.lo" ;; ++ bfd_ubicom32_arch) ta="$ta ubicom32-asm.lo ubicom32-desc.lo ubicom32-dis.lo ubicom32-ibld.lo ubicom32-opc.lo" using_cgen=yes ;; + bfd_v850_arch) ta="$ta v850-opc.lo v850-dis.lo" ;; + bfd_v850e_arch) ta="$ta v850-opc.lo v850-dis.lo" ;; + bfd_v850ea_arch) ta="$ta v850-opc.lo v850-dis.lo" ;; +--- a/opcodes/configure.in ++++ b/opcodes/configure.in +@@ -245,6 +245,7 @@ if test x${all_targets} = xfalse ; then + bfd_tic4x_arch) ta="$ta tic4x-dis.lo" ;; + bfd_tic54x_arch) ta="$ta tic54x-dis.lo tic54x-opc.lo" ;; + bfd_tic80_arch) ta="$ta tic80-dis.lo tic80-opc.lo" ;; ++ bfd_ubicom32_arch) ta="$ta ubicom32-asm.lo ubicom32-desc.lo ubicom32-dis.lo ubicom32-ibld.lo ubicom32-opc.lo" using_cgen=yes ;; + bfd_v850_arch) ta="$ta v850-opc.lo v850-dis.lo" ;; + bfd_v850e_arch) ta="$ta v850-opc.lo v850-dis.lo" ;; + bfd_v850ea_arch) ta="$ta v850-opc.lo v850-dis.lo" ;; +--- a/opcodes/disassemble.c ++++ b/opcodes/disassemble.c +@@ -77,6 +77,7 @@ + #define ARCH_tic4x + #define ARCH_tic54x + #define ARCH_tic80 ++#define ARCH_ubicom32 + #define ARCH_v850 + #define ARCH_vax + #define ARCH_w65 +@@ -386,6 +387,11 @@ disassembler (abfd) + disassemble = print_insn_tic80; + break; + #endif ++#ifdef ARCH_ubicom32 ++ case bfd_arch_ubicom32: ++ disassemble = print_insn_ubicom32; ++ break; ++#endif + #ifdef ARCH_v850 + case bfd_arch_v850: + disassemble = print_insn_v850; +--- a/opcodes/Makefile.am ++++ b/opcodes/Makefile.am +@@ -50,6 +50,7 @@ HFILES = \ + sh-opc.h \ + sh64-opc.h \ + sysdep.h \ ++ ubicom32-desc.h ubicom32-opc.h \ + w65-opc.h \ + xc16x-desc.h xc16x-opc.h \ + xstormy16-desc.h xstormy16-opc.h \ +@@ -191,6 +192,11 @@ CFILES = \ + tic54x-opc.c \ + tic80-dis.c \ + tic80-opc.c \ ++ ubicom32-asm.c \ ++ ubicom32-desc.c \ ++ ubicom32-dis.c \ ++ ubicom32-ibld.c \ ++ ubicom32-opc.c \ + v850-dis.c \ + v850-opc.c \ + vax-dis.c \ +@@ -333,6 +339,11 @@ ALL_MACHINES = \ + tic54x-opc.lo \ + tic80-dis.lo \ + tic80-opc.lo \ ++ ubicom32-asm.lo \ ++ ubicom32-desc.lo \ ++ ubicom32-dis.lo \ ++ ubicom32-ibld.lo \ ++ ubicom32-opc.lo \ + v850-dis.lo \ + v850-opc.lo \ + vax-dis.lo \ +@@ -421,7 +432,7 @@ uninstall_libopcodes: + rm -f $(DESTDIR)$(bfdincludedir)/dis-asm.h + + CLEANFILES = \ +- stamp-ip2k stamp-m32c stamp-m32r stamp-fr30 stamp-frv \ ++ stamp-ubicom32 stamp-ip2k stamp-m32c stamp-m32r stamp-fr30 stamp-frv \ + stamp-openrisc stamp-iq2000 stamp-mep stamp-mt stamp-xstormy16 stamp-xc16x\ + libopcodes.a stamp-lib dep.sed DEP DEPA DEP1 DEP2 + +@@ -438,10 +449,11 @@ CGENDEPS = \ + $(CGENDIR)/opc-opinst.scm \ + cgen-asm.in cgen-dis.in cgen-ibld.in + +-CGEN_CPUS = fr30 frv ip2k m32c m32r mep mt openrisc xc16x xstormy16 ++CGEN_CPUS = fr30 frv ip2k ubicom32 m32c m32r mep mt openrisc xc16x xstormy16 + + if CGEN_MAINT + IP2K_DEPS = stamp-ip2k ++UBICOM32_DEPS = stamp-ubicom32 + M32C_DEPS = stamp-m32c + M32R_DEPS = stamp-m32r + FR30_DEPS = stamp-fr30 +@@ -454,6 +466,7 @@ XC16X_DEPS = stamp-xc16x + XSTORMY16_DEPS = stamp-xstormy16 + else + IP2K_DEPS = ++UBICOM32_DEPS = + M32C_DEPS = + M32R_DEPS = + FR30_DEPS = +@@ -482,6 +495,10 @@ run-cgen-all: + .PHONY: run-cgen-all + + # For now, require developers to configure with --enable-cgen-maint. ++$(srcdir)/ubicom32-desc.h $(srcdir)/ubicom32-desc.c $(srcdir)/ubicom32-opc.h $(srcdir)/ubicom32-opc.c $(srcdir)/ubicom32-ibld.c $(srcdir)/ubicom32-asm.c $(srcdir)/ubicom32-dis.c: $(UBICOM32_DEPS) ++# @true ++stamp-ubicom32: $(CGENDEPS) $(CPUDIR)/ubicom32.cpu $(CPUDIR)/ubicom32.opc ++ $(MAKE) run-cgen arch=ubicom32 prefix=ubicom32 options= extrafiles= + $(srcdir)/ip2k-desc.h $(srcdir)/ip2k-desc.c $(srcdir)/ip2k-opc.h $(srcdir)/ip2k-opc.c $(srcdir)/ip2k-ibld.c $(srcdir)/ip2k-asm.c $(srcdir)/ip2k-dis.c: $(IP2K_DEPS) + @true + stamp-ip2k: $(CGENDEPS) $(CPUDIR)/ip2k.cpu $(CPUDIR)/ip2k.opc +@@ -823,6 +840,34 @@ ia64-gen.lo: ia64-gen.c $(INCDIR)/anside + ia64-opc-m.c ia64-opc-b.c ia64-opc-f.c ia64-opc-x.c \ + ia64-opc-d.c + ia64-asmtab.lo: ia64-asmtab.c ++ubicom32-asm.lo: ubicom32-asm.c sysdep.h config.h $(INCDIR)/ansidecl.h \ ++ $(BFD_H) $(INCDIR)/ansidecl.h $(INCDIR)/symcat.h $(INCDIR)/symcat.h \ ++ ubicom32-desc.h $(INCDIR)/opcode/cgen-bitset.h $(INCDIR)/opcode/cgen.h \ ++ $(INCDIR)/symcat.h $(INCDIR)/opcode/cgen-bitset.h ubicom32-opc.h \ ++ opintl.h $(INCDIR)/xregex.h $(INCDIR)/xregex2.h $(INCDIR)/libiberty.h \ ++ $(INCDIR)/ansidecl.h $(INCDIR)/safe-ctype.h ++ubicom32-desc.lo: ubicom32-desc.c sysdep.h config.h $(INCDIR)/ansidecl.h \ ++ $(BFD_H) $(INCDIR)/ansidecl.h $(INCDIR)/symcat.h $(INCDIR)/symcat.h \ ++ ubicom32-desc.h $(INCDIR)/opcode/cgen-bitset.h $(INCDIR)/opcode/cgen.h \ ++ $(INCDIR)/symcat.h $(INCDIR)/opcode/cgen-bitset.h ubicom32-opc.h \ ++ opintl.h $(INCDIR)/libiberty.h $(INCDIR)/ansidecl.h \ ++ $(INCDIR)/xregex.h $(INCDIR)/xregex2.h ++ubicom32-dis.lo: ubicom32-dis.c sysdep.h config.h $(INCDIR)/ansidecl.h \ ++ $(INCDIR)/dis-asm.h $(BFD_H) $(INCDIR)/ansidecl.h $(INCDIR)/symcat.h \ ++ $(BFD_H) $(INCDIR)/symcat.h $(INCDIR)/libiberty.h $(INCDIR)/ansidecl.h \ ++ ubicom32-desc.h $(INCDIR)/opcode/cgen-bitset.h $(INCDIR)/opcode/cgen.h \ ++ $(INCDIR)/symcat.h $(INCDIR)/opcode/cgen-bitset.h ubicom32-opc.h \ ++ opintl.h ++ubicom32-ibld.lo: ubicom32-ibld.c sysdep.h config.h $(INCDIR)/ansidecl.h \ ++ $(INCDIR)/dis-asm.h $(BFD_H) $(INCDIR)/ansidecl.h $(INCDIR)/symcat.h \ ++ $(BFD_H) $(INCDIR)/symcat.h ubicom32-desc.h $(INCDIR)/opcode/cgen-bitset.h \ ++ $(INCDIR)/opcode/cgen.h $(INCDIR)/symcat.h $(INCDIR)/opcode/cgen-bitset.h \ ++ ubicom32-opc.h opintl.h $(INCDIR)/safe-ctype.h ++ubicom32-opc.lo: ubicom32-opc.c sysdep.h config.h $(INCDIR)/ansidecl.h \ ++ $(BFD_H) $(INCDIR)/ansidecl.h $(INCDIR)/symcat.h $(INCDIR)/symcat.h \ ++ ubicom32-desc.h $(INCDIR)/opcode/cgen-bitset.h $(INCDIR)/opcode/cgen.h \ ++ $(INCDIR)/symcat.h $(INCDIR)/opcode/cgen-bitset.h ubicom32-opc.h \ ++ $(INCDIR)/libiberty.h $(INCDIR)/ansidecl.h $(INCDIR)/safe-ctype.h + ip2k-asm.lo: ip2k-asm.c sysdep.h config.h $(INCDIR)/ansidecl.h \ + $(BFD_H) $(INCDIR)/symcat.h ip2k-desc.h $(INCDIR)/opcode/cgen-bitset.h \ + $(INCDIR)/opcode/cgen.h $(INCDIR)/opcode/cgen-bitset.h \ +--- a/opcodes/Makefile.in ++++ b/opcodes/Makefile.in +@@ -278,6 +278,7 @@ HFILES = \ + sh-opc.h \ + sh64-opc.h \ + sysdep.h \ ++ ubicom32-desc.h ubicom32-opc.h \ + w65-opc.h \ + xc16x-desc.h xc16x-opc.h \ + xstormy16-desc.h xstormy16-opc.h \ +@@ -420,6 +421,11 @@ CFILES = \ + tic54x-opc.c \ + tic80-dis.c \ + tic80-opc.c \ ++ ubicom32-asm.c \ ++ ubicom32-desc.c \ ++ ubicom32-dis.c \ ++ ubicom32-ibld.c \ ++ ubicom32-opc.c \ + v850-dis.c \ + v850-opc.c \ + vax-dis.c \ +@@ -562,6 +568,11 @@ ALL_MACHINES = \ + tic54x-opc.lo \ + tic80-dis.lo \ + tic80-opc.lo \ ++ ubicom32-asm.lo \ ++ ubicom32-desc.lo \ ++ ubicom32-dis.lo \ ++ ubicom32-ibld.lo \ ++ ubicom32-opc.lo \ + v850-dis.lo \ + v850-opc.lo \ + vax-dis.lo \ +@@ -604,7 +615,7 @@ libopcodes_la_LDFLAGS = -release `cat .. + noinst_LIBRARIES = libopcodes.a + POTFILES = $(HFILES) $(CFILES) + CLEANFILES = \ +- stamp-ip2k stamp-m32c stamp-m32r stamp-fr30 stamp-frv \ ++ stamp-ip2k stamp-ubicom32 stamp-m32c stamp-m32r stamp-fr30 stamp-frv \ + stamp-openrisc stamp-iq2000 stamp-mep stamp-mt stamp-xstormy16 stamp-xc16x\ + libopcodes.a stamp-lib dep.sed DEP DEPA DEP1 DEP2 + +@@ -619,9 +630,11 @@ CGENDEPS = \ + $(CGENDIR)/opc-opinst.scm \ + cgen-asm.in cgen-dis.in cgen-ibld.in + +-CGEN_CPUS = fr30 frv ip2k m32c m32r mep mt openrisc xc16x xstormy16 ++CGEN_CPUS = fr30 frv ip2k ubicom32 m32c m32r mep mt openrisc xc16x xstormy16 + @CGEN_MAINT_FALSE@IP2K_DEPS = + @CGEN_MAINT_TRUE@IP2K_DEPS = stamp-ip2k ++@CGEN_MAINT_FALSE@UBICOM32_DEPS = ++@CGEN_MAINT_TRUE@UBICOM32_DEPS = stamp-ubicom32 + @CGEN_MAINT_FALSE@M32C_DEPS = + @CGEN_MAINT_TRUE@M32C_DEPS = stamp-m32c + @CGEN_MAINT_FALSE@M32R_DEPS = +@@ -1035,6 +1048,11 @@ run-cgen-all: + .PHONY: run-cgen-all + + # For now, require developers to configure with --enable-cgen-maint. ++$(srcdir)/ubicom32-desc.h $(srcdir)/ubicom32-desc.c $(srcdir)/ubicom32-opc.h $(srcdir)/ubicom32-opc.c $(srcdir)/ubicom32-ibld.c $(srcdir)/ubicom32-asm.c $(srcdir)/ubicom32-dis.c: $(UBICOM32_DEPS) ++# @true ++stamp-ubicom32: $(CGENDEPS) $(CPUDIR)/ubicom32.cpu $(CPUDIR)/ubicom32.opc ++ $(MAKE) run-cgen arch=ubicom32 prefix=ubicom32 \ ++ archfile=$(CPUDIR)/ubicom32.cpu opcfile=$(CPUDIR)/ubicom32.opc options= extrafiles= + $(srcdir)/ip2k-desc.h $(srcdir)/ip2k-desc.c $(srcdir)/ip2k-opc.h $(srcdir)/ip2k-opc.c $(srcdir)/ip2k-ibld.c $(srcdir)/ip2k-asm.c $(srcdir)/ip2k-dis.c: $(IP2K_DEPS) + @true + stamp-ip2k: $(CGENDEPS) $(CPUDIR)/ip2k.cpu $(CPUDIR)/ip2k.opc +@@ -1375,6 +1393,34 @@ ia64-gen.lo: ia64-gen.c $(INCDIR)/anside + ia64-opc-m.c ia64-opc-b.c ia64-opc-f.c ia64-opc-x.c \ + ia64-opc-d.c + ia64-asmtab.lo: ia64-asmtab.c ++ubicom32-asm.lo: ubicom32-asm.c sysdep.h config.h $(INCDIR)/ansidecl.h \ ++ $(BFD_H) $(INCDIR)/ansidecl.h $(INCDIR)/symcat.h $(INCDIR)/symcat.h \ ++ ubicom32-desc.h $(INCDIR)/opcode/cgen-bitset.h $(INCDIR)/opcode/cgen.h \ ++ $(INCDIR)/symcat.h $(INCDIR)/opcode/cgen-bitset.h ubicom32-opc.h \ ++ opintl.h $(INCDIR)/xregex.h $(INCDIR)/xregex2.h $(INCDIR)/libiberty.h \ ++ $(INCDIR)/ansidecl.h $(INCDIR)/safe-ctype.h ++ubicom32-desc.lo: ubicom32-desc.c sysdep.h config.h $(INCDIR)/ansidecl.h \ ++ $(BFD_H) $(INCDIR)/ansidecl.h $(INCDIR)/symcat.h $(INCDIR)/symcat.h \ ++ ubicom32-desc.h $(INCDIR)/opcode/cgen-bitset.h $(INCDIR)/opcode/cgen.h \ ++ $(INCDIR)/symcat.h $(INCDIR)/opcode/cgen-bitset.h ubicom32-opc.h \ ++ opintl.h $(INCDIR)/libiberty.h $(INCDIR)/ansidecl.h \ ++ $(INCDIR)/xregex.h $(INCDIR)/xregex2.h ++ubicom32-dis.lo: ubicom32-dis.c sysdep.h config.h $(INCDIR)/ansidecl.h \ ++ $(INCDIR)/dis-asm.h $(BFD_H) $(INCDIR)/ansidecl.h $(INCDIR)/symcat.h \ ++ $(BFD_H) $(INCDIR)/symcat.h $(INCDIR)/libiberty.h $(INCDIR)/ansidecl.h \ ++ ubicom32-desc.h $(INCDIR)/opcode/cgen-bitset.h $(INCDIR)/opcode/cgen.h \ ++ $(INCDIR)/symcat.h $(INCDIR)/opcode/cgen-bitset.h ubicom32-opc.h \ ++ opintl.h ++ubicom32-ibld.lo: ubicom32-ibld.c sysdep.h config.h $(INCDIR)/ansidecl.h \ ++ $(INCDIR)/dis-asm.h $(BFD_H) $(INCDIR)/ansidecl.h $(INCDIR)/symcat.h \ ++ $(BFD_H) $(INCDIR)/symcat.h ubicom32-desc.h $(INCDIR)/opcode/cgen-bitset.h \ ++ $(INCDIR)/opcode/cgen.h $(INCDIR)/symcat.h $(INCDIR)/opcode/cgen-bitset.h \ ++ ubicom32-opc.h opintl.h $(INCDIR)/safe-ctype.h ++ubicom32-opc.lo: ubicom32-opc.c sysdep.h config.h $(INCDIR)/ansidecl.h \ ++ $(BFD_H) $(INCDIR)/ansidecl.h $(INCDIR)/symcat.h $(INCDIR)/symcat.h \ ++ ubicom32-desc.h $(INCDIR)/opcode/cgen-bitset.h $(INCDIR)/opcode/cgen.h \ ++ $(INCDIR)/symcat.h $(INCDIR)/opcode/cgen-bitset.h ubicom32-opc.h \ ++ $(INCDIR)/libiberty.h $(INCDIR)/ansidecl.h $(INCDIR)/safe-ctype.h + ip2k-asm.lo: ip2k-asm.c sysdep.h config.h $(INCDIR)/ansidecl.h \ + $(BFD_H) $(INCDIR)/symcat.h ip2k-desc.h $(INCDIR)/opcode/cgen-bitset.h \ + $(INCDIR)/opcode/cgen.h $(INCDIR)/opcode/cgen-bitset.h \ +--- /dev/null ++++ b/opcodes/ubicom32-asm.c +@@ -0,0 +1,1863 @@ ++/* Assembler interface for targets using CGEN. -*- C -*- ++ CGEN: Cpu tools GENerator ++ ++ THIS FILE IS MACHINE GENERATED WITH CGEN. ++ - the resultant file is machine generated, cgen-asm.in isn't ++ ++ Copyright 1996, 1997, 1998, 1999, 2000, 2001, 2005, 2007 ++ Free Software Foundation, Inc. ++ ++ This file is part of libopcodes. ++ ++ This library is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 3, or (at your option) ++ any later version. ++ ++ It is distributed in the hope that it will be useful, but WITHOUT ++ ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ++ or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public ++ License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software Foundation, Inc., ++ 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */ ++ ++ ++/* ??? Eventually more and more of this stuff can go to cpu-independent files. ++ Keep that in mind. */ ++ ++#include "sysdep.h" ++#include ++#include "ansidecl.h" ++#include "bfd.h" ++#include "symcat.h" ++#include "ubicom32-desc.h" ++#include "ubicom32-opc.h" ++#include "opintl.h" ++#include "xregex.h" ++#include "libiberty.h" ++#include "safe-ctype.h" ++ ++#undef min ++#define min(a,b) ((a) < (b) ? (a) : (b)) ++#undef max ++#define max(a,b) ((a) > (b) ? (a) : (b)) ++ ++static const char * parse_insn_normal ++ (CGEN_CPU_DESC, const CGEN_INSN *, const char **, CGEN_FIELDS *); ++ ++/* -- assembler routines inserted here. */ ++ ++/* -- asm.c */ ++ ++/* Directly addressable registers on the UBICOM32. ++ */ ++ ++#define RW 0 /* read/write */ ++#define RO 1 /* read-only */ ++#define WO 2 /* write-only */ ++ ++struct ubicom32_cgen_data_space_map ubicom32_cgen_data_space_map_mercury[] = { ++ { 0x0, "d0", RW, }, /* data registers */ ++ /* d1, d2 and d3 are later */ ++ { 0x10, "d4", RW, }, ++ { 0x14, "d5", RW, }, ++ { 0x18, "d6", RW, }, ++ { 0x1c, "d7", RW, }, ++ { 0x20, "d8", RW, }, ++ { 0x24, "d9", RW, }, ++ { 0x28, "d10", RW, }, ++ { 0x2c, "d11", RW, }, ++ { 0x30, "d12", RW, }, ++ { 0x34, "d13", RW, }, ++ { 0x38, "d14", RW, }, ++ { 0x3c, "d15", RW, }, ++ { 0x4, "d1", RW, }, /* put them here where they work */ ++ { 0x8, "d2", RW, }, ++ { 0xc, "d3", RW, }, ++ { A0_ADDRESS, "a0", RW, }, /* address registers */ ++ { A1_ADDRESS, "a1", RW, }, ++ { A2_ADDRESS, "a2", RW, }, ++ { A3_ADDRESS, "a3", RW, }, ++ { A4_ADDRESS, "a4", RW, }, ++ { A5_ADDRESS, "a5", RW, }, ++ { A6_ADDRESS, "a6", RW, }, ++ { A7_ADDRESS, "sp", RW, }, /* sp is a7; first so we use it */ ++ { A7_ADDRESS, "a7", RW, }, ++ { 0xa0, "mac_hi", RW, }, ++ { 0xa4, "mac_lo", RW, }, ++ { 0xa8, "mac_rc16", RW, }, ++ { 0xac, "source3", RW, }, ++ { 0xac, "source_3", RW, }, ++ { 0xb0, "context_cnt", RO,}, ++ { 0xb0, "inst_cnt", RO,}, ++ { 0xb4, "csr", RW, }, ++ { 0xb8, "rosr", RO, }, ++ { 0xbc, "iread_data", RW, }, ++ { 0xc0, "int_mask0", RW, }, ++ { 0xc4, "int_mask1", RW, }, ++ /* 0xc8 - 0xcf reserved for future interrupt masks */ ++ { 0xd0, "pc", RW, }, ++ /* 0xd4 - ff reserved */ ++ { 0x100, "chip_id", RO, }, ++ { 0x104, "int_stat0", RO, }, ++ { 0x108, "int_stat1", RO, }, ++ /* 0x10c - 0x113 reserved for future interrupt masks */ ++ { 0x114, "int_set0", WO, }, ++ { 0x118, "int_set1", WO, }, ++ /* 0x11c - 0x123 reserved for future interrupt set */ ++ { 0x124, "int_clr0", WO, }, ++ { 0x128, "int_clr1", WO, }, ++ /* 0x13c - 0x133 reserved for future interrupt clear */ ++ { 0x134, "global_ctrl", RW, }, ++ { 0x13c, "mt_active_set", WO, }, ++ { 0x140, "mt_active_clr", WO, }, ++ { 0x138, "mt_active", RO, }, ++ { 0x148, "mt_dbg_active_set", WO, }, ++ { 0x144, "mt_dbg_active", RO, }, ++ { 0x14C, "mt_en", RW, }, ++ { 0x150, "mt_hpri", RW, }, ++ { 0x150, "mt_pri", RW, }, ++ { 0x154, "mt_hrt", RW, }, ++ { 0x154, "mt_sched", RW, }, ++ { 0x15C, "mt_break_clr", WO, }, ++ { 0x158, "mt_break", RO, }, ++ { 0x160, "mt_single_step", RW, }, ++ { 0x164, "mt_min_delay_en", RW, }, ++ { 0x164, "mt_min_del_en", RW, }, ++ ++ { 0x16c, "perr_addr", RO, }, ++ { 0x178, "dcapt_tnum", RO, }, ++ { 0x174, "dcapt_pc", RO, }, ++ { 0x170, "dcapt", RW, }, ++ /* 0x17c - 0x1ff reserved */ ++ { 0x17c, "mt_dbg_active_clr", WO, }, ++ { 0x180, "scratchpad0", RW, }, ++ { 0x184, "scratchpad1", RW, }, ++ { 0x188, "scratchpad2", RW, }, ++ { 0x18c, "scratchpad3", RW, }, ++ ++ { 0x0, 0, RW, }, ++}; ++ ++struct ubicom32_cgen_data_space_map ubicom32_cgen_data_space_map_mars[] = { ++ { 0x0, "d0", RW, }, /* data registers */ ++ /* d1, d2 and d3 are later */ ++ { 0x10, "d4", RW, }, ++ { 0x14, "d5", RW, }, ++ { 0x18, "d6", RW, }, ++ { 0x1c, "d7", RW, }, ++ { 0x20, "d8", RW, }, ++ { 0x24, "d9", RW, }, ++ { 0x28, "d10", RW, }, ++ { 0x2c, "d11", RW, }, ++ { 0x30, "d12", RW, }, ++ { 0x34, "d13", RW, }, ++ { 0x38, "d14", RW, }, ++ { 0x3c, "d15", RW, }, ++ { 0x4, "d1", RW, }, /* put them here where they work */ ++ { 0x8, "d2", RW, }, ++ { 0xc, "d3", RW, }, ++ { A0_ADDRESS, "a0", RW, }, /* address registers */ ++ { A1_ADDRESS, "a1", RW, }, ++ { A2_ADDRESS, "a2", RW, }, ++ { A3_ADDRESS, "a3", RW, }, ++ { A4_ADDRESS, "a4", RW, }, ++ { A5_ADDRESS, "a5", RW, }, ++ { A6_ADDRESS, "a6", RW, }, ++ { A7_ADDRESS, "sp", RW, }, /* sp is a7; first so we use it */ ++ { A7_ADDRESS, "a7", RW, }, ++ { 0xa0, "mac_hi", RW, }, ++ { 0xa0, "acc0_hi", RW, }, /* mac_hi and mac_lo are also known as acc0_hi and acc0_lo */ ++ { 0xa4, "mac_lo", RW, }, ++ { 0xa4, "acc0_lo", RW, }, ++ { 0xa8, "mac_rc16", RW, }, ++ { 0xac, "source3", RW, }, ++ { 0xac, "source_3", RW, }, ++ { 0xb0, "context_cnt", RO,}, ++ { 0xb0, "inst_cnt", RO,}, ++ { 0xb4, "csr", RW, }, ++ { 0xb8, "rosr", RO, }, ++ { 0xbc, "iread_data", RW, }, ++ { 0xc0, "int_mask0", RW, }, ++ { 0xc4, "int_mask1", RW, }, ++ /* 0xc8 - 0xcf reserved for future interrupt masks */ ++ { 0xd0, "pc", RW, }, ++ { 0xd4, "trap_cause", RW, }, ++ { 0xd8, "acc1_hi", RW, }, /* Defines for acc1 */ ++ { 0xdc, "acc1_lo", RW, }, ++ { 0xe0, "previous_pc", RO, }, ++ ++ /* 0xe4 - ff reserved */ ++ { 0x100, "chip_id", RO, }, ++ { 0x104, "int_stat0", RO, }, ++ { 0x108, "int_stat1", RO, }, ++ /* 0x10c - 0x113 reserved for future interrupt masks */ ++ { 0x114, "int_set0", WO, }, ++ { 0x118, "int_set1", WO, }, ++ /* 0x11c - 0x123 reserved for future interrupt set */ ++ { 0x124, "int_clr0", WO, }, ++ { 0x128, "int_clr1", WO, }, ++ /* 0x130 - 0x133 reserved for future interrupt clear */ ++ { 0x134, "global_ctrl", RW, }, ++ { 0x13c, "mt_active_set", WO, }, ++ { 0x140, "mt_active_clr", WO, }, ++ { 0x138, "mt_active", RO, }, ++ { 0x148, "mt_dbg_active_set", WO, }, ++ { 0x144, "mt_dbg_active", RO, }, ++ { 0x14C, "mt_en", RW, }, ++ { 0x150, "mt_hpri", RW, }, ++ { 0x150, "mt_pri", RW, }, ++ { 0x154, "mt_hrt", RW, }, ++ { 0x154, "mt_sched", RW, }, ++ { 0x15C, "mt_break_clr", WO, }, ++ { 0x158, "mt_break", RO, }, ++ { 0x160, "mt_single_step", RW, }, ++ { 0x164, "mt_min_delay_en", RW, }, ++ { 0x164, "mt_min_del_en", RW, }, ++ { 0x168, "mt_break_set", WO, }, ++ /* 0x16c - 0x16f reserved */ ++ { 0x170, "dcapt", RW, }, ++ /* 0x174 - 0x17b reserved */ ++ { 0x17c, "mt_dbg_active_clr", WO, }, ++ { 0x180, "scratchpad0", RW, }, ++ { 0x184, "scratchpad1", RW, }, ++ { 0x188, "scratchpad2", RW, }, ++ { 0x18c, "scratchpad3", RW, }, ++ ++ /* 0x190 - 0x19f Reserved */ ++ { 0x1a0, "chip_cfg", RW, }, ++ { 0x1a4, "mt_i_blocked", RO, }, ++ { 0x1a8, "mt_d_blocked", RO, }, ++ { 0x1ac, "mt_i_blocked_set", WO}, ++ { 0x1b0, "mt_d_blocked_set", WO}, ++ { 0x1b4, "mt_blocked_clr", WO}, ++ { 0x1b8, "mt_trap_en", RW, }, ++ { 0x1bc, "mt_trap", RO, }, ++ { 0x1c0, "mt_trap_set", WO, }, ++ { 0x1c4, "mt_trap_clr", WO, }, ++ /* 0x1c8-0x1FF Reserved */ ++ { 0x200, "i_range0_hi", RW}, ++ { 0x204, "i_range1_hi", RW}, ++ { 0x208, "i_range2_hi", RW}, ++ { 0x20c, "i_range3_hi", RW}, ++ ++ /* 0x210-0x21f Reserved */ ++ { 0x220, "i_range0_lo", RW}, ++ { 0x224, "i_range1_lo", RW}, ++ { 0x228, "i_range2_lo", RW}, ++ { 0x22c, "i_range3_lo", RW}, ++ ++ /* 0x230-0x23f Reserved */ ++ { 0x240, "i_range0_en", RW}, ++ { 0x244, "i_range1_en", RW}, ++ { 0x248, "i_range2_en", RW}, ++ { 0x24c, "i_range3_en", RW}, ++ ++ /* 0x250-0x25f Reserved */ ++ { 0x260, "d_range0_hi", RW}, ++ { 0x264, "d_range1_hi", RW}, ++ { 0x268, "d_range2_hi", RW}, ++ { 0x26c, "d_range3_hi", RW}, ++ { 0x270, "d_range4_hi", RW}, ++ ++ /* 0x274-0x27f Reserved */ ++ { 0x280, "d_range0_lo", RW}, ++ { 0x284, "d_range1_lo", RW}, ++ { 0x288, "d_range2_lo", RW}, ++ { 0x28c, "d_range3_lo", RW}, ++ { 0x290, "d_range4_lo", RW}, ++ ++ /* 0x294-0x29f Reserved */ ++ { 0x2a0, "d_range0_en", RW}, ++ { 0x2a4, "d_range1_en", RW}, ++ { 0x2a8, "d_range2_en", RW}, ++ { 0x2ac, "d_range3_en", RW}, ++ { 0x2b0, "d_range4_en", RW}, ++ ++ /* 0x2b4-0x3ff Reserved */ ++ ++ { 0x0, 0, RW, }, ++}; ++ ++/* t_is_set will be 1 if .t is set for the madd.2 and msub.2 instructions */ ++static unsigned char t_is_set =0; ++ ++static const char * ++parse_t_is_set_for_addsub ( ++ CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ const char **strp, ++ CGEN_KEYWORD *keyword_table, ++ long *valuep) ++{ ++ const char *errmsg; ++ ++ t_is_set = 0; ++ ++ errmsg = cgen_parse_keyword (cd, strp, keyword_table, valuep); ++ if (errmsg) ++ { ++ t_is_set = 0; ++ ++ return errmsg; ++ } ++ ++ if((int)*valuep) ++ t_is_set = 1; ++ ++ return NULL; ++} ++ ++char myerrmsg[128]; ++ ++/* ++ * If accumulator is selected for madd.2 and msub.2 instructions then ++ * the T bit should not be selected. Flag an assembler error in those ++ * cases. ++ */ ++static const char * ++parse_acc_for_addsub (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ const char **strp, ++ CGEN_KEYWORD *keyword_table, ++ long *valuep) ++{ ++ const char *errmsg; ++ ++ errmsg = cgen_parse_keyword (cd, strp, keyword_table, valuep); ++ if (errmsg) ++ { ++ t_is_set = 0; ++ ++ return errmsg; ++ } ++ ++ ++ if(t_is_set) ++ { ++ /* This is erroneous. */ ++ sprintf(myerrmsg, "Extenstion \".t\" is illegal when using acc%d as Source 2 register.", (int)*valuep); ++ t_is_set=0; ++ return (myerrmsg); ++ } ++ ++ t_is_set=0; ++ return NULL; ++} ++ ++/* ++ * For dsp madd/msub cases if S2 is a data register then t_is_set flag should be set to zero. ++ */ ++static const char * ++parse_dr_for_addsub (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ const char **strp, ++ CGEN_KEYWORD *keyword_table, ++ long *valuep) ++{ ++ const char *errmsg; ++ ++ errmsg = cgen_parse_keyword (cd, strp, keyword_table, valuep); ++ if (errmsg) ++ { ++ t_is_set = 0; ++ ++ return errmsg; ++ } ++ t_is_set=0; ++ return NULL; ++} ++ ++static const char * ++parse_bit5 (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ long *valuep) ++{ ++ const char *errmsg; ++ char mode = 0; ++ long count = 0; ++ unsigned long value; ++ ++ if (strncmp (*strp, "%bit", 4) == 0) ++ { ++ *strp += 4; ++ mode = 1; ++ } ++ else if (strncmp (*strp, "%msbbit", 7) == 0) ++ { ++ *strp += 7; ++ mode = 2; ++ } ++ else if (strncmp (*strp, "%lsbbit", 7) == 0) ++ { ++ *strp += 7; ++ mode = 3; ++ } ++ ++ errmsg = cgen_parse_unsigned_integer (cd, strp, opindex, valuep); ++ if (errmsg) { ++ return errmsg; ++ } ++ ++ if (mode) { ++ value = (unsigned long) *valuep; ++ if (value == 0) { ++ errmsg = _("Attempt to find bit index of 0"); ++ return errmsg; ++ } ++ ++ if (mode == 1) { ++ count = 31; ++ while ((value & 0x80000000) == 0) { ++ count--; ++ value <<= 1; ++ } ++ if ((value & 0x7FFFFFFF) != 0) { ++ errmsg = _("More than one bit set in bitmask"); ++ return errmsg; ++ } ++ } else if (mode == 2) { ++ count = 31; ++ while ((value & 0x80000000) == 0) { ++ count--; ++ value <<= 1; ++ } ++ } else if (mode == 3) { ++ count = 0; ++ while ((value & 0x00000001) == 0) { ++ count++; ++ value >>= 1; ++ } ++ } ++ ++ *valuep = count; ++ } ++ ++ return errmsg; ++} ++ ++/* ++ * For dsp madd/msub cases if S2 is a #bit5 then t_is_set flag should be set to zero. ++ */ ++static const char * ++parse_bit5_for_addsub (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ const char **strp, ++ int opindex, ++ long *valuep) ++{ ++ const char *errmsg; ++ ++ errmsg = parse_bit5(cd, strp, opindex, valuep); ++ if (errmsg) ++ { ++ t_is_set = 0; ++ ++ return errmsg; ++ } ++ t_is_set=0; ++ return NULL; ++} ++ ++/* Parse signed 4 bit immediate value, being careful (hacky) to avoid ++ eating a `++' that might be present */ ++static const char * ++parse_imm4 (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ long *valuep, ++ int size) ++{ ++ const char *errmsg; ++ char *plusplus; ++ long value; ++ ++ plusplus = strstr(*strp, "++"); ++ if (plusplus) ++ *plusplus = 0; ++ errmsg = cgen_parse_signed_integer (cd, strp, opindex, &value); ++ if (plusplus) ++ *plusplus = '+'; ++ ++ if (errmsg == NULL) ++ { ++ if ((size == 2 && (value % 2)) || ++ (size == 4 && (value % 4))) ++ errmsg = _("unaligned increment"); ++ else if ((size == 1 && (value < -8 || value > 7)) || ++ (size == 2 && (value < -16 || value > 15)) || ++ (size == 4 && (value < -32 || value > 31))) ++ errmsg = _("out of bounds increment"); ++ else ++ *valuep = value; ++ } ++ return errmsg; ++} ++ ++/* as above, for single byte addresses */ ++static const char * ++parse_imm4_1 (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ long *valuep) ++{ ++ return parse_imm4 (cd, strp, opindex, valuep, 1); ++} ++ ++/* as above, for half-word addresses */ ++static const char * ++parse_imm4_2 (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ long *valuep) ++{ ++ return parse_imm4 (cd, strp, opindex, valuep, 2); ++} ++ ++/* as above, for word addresses */ ++static const char * ++parse_imm4_4 (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ long *valuep) ++{ ++ return parse_imm4 (cd, strp, opindex, valuep, 4); ++} ++ ++/* Parse a direct address. This can be either `$xx' or a Register ++ Mnemonic. ++ */ ++static const char * ++parse_direct_addr (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ long *valuep, ++ int isdest) ++{ ++ const char *errmsg = NULL; ++ bfd_vma value; ++ struct ubicom32_cgen_data_space_map *cur; ++ size_t len; ++ ++ if(cd->machs & (1<name; cur++) ++ if (strncasecmp(cur->name, *strp, (len = strlen(cur->name))) == 0 && ++ !ISALNUM((*strp)[len]) && (*strp)[len] != '_' ) ++ { ++ *strp += len; ++ /* fail if specifying a read-only register as a destination */ ++ if (isdest && cur->type == RO) ++ return _("attempt to write to read-only register"); ++ ++ /* fail if specifying a write-only register as a source */ ++ if ((isdest==0) && cur->type == WO) ++ return _("attempt to read a write-only register"); ++ value = cur->address; ++ errmsg = NULL; ++ break; ++ } ++ ++ /* Not found: try parsing it as a literal */ ++ if (cur->name == NULL) ++ { ++ char *plusplus; ++ if (**strp == '(') ++ { ++ return _("parentheses are reserved for indirect addressing"); ++ } ++ ++ if (strncasecmp(*strp, "%f", 2) == 0) ++ { ++ *valuep = 0; ++ return NULL; ++ } ++ ++ /* we want to avoid parsing a negative post-increment expression as a numeric ++ expression because the parser assumes zeroes exist between the pluses and ++ issues an extraneous warning message. */ ++ plusplus = strstr(*strp, "++"); ++ if (plusplus) ++ *plusplus = 0; ++ errmsg = cgen_parse_signed_integer (cd, strp, opindex, &value); ++ if (plusplus) ++ *plusplus = '+'; ++ ++ if (errmsg) ++ return errmsg; ++ } ++ ++ value &= 0x3ff; ++ *valuep = value; ++ return errmsg; ++} ++ ++static const char * ++parse_d_direct_addr (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ long *valuep) ++{ ++ return parse_direct_addr (cd, strp, opindex, valuep, 1); ++} ++ ++static const char * ++parse_s1_direct_addr (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ long *valuep) ++{ ++ return parse_direct_addr (cd, strp, opindex, valuep, 0); ++} ++ ++/* support for source-1 and destination operand 7-bit immediates for indirect addressing */ ++static const char *imm7_1_rangemsg = "7-bit byte immediate value out of range"; ++static const char *imm7_2_rangemsg = "7-bit halfword immediate value out of range"; ++static const char *imm7_4_rangemsg = "7-bit word immediate value out of range"; ++static const char *imm7_pdec_rangemsg = "Pdec offset out of range. Allowed range is >=4 and <=512."; ++static const char *imm7_2_maskmsg = "7-bit halfword immediate not a multiple of 2"; ++static const char *imm7_4_maskmsg = "7-bit word immediate not a multiple of 4"; ++ ++/* Parse 7-bit immediates, allow %lo() operator */ ++static const char * ++parse_imm7_basic (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ unsigned long *valuep, ++ const char *rangemsg, ++ const char *maskmsg, ++ bfd_vma max, ++ int mask, ++ int reloc) ++{ ++ const char *errmsg; ++ enum cgen_parse_operand_result result_type = CGEN_PARSE_OPERAND_RESULT_NUMBER; ++ bfd_vma value; ++ int newreloc; ++ ++ /* in this case we want low 7-bits to accompany the 24-bit immediate of a moveai instruction */ ++ if (strncasecmp (*strp, "%lo(", 4) == 0) ++ { ++ *strp += 4; ++ errmsg = cgen_parse_address (cd, strp, opindex, reloc, ++ &result_type, &value); ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ if (errmsg == NULL ++ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ value &= 0x7f; /* always want 7 bits, regardless of imm7 type */ ++ *valuep = value; ++ return errmsg; ++ } ++ else if (strncasecmp (*strp, "%got_lo(", strlen("%got_lo(")) == 0) ++ { ++ *strp += strlen("%got_lo("); ++ ++ /* Switch the relocation to the GOT relocation. */ ++ switch(reloc) ++ { ++ case BFD_RELOC_UBICOM32_LO7_S: ++ reloc = BFD_RELOC_UBICOM32_GOT_LO7_S; ++ break; ++ case BFD_RELOC_UBICOM32_LO7_2_S: ++ reloc = BFD_RELOC_UBICOM32_GOT_LO7_2_S; ++ break; ++ case BFD_RELOC_UBICOM32_LO7_4_S: ++ reloc = BFD_RELOC_UBICOM32_GOT_LO7_4_S; ++ break; ++ case BFD_RELOC_UBICOM32_LO7_D: ++ reloc = BFD_RELOC_UBICOM32_GOT_LO7_D; ++ break; ++ case BFD_RELOC_UBICOM32_LO7_2_D: ++ reloc = BFD_RELOC_UBICOM32_GOT_LO7_2_D; ++ break; ++ case BFD_RELOC_UBICOM32_LO7_4_D: ++ reloc = BFD_RELOC_UBICOM32_GOT_LO7_4_D; ++ break; ++ } ++ errmsg = cgen_parse_address (cd, strp, opindex, reloc, ++ &result_type, &value); ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ if (errmsg == NULL ++ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ value &= 0x7f; /* always want 7 bits, regardless of imm7 type */ ++ *valuep = value; ++ return errmsg; ++ } ++ else if (strncasecmp (*strp, "%funcdesc_got_lo(", strlen("%funcdesc_got_lo(")) == 0) ++ { ++ *strp += strlen("%funcdesc_got_lo("); ++ ++ /* Switch the relocation to the GOT relocation. */ ++ switch(reloc) ++ { ++ case BFD_RELOC_UBICOM32_LO7_S: ++ reloc = BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_S; ++ break; ++ case BFD_RELOC_UBICOM32_LO7_2_S: ++ reloc = BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_2_S; ++ break; ++ case BFD_RELOC_UBICOM32_LO7_4_S: ++ reloc = BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_4_S; ++ break; ++ case BFD_RELOC_UBICOM32_LO7_D: ++ reloc = BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_D; ++ break; ++ case BFD_RELOC_UBICOM32_LO7_2_D: ++ reloc = BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_2_D; ++ break; ++ case BFD_RELOC_UBICOM32_LO7_4_D: ++ reloc = BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_4_D; ++ break; ++ } ++ errmsg = cgen_parse_address (cd, strp, opindex, reloc, ++ &result_type, &value); ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ if (errmsg == NULL ++ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ value &= 0x7f; /* always want 7 bits, regardless of imm7 type */ ++ *valuep = value; ++ return errmsg; ++ } ++ else ++ { ++ if (**strp == '(') ++ { ++ return _("parentheses are reserved for indirect addressing"); ++ } ++ ++ errmsg = cgen_parse_unsigned_integer (cd, strp, opindex, &value); ++ } ++ ++ if (errmsg == NULL) ++ { ++ if (value > max) ++ return rangemsg; ++ if (value & mask) ++ return maskmsg; ++ } ++ ++ *valuep = value & max; ++ return errmsg; ++} ++ ++/* Parse 7-bit immediates, allow %lo() operator */ ++static const char * ++parse_imm7_pdec (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ unsigned long *valuep, ++ const char *rangemsg, ++ const char *maskmsg, ++ int reloc) ++{ ++ const char *errmsg; ++ enum cgen_parse_operand_result result_type = CGEN_PARSE_OPERAND_RESULT_NUMBER; ++ bfd_vma value; ++ ++ /* in this case we want low 7-bits to accompany the 24-bit immediate of a moveai instruction */ ++ if (strncasecmp (*strp, "%lo(", 4) == 0) ++ { ++ *strp += 4; ++ errmsg = cgen_parse_address (cd, strp, opindex, reloc, ++ &result_type, &value); ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ if (errmsg == NULL ++ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ value &= 0x7f; /* always want 7 bits, regardless of imm7 type */ ++ *valuep = value; ++ return errmsg; ++ } ++ else ++ { ++ if (**strp == '(') ++ { ++ return _("parentheses are reserved for indirect addressing"); ++ } ++ ++ errmsg = cgen_parse_unsigned_integer (cd, strp, opindex, &value); ++ } ++ ++ if (errmsg == NULL) ++ { ++ if (((long)value > 512) || ((long)value < 4)) ++ return rangemsg; ++ if (value & 0x3) ++ return maskmsg; ++ } ++ ++ *valuep = value; ++ return errmsg; ++} ++ ++/* single byte imm7 */ ++static const char * ++parse_imm7_1_s (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ unsigned long *valuep) ++{ ++ return parse_imm7_basic (cd, strp, opindex, valuep, _(imm7_1_rangemsg), ++ NULL, 0x7f, 0, BFD_RELOC_UBICOM32_LO7_S); ++} ++ ++/* halfword imm7 */ ++static const char * ++parse_imm7_2_s (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ unsigned long *valuep) ++{ ++ return parse_imm7_basic (cd, strp, opindex, valuep, ++ _(imm7_2_rangemsg), ++ _(imm7_2_maskmsg), ++ 0xfe, 0x1, BFD_RELOC_UBICOM32_LO7_2_S); ++} ++ ++/* word imm7 */ ++static const char * ++parse_imm7_4_s (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ unsigned long *valuep) ++{ ++ return parse_imm7_basic (cd, strp, opindex, valuep, ++ _(imm7_4_rangemsg), ++ _(imm7_4_maskmsg), ++ 0x1fc, 0x3, BFD_RELOC_UBICOM32_LO7_4_S); ++} ++ ++/* word imm7 */ ++static const char * ++parse_pdec_imm7_4_s (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ unsigned long *valuep) ++{ ++ unsigned long value; ++ const char *errmsg = parse_imm7_pdec (cd, strp, opindex, &value, ++ _(imm7_pdec_rangemsg), ++ _(imm7_4_maskmsg), ++ BFD_RELOC_UBICOM32_LO7_4_S); ++ ++ if(errmsg == NULL) ++ { ++ /* at this point we have a valid value. Take the 2's comp and truncate to 7 bits */ ++ if(value == 0) ++ return _("Offset for PDEC source cannot be 0"); ++ ++ value = ~value; ++ value ++; ++ value &= 0x1fc; ++ *valuep = value; ++ } ++ ++ return errmsg; ++} ++ ++/* single byte dest imm7 */ ++static const char * ++parse_imm7_1_d (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ unsigned long *valuep) ++{ ++ return parse_imm7_basic (cd, strp, opindex, valuep, _(imm7_1_rangemsg), ++ NULL, 0x7f, 0, BFD_RELOC_UBICOM32_LO7_D); ++} ++ ++/* halfword dest imm7 */ ++static const char * ++parse_imm7_2_d (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ unsigned long *valuep) ++{ ++ return parse_imm7_basic (cd, strp, opindex, valuep, ++ _(imm7_2_rangemsg), ++ _(imm7_2_maskmsg), ++ 0xfe, 0x1, BFD_RELOC_UBICOM32_LO7_2_D); ++} ++ ++/* word dest imm7 */ ++static const char * ++parse_imm7_4_d (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ unsigned long *valuep) ++{ ++ return parse_imm7_basic (cd, strp, opindex, valuep, ++ _(imm7_4_rangemsg), ++ _(imm7_4_maskmsg), ++ 0x1fc, 0x3, BFD_RELOC_UBICOM32_LO7_4_D); ++} ++ ++/* Parse 16-bit immediate, allow %hi() or %lo() operators */ ++static const char * ++parse_imm16 (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ unsigned long *valuep) ++{ ++ const char *errmsg; ++ enum cgen_parse_operand_result result_type = CGEN_PARSE_OPERAND_RESULT_NUMBER; ++ bfd_vma value; ++ ++ if (strncasecmp (*strp, "%hi(", 4) == 0) ++ { ++ *strp += 4; ++ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_HI16, ++ &result_type, &value); ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ if (errmsg == NULL ++ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ value >>= 16; ++ *valuep = value; ++ return errmsg; ++ } ++ else if (strncasecmp (*strp, "%got_hi(", strlen("%got_hi(")) == 0) ++ { ++ *strp += strlen("%got_hi("); ++ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_UBICOM32_GOTOFFSET_HI, ++ &result_type, &value); ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ if (errmsg == NULL ++ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ value >>= 16; ++ *valuep = value; ++ return errmsg; ++ } ++ else if (strncasecmp (*strp, "%got_funcdesc_hi(", strlen("%got_funcdesc_hi(")) == 0) ++ { ++ *strp += strlen("%got_funcdesc_hi("); ++ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_UBICOM32_FUNCDESC_GOTOFFSET_HI, ++ &result_type, &value); ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ if (errmsg == NULL ++ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ value >>= 16; ++ *valuep = value; ++ return errmsg; ++ } ++ else if (strncasecmp (*strp, "%lo(", 4) == 0) ++ { ++ *strp += 4; ++ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_LO16, ++ &result_type, &value); ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ if (errmsg == NULL ++ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ value &= 0xffff; ++ *valuep = value; ++ return errmsg; ++ } ++ else if (strncasecmp (*strp, "%got_lo(", strlen("%got_lo(")) == 0) ++ { ++ *strp += strlen("%got_lo("); ++ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_UBICOM32_GOTOFFSET_LO, ++ &result_type, &value); ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ if (errmsg == NULL ++ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ value &= 0xffff; ++ *valuep = value; ++ return errmsg; ++ } ++ else if (strncasecmp (*strp, "%got_funcdesc_lo(", strlen("%got_funcdesc_lo(")) == 0) ++ { ++ *strp += strlen("%got_funcdesc_lo("); ++ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_UBICOM32_FUNCDESC_GOTOFFSET_LO, ++ &result_type, &value); ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ if (errmsg == NULL ++ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ value &= 0xffff; ++ *valuep = value; ++ return errmsg; ++ } ++ else ++ { ++ errmsg = cgen_parse_unsigned_integer (cd, strp, opindex, &value); ++ } ++ ++ if (errmsg == NULL ++ && ((long)value > 65535 || (long)value < -32768)) ++ return _("16-bit immediate value out of range"); ++ ++ *valuep = value & 0xffff; ++ return errmsg; ++} ++ ++/* Parse 24-bit immediate for moveai instruction and allow %hi() operator */ ++static const char * ++parse_imm24 (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ unsigned long *valuep) ++{ ++ const char *errmsg; ++ enum cgen_parse_operand_result result_type = CGEN_PARSE_OPERAND_RESULT_NUMBER; ++ bfd_vma value; ++ ++ if (strncasecmp (*strp, "%hi(", 4) == 0) ++ { ++ *strp += 4; ++ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_UBICOM32_HI24, ++ &result_type, &value); ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ if (errmsg == NULL ++ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ value >>= 7; ++ *valuep = value; ++ return errmsg; ++ } ++ else if (strncasecmp (*strp, "%got_hi(", strlen("%got_hi(")) == 0) ++ { ++ *strp += strlen("%got_hi("); ++ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_UBICOM32_GOT_HI24, ++ &result_type, &value); ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ if (errmsg == NULL ++ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ value >>= 7; ++ *valuep = value; ++ return errmsg; ++ } ++ else if (strncasecmp (*strp, "%funcdesc_got_hi(", strlen("%funcdesc_got_hi(")) == 0) ++ { ++ *strp += strlen("%funcdesc_got_hi("); ++ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_UBICOM32_FUNCDESC_GOT_HI24, ++ &result_type, &value); ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ if (errmsg == NULL ++ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ value >>= 7; ++ *valuep = value; ++ return errmsg; ++ } ++ else ++ { ++ errmsg = cgen_parse_unsigned_integer (cd, strp, opindex, &value); ++ } ++ ++ if (errmsg == NULL ++ && ((long)value > 16777215 || (long)value < 0)) ++ return _("24-bit immediate value out of range"); ++ ++ *valuep = value; ++ return errmsg; ++} ++ ++static const char * ++parse_offset21 (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ int reloc ATTRIBUTE_UNUSED, ++ enum cgen_parse_operand_result *type_addr ATTRIBUTE_UNUSED, ++ unsigned long *valuep) ++{ ++ const char *errmsg; ++ enum cgen_parse_operand_result result_type = CGEN_PARSE_OPERAND_RESULT_NUMBER; ++ bfd_vma value; ++ ++ if (**strp == '#') ++ { ++ ++*strp; ++ errmsg = cgen_parse_unsigned_integer (cd, strp, opindex, &value); ++ } ++ else ++ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_UBICOM32_21_PCREL, ++ &result_type, &value); ++ ++ if (errmsg == NULL && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ { ++ /* we treat jmp #constant as being jump to pc + constant * 4 */ ++ if ((long)value > 1048575 || (long)value < -1048576) ++ return _("21-bit relative offset out of range"); ++ } ++ ++ *valuep = value & 0x7fffff; /* address is actually 23 bits before shift */ ++ return errmsg; ++} ++ ++static const char * ++parse_offset16 (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ unsigned long *valuep) ++{ ++ const char *errmsg; ++ enum cgen_parse_operand_result result_type = CGEN_PARSE_OPERAND_RESULT_NUMBER; ++ bfd_vma value; ++ ++ /* in this case we want low 7-bits to accompany the 24-bit immediate of a moveai instruction */ ++ if (strncasecmp (*strp, "%lo(", 4) == 0) ++ { ++ *strp += 4; ++ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_UBICOM32_LO7_CALLI, ++ &result_type, &value); ++ if (errmsg != NULL) ++ return errmsg; ++ ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ ++ if (result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ *valuep = value & 0x7c; ++ ++ return NULL; ++ } ++ ++ if (strncasecmp (*strp, "%got_lo(", strlen("%got_lo(")) == 0) ++ { ++ *strp += strlen("%got_lo("); ++ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_UBICOM32_GOT_LO7_CALLI, ++ &result_type, &value); ++ if (errmsg != NULL) ++ return errmsg; ++ ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ ++ if (result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ *valuep = value & 0x7c; ++ ++ return NULL; ++ } ++ ++ if (strncasecmp (*strp, "%funcdesc_got_lo(", strlen("%funcdesc_got_lo(")) == 0) ++ { ++ *strp += strlen("%funcdesc_got_lo("); ++ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_UBICOM32_FUNCDESC_GOT_LO7_CALLI, ++ &result_type, &value); ++ if (errmsg != NULL) ++ return errmsg; ++ ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ ++ if (result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ *valuep = value & 0x7c; ++ ++ return NULL; ++ } ++ ++ if (strncasecmp (*strp, "%lo18(", 6) == 0) ++ { ++ *strp += 6; ++ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_UBICOM32_LO16_CALLI, ++ &result_type, &value); ++ if (errmsg != NULL) ++ return errmsg; ++ ++ if (**strp != ')') ++ return _("missing `)'"); ++ ++*strp; ++ ++ if (result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER) ++ *valuep = value & 0x0003fffc; ++ ++ return NULL; ++ } ++ ++ errmsg = cgen_parse_signed_integer (cd, strp, opindex, &value); ++ if (errmsg != NULL) ++ return errmsg; ++ ++ /* ensure calli constant within limits and is multiple of 4 */ ++ if (value & 0x3) ++ return _("calli offset must be multiple of 4"); ++ ++ if ((long)value > 131071 || (long)value < -131072) ++ return _("16-bit calli offset out of range"); ++ ++ *valuep = value & 0x0003fffc; /* address is actually 18 bits before shift */ ++ return NULL; ++} ++ ++static const char * ++parse_imm8 (CGEN_CPU_DESC cd, ++ const char **strp, ++ int opindex, ++ unsigned long *valuep) ++{ ++ const char *errmsg; ++ bfd_vma value; ++ int no_sign = 0; ++ ++ if (**strp == '0' && TOUPPER(*(*strp+1)) == 'X') ++ no_sign = 1; ++ ++ errmsg = cgen_parse_signed_integer (cd, strp, opindex, &value); ++ ++ if (errmsg == NULL) ++ { ++ if ((no_sign && ((long)value > 255)) || ++ (!no_sign && (((long)value > 127) || ((long)value < -128)))) ++ return _("8-bit immediate value out of range"); ++ } ++ ++ *valuep = value & 0xff; ++ return errmsg; ++} ++ ++/* -- dis.c */ ++ ++const char * ubicom32_cgen_parse_operand ++ (CGEN_CPU_DESC, int, const char **, CGEN_FIELDS *); ++ ++/* Main entry point for operand parsing. ++ ++ This function is basically just a big switch statement. Earlier versions ++ used tables to look up the function to use, but ++ - if the table contains both assembler and disassembler functions then ++ the disassembler contains much of the assembler and vice-versa, ++ - there's a lot of inlining possibilities as things grow, ++ - using a switch statement avoids the function call overhead. ++ ++ This function could be moved into `parse_insn_normal', but keeping it ++ separate makes clear the interface between `parse_insn_normal' and each of ++ the handlers. */ ++ ++const char * ++ubicom32_cgen_parse_operand (CGEN_CPU_DESC cd, ++ int opindex, ++ const char ** strp, ++ CGEN_FIELDS * fields) ++{ ++ const char * errmsg = NULL; ++ /* Used by scalar operands that still need to be parsed. */ ++ long junk ATTRIBUTE_UNUSED; ++ ++ switch (opindex) ++ { ++ case UBICOM32_OPERAND_AM : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_addr_names, & fields->f_Am); ++ break; ++ case UBICOM32_OPERAND_AN : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_addr_names, & fields->f_An); ++ break; ++ case UBICOM32_OPERAND_C : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_h_C, & fields->f_C); ++ break; ++ case UBICOM32_OPERAND_DN : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_data_names, & fields->f_Dn); ++ break; ++ case UBICOM32_OPERAND_P : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_h_P, & fields->f_P); ++ break; ++ case UBICOM32_OPERAND_ACC1HI : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_ACC1HI, (unsigned long *) (& junk)); ++ break; ++ case UBICOM32_OPERAND_ACC1LO : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_ACC1LO, (unsigned long *) (& junk)); ++ break; ++ case UBICOM32_OPERAND_BIT5 : ++ errmsg = parse_bit5 (cd, strp, UBICOM32_OPERAND_BIT5, (unsigned long *) (& fields->f_bit5)); ++ break; ++ case UBICOM32_OPERAND_BIT5_ADDSUB : ++ errmsg = parse_bit5_for_addsub (cd, strp, UBICOM32_OPERAND_BIT5_ADDSUB, (unsigned long *) (& fields->f_bit5)); ++ break; ++ case UBICOM32_OPERAND_CC : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_h_cc, & fields->f_cond); ++ break; ++ case UBICOM32_OPERAND_D_AN : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_addr_names, & fields->f_d_An); ++ break; ++ case UBICOM32_OPERAND_D_DIRECT_ADDR : ++ errmsg = parse_d_direct_addr (cd, strp, UBICOM32_OPERAND_D_DIRECT_ADDR, (unsigned long *) (& fields->f_d_direct)); ++ break; ++ case UBICOM32_OPERAND_D_I4_1 : ++ errmsg = parse_imm4_1 (cd, strp, UBICOM32_OPERAND_D_I4_1, (long *) (& fields->f_d_i4_1)); ++ break; ++ case UBICOM32_OPERAND_D_I4_2 : ++ errmsg = parse_imm4_2 (cd, strp, UBICOM32_OPERAND_D_I4_2, (long *) (& fields->f_d_i4_2)); ++ break; ++ case UBICOM32_OPERAND_D_I4_4 : ++ errmsg = parse_imm4_4 (cd, strp, UBICOM32_OPERAND_D_I4_4, (long *) (& fields->f_d_i4_4)); ++ break; ++ case UBICOM32_OPERAND_D_IMM7_1 : ++ errmsg = parse_imm7_1_d (cd, strp, UBICOM32_OPERAND_D_IMM7_1, (unsigned long *) (& fields->f_d_imm7_1)); ++ break; ++ case UBICOM32_OPERAND_D_IMM7_2 : ++ errmsg = parse_imm7_2_d (cd, strp, UBICOM32_OPERAND_D_IMM7_2, (unsigned long *) (& fields->f_d_imm7_2)); ++ break; ++ case UBICOM32_OPERAND_D_IMM7_4 : ++ errmsg = parse_imm7_4_d (cd, strp, UBICOM32_OPERAND_D_IMM7_4, (unsigned long *) (& fields->f_d_imm7_4)); ++ break; ++ case UBICOM32_OPERAND_D_IMM8 : ++ errmsg = parse_imm8 (cd, strp, UBICOM32_OPERAND_D_IMM8, (long *) (& fields->f_d_imm8)); ++ break; ++ case UBICOM32_OPERAND_D_R : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_data_names, & fields->f_d_r); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_ADDSUB : ++ errmsg = parse_acc_for_addsub (cd, strp, & ubicom32_cgen_opval_acc_names, & fields->f_dsp_S2); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_MUL : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_acc_names, & fields->f_dsp_S2); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_data_names, & fields->f_dsp_S2); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG_ADDSUB : ++ errmsg = parse_dr_for_addsub (cd, strp, & ubicom32_cgen_opval_data_names, & fields->f_dsp_S2); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_SEL : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_DSP_S2_SEL, (unsigned long *) (& fields->f_dsp_S2_sel)); ++ break; ++ case UBICOM32_OPERAND_DSP_C : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_h_DSP_C, & fields->f_dsp_C); ++ break; ++ case UBICOM32_OPERAND_DSP_DESTA : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_h_DSP_Dest_A, & fields->f_dsp_destA); ++ break; ++ case UBICOM32_OPERAND_DSP_T : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_h_DSP_T, & fields->f_dsp_T); ++ break; ++ case UBICOM32_OPERAND_DSP_T_ADDSUB : ++ errmsg = parse_t_is_set_for_addsub (cd, strp, & ubicom32_cgen_opval_h_DSP_T_addsub, & fields->f_dsp_T); ++ break; ++ case UBICOM32_OPERAND_IMM16_1 : ++ errmsg = cgen_parse_signed_integer (cd, strp, UBICOM32_OPERAND_IMM16_1, (long *) (& fields->f_imm16_1)); ++ break; ++ case UBICOM32_OPERAND_IMM16_2 : ++ errmsg = parse_imm16 (cd, strp, UBICOM32_OPERAND_IMM16_2, (long *) (& fields->f_imm16_2)); ++ break; ++ case UBICOM32_OPERAND_IMM24 : ++ errmsg = parse_imm24 (cd, strp, UBICOM32_OPERAND_IMM24, (unsigned long *) (& fields->f_imm24)); ++ break; ++ case UBICOM32_OPERAND_INTERRUPT : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_INTERRUPT, (unsigned long *) (& fields->f_int)); ++ break; ++ case UBICOM32_OPERAND_IREAD : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_IREAD, (unsigned long *) (& junk)); ++ break; ++ case UBICOM32_OPERAND_IRQ_0 : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_IRQ_0, (unsigned long *) (& junk)); ++ break; ++ case UBICOM32_OPERAND_IRQ_1 : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_IRQ_1, (unsigned long *) (& junk)); ++ break; ++ case UBICOM32_OPERAND_MACHI : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_MACHI, (unsigned long *) (& junk)); ++ break; ++ case UBICOM32_OPERAND_MACLO : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_MACLO, (unsigned long *) (& junk)); ++ break; ++ case UBICOM32_OPERAND_OFFSET16 : ++ errmsg = parse_offset16 (cd, strp, UBICOM32_OPERAND_OFFSET16, (long *) (& fields->f_o16)); ++ break; ++ case UBICOM32_OPERAND_OFFSET21 : ++ { ++ bfd_vma value = 0; ++ errmsg = parse_offset21 (cd, strp, UBICOM32_OPERAND_OFFSET21, 0, NULL, & value); ++ fields->f_o21 = value; ++ } ++ break; ++ case UBICOM32_OPERAND_OFFSET24 : ++ { ++ bfd_vma value = 0; ++ errmsg = cgen_parse_address (cd, strp, UBICOM32_OPERAND_OFFSET24, 0, NULL, & value); ++ fields->f_o24 = value; ++ } ++ break; ++ case UBICOM32_OPERAND_OPC1 : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_OPC1, (unsigned long *) (& fields->f_op1)); ++ break; ++ case UBICOM32_OPERAND_OPC2 : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_OPC2, (unsigned long *) (& fields->f_op2)); ++ break; ++ case UBICOM32_OPERAND_PDEC_S1_IMM7_4 : ++ errmsg = parse_pdec_imm7_4_s (cd, strp, UBICOM32_OPERAND_PDEC_S1_IMM7_4, (unsigned long *) (& fields->f_s1_imm7_4)); ++ break; ++ case UBICOM32_OPERAND_S1_AN : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_addr_names, & fields->f_s1_An); ++ break; ++ case UBICOM32_OPERAND_S1_DIRECT_ADDR : ++ errmsg = parse_s1_direct_addr (cd, strp, UBICOM32_OPERAND_S1_DIRECT_ADDR, (unsigned long *) (& fields->f_s1_direct)); ++ break; ++ case UBICOM32_OPERAND_S1_I4_1 : ++ errmsg = parse_imm4_1 (cd, strp, UBICOM32_OPERAND_S1_I4_1, (long *) (& fields->f_s1_i4_1)); ++ break; ++ case UBICOM32_OPERAND_S1_I4_2 : ++ errmsg = parse_imm4_2 (cd, strp, UBICOM32_OPERAND_S1_I4_2, (long *) (& fields->f_s1_i4_2)); ++ break; ++ case UBICOM32_OPERAND_S1_I4_4 : ++ errmsg = parse_imm4_4 (cd, strp, UBICOM32_OPERAND_S1_I4_4, (long *) (& fields->f_s1_i4_4)); ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_1 : ++ errmsg = parse_imm7_1_s (cd, strp, UBICOM32_OPERAND_S1_IMM7_1, (unsigned long *) (& fields->f_s1_imm7_1)); ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_2 : ++ errmsg = parse_imm7_2_s (cd, strp, UBICOM32_OPERAND_S1_IMM7_2, (unsigned long *) (& fields->f_s1_imm7_2)); ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_4 : ++ errmsg = parse_imm7_4_s (cd, strp, UBICOM32_OPERAND_S1_IMM7_4, (unsigned long *) (& fields->f_s1_imm7_4)); ++ break; ++ case UBICOM32_OPERAND_S1_IMM8 : ++ errmsg = parse_imm8 (cd, strp, UBICOM32_OPERAND_S1_IMM8, (long *) (& fields->f_s1_imm8)); ++ break; ++ case UBICOM32_OPERAND_S1_R : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_data_names, & fields->f_s1_r); ++ break; ++ case UBICOM32_OPERAND_S2 : ++ errmsg = cgen_parse_keyword (cd, strp, & ubicom32_cgen_opval_data_names, & fields->f_s2); ++ break; ++ case UBICOM32_OPERAND_SRC3 : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_SRC3, (unsigned long *) (& junk)); ++ break; ++ case UBICOM32_OPERAND_X_BIT26 : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_X_BIT26, (unsigned long *) (& fields->f_bit26)); ++ break; ++ case UBICOM32_OPERAND_X_D : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_X_D, (unsigned long *) (& fields->f_d)); ++ break; ++ case UBICOM32_OPERAND_X_DN : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_X_DN, (unsigned long *) (& fields->f_Dn)); ++ break; ++ case UBICOM32_OPERAND_X_OP2 : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_X_OP2, (unsigned long *) (& fields->f_op2)); ++ break; ++ case UBICOM32_OPERAND_X_S1 : ++ errmsg = cgen_parse_unsigned_integer (cd, strp, UBICOM32_OPERAND_X_S1, (unsigned long *) (& fields->f_s1)); ++ break; ++ ++ default : ++ /* xgettext:c-format */ ++ fprintf (stderr, _("Unrecognized field %d while parsing.\n"), opindex); ++ abort (); ++ } ++ ++ return errmsg; ++} ++ ++cgen_parse_fn * const ubicom32_cgen_parse_handlers[] = ++{ ++ parse_insn_normal, ++}; ++ ++void ++ubicom32_cgen_init_asm (CGEN_CPU_DESC cd) ++{ ++ ubicom32_cgen_init_opcode_table (cd); ++ ubicom32_cgen_init_ibld_table (cd); ++ cd->parse_handlers = & ubicom32_cgen_parse_handlers[0]; ++ cd->parse_operand = ubicom32_cgen_parse_operand; ++#ifdef CGEN_ASM_INIT_HOOK ++CGEN_ASM_INIT_HOOK ++#endif ++} ++ ++ ++ ++/* Regex construction routine. ++ ++ This translates an opcode syntax string into a regex string, ++ by replacing any non-character syntax element (such as an ++ opcode) with the pattern '.*' ++ ++ It then compiles the regex and stores it in the opcode, for ++ later use by ubicom32_cgen_assemble_insn ++ ++ Returns NULL for success, an error message for failure. */ ++ ++char * ++ubicom32_cgen_build_insn_regex (CGEN_INSN *insn) ++{ ++ CGEN_OPCODE *opc = (CGEN_OPCODE *) CGEN_INSN_OPCODE (insn); ++ const char *mnem = CGEN_INSN_MNEMONIC (insn); ++ char rxbuf[CGEN_MAX_RX_ELEMENTS]; ++ char *rx = rxbuf; ++ const CGEN_SYNTAX_CHAR_TYPE *syn; ++ int reg_err; ++ ++ syn = CGEN_SYNTAX_STRING (CGEN_OPCODE_SYNTAX (opc)); ++ ++ /* Mnemonics come first in the syntax string. */ ++ if (! CGEN_SYNTAX_MNEMONIC_P (* syn)) ++ return _("missing mnemonic in syntax string"); ++ ++syn; ++ ++ /* Generate a case sensitive regular expression that emulates case ++ insensitive matching in the "C" locale. We cannot generate a case ++ insensitive regular expression because in Turkish locales, 'i' and 'I' ++ are not equal modulo case conversion. */ ++ ++ /* Copy the literal mnemonic out of the insn. */ ++ for (; *mnem; mnem++) ++ { ++ char c = *mnem; ++ ++ if (ISALPHA (c)) ++ { ++ *rx++ = '['; ++ *rx++ = TOLOWER (c); ++ *rx++ = TOUPPER (c); ++ *rx++ = ']'; ++ } ++ else ++ *rx++ = c; ++ } ++ ++ /* Copy any remaining literals from the syntax string into the rx. */ ++ for(; * syn != 0 && rx <= rxbuf + (CGEN_MAX_RX_ELEMENTS - 7 - 4); ++syn) ++ { ++ if (CGEN_SYNTAX_CHAR_P (* syn)) ++ { ++ char c = CGEN_SYNTAX_CHAR (* syn); ++ ++ switch (c) ++ { ++ /* Escape any regex metacharacters in the syntax. */ ++ case '.': case '[': case '\\': ++ case '*': case '^': case '$': ++ ++#ifdef CGEN_ESCAPE_EXTENDED_REGEX ++ case '?': case '{': case '}': ++ case '(': case ')': case '*': ++ case '|': case '+': case ']': ++#endif ++ *rx++ = '\\'; ++ *rx++ = c; ++ break; ++ ++ default: ++ if (ISALPHA (c)) ++ { ++ *rx++ = '['; ++ *rx++ = TOLOWER (c); ++ *rx++ = TOUPPER (c); ++ *rx++ = ']'; ++ } ++ else ++ *rx++ = c; ++ break; ++ } ++ } ++ else ++ { ++ /* Replace non-syntax fields with globs. */ ++ *rx++ = '.'; ++ *rx++ = '*'; ++ } ++ } ++ ++ /* Trailing whitespace ok. */ ++ * rx++ = '['; ++ * rx++ = ' '; ++ * rx++ = '\t'; ++ * rx++ = ']'; ++ * rx++ = '*'; ++ ++ /* But anchor it after that. */ ++ * rx++ = '$'; ++ * rx = '\0'; ++ ++ CGEN_INSN_RX (insn) = xmalloc (sizeof (regex_t)); ++ reg_err = regcomp ((regex_t *) CGEN_INSN_RX (insn), rxbuf, REG_NOSUB); ++ ++ if (reg_err == 0) ++ return NULL; ++ else ++ { ++ static char msg[80]; ++ ++ regerror (reg_err, (regex_t *) CGEN_INSN_RX (insn), msg, 80); ++ regfree ((regex_t *) CGEN_INSN_RX (insn)); ++ free (CGEN_INSN_RX (insn)); ++ (CGEN_INSN_RX (insn)) = NULL; ++ return msg; ++ } ++} ++ ++ ++/* Default insn parser. ++ ++ The syntax string is scanned and operands are parsed and stored in FIELDS. ++ Relocs are queued as we go via other callbacks. ++ ++ ??? Note that this is currently an all-or-nothing parser. If we fail to ++ parse the instruction, we return 0 and the caller will start over from ++ the beginning. Backtracking will be necessary in parsing subexpressions, ++ but that can be handled there. Not handling backtracking here may get ++ expensive in the case of the m68k. Deal with later. ++ ++ Returns NULL for success, an error message for failure. */ ++ ++static const char * ++parse_insn_normal (CGEN_CPU_DESC cd, ++ const CGEN_INSN *insn, ++ const char **strp, ++ CGEN_FIELDS *fields) ++{ ++ /* ??? Runtime added insns not handled yet. */ ++ const CGEN_SYNTAX *syntax = CGEN_INSN_SYNTAX (insn); ++ const char *str = *strp; ++ const char *errmsg; ++ const char *p; ++ const CGEN_SYNTAX_CHAR_TYPE * syn; ++#ifdef CGEN_MNEMONIC_OPERANDS ++ /* FIXME: wip */ ++ int past_opcode_p; ++#endif ++ ++ /* For now we assume the mnemonic is first (there are no leading operands). ++ We can parse it without needing to set up operand parsing. ++ GAS's input scrubber will ensure mnemonics are lowercase, but we may ++ not be called from GAS. */ ++ p = CGEN_INSN_MNEMONIC (insn); ++ while (*p && TOLOWER (*p) == TOLOWER (*str)) ++ ++p, ++str; ++ ++ if (* p) ++ return _("unrecognized instruction"); ++ ++#ifndef CGEN_MNEMONIC_OPERANDS ++ if (* str && ! ISSPACE (* str)) ++ return _("unrecognized instruction"); ++#endif ++ ++ CGEN_INIT_PARSE (cd); ++ cgen_init_parse_operand (cd); ++#ifdef CGEN_MNEMONIC_OPERANDS ++ past_opcode_p = 0; ++#endif ++ ++ /* We don't check for (*str != '\0') here because we want to parse ++ any trailing fake arguments in the syntax string. */ ++ syn = CGEN_SYNTAX_STRING (syntax); ++ ++ /* Mnemonics come first for now, ensure valid string. */ ++ if (! CGEN_SYNTAX_MNEMONIC_P (* syn)) ++ abort (); ++ ++ ++syn; ++ ++ while (* syn != 0) ++ { ++ /* Non operand chars must match exactly. */ ++ if (CGEN_SYNTAX_CHAR_P (* syn)) ++ { ++ /* FIXME: While we allow for non-GAS callers above, we assume the ++ first char after the mnemonic part is a space. */ ++ /* FIXME: We also take inappropriate advantage of the fact that ++ GAS's input scrubber will remove extraneous blanks. */ ++ if (TOLOWER (*str) == TOLOWER (CGEN_SYNTAX_CHAR (* syn))) ++ { ++#ifdef CGEN_MNEMONIC_OPERANDS ++ if (CGEN_SYNTAX_CHAR(* syn) == ' ') ++ past_opcode_p = 1; ++#endif ++ ++ syn; ++ ++ str; ++ } ++ else if (*str) ++ { ++ /* Syntax char didn't match. Can't be this insn. */ ++ static char msg [80]; ++ ++ /* xgettext:c-format */ ++ sprintf (msg, _("syntax error (expected char `%c', found `%c')"), ++ CGEN_SYNTAX_CHAR(*syn), *str); ++ return msg; ++ } ++ else ++ { ++ /* Ran out of input. */ ++ static char msg [80]; ++ ++ /* xgettext:c-format */ ++ sprintf (msg, _("syntax error (expected char `%c', found end of instruction)"), ++ CGEN_SYNTAX_CHAR(*syn)); ++ return msg; ++ } ++ continue; ++ } ++ ++ /* We have an operand of some sort. */ ++ errmsg = cd->parse_operand (cd, CGEN_SYNTAX_FIELD (*syn), ++ &str, fields); ++ if (errmsg) ++ return errmsg; ++ ++ /* Done with this operand, continue with next one. */ ++ ++ syn; ++ } ++ ++ /* If we're at the end of the syntax string, we're done. */ ++ if (* syn == 0) ++ { ++ /* FIXME: For the moment we assume a valid `str' can only contain ++ blanks now. IE: We needn't try again with a longer version of ++ the insn and it is assumed that longer versions of insns appear ++ before shorter ones (eg: lsr r2,r3,1 vs lsr r2,r3). */ ++ while (ISSPACE (* str)) ++ ++ str; ++ ++ if (* str != '\0') ++ return _("junk at end of line"); /* FIXME: would like to include `str' */ ++ ++ return NULL; ++ } ++ ++ /* We couldn't parse it. */ ++ return _("unrecognized instruction"); ++} ++ ++/* Main entry point. ++ This routine is called for each instruction to be assembled. ++ STR points to the insn to be assembled. ++ We assume all necessary tables have been initialized. ++ The assembled instruction, less any fixups, is stored in BUF. ++ Remember that if CGEN_INT_INSN_P then BUF is an int and thus the value ++ still needs to be converted to target byte order, otherwise BUF is an array ++ of bytes in target byte order. ++ The result is a pointer to the insn's entry in the opcode table, ++ or NULL if an error occured (an error message will have already been ++ printed). ++ ++ Note that when processing (non-alias) macro-insns, ++ this function recurses. ++ ++ ??? It's possible to make this cpu-independent. ++ One would have to deal with a few minor things. ++ At this point in time doing so would be more of a curiosity than useful ++ [for example this file isn't _that_ big], but keeping the possibility in ++ mind helps keep the design clean. */ ++ ++const CGEN_INSN * ++ubicom32_cgen_assemble_insn (CGEN_CPU_DESC cd, ++ const char *str, ++ CGEN_FIELDS *fields, ++ CGEN_INSN_BYTES_PTR buf, ++ char **errmsg) ++{ ++ const char *start; ++ CGEN_INSN_LIST *ilist; ++ const char *parse_errmsg = NULL; ++ const char *insert_errmsg = NULL; ++ int recognized_mnemonic = 0; ++ ++ /* Skip leading white space. */ ++ while (ISSPACE (* str)) ++ ++ str; ++ ++ /* The instructions are stored in hashed lists. ++ Get the first in the list. */ ++ ilist = CGEN_ASM_LOOKUP_INSN (cd, str); ++ ++ /* Keep looking until we find a match. */ ++ start = str; ++ for ( ; ilist != NULL ; ilist = CGEN_ASM_NEXT_INSN (ilist)) ++ { ++ const CGEN_INSN *insn = ilist->insn; ++ recognized_mnemonic = 1; ++ ++#ifdef CGEN_VALIDATE_INSN_SUPPORTED ++ /* Not usually needed as unsupported opcodes ++ shouldn't be in the hash lists. */ ++ /* Is this insn supported by the selected cpu? */ ++ if (! ubicom32_cgen_insn_supported (cd, insn)) ++ continue; ++#endif ++ /* If the RELAXED attribute is set, this is an insn that shouldn't be ++ chosen immediately. Instead, it is used during assembler/linker ++ relaxation if possible. */ ++ if (CGEN_INSN_ATTR_VALUE (insn, CGEN_INSN_RELAXED) != 0) ++ continue; ++ ++ str = start; ++ ++ /* Skip this insn if str doesn't look right lexically. */ ++ if (CGEN_INSN_RX (insn) != NULL && ++ regexec ((regex_t *) CGEN_INSN_RX (insn), str, 0, NULL, 0) == REG_NOMATCH) ++ continue; ++ ++ /* Allow parse/insert handlers to obtain length of insn. */ ++ CGEN_FIELDS_BITSIZE (fields) = CGEN_INSN_BITSIZE (insn); ++ ++ parse_errmsg = CGEN_PARSE_FN (cd, insn) (cd, insn, & str, fields); ++ if (parse_errmsg != NULL) ++ continue; ++ ++ /* ??? 0 is passed for `pc'. */ ++ insert_errmsg = CGEN_INSERT_FN (cd, insn) (cd, insn, fields, buf, ++ (bfd_vma) 0); ++ if (insert_errmsg != NULL) ++ continue; ++ ++ /* It is up to the caller to actually output the insn and any ++ queued relocs. */ ++ return insn; ++ } ++ ++ { ++ static char errbuf[150]; ++#ifdef CGEN_VERBOSE_ASSEMBLER_ERRORS ++ const char *tmp_errmsg; ++ ++ /* If requesting verbose error messages, use insert_errmsg. ++ Failing that, use parse_errmsg. */ ++ tmp_errmsg = (insert_errmsg ? insert_errmsg : ++ parse_errmsg ? parse_errmsg : ++ recognized_mnemonic ? ++ _("unrecognized form of instruction") : ++ _("unrecognized instruction")); ++ ++ if (strlen (start) > 50) ++ /* xgettext:c-format */ ++ sprintf (errbuf, "%s `%.50s...'", tmp_errmsg, start); ++ else ++ /* xgettext:c-format */ ++ sprintf (errbuf, "%s `%.50s'", tmp_errmsg, start); ++#else ++ if (strlen (start) > 50) ++ /* xgettext:c-format */ ++ sprintf (errbuf, _("bad instruction `%.50s...'"), start); ++ else ++ /* xgettext:c-format */ ++ sprintf (errbuf, _("bad instruction `%.50s'"), start); ++#endif ++ ++ *errmsg = errbuf; ++ return NULL; ++ } ++} +--- /dev/null ++++ b/opcodes/ubicom32-desc.c +@@ -0,0 +1,15137 @@ ++/* CPU data for ubicom32. ++ ++THIS FILE IS MACHINE GENERATED WITH CGEN. ++ ++Copyright 1996-2007 Free Software Foundation, Inc. ++ ++This file is part of the GNU Binutils and/or GDB, the GNU debugger. ++ ++ This file is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 3, or (at your option) ++ any later version. ++ ++ It is distributed in the hope that it will be useful, but WITHOUT ++ ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ++ or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public ++ License for more details. ++ ++ You should have received a copy of the GNU General Public License along ++ with this program; if not, write to the Free Software Foundation, Inc., ++ 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. ++ ++*/ ++ ++#include "sysdep.h" ++#include ++#include ++#include "ansidecl.h" ++#include "bfd.h" ++#include "symcat.h" ++#include "ubicom32-desc.h" ++#include "ubicom32-opc.h" ++#include "opintl.h" ++#include "libiberty.h" ++#include "xregex.h" ++ ++/* Attributes. */ ++ ++static const CGEN_ATTR_ENTRY bool_attr[] = ++{ ++ { "#f", 0 }, ++ { "#t", 1 }, ++ { 0, 0 } ++}; ++ ++static const CGEN_ATTR_ENTRY MACH_attr[] ATTRIBUTE_UNUSED = ++{ ++ { "base", MACH_BASE }, ++ { "ip3035", MACH_IP3035 }, ++ { "ubicom32dsp", MACH_UBICOM32DSP }, ++ { "ip3023compatibility", MACH_IP3023COMPATIBILITY }, ++ { "ubicom32_ver4", MACH_UBICOM32_VER4 }, ++ { "max", MACH_MAX }, ++ { 0, 0 } ++}; ++ ++static const CGEN_ATTR_ENTRY ISA_attr[] ATTRIBUTE_UNUSED = ++{ ++ { "ubicom32", ISA_UBICOM32 }, ++ { "max", ISA_MAX }, ++ { 0, 0 } ++}; ++ ++const CGEN_ATTR_TABLE ubicom32_cgen_ifield_attr_table[] = ++{ ++ { "MACH", & MACH_attr[0], & MACH_attr[0] }, ++ { "VIRTUAL", &bool_attr[0], &bool_attr[0] }, ++ { "PCREL-ADDR", &bool_attr[0], &bool_attr[0] }, ++ { "ABS-ADDR", &bool_attr[0], &bool_attr[0] }, ++ { "RESERVED", &bool_attr[0], &bool_attr[0] }, ++ { "SIGN-OPT", &bool_attr[0], &bool_attr[0] }, ++ { "SIGNED", &bool_attr[0], &bool_attr[0] }, ++ { 0, 0, 0 } ++}; ++ ++const CGEN_ATTR_TABLE ubicom32_cgen_hardware_attr_table[] = ++{ ++ { "MACH", & MACH_attr[0], & MACH_attr[0] }, ++ { "VIRTUAL", &bool_attr[0], &bool_attr[0] }, ++ { "CACHE-ADDR", &bool_attr[0], &bool_attr[0] }, ++ { "PC", &bool_attr[0], &bool_attr[0] }, ++ { "PROFILE", &bool_attr[0], &bool_attr[0] }, ++ { 0, 0, 0 } ++}; ++ ++const CGEN_ATTR_TABLE ubicom32_cgen_operand_attr_table[] = ++{ ++ { "MACH", & MACH_attr[0], & MACH_attr[0] }, ++ { "VIRTUAL", &bool_attr[0], &bool_attr[0] }, ++ { "PCREL-ADDR", &bool_attr[0], &bool_attr[0] }, ++ { "ABS-ADDR", &bool_attr[0], &bool_attr[0] }, ++ { "SIGN-OPT", &bool_attr[0], &bool_attr[0] }, ++ { "SIGNED", &bool_attr[0], &bool_attr[0] }, ++ { "NEGATIVE", &bool_attr[0], &bool_attr[0] }, ++ { "RELAX", &bool_attr[0], &bool_attr[0] }, ++ { "SEM-ONLY", &bool_attr[0], &bool_attr[0] }, ++ { 0, 0, 0 } ++}; ++ ++const CGEN_ATTR_TABLE ubicom32_cgen_insn_attr_table[] = ++{ ++ { "MACH", & MACH_attr[0], & MACH_attr[0] }, ++ { "ALIAS", &bool_attr[0], &bool_attr[0] }, ++ { "VIRTUAL", &bool_attr[0], &bool_attr[0] }, ++ { "UNCOND-CTI", &bool_attr[0], &bool_attr[0] }, ++ { "COND-CTI", &bool_attr[0], &bool_attr[0] }, ++ { "SKIP-CTI", &bool_attr[0], &bool_attr[0] }, ++ { "DELAY-SLOT", &bool_attr[0], &bool_attr[0] }, ++ { "RELAXABLE", &bool_attr[0], &bool_attr[0] }, ++ { "RELAXED", &bool_attr[0], &bool_attr[0] }, ++ { "NO-DIS", &bool_attr[0], &bool_attr[0] }, ++ { "PBB", &bool_attr[0], &bool_attr[0] }, ++ { 0, 0, 0 } ++}; ++ ++/* Instruction set variants. */ ++ ++static const CGEN_ISA ubicom32_cgen_isa_table[] = { ++ { "ubicom32", 32, 32, 32, 32 }, ++ { 0, 0, 0, 0, 0 } ++}; ++ ++/* Machine variants. */ ++ ++static const CGEN_MACH ubicom32_cgen_mach_table[] = { ++ { "ip3035", "ubicom32", MACH_IP3035, 0 }, ++ { "ubicom32dsp", "ubicom32dsp", MACH_UBICOM32DSP, 0 }, ++ { "ip3023compatibility", "ubicom32dsp", MACH_IP3023COMPATIBILITY, 0 }, ++ { "ubicom32_ver4", "ubicom32ver4", MACH_UBICOM32_VER4, 0 }, ++ { 0, 0, 0, 0 } ++}; ++ ++static CGEN_KEYWORD_ENTRY ubicom32_cgen_opval_data_names_entries[] = ++{ ++ { "d0", 0, {0, {{{0, 0}}}}, 0, 0 }, ++ { "d1", 1, {0, {{{0, 0}}}}, 0, 0 }, ++ { "d2", 2, {0, {{{0, 0}}}}, 0, 0 }, ++ { "d3", 3, {0, {{{0, 0}}}}, 0, 0 }, ++ { "d4", 4, {0, {{{0, 0}}}}, 0, 0 }, ++ { "d5", 5, {0, {{{0, 0}}}}, 0, 0 }, ++ { "d6", 6, {0, {{{0, 0}}}}, 0, 0 }, ++ { "d7", 7, {0, {{{0, 0}}}}, 0, 0 }, ++ { "d8", 8, {0, {{{0, 0}}}}, 0, 0 }, ++ { "d9", 9, {0, {{{0, 0}}}}, 0, 0 }, ++ { "d10", 10, {0, {{{0, 0}}}}, 0, 0 }, ++ { "d11", 11, {0, {{{0, 0}}}}, 0, 0 }, ++ { "d12", 12, {0, {{{0, 0}}}}, 0, 0 }, ++ { "d13", 13, {0, {{{0, 0}}}}, 0, 0 }, ++ { "d14", 14, {0, {{{0, 0}}}}, 0, 0 }, ++ { "d15", 15, {0, {{{0, 0}}}}, 0, 0 } ++}; ++ ++CGEN_KEYWORD ubicom32_cgen_opval_data_names = ++{ ++ & ubicom32_cgen_opval_data_names_entries[0], ++ 16, ++ 0, 0, 0, 0, "" ++}; ++ ++static CGEN_KEYWORD_ENTRY ubicom32_cgen_opval_addr_names_entries[] = ++{ ++ { "sp", 7, {0, {{{0, 0}}}}, 0, 0 }, ++ { "a0", 0, {0, {{{0, 0}}}}, 0, 0 }, ++ { "a1", 1, {0, {{{0, 0}}}}, 0, 0 }, ++ { "a2", 2, {0, {{{0, 0}}}}, 0, 0 }, ++ { "a3", 3, {0, {{{0, 0}}}}, 0, 0 }, ++ { "a4", 4, {0, {{{0, 0}}}}, 0, 0 }, ++ { "a5", 5, {0, {{{0, 0}}}}, 0, 0 }, ++ { "a6", 6, {0, {{{0, 0}}}}, 0, 0 }, ++ { "a7", 7, {0, {{{0, 0}}}}, 0, 0 } ++}; ++ ++CGEN_KEYWORD ubicom32_cgen_opval_addr_names = ++{ ++ & ubicom32_cgen_opval_addr_names_entries[0], ++ 9, ++ 0, 0, 0, 0, "" ++}; ++ ++static CGEN_KEYWORD_ENTRY ubicom32_cgen_opval_acc_names_entries[] = ++{ ++ { "acc0", 0, {0, {{{0, 0}}}}, 0, 0 }, ++ { "acc1", 1, {0, {{{0, 0}}}}, 0, 0 } ++}; ++ ++CGEN_KEYWORD ubicom32_cgen_opval_acc_names = ++{ ++ & ubicom32_cgen_opval_acc_names_entries[0], ++ 2, ++ 0, 0, 0, 0, "" ++}; ++ ++static CGEN_KEYWORD_ENTRY ubicom32_cgen_opval_spad_names_entries[] = ++{ ++ { "scratchpad0", 0, {0, {{{0, 0}}}}, 0, 0 }, ++ { "scratchpad1", 0, {0, {{{0, 0}}}}, 0, 0 }, ++ { "scratchpad2", 0, {0, {{{0, 0}}}}, 0, 0 }, ++ { "scratchpad3", 0, {0, {{{0, 0}}}}, 0, 0 } ++}; ++ ++CGEN_KEYWORD ubicom32_cgen_opval_spad_names = ++{ ++ & ubicom32_cgen_opval_spad_names_entries[0], ++ 4, ++ 0, 0, 0, 0, "" ++}; ++ ++static CGEN_KEYWORD_ENTRY ubicom32_cgen_opval_h_cc_entries[] = ++{ ++ { "f", 0, {0, {{{0, 0}}}}, 0, 0 }, ++ { "lo", 1, {0, {{{0, 0}}}}, 0, 0 }, ++ { "cc", 1, {0, {{{0, 0}}}}, 0, 0 }, ++ { "hs", 2, {0, {{{0, 0}}}}, 0, 0 }, ++ { "cs", 2, {0, {{{0, 0}}}}, 0, 0 }, ++ { "eq", 3, {0, {{{0, 0}}}}, 0, 0 }, ++ { "ge", 4, {0, {{{0, 0}}}}, 0, 0 }, ++ { "gt", 5, {0, {{{0, 0}}}}, 0, 0 }, ++ { "hi", 6, {0, {{{0, 0}}}}, 0, 0 }, ++ { "le", 7, {0, {{{0, 0}}}}, 0, 0 }, ++ { "ls", 8, {0, {{{0, 0}}}}, 0, 0 }, ++ { "lt", 9, {0, {{{0, 0}}}}, 0, 0 }, ++ { "mi", 10, {0, {{{0, 0}}}}, 0, 0 }, ++ { "ne", 11, {0, {{{0, 0}}}}, 0, 0 }, ++ { "pl", 12, {0, {{{0, 0}}}}, 0, 0 }, ++ { "t", 13, {0, {{{0, 0}}}}, 0, 0 }, ++ { "vc", 14, {0, {{{0, 0}}}}, 0, 0 }, ++ { "vs", 15, {0, {{{0, 0}}}}, 0, 0 } ++}; ++ ++CGEN_KEYWORD ubicom32_cgen_opval_h_cc = ++{ ++ & ubicom32_cgen_opval_h_cc_entries[0], ++ 18, ++ 0, 0, 0, 0, "" ++}; ++ ++static CGEN_KEYWORD_ENTRY ubicom32_cgen_opval_h_C_entries[] = ++{ ++ { "", 1, {0, {{{0, 0}}}}, 0, 0 }, ++ { ".s", 0, {0, {{{0, 0}}}}, 0, 0 }, ++ { ".w", 1, {0, {{{0, 0}}}}, 0, 0 } ++}; ++ ++CGEN_KEYWORD ubicom32_cgen_opval_h_C = ++{ ++ & ubicom32_cgen_opval_h_C_entries[0], ++ 3, ++ 0, 0, 0, 0, "" ++}; ++ ++static CGEN_KEYWORD_ENTRY ubicom32_cgen_opval_h_P_entries[] = ++{ ++ { ".t", 1, {0, {{{0, 0}}}}, 0, 0 }, ++ { ".f", 0, {0, {{{0, 0}}}}, 0, 0 }, ++ { "", 1, {0, {{{0, 0}}}}, 0, 0 } ++}; ++ ++CGEN_KEYWORD ubicom32_cgen_opval_h_P = ++{ ++ & ubicom32_cgen_opval_h_P_entries[0], ++ 3, ++ 0, 0, 0, 0, "" ++}; ++ ++static CGEN_KEYWORD_ENTRY ubicom32_cgen_opval_h_DSP_C_entries[] = ++{ ++ { ".c", 1, {0, {{{0, 0}}}}, 0, 0 }, ++ { "", 0, {0, {{{0, 0}}}}, 0, 0 } ++}; ++ ++CGEN_KEYWORD ubicom32_cgen_opval_h_DSP_C = ++{ ++ & ubicom32_cgen_opval_h_DSP_C_entries[0], ++ 2, ++ 0, 0, 0, 0, "" ++}; ++ ++static CGEN_KEYWORD_ENTRY ubicom32_cgen_opval_h_DSP_Dest_A_entries[] = ++{ ++ { "acc0", 0, {0, {{{0, 0}}}}, 0, 0 }, ++ { "acc1", 1, {0, {{{0, 0}}}}, 0, 0 } ++}; ++ ++CGEN_KEYWORD ubicom32_cgen_opval_h_DSP_Dest_A = ++{ ++ & ubicom32_cgen_opval_h_DSP_Dest_A_entries[0], ++ 2, ++ 0, 0, 0, 0, "" ++}; ++ ++static CGEN_KEYWORD_ENTRY ubicom32_cgen_opval_h_DSP_T_entries[] = ++{ ++ { "", 0, {0, {{{0, 0}}}}, 0, 0 }, ++ { ".t", 1, {0, {{{0, 0}}}}, 0, 0 } ++}; ++ ++CGEN_KEYWORD ubicom32_cgen_opval_h_DSP_T = ++{ ++ & ubicom32_cgen_opval_h_DSP_T_entries[0], ++ 2, ++ 0, 0, 0, 0, "" ++}; ++ ++static CGEN_KEYWORD_ENTRY ubicom32_cgen_opval_h_DSP_T_addsub_entries[] = ++{ ++ { "", 0, {0, {{{0, 0}}}}, 0, 0 }, ++ { ".t", 1, {0, {{{0, 0}}}}, 0, 0 } ++}; ++ ++CGEN_KEYWORD ubicom32_cgen_opval_h_DSP_T_addsub = ++{ ++ & ubicom32_cgen_opval_h_DSP_T_addsub_entries[0], ++ 2, ++ 0, 0, 0, 0, "" ++}; ++ ++ ++/* The hardware table. */ ++ ++#if defined (__STDC__) || defined (ALMOST_STDC) || defined (HAVE_STRINGIZE) ++#define A(a) (1 << CGEN_HW_##a) ++#else ++#define A(a) (1 << CGEN_HW_/**/a) ++#endif ++ ++const CGEN_HW_ENTRY ubicom32_cgen_hw_table[] = ++{ ++ { "h-memory", HW_H_MEMORY, CGEN_ASM_NONE, 0, { 0, { { { (1<name) ++ { ++ if (strcmp (name, table->bfd_name) == 0) ++ return table; ++ ++table; ++ } ++ abort (); ++} ++ ++/* Subroutine of ubicom32_cgen_cpu_open to build the hardware table. */ ++ ++static void ++build_hw_table (CGEN_CPU_TABLE *cd) ++{ ++ int i; ++ int machs = cd->machs; ++ const CGEN_HW_ENTRY *init = & ubicom32_cgen_hw_table[0]; ++ /* MAX_HW is only an upper bound on the number of selected entries. ++ However each entry is indexed by it's enum so there can be holes in ++ the table. */ ++ const CGEN_HW_ENTRY **selected = ++ (const CGEN_HW_ENTRY **) xmalloc (MAX_HW * sizeof (CGEN_HW_ENTRY *)); ++ ++ cd->hw_table.init_entries = init; ++ cd->hw_table.entry_size = sizeof (CGEN_HW_ENTRY); ++ memset (selected, 0, MAX_HW * sizeof (CGEN_HW_ENTRY *)); ++ /* ??? For now we just use machs to determine which ones we want. */ ++ for (i = 0; init[i].name != NULL; ++i) ++ if (CGEN_HW_ATTR_VALUE (&init[i], CGEN_HW_MACH) ++ & machs) ++ selected[init[i].type] = &init[i]; ++ cd->hw_table.entries = selected; ++ cd->hw_table.num_entries = MAX_HW; ++} ++ ++/* Subroutine of ubicom32_cgen_cpu_open to build the hardware table. */ ++ ++static void ++build_ifield_table (CGEN_CPU_TABLE *cd) ++{ ++ cd->ifld_table = & ubicom32_cgen_ifld_table[0]; ++} ++ ++/* Subroutine of ubicom32_cgen_cpu_open to build the hardware table. */ ++ ++static void ++build_operand_table (CGEN_CPU_TABLE *cd) ++{ ++ int i; ++ int machs = cd->machs; ++ const CGEN_OPERAND *init = & ubicom32_cgen_operand_table[0]; ++ /* MAX_OPERANDS is only an upper bound on the number of selected entries. ++ However each entry is indexed by it's enum so there can be holes in ++ the table. */ ++ const CGEN_OPERAND **selected = xmalloc (MAX_OPERANDS * sizeof (* selected)); ++ ++ cd->operand_table.init_entries = init; ++ cd->operand_table.entry_size = sizeof (CGEN_OPERAND); ++ memset (selected, 0, MAX_OPERANDS * sizeof (CGEN_OPERAND *)); ++ /* ??? For now we just use mach to determine which ones we want. */ ++ for (i = 0; init[i].name != NULL; ++i) ++ if (CGEN_OPERAND_ATTR_VALUE (&init[i], CGEN_OPERAND_MACH) ++ & machs) ++ selected[init[i].type] = &init[i]; ++ cd->operand_table.entries = selected; ++ cd->operand_table.num_entries = MAX_OPERANDS; ++} ++ ++/* Subroutine of ubicom32_cgen_cpu_open to build the hardware table. ++ ??? This could leave out insns not supported by the specified mach/isa, ++ but that would cause errors like "foo only supported by bar" to become ++ "unknown insn", so for now we include all insns and require the app to ++ do the checking later. ++ ??? On the other hand, parsing of such insns may require their hardware or ++ operand elements to be in the table [which they mightn't be]. */ ++ ++static void ++build_insn_table (CGEN_CPU_TABLE *cd) ++{ ++ int i; ++ const CGEN_IBASE *ib = & ubicom32_cgen_insn_table[0]; ++ CGEN_INSN *insns = xmalloc (MAX_INSNS * sizeof (CGEN_INSN)); ++ ++ memset (insns, 0, MAX_INSNS * sizeof (CGEN_INSN)); ++ for (i = 0; i < MAX_INSNS; ++i) ++ insns[i].base = &ib[i]; ++ cd->insn_table.init_entries = insns; ++ cd->insn_table.entry_size = sizeof (CGEN_IBASE); ++ cd->insn_table.num_init_entries = MAX_INSNS; ++} ++ ++/* Subroutine of ubicom32_cgen_cpu_open to rebuild the tables. */ ++ ++static void ++ubicom32_cgen_rebuild_tables (CGEN_CPU_TABLE *cd) ++{ ++ int i; ++ CGEN_BITSET *isas = cd->isas; ++ unsigned int machs = cd->machs; ++ ++ cd->int_insn_p = CGEN_INT_INSN_P; ++ ++ /* Data derived from the isa spec. */ ++#define UNSET (CGEN_SIZE_UNKNOWN + 1) ++ cd->default_insn_bitsize = UNSET; ++ cd->base_insn_bitsize = UNSET; ++ cd->min_insn_bitsize = 65535; /* Some ridiculously big number. */ ++ cd->max_insn_bitsize = 0; ++ for (i = 0; i < MAX_ISAS; ++i) ++ if (cgen_bitset_contains (isas, i)) ++ { ++ const CGEN_ISA *isa = & ubicom32_cgen_isa_table[i]; ++ ++ /* Default insn sizes of all selected isas must be ++ equal or we set the result to 0, meaning "unknown". */ ++ if (cd->default_insn_bitsize == UNSET) ++ cd->default_insn_bitsize = isa->default_insn_bitsize; ++ else if (isa->default_insn_bitsize == cd->default_insn_bitsize) ++ ; /* This is ok. */ ++ else ++ cd->default_insn_bitsize = CGEN_SIZE_UNKNOWN; ++ ++ /* Base insn sizes of all selected isas must be equal ++ or we set the result to 0, meaning "unknown". */ ++ if (cd->base_insn_bitsize == UNSET) ++ cd->base_insn_bitsize = isa->base_insn_bitsize; ++ else if (isa->base_insn_bitsize == cd->base_insn_bitsize) ++ ; /* This is ok. */ ++ else ++ cd->base_insn_bitsize = CGEN_SIZE_UNKNOWN; ++ ++ /* Set min,max insn sizes. */ ++ if (isa->min_insn_bitsize < cd->min_insn_bitsize) ++ cd->min_insn_bitsize = isa->min_insn_bitsize; ++ if (isa->max_insn_bitsize > cd->max_insn_bitsize) ++ cd->max_insn_bitsize = isa->max_insn_bitsize; ++ } ++ ++ /* Data derived from the mach spec. */ ++ for (i = 0; i < MAX_MACHS; ++i) ++ if (((1 << i) & machs) != 0) ++ { ++ const CGEN_MACH *mach = & ubicom32_cgen_mach_table[i]; ++ ++ if (mach->insn_chunk_bitsize != 0) ++ { ++ if (cd->insn_chunk_bitsize != 0 && cd->insn_chunk_bitsize != mach->insn_chunk_bitsize) ++ { ++ fprintf (stderr, "ubicom32_cgen_rebuild_tables: conflicting insn-chunk-bitsize values: `%d' vs. `%d'\n", ++ cd->insn_chunk_bitsize, mach->insn_chunk_bitsize); ++ abort (); ++ } ++ ++ cd->insn_chunk_bitsize = mach->insn_chunk_bitsize; ++ } ++ } ++ ++ /* Determine which hw elements are used by MACH. */ ++ build_hw_table (cd); ++ ++ /* Build the ifield table. */ ++ build_ifield_table (cd); ++ ++ /* Determine which operands are used by MACH/ISA. */ ++ build_operand_table (cd); ++ ++ /* Build the instruction table. */ ++ build_insn_table (cd); ++} ++ ++/* Initialize a cpu table and return a descriptor. ++ It's much like opening a file, and must be the first function called. ++ The arguments are a set of (type/value) pairs, terminated with ++ CGEN_CPU_OPEN_END. ++ ++ Currently supported values: ++ CGEN_CPU_OPEN_ISAS: bitmap of values in enum isa_attr ++ CGEN_CPU_OPEN_MACHS: bitmap of values in enum mach_attr ++ CGEN_CPU_OPEN_BFDMACH: specify 1 mach using bfd name ++ CGEN_CPU_OPEN_ENDIAN: specify endian choice ++ CGEN_CPU_OPEN_END: terminates arguments ++ ++ ??? Simultaneous multiple isas might not make sense, but it's not (yet) ++ precluded. ++ ++ ??? We only support ISO C stdargs here, not K&R. ++ Laziness, plus experiment to see if anything requires K&R - eventually ++ K&R will no longer be supported - e.g. GDB is currently trying this. */ ++ ++CGEN_CPU_DESC ++ubicom32_cgen_cpu_open (enum cgen_cpu_open_arg arg_type, ...) ++{ ++ CGEN_CPU_TABLE *cd = (CGEN_CPU_TABLE *) xmalloc (sizeof (CGEN_CPU_TABLE)); ++ static int init_p; ++ CGEN_BITSET *isas = 0; /* 0 = "unspecified" */ ++ unsigned int machs = 0; /* 0 = "unspecified" */ ++ enum cgen_endian endian = CGEN_ENDIAN_UNKNOWN; ++ va_list ap; ++ ++ if (! init_p) ++ { ++ init_tables (); ++ init_p = 1; ++ } ++ ++ memset (cd, 0, sizeof (*cd)); ++ ++ va_start (ap, arg_type); ++ while (arg_type != CGEN_CPU_OPEN_END) ++ { ++ switch (arg_type) ++ { ++ case CGEN_CPU_OPEN_ISAS : ++ isas = va_arg (ap, CGEN_BITSET *); ++ break; ++ case CGEN_CPU_OPEN_MACHS : ++ machs = va_arg (ap, unsigned int); ++ break; ++ case CGEN_CPU_OPEN_BFDMACH : ++ { ++ const char *name = va_arg (ap, const char *); ++ const CGEN_MACH *mach = ++ lookup_mach_via_bfd_name (ubicom32_cgen_mach_table, name); ++ ++ machs |= 1 << mach->num; ++ break; ++ } ++ case CGEN_CPU_OPEN_ENDIAN : ++ endian = va_arg (ap, enum cgen_endian); ++ break; ++ default : ++ fprintf (stderr, "ubicom32_cgen_cpu_open: unsupported argument `%d'\n", ++ arg_type); ++ abort (); /* ??? return NULL? */ ++ } ++ arg_type = va_arg (ap, enum cgen_cpu_open_arg); ++ } ++ va_end (ap); ++ ++ /* Mach unspecified means "all". */ ++ if (machs == 0) ++ machs = (1 << MAX_MACHS) - 1; ++ /* Base mach is always selected. */ ++ machs |= 1; ++ if (endian == CGEN_ENDIAN_UNKNOWN) ++ { ++ /* ??? If target has only one, could have a default. */ ++ fprintf (stderr, "ubicom32_cgen_cpu_open: no endianness specified\n"); ++ abort (); ++ } ++ ++ cd->isas = cgen_bitset_copy (isas); ++ cd->machs = machs; ++ cd->endian = endian; ++ /* FIXME: for the sparc case we can determine insn-endianness statically. ++ The worry here is where both data and insn endian can be independently ++ chosen, in which case this function will need another argument. ++ Actually, will want to allow for more arguments in the future anyway. */ ++ cd->insn_endian = endian; ++ ++ /* Table (re)builder. */ ++ cd->rebuild_tables = ubicom32_cgen_rebuild_tables; ++ ubicom32_cgen_rebuild_tables (cd); ++ ++ /* Default to not allowing signed overflow. */ ++ cd->signed_overflow_ok_p = 0; ++ ++ return (CGEN_CPU_DESC) cd; ++} ++ ++/* Cover fn to ubicom32_cgen_cpu_open to handle the simple case of 1 isa, 1 mach. ++ MACH_NAME is the bfd name of the mach. */ ++ ++CGEN_CPU_DESC ++ubicom32_cgen_cpu_open_1 (const char *mach_name, enum cgen_endian endian) ++{ ++ return ubicom32_cgen_cpu_open (CGEN_CPU_OPEN_BFDMACH, mach_name, ++ CGEN_CPU_OPEN_ENDIAN, endian, ++ CGEN_CPU_OPEN_END); ++} ++ ++/* Close a cpu table. ++ ??? This can live in a machine independent file, but there's currently ++ no place to put this file (there's no libcgen). libopcodes is the wrong ++ place as some simulator ports use this but they don't use libopcodes. */ ++ ++void ++ubicom32_cgen_cpu_close (CGEN_CPU_DESC cd) ++{ ++ unsigned int i; ++ const CGEN_INSN *insns; ++ ++ if (cd->macro_insn_table.init_entries) ++ { ++ insns = cd->macro_insn_table.init_entries; ++ for (i = 0; i < cd->macro_insn_table.num_init_entries; ++i, ++insns) ++ if (CGEN_INSN_RX ((insns))) ++ regfree (CGEN_INSN_RX (insns)); ++ } ++ ++ if (cd->insn_table.init_entries) ++ { ++ insns = cd->insn_table.init_entries; ++ for (i = 0; i < cd->insn_table.num_init_entries; ++i, ++insns) ++ if (CGEN_INSN_RX (insns)) ++ regfree (CGEN_INSN_RX (insns)); ++ } ++ ++ if (cd->macro_insn_table.init_entries) ++ free ((CGEN_INSN *) cd->macro_insn_table.init_entries); ++ ++ if (cd->insn_table.init_entries) ++ free ((CGEN_INSN *) cd->insn_table.init_entries); ++ ++ if (cd->hw_table.entries) ++ free ((CGEN_HW_ENTRY *) cd->hw_table.entries); ++ ++ if (cd->operand_table.entries) ++ free ((CGEN_HW_ENTRY *) cd->operand_table.entries); ++ ++ free (cd); ++} ++ +--- /dev/null ++++ b/opcodes/ubicom32-desc.h +@@ -0,0 +1,369 @@ ++/* CPU data header for ubicom32. ++ ++THIS FILE IS MACHINE GENERATED WITH CGEN. ++ ++Copyright 1996-2007 Free Software Foundation, Inc. ++ ++This file is part of the GNU Binutils and/or GDB, the GNU debugger. ++ ++ This file is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 3, or (at your option) ++ any later version. ++ ++ It is distributed in the hope that it will be useful, but WITHOUT ++ ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ++ or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public ++ License for more details. ++ ++ You should have received a copy of the GNU General Public License along ++ with this program; if not, write to the Free Software Foundation, Inc., ++ 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. ++ ++*/ ++ ++#ifndef UBICOM32_CPU_H ++#define UBICOM32_CPU_H ++ ++#include "opcode/cgen-bitset.h" ++ ++#define CGEN_ARCH ubicom32 ++ ++/* Given symbol S, return ubicom32_cgen_. */ ++#if defined (__STDC__) || defined (ALMOST_STDC) || defined (HAVE_STRINGIZE) ++#define CGEN_SYM(s) ubicom32##_cgen_##s ++#else ++#define CGEN_SYM(s) ubicom32/**/_cgen_/**/s ++#endif ++ ++ ++/* Selected cpu families. */ ++#define HAVE_CPU_UBICOM32BF ++ ++#define CGEN_INSN_LSB0_P 1 ++ ++/* Minimum size of any insn (in bytes). */ ++#define CGEN_MIN_INSN_SIZE 4 ++ ++/* Maximum size of any insn (in bytes). */ ++#define CGEN_MAX_INSN_SIZE 4 ++ ++#define CGEN_INT_INSN_P 1 ++ ++/* Maximum number of syntax elements in an instruction. */ ++#define CGEN_ACTUAL_MAX_SYNTAX_ELEMENTS 27 ++ ++/* CGEN_MNEMONIC_OPERANDS is defined if mnemonics have operands. ++ e.g. In "b,a foo" the ",a" is an operand. If mnemonics have operands ++ we can't hash on everything up to the space. */ ++#define CGEN_MNEMONIC_OPERANDS ++ ++/* Maximum number of fields in an instruction. */ ++#define CGEN_ACTUAL_MAX_IFMT_OPERANDS 15 ++ ++/* Enums. */ ++ ++/* Enum declaration for insn format enums. */ ++typedef enum insn_op1 { ++ OP_X0, OP_UNUSED_01, OP_X2, OP_UNUSED_03 ++ , OP_BSET, OP_BCLR, OP_DSP, OP_UNUSED_07 ++ , OP_AND_2, OP_AND_4, OP_OR_2, OP_OR_4 ++ , OP_XOR_2, OP_XOR_4, OP_ADD_2, OP_ADD_4 ++ , OP_ADDC, OP_SUB_2, OP_SUB_4, OP_SUBC ++ , OP_PXBLEND, OP_PXVI, OP_PXADDS, OP_UNUSED_17 ++ , OP_CMPI, OP_MOVEI, OP_JMP, OP_CALL ++ , OP_MOVEAI, OP_UNUSED_1D, OP_CALLI, OP_UNUSED_1F ++} INSN_OP1; ++ ++/* Enum declaration for insn x0 opcode ext enums. */ ++typedef enum insn_op2 { ++ OPX0_UNUSED_00, OPX0_SUSPEND, OPX0_UNUSED_02, OPX0_UNUSED_03 ++ , OPX0_RET, OPX0_IERASE, OPX0_IREAD, OPX0_BKPT ++ , OPX0_UNUSED_08, OPX0_UNUSED_09, OPX0_NOT_4, OPX0_NOT_2 ++ , OPX0_MOVE_4, OPX0_MOVE_2, OPX0_MOVEA, OPX0_MOVE_1 ++ , OPX0_IWRITE, OPX0_UNUSED_11, OPX0_SETCSR, OPX0_UNUSED_13 ++ , OPX0_UNUSED_14, OPX0_EXT_2, OPX0_UNUSED_16, OPX0_EXT_1 ++ , OPX0_SWAPB_2, OPX0_SWAPB_4, OPX0_PXCNV, OPX0_PXCNV_T ++ , OPX0_LEA_4, OPX0_LEA_2, OPX0_PDEC, OPX0_LEA_1 ++} INSN_OP2; ++ ++/* Enum declaration for insn x2 opcode ext enums. */ ++typedef enum insn_opext { ++ OPX2_PXHI, OPX2_MULS, OPX2_PXHI_S, OPX2_MULU ++ , OPX2_UNUSED_04, OPX2_MULF, OPX2_BTST, OPX2_UNUSED_07 ++ , OPX2_CRCGEN, OPX2_MAC, OPX2_LSL_1, OPX2_LSR_1 ++ , OPX2_ASR_1, OPX2_UNUSED_0D, OPX2_UNUSED_0E, OPX2_UNUSED_0F ++ , OPX2_LSL_4, OPX2_LSL_2, OPX2_LSR_4, OPX2_LSR_2 ++ , OPX2_ASR_4, OPX2_ASR_2, OPX2_BFEXTU, OPX2_UNUSED_17 ++ , OPX2_BFRVRS, OPX2_UNUSED_19, OPX2_SHFTD, OPX2_UNUSED_1B ++ , OPX2_MERGE, OPX2_UNUSED_1D, OPX2_SHMRG_2, OPX2_SHMRG_1 ++} INSN_OPEXT; ++ ++/* Enum declaration for insn dsp opcode ext enums. */ ++typedef enum insn_dsp_subop { ++ OPDSP_MULS, OPDSP_MACS, OPDSP_MULU, OPDSP_MACU ++ , OPDSP_MULF, OPDSP_MACF, OPDSP_UNUSED_06, OPDSP_MACUS ++ , OPDSP_MULS_4, OPDSP_MSUF, OPDSP_MULU_4, OPDSP_UNUSED_0B ++ , OPDSP_UNUSED_0C, OPDSP_UNUSED_0D, OPDSP_UNUSED_0E, OPDSP_UNUSED_0F ++ , OPDSP_MADD_4, OPDSP_MADD_2, OPDSP_MSUB_4, OPDSP_MSUB_2 ++ , OPDSP_UNUSED_14, OPDSP_UNUSED_15, OPDSP_UNUSED_16, OPDSP_UNUSED_17 ++ , OPDSP_UNUSED_18, OPDSP_UNUSED_19, OPDSP_UNUSED_1A, OPDSP_UNUSED_1B ++ , OPDSP_UNUSED_1C, OPDSP_UNUSED_1D, OPDSP_UNUSED_1E, OPDSP_UNUSED_1F ++} INSN_DSP_SUBOP; ++ ++/* Enum declaration for . */ ++typedef enum data_names { ++ H_DR_D0, H_DR_D1, H_DR_D2, H_DR_D3 ++ , H_DR_D4, H_DR_D5, H_DR_D6, H_DR_D7 ++ , H_DR_D8, H_DR_D9, H_DR_D10, H_DR_D11 ++ , H_DR_D12, H_DR_D13, H_DR_D14, H_DR_D15 ++} DATA_NAMES; ++ ++/* Enum declaration for . */ ++typedef enum addr_names { ++ H_AR_SP = 7, H_AR_A0 = 0, H_AR_A1 = 1, H_AR_A2 = 2 ++ , H_AR_A3 = 3, H_AR_A4 = 4, H_AR_A5 = 5, H_AR_A6 = 6 ++ , H_AR_A7 = 7 ++} ADDR_NAMES; ++ ++/* Enum declaration for . */ ++typedef enum acc_names { ++ ACC_LOS_ACC0, ACC_LOS_ACC1 ++} ACC_NAMES; ++ ++/* Enum declaration for . */ ++typedef enum spad_names { ++ H_SP_SCRATCHPAD0 = 0, H_SP_SCRATCHPAD1 = 0, H_SP_SCRATCHPAD2 = 0, H_SP_SCRATCHPAD3 = 0 ++} SPAD_NAMES; ++ ++/* Attributes. */ ++ ++/* Enum declaration for machine type selection. */ ++typedef enum mach_attr { ++ MACH_BASE, MACH_IP3035, MACH_UBICOM32DSP, MACH_IP3023COMPATIBILITY ++ , MACH_UBICOM32_VER4, MACH_MAX ++} MACH_ATTR; ++ ++/* Enum declaration for instruction set selection. */ ++typedef enum isa_attr { ++ ISA_UBICOM32, ISA_MAX ++} ISA_ATTR; ++ ++/* Number of architecture variants. */ ++#define MAX_ISAS 1 ++#define MAX_MACHS ((int) MACH_MAX) ++ ++/* Ifield support. */ ++ ++/* Ifield attribute indices. */ ++ ++/* Enum declaration for cgen_ifld attrs. */ ++typedef enum cgen_ifld_attr { ++ CGEN_IFLD_VIRTUAL, CGEN_IFLD_PCREL_ADDR, CGEN_IFLD_ABS_ADDR, CGEN_IFLD_RESERVED ++ , CGEN_IFLD_SIGN_OPT, CGEN_IFLD_SIGNED, CGEN_IFLD_END_BOOLS, CGEN_IFLD_START_NBOOLS = 31 ++ , CGEN_IFLD_MACH, CGEN_IFLD_END_NBOOLS ++} CGEN_IFLD_ATTR; ++ ++/* Number of non-boolean elements in cgen_ifld_attr. */ ++#define CGEN_IFLD_NBOOL_ATTRS (CGEN_IFLD_END_NBOOLS - CGEN_IFLD_START_NBOOLS - 1) ++ ++/* cgen_ifld attribute accessor macros. */ ++#define CGEN_ATTR_CGEN_IFLD_MACH_VALUE(attrs) ((attrs)->nonbool[CGEN_IFLD_MACH-CGEN_IFLD_START_NBOOLS-1].nonbitset) ++#define CGEN_ATTR_CGEN_IFLD_VIRTUAL_VALUE(attrs) (((attrs)->bool & (1 << CGEN_IFLD_VIRTUAL)) != 0) ++#define CGEN_ATTR_CGEN_IFLD_PCREL_ADDR_VALUE(attrs) (((attrs)->bool & (1 << CGEN_IFLD_PCREL_ADDR)) != 0) ++#define CGEN_ATTR_CGEN_IFLD_ABS_ADDR_VALUE(attrs) (((attrs)->bool & (1 << CGEN_IFLD_ABS_ADDR)) != 0) ++#define CGEN_ATTR_CGEN_IFLD_RESERVED_VALUE(attrs) (((attrs)->bool & (1 << CGEN_IFLD_RESERVED)) != 0) ++#define CGEN_ATTR_CGEN_IFLD_SIGN_OPT_VALUE(attrs) (((attrs)->bool & (1 << CGEN_IFLD_SIGN_OPT)) != 0) ++#define CGEN_ATTR_CGEN_IFLD_SIGNED_VALUE(attrs) (((attrs)->bool & (1 << CGEN_IFLD_SIGNED)) != 0) ++ ++/* Enum declaration for ubicom32 ifield types. */ ++typedef enum ifield_type { ++ UBICOM32_F_NIL, UBICOM32_F_ANYOF, UBICOM32_F_D, UBICOM32_F_D_BIT10 ++ , UBICOM32_F_D_TYPE, UBICOM32_F_D_R, UBICOM32_F_D_M, UBICOM32_F_D_I4_1 ++ , UBICOM32_F_D_I4_2, UBICOM32_F_D_I4_4, UBICOM32_F_D_AN, UBICOM32_F_D_DIRECT ++ , UBICOM32_F_D_IMM8, UBICOM32_F_D_IMM7_T, UBICOM32_F_D_IMM7_B, UBICOM32_F_D_IMM7_1 ++ , UBICOM32_F_D_IMM7_2, UBICOM32_F_D_IMM7_4, UBICOM32_F_S1, UBICOM32_F_S1_BIT10 ++ , UBICOM32_F_S1_TYPE, UBICOM32_F_S1_R, UBICOM32_F_S1_M, UBICOM32_F_S1_I4_1 ++ , UBICOM32_F_S1_I4_2, UBICOM32_F_S1_I4_4, UBICOM32_F_S1_AN, UBICOM32_F_S1_DIRECT ++ , UBICOM32_F_S1_IMM8, UBICOM32_F_S1_IMM7_T, UBICOM32_F_S1_IMM7_B, UBICOM32_F_S1_IMM7_1 ++ , UBICOM32_F_S1_IMM7_2, UBICOM32_F_S1_IMM7_4, UBICOM32_F_OP1, UBICOM32_F_OP2 ++ , UBICOM32_F_BIT26, UBICOM32_F_OPEXT, UBICOM32_F_COND, UBICOM32_F_IMM16_1 ++ , UBICOM32_F_IMM16_2, UBICOM32_F_O21, UBICOM32_F_O23_21, UBICOM32_F_O20_0 ++ , UBICOM32_F_O24, UBICOM32_F_IMM23_21, UBICOM32_F_IMM24, UBICOM32_F_O15_13 ++ , UBICOM32_F_O12_8, UBICOM32_F_O7_5, UBICOM32_F_O4_0, UBICOM32_F_O16 ++ , UBICOM32_F_AN, UBICOM32_F_AM, UBICOM32_F_DN, UBICOM32_F_BIT5 ++ , UBICOM32_F_P, UBICOM32_F_C, UBICOM32_F_INT, UBICOM32_F_DSP_C ++ , UBICOM32_F_DSP_T, UBICOM32_F_DSP_S2_SEL, UBICOM32_F_DSP_R, UBICOM32_F_DSP_DESTA ++ , UBICOM32_F_DSP_B15, UBICOM32_F_DSP_S2, UBICOM32_F_DSP_J, UBICOM32_F_S2 ++ , UBICOM32_F_B15, UBICOM32_F_MAX ++} IFIELD_TYPE; ++ ++#define MAX_IFLD ((int) UBICOM32_F_MAX) ++ ++/* Hardware attribute indices. */ ++ ++/* Enum declaration for cgen_hw attrs. */ ++typedef enum cgen_hw_attr { ++ CGEN_HW_VIRTUAL, CGEN_HW_CACHE_ADDR, CGEN_HW_PC, CGEN_HW_PROFILE ++ , CGEN_HW_END_BOOLS, CGEN_HW_START_NBOOLS = 31, CGEN_HW_MACH, CGEN_HW_END_NBOOLS ++} CGEN_HW_ATTR; ++ ++/* Number of non-boolean elements in cgen_hw_attr. */ ++#define CGEN_HW_NBOOL_ATTRS (CGEN_HW_END_NBOOLS - CGEN_HW_START_NBOOLS - 1) ++ ++/* cgen_hw attribute accessor macros. */ ++#define CGEN_ATTR_CGEN_HW_MACH_VALUE(attrs) ((attrs)->nonbool[CGEN_HW_MACH-CGEN_HW_START_NBOOLS-1].nonbitset) ++#define CGEN_ATTR_CGEN_HW_VIRTUAL_VALUE(attrs) (((attrs)->bool & (1 << CGEN_HW_VIRTUAL)) != 0) ++#define CGEN_ATTR_CGEN_HW_CACHE_ADDR_VALUE(attrs) (((attrs)->bool & (1 << CGEN_HW_CACHE_ADDR)) != 0) ++#define CGEN_ATTR_CGEN_HW_PC_VALUE(attrs) (((attrs)->bool & (1 << CGEN_HW_PC)) != 0) ++#define CGEN_ATTR_CGEN_HW_PROFILE_VALUE(attrs) (((attrs)->bool & (1 << CGEN_HW_PROFILE)) != 0) ++ ++/* Enum declaration for ubicom32 hardware types. */ ++typedef enum cgen_hw_type { ++ HW_H_MEMORY, HW_H_SINT, HW_H_UINT, HW_H_ADDR ++ , HW_H_IADDR, HW_H_GLOBAL_CONTROL, HW_H_MT_BREAK, HW_H_MT_ACTIVE ++ , HW_H_MT_ENABLE, HW_H_MT_PRIORITY, HW_H_MT_SCHEDULE, HW_H_IRQ_STATUS_0 ++ , HW_H_IRQ_STATUS_1, HW_H_DR, HW_H_S1_DR, HW_H_AR ++ , HW_H_AR_INC, HW_H_AR_INC_FLAG, HW_H_MAC_HI, HW_H_MAC_LO ++ , HW_H_SRC_3, HW_H_CSR, HW_H_IREAD, HW_H_ACC1_HI ++ , HW_H_ACC1_LO, HW_H_PC, HW_H_NBIT_16, HW_H_ZBIT_16 ++ , HW_H_VBIT_16, HW_H_CBIT_16, HW_H_NBIT_32, HW_H_ZBIT_32 ++ , HW_H_VBIT_32, HW_H_CBIT_32, HW_H_CC, HW_H_C ++ , HW_H_P, HW_H_DSP_C, HW_H_DSP_DEST_A, HW_H_DSP_T ++ , HW_H_DSP_T_ADDSUB, HW_H_DSP_S2_ACC_REG_MUL, HW_H_DSP_S2_ACC_REG_ADDSUB, HW_H_SP ++ , HW_MAX ++} CGEN_HW_TYPE; ++ ++#define MAX_HW ((int) HW_MAX) ++ ++/* Operand attribute indices. */ ++ ++/* Enum declaration for cgen_operand attrs. */ ++typedef enum cgen_operand_attr { ++ CGEN_OPERAND_VIRTUAL, CGEN_OPERAND_PCREL_ADDR, CGEN_OPERAND_ABS_ADDR, CGEN_OPERAND_SIGN_OPT ++ , CGEN_OPERAND_SIGNED, CGEN_OPERAND_NEGATIVE, CGEN_OPERAND_RELAX, CGEN_OPERAND_SEM_ONLY ++ , CGEN_OPERAND_END_BOOLS, CGEN_OPERAND_START_NBOOLS = 31, CGEN_OPERAND_MACH, CGEN_OPERAND_END_NBOOLS ++} CGEN_OPERAND_ATTR; ++ ++/* Number of non-boolean elements in cgen_operand_attr. */ ++#define CGEN_OPERAND_NBOOL_ATTRS (CGEN_OPERAND_END_NBOOLS - CGEN_OPERAND_START_NBOOLS - 1) ++ ++/* cgen_operand attribute accessor macros. */ ++#define CGEN_ATTR_CGEN_OPERAND_MACH_VALUE(attrs) ((attrs)->nonbool[CGEN_OPERAND_MACH-CGEN_OPERAND_START_NBOOLS-1].nonbitset) ++#define CGEN_ATTR_CGEN_OPERAND_VIRTUAL_VALUE(attrs) (((attrs)->bool & (1 << CGEN_OPERAND_VIRTUAL)) != 0) ++#define CGEN_ATTR_CGEN_OPERAND_PCREL_ADDR_VALUE(attrs) (((attrs)->bool & (1 << CGEN_OPERAND_PCREL_ADDR)) != 0) ++#define CGEN_ATTR_CGEN_OPERAND_ABS_ADDR_VALUE(attrs) (((attrs)->bool & (1 << CGEN_OPERAND_ABS_ADDR)) != 0) ++#define CGEN_ATTR_CGEN_OPERAND_SIGN_OPT_VALUE(attrs) (((attrs)->bool & (1 << CGEN_OPERAND_SIGN_OPT)) != 0) ++#define CGEN_ATTR_CGEN_OPERAND_SIGNED_VALUE(attrs) (((attrs)->bool & (1 << CGEN_OPERAND_SIGNED)) != 0) ++#define CGEN_ATTR_CGEN_OPERAND_NEGATIVE_VALUE(attrs) (((attrs)->bool & (1 << CGEN_OPERAND_NEGATIVE)) != 0) ++#define CGEN_ATTR_CGEN_OPERAND_RELAX_VALUE(attrs) (((attrs)->bool & (1 << CGEN_OPERAND_RELAX)) != 0) ++#define CGEN_ATTR_CGEN_OPERAND_SEM_ONLY_VALUE(attrs) (((attrs)->bool & (1 << CGEN_OPERAND_SEM_ONLY)) != 0) ++ ++/* Enum declaration for ubicom32 operand types. */ ++typedef enum cgen_operand_type { ++ UBICOM32_OPERAND_PC, UBICOM32_OPERAND_S2, UBICOM32_OPERAND_SRC3, UBICOM32_OPERAND_OFFSET24 ++ , UBICOM32_OPERAND_AN, UBICOM32_OPERAND_CC, UBICOM32_OPERAND_C, UBICOM32_OPERAND_P ++ , UBICOM32_OPERAND_AM, UBICOM32_OPERAND_DN, UBICOM32_OPERAND_INTERRUPT, UBICOM32_OPERAND_IMM16_1 ++ , UBICOM32_OPERAND_X_OP2, UBICOM32_OPERAND_X_BIT26, UBICOM32_OPERAND_X_S1, UBICOM32_OPERAND_X_D ++ , UBICOM32_OPERAND_X_DN, UBICOM32_OPERAND_MACHI, UBICOM32_OPERAND_MACLO, UBICOM32_OPERAND_ACC1HI ++ , UBICOM32_OPERAND_ACC1LO, UBICOM32_OPERAND_IRQ_0, UBICOM32_OPERAND_IRQ_1, UBICOM32_OPERAND_IREAD ++ , UBICOM32_OPERAND_OPC1, UBICOM32_OPERAND_OPC2, UBICOM32_OPERAND_AN_INC, UBICOM32_OPERAND_DSP_C ++ , UBICOM32_OPERAND_DSP_T, UBICOM32_OPERAND_DSP_DESTA, UBICOM32_OPERAND_DSP_S2_SEL, UBICOM32_OPERAND_DSP_S2_DATA_REG ++ , UBICOM32_OPERAND_DSP_S2_ACC_REG_MUL, UBICOM32_OPERAND_DSP_S2_ACC_REG_ADDSUB, UBICOM32_OPERAND_DSP_S2_DATA_REG_ADDSUB, UBICOM32_OPERAND_DSP_T_ADDSUB ++ , UBICOM32_OPERAND_BIT5, UBICOM32_OPERAND_BIT5_ADDSUB, UBICOM32_OPERAND_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_OPERAND_DSP_SRC2_REG_ACC_REG_ADDSUB ++ , UBICOM32_OPERAND_DSP_SRC2_DATA_REG, UBICOM32_OPERAND_DSP_SRC2_DATA_REG_ADDSUB, UBICOM32_OPERAND_DSP_SRC2_DATA_REG_ADDSUB2, UBICOM32_OPERAND_DSP_IMM_BIT5 ++ , UBICOM32_OPERAND_DSP_IMM_BIT5_ADDSUB, UBICOM32_OPERAND_DSP_IMM_BIT5_ADDSUB2, UBICOM32_OPERAND_IMM_BIT5, UBICOM32_OPERAND_DYN_REG ++ , UBICOM32_OPERAND_OP3, UBICOM32_OPERAND_DSP_SRC2_MUL, UBICOM32_OPERAND_DSP_COMPATIBILITY_SRC2_MUL, UBICOM32_OPERAND_DSP_SRC2_ADDSUB ++ , UBICOM32_OPERAND_DSP_SRC2_ADDSUB2, UBICOM32_OPERAND_OFFSET21, UBICOM32_OPERAND_OFFSET16, UBICOM32_OPERAND_IMM24 ++ , UBICOM32_OPERAND_NBIT_16, UBICOM32_OPERAND_VBIT_16, UBICOM32_OPERAND_ZBIT_16, UBICOM32_OPERAND_CBIT_16 ++ , UBICOM32_OPERAND_NBIT_32, UBICOM32_OPERAND_VBIT_32, UBICOM32_OPERAND_ZBIT_32, UBICOM32_OPERAND_CBIT_32 ++ , UBICOM32_OPERAND_S1_IMM7_1, UBICOM32_OPERAND_S1_IMM7_2, UBICOM32_OPERAND_S1_IMM7_4, UBICOM32_OPERAND_PDEC_S1_IMM7_4 ++ , UBICOM32_OPERAND_S1_IMM8, UBICOM32_OPERAND_S1_AN, UBICOM32_OPERAND_S1_R, UBICOM32_OPERAND_S1_AN_INC ++ , UBICOM32_OPERAND_S1_I4_1, UBICOM32_OPERAND_S1_I4_2, UBICOM32_OPERAND_S1_I4_4, UBICOM32_OPERAND_S1_INDIRECT_1 ++ , UBICOM32_OPERAND_S1_INDIRECT_2, UBICOM32_OPERAND_S1_INDIRECT_4, UBICOM32_OPERAND_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_OPERAND_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_OPERAND_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_OPERAND_S1_INDIRECT_WITH_INDEX_1, UBICOM32_OPERAND_S1_INDIRECT_WITH_INDEX_2, UBICOM32_OPERAND_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_OPERAND_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_OPERAND_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_OPERAND_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_OPERAND_S1_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_OPERAND_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_OPERAND_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_OPERAND_S1_DIRECT_ADDR, UBICOM32_OPERAND_S1_DIRECT ++ , UBICOM32_OPERAND_S1_IMMEDIATE, UBICOM32_OPERAND_S1_1, UBICOM32_OPERAND_S1_2, UBICOM32_OPERAND_S1_4 ++ , UBICOM32_OPERAND_S1_EA_INDIRECT, UBICOM32_OPERAND_S1_EA_INDIRECT_WITH_OFFSET_1, UBICOM32_OPERAND_S1_EA_INDIRECT_WITH_OFFSET_2, UBICOM32_OPERAND_S1_EA_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_OPERAND_S1_EA_INDIRECT_WITH_INDEX_1, UBICOM32_OPERAND_S1_EA_INDIRECT_WITH_INDEX_2, UBICOM32_OPERAND_S1_EA_INDIRECT_WITH_INDEX_4, UBICOM32_OPERAND_S1_EA_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_OPERAND_S1_EA_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_OPERAND_S1_EA_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_OPERAND_S1_EA_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_OPERAND_S1_EA_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_OPERAND_S1_EA_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_OPERAND_S1_EA_IMMEDIATE, UBICOM32_OPERAND_S1_EA_DIRECT, UBICOM32_OPERAND_S1_EA_1 ++ , UBICOM32_OPERAND_S1_EA_2, UBICOM32_OPERAND_S1_EA_4, UBICOM32_OPERAND_S1_PEA, UBICOM32_OPERAND_PDEC_S1_EA_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_OPERAND_PDEC_PEA_S1, UBICOM32_OPERAND_D_IMM7_1, UBICOM32_OPERAND_D_IMM7_2, UBICOM32_OPERAND_D_IMM7_4 ++ , UBICOM32_OPERAND_D_IMM8, UBICOM32_OPERAND_D_AN, UBICOM32_OPERAND_D_R, UBICOM32_OPERAND_D_AN_INC ++ , UBICOM32_OPERAND_D_I4_1, UBICOM32_OPERAND_D_I4_2, UBICOM32_OPERAND_D_I4_4, UBICOM32_OPERAND_D_INDIRECT_1 ++ , UBICOM32_OPERAND_D_INDIRECT_2, UBICOM32_OPERAND_D_INDIRECT_4, UBICOM32_OPERAND_D_INDIRECT_WITH_OFFSET_1, UBICOM32_OPERAND_D_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_OPERAND_D_INDIRECT_WITH_OFFSET_4, UBICOM32_OPERAND_D_INDIRECT_WITH_INDEX_1, UBICOM32_OPERAND_D_INDIRECT_WITH_INDEX_2, UBICOM32_OPERAND_D_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_OPERAND_D_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_OPERAND_D_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_OPERAND_D_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_OPERAND_D_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_OPERAND_D_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_OPERAND_D_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_OPERAND_D_DIRECT_ADDR, UBICOM32_OPERAND_D_DIRECT ++ , UBICOM32_OPERAND_D_IMMEDIATE_1, UBICOM32_OPERAND_D_IMMEDIATE_2, UBICOM32_OPERAND_D_IMMEDIATE_4, UBICOM32_OPERAND_D_1 ++ , UBICOM32_OPERAND_D_2, UBICOM32_OPERAND_D_4, UBICOM32_OPERAND_D_PEA_INDIRECT, UBICOM32_OPERAND_D_PEA_INDIRECT_WITH_OFFSET ++ , UBICOM32_OPERAND_D_PEA_INDIRECT_WITH_POST_INCREMENT, UBICOM32_OPERAND_D_PEA_INDIRECT_WITH_PRE_INCREMENT, UBICOM32_OPERAND_D_PEA_INDIRECT_WITH_INDEX, UBICOM32_OPERAND_D_PEA ++ , UBICOM32_OPERAND_IMM16_2, UBICOM32_OPERAND_MAX ++} CGEN_OPERAND_TYPE; ++ ++/* Number of operands types. */ ++#define MAX_OPERANDS 157 ++ ++/* Maximum number of operands referenced by any insn. */ ++#define MAX_OPERAND_INSTANCES 8 ++ ++/* Insn attribute indices. */ ++ ++/* Enum declaration for cgen_insn attrs. */ ++typedef enum cgen_insn_attr { ++ CGEN_INSN_ALIAS, CGEN_INSN_VIRTUAL, CGEN_INSN_UNCOND_CTI, CGEN_INSN_COND_CTI ++ , CGEN_INSN_SKIP_CTI, CGEN_INSN_DELAY_SLOT, CGEN_INSN_RELAXABLE, CGEN_INSN_RELAXED ++ , CGEN_INSN_NO_DIS, CGEN_INSN_PBB, CGEN_INSN_END_BOOLS, CGEN_INSN_START_NBOOLS = 31 ++ , CGEN_INSN_MACH, CGEN_INSN_END_NBOOLS ++} CGEN_INSN_ATTR; ++ ++/* Number of non-boolean elements in cgen_insn_attr. */ ++#define CGEN_INSN_NBOOL_ATTRS (CGEN_INSN_END_NBOOLS - CGEN_INSN_START_NBOOLS - 1) ++ ++/* cgen_insn attribute accessor macros. */ ++#define CGEN_ATTR_CGEN_INSN_MACH_VALUE(attrs) ((attrs)->nonbool[CGEN_INSN_MACH-CGEN_INSN_START_NBOOLS-1].nonbitset) ++#define CGEN_ATTR_CGEN_INSN_ALIAS_VALUE(attrs) (((attrs)->bool & (1 << CGEN_INSN_ALIAS)) != 0) ++#define CGEN_ATTR_CGEN_INSN_VIRTUAL_VALUE(attrs) (((attrs)->bool & (1 << CGEN_INSN_VIRTUAL)) != 0) ++#define CGEN_ATTR_CGEN_INSN_UNCOND_CTI_VALUE(attrs) (((attrs)->bool & (1 << CGEN_INSN_UNCOND_CTI)) != 0) ++#define CGEN_ATTR_CGEN_INSN_COND_CTI_VALUE(attrs) (((attrs)->bool & (1 << CGEN_INSN_COND_CTI)) != 0) ++#define CGEN_ATTR_CGEN_INSN_SKIP_CTI_VALUE(attrs) (((attrs)->bool & (1 << CGEN_INSN_SKIP_CTI)) != 0) ++#define CGEN_ATTR_CGEN_INSN_DELAY_SLOT_VALUE(attrs) (((attrs)->bool & (1 << CGEN_INSN_DELAY_SLOT)) != 0) ++#define CGEN_ATTR_CGEN_INSN_RELAXABLE_VALUE(attrs) (((attrs)->bool & (1 << CGEN_INSN_RELAXABLE)) != 0) ++#define CGEN_ATTR_CGEN_INSN_RELAXED_VALUE(attrs) (((attrs)->bool & (1 << CGEN_INSN_RELAXED)) != 0) ++#define CGEN_ATTR_CGEN_INSN_NO_DIS_VALUE(attrs) (((attrs)->bool & (1 << CGEN_INSN_NO_DIS)) != 0) ++#define CGEN_ATTR_CGEN_INSN_PBB_VALUE(attrs) (((attrs)->bool & (1 << CGEN_INSN_PBB)) != 0) ++ ++/* cgen.h uses things we just defined. */ ++#include "opcode/cgen.h" ++ ++extern const struct cgen_ifld ubicom32_cgen_ifld_table[]; ++ ++/* Attributes. */ ++extern const CGEN_ATTR_TABLE ubicom32_cgen_hardware_attr_table[]; ++extern const CGEN_ATTR_TABLE ubicom32_cgen_ifield_attr_table[]; ++extern const CGEN_ATTR_TABLE ubicom32_cgen_operand_attr_table[]; ++extern const CGEN_ATTR_TABLE ubicom32_cgen_insn_attr_table[]; ++ ++/* Hardware decls. */ ++ ++extern CGEN_KEYWORD ubicom32_cgen_opval_data_names; ++extern CGEN_KEYWORD ubicom32_cgen_opval_data_names; ++extern CGEN_KEYWORD ubicom32_cgen_opval_addr_names; ++extern CGEN_KEYWORD ubicom32_cgen_opval_h_cc; ++extern CGEN_KEYWORD ubicom32_cgen_opval_h_C; ++extern CGEN_KEYWORD ubicom32_cgen_opval_h_P; ++extern CGEN_KEYWORD ubicom32_cgen_opval_h_DSP_C; ++extern CGEN_KEYWORD ubicom32_cgen_opval_h_DSP_Dest_A; ++extern CGEN_KEYWORD ubicom32_cgen_opval_h_DSP_T; ++extern CGEN_KEYWORD ubicom32_cgen_opval_h_DSP_T_addsub; ++extern CGEN_KEYWORD ubicom32_cgen_opval_acc_names; ++extern CGEN_KEYWORD ubicom32_cgen_opval_acc_names; ++extern CGEN_KEYWORD ubicom32_cgen_opval_spad_names; ++ ++extern const CGEN_HW_ENTRY ubicom32_cgen_hw_table[]; ++ ++ ++ ++#endif /* UBICOM32_CPU_H */ +--- /dev/null ++++ b/opcodes/ubicom32-dis.c +@@ -0,0 +1,809 @@ ++/* Disassembler interface for targets using CGEN. -*- C -*- ++ CGEN: Cpu tools GENerator ++ ++ THIS FILE IS MACHINE GENERATED WITH CGEN. ++ - the resultant file is machine generated, cgen-dis.in isn't ++ ++ Copyright 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2005, 2007 ++ Free Software Foundation, Inc. ++ ++ This file is part of libopcodes. ++ ++ This library is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 3, or (at your option) ++ any later version. ++ ++ It is distributed in the hope that it will be useful, but WITHOUT ++ ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ++ or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public ++ License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software Foundation, Inc., ++ 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */ ++ ++/* ??? Eventually more and more of this stuff can go to cpu-independent files. ++ Keep that in mind. */ ++ ++#include "sysdep.h" ++#include ++#include "ansidecl.h" ++#include "dis-asm.h" ++#include "bfd.h" ++#include "symcat.h" ++#include "libiberty.h" ++#include "ubicom32-desc.h" ++#include "ubicom32-opc.h" ++#include "opintl.h" ++ ++/* Default text to print if an instruction isn't recognized. */ ++#define UNKNOWN_INSN_MSG _("*unknown*") ++ ++static void print_normal ++ (CGEN_CPU_DESC, void *, long, unsigned int, bfd_vma, int); ++static void print_address ++ (CGEN_CPU_DESC, void *, bfd_vma, unsigned int, bfd_vma, int) ATTRIBUTE_UNUSED; ++static void print_keyword ++ (CGEN_CPU_DESC, void *, CGEN_KEYWORD *, long, unsigned int) ATTRIBUTE_UNUSED; ++static void print_insn_normal ++ (CGEN_CPU_DESC, void *, const CGEN_INSN *, CGEN_FIELDS *, bfd_vma, int); ++static int print_insn ++ (CGEN_CPU_DESC, bfd_vma, disassemble_info *, bfd_byte *, unsigned); ++static int default_print_insn ++ (CGEN_CPU_DESC, bfd_vma, disassemble_info *) ATTRIBUTE_UNUSED; ++static int read_insn ++ (CGEN_CPU_DESC, bfd_vma, disassemble_info *, bfd_byte *, int, CGEN_EXTRACT_INFO *, ++ unsigned long *); ++ ++/* -- disassembler routines inserted here. */ ++ ++/* -- dis.c */ ++ ++/* Output a signed 4 bit integer */ ++static void ++print_imm4 (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ PTR dis_info, ++ long value, ++ unsigned int attrs ATTRIBUTE_UNUSED, ++ bfd_vma pc ATTRIBUTE_UNUSED, ++ int length ATTRIBUTE_UNUSED) ++{ ++ disassemble_info *info = (disassemble_info *) dis_info; ++ (*info->fprintf_func) (info->stream, "%d", (int)value); ++} ++ ++/* Output an unsigned 7-bit integer */ ++static void ++print_imm7 (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ PTR dis_info, ++ long value, ++ unsigned int attrs ATTRIBUTE_UNUSED, ++ bfd_vma pc ATTRIBUTE_UNUSED, ++ int length ATTRIBUTE_UNUSED) ++{ ++ disassemble_info *info = (disassemble_info *) dis_info; ++ if (value != 0) ++ (*info->fprintf_func) (info->stream, "%ld", value); ++} ++ ++/* Output an unsigned 7-bit integer */ ++static void ++print_pdec_imm7 (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ PTR dis_info, ++ long value, ++ unsigned int attrs ATTRIBUTE_UNUSED, ++ bfd_vma pc ATTRIBUTE_UNUSED, ++ int length ATTRIBUTE_UNUSED) ++{ ++ disassemble_info *info = (disassemble_info *) dis_info; ++ if (value != 0) ++ { ++ value = ~value; ++ value ++; ++ value &= 0x1fc; ++ (*info->fprintf_func) (info->stream, "%ld", value); ++ } ++ else ++ { ++ (*info->fprintf_func) (info->stream, "%d", 512); ++ } ++} ++ ++/* Output either a register or a 11bit literal immediate value */ ++static void ++print_direct_addr (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ PTR dis_info, ++ long value, ++ unsigned int attrs ATTRIBUTE_UNUSED, ++ bfd_vma pc ATTRIBUTE_UNUSED, ++ int length ATTRIBUTE_UNUSED) ++{ ++ disassemble_info *info = (disassemble_info *) dis_info; ++ struct ubicom32_cgen_data_space_map *cur; ++ ++ if(cd->machs & (1< 0x3ff) ++ /* XXX: some warning? */ ; ++ value &= 0x3ff; ++ for (; cur->name; cur++) ++ if (value == cur->address) ++ { ++ (*info->fprintf_func) (info->stream, "%s", cur->name); ++ return; ++ } ++ (*info->fprintf_func) (info->stream, "#%lx", value); ++} ++ ++static void ++print_imm24 (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ PTR dis_info, ++ long value, ++ unsigned int attrs ATTRIBUTE_UNUSED, ++ bfd_vma pc ATTRIBUTE_UNUSED, ++ int length ATTRIBUTE_UNUSED) ++{ ++ disassemble_info *info = (disassemble_info *) dis_info; ++ (*info->fprintf_func) (info->stream, "%%hi(0x%08lx)", value << 7); ++} ++ ++/* -- */ ++ ++void ubicom32_cgen_print_operand ++ (CGEN_CPU_DESC, int, PTR, CGEN_FIELDS *, void const *, bfd_vma, int); ++ ++/* Main entry point for printing operands. ++ XINFO is a `void *' and not a `disassemble_info *' to not put a requirement ++ of dis-asm.h on cgen.h. ++ ++ This function is basically just a big switch statement. Earlier versions ++ used tables to look up the function to use, but ++ - if the table contains both assembler and disassembler functions then ++ the disassembler contains much of the assembler and vice-versa, ++ - there's a lot of inlining possibilities as things grow, ++ - using a switch statement avoids the function call overhead. ++ ++ This function could be moved into `print_insn_normal', but keeping it ++ separate makes clear the interface between `print_insn_normal' and each of ++ the handlers. */ ++ ++void ++ubicom32_cgen_print_operand (CGEN_CPU_DESC cd, ++ int opindex, ++ void * xinfo, ++ CGEN_FIELDS *fields, ++ void const *attrs ATTRIBUTE_UNUSED, ++ bfd_vma pc, ++ int length) ++{ ++ disassemble_info *info = (disassemble_info *) xinfo; ++ ++ switch (opindex) ++ { ++ case UBICOM32_OPERAND_AM : ++ print_keyword (cd, info, & ubicom32_cgen_opval_addr_names, fields->f_Am, 0); ++ break; ++ case UBICOM32_OPERAND_AN : ++ print_keyword (cd, info, & ubicom32_cgen_opval_addr_names, fields->f_An, 0); ++ break; ++ case UBICOM32_OPERAND_C : ++ print_keyword (cd, info, & ubicom32_cgen_opval_h_C, fields->f_C, 0); ++ break; ++ case UBICOM32_OPERAND_DN : ++ print_keyword (cd, info, & ubicom32_cgen_opval_data_names, fields->f_Dn, 0); ++ break; ++ case UBICOM32_OPERAND_P : ++ print_keyword (cd, info, & ubicom32_cgen_opval_h_P, fields->f_P, 0); ++ break; ++ case UBICOM32_OPERAND_ACC1HI : ++ print_normal (cd, info, 0, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_ACC1LO : ++ print_normal (cd, info, 0, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_BIT5 : ++ print_normal (cd, info, fields->f_bit5, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_BIT5_ADDSUB : ++ print_normal (cd, info, fields->f_bit5, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_CC : ++ print_keyword (cd, info, & ubicom32_cgen_opval_h_cc, fields->f_cond, 0); ++ break; ++ case UBICOM32_OPERAND_D_AN : ++ print_keyword (cd, info, & ubicom32_cgen_opval_addr_names, fields->f_d_An, 0); ++ break; ++ case UBICOM32_OPERAND_D_DIRECT_ADDR : ++ print_direct_addr (cd, info, fields->f_d_direct, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_D_I4_1 : ++ print_imm4 (cd, info, fields->f_d_i4_1, 0|(1<f_d_i4_2, 0|(1<f_d_i4_4, 0|(1<f_d_imm7_1, 0|(1<f_d_imm7_2, 0|(1<f_d_imm7_4, 0|(1<f_d_imm8, 0|(1<f_d_r, 0); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_ADDSUB : ++ print_keyword (cd, info, & ubicom32_cgen_opval_acc_names, fields->f_dsp_S2, 0); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_MUL : ++ print_keyword (cd, info, & ubicom32_cgen_opval_acc_names, fields->f_dsp_S2, 0); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG : ++ print_keyword (cd, info, & ubicom32_cgen_opval_data_names, fields->f_dsp_S2, 0); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG_ADDSUB : ++ print_keyword (cd, info, & ubicom32_cgen_opval_data_names, fields->f_dsp_S2, 0); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_SEL : ++ print_normal (cd, info, fields->f_dsp_S2_sel, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_DSP_C : ++ print_keyword (cd, info, & ubicom32_cgen_opval_h_DSP_C, fields->f_dsp_C, 0); ++ break; ++ case UBICOM32_OPERAND_DSP_DESTA : ++ print_keyword (cd, info, & ubicom32_cgen_opval_h_DSP_Dest_A, fields->f_dsp_destA, 0); ++ break; ++ case UBICOM32_OPERAND_DSP_T : ++ print_keyword (cd, info, & ubicom32_cgen_opval_h_DSP_T, fields->f_dsp_T, 0); ++ break; ++ case UBICOM32_OPERAND_DSP_T_ADDSUB : ++ print_keyword (cd, info, & ubicom32_cgen_opval_h_DSP_T_addsub, fields->f_dsp_T, 0); ++ break; ++ case UBICOM32_OPERAND_IMM16_1 : ++ print_normal (cd, info, fields->f_imm16_1, 0|(1<f_imm16_2, 0|(1<f_imm24, 0|(1<f_int, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_IREAD : ++ print_normal (cd, info, 0, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_IRQ_0 : ++ print_normal (cd, info, 0, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_IRQ_1 : ++ print_normal (cd, info, 0, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_MACHI : ++ print_normal (cd, info, 0, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_MACLO : ++ print_normal (cd, info, 0, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_OFFSET16 : ++ print_normal (cd, info, fields->f_o16, 0|(1<f_o21, 0|(1<f_o24, 0|(1<f_op1, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_OPC2 : ++ print_normal (cd, info, fields->f_op2, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_PDEC_S1_IMM7_4 : ++ print_pdec_imm7 (cd, info, fields->f_s1_imm7_4, 0|(1<f_s1_An, 0); ++ break; ++ case UBICOM32_OPERAND_S1_DIRECT_ADDR : ++ print_direct_addr (cd, info, fields->f_s1_direct, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_S1_I4_1 : ++ print_imm4 (cd, info, fields->f_s1_i4_1, 0|(1<f_s1_i4_2, 0|(1<f_s1_i4_4, 0|(1<f_s1_imm7_1, 0|(1<f_s1_imm7_2, 0|(1<f_s1_imm7_4, 0|(1<f_s1_imm8, 0|(1<f_s1_r, 0); ++ break; ++ case UBICOM32_OPERAND_S2 : ++ print_keyword (cd, info, & ubicom32_cgen_opval_data_names, fields->f_s2, 0); ++ break; ++ case UBICOM32_OPERAND_SRC3 : ++ print_normal (cd, info, 0, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_X_BIT26 : ++ print_normal (cd, info, fields->f_bit26, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_X_D : ++ print_normal (cd, info, fields->f_d, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_X_DN : ++ print_normal (cd, info, fields->f_Dn, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_X_OP2 : ++ print_normal (cd, info, fields->f_op2, 0, pc, length); ++ break; ++ case UBICOM32_OPERAND_X_S1 : ++ print_normal (cd, info, fields->f_s1, 0, pc, length); ++ break; ++ ++ default : ++ /* xgettext:c-format */ ++ fprintf (stderr, _("Unrecognized field %d while printing insn.\n"), ++ opindex); ++ abort (); ++ } ++} ++ ++cgen_print_fn * const ubicom32_cgen_print_handlers[] = ++{ ++ print_insn_normal, ++}; ++ ++ ++void ++ubicom32_cgen_init_dis (CGEN_CPU_DESC cd) ++{ ++ ubicom32_cgen_init_opcode_table (cd); ++ ubicom32_cgen_init_ibld_table (cd); ++ cd->print_handlers = & ubicom32_cgen_print_handlers[0]; ++ cd->print_operand = ubicom32_cgen_print_operand; ++} ++ ++ ++/* Default print handler. */ ++ ++static void ++print_normal (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ void *dis_info, ++ long value, ++ unsigned int attrs, ++ bfd_vma pc ATTRIBUTE_UNUSED, ++ int length ATTRIBUTE_UNUSED) ++{ ++ disassemble_info *info = (disassemble_info *) dis_info; ++ ++#ifdef CGEN_PRINT_NORMAL ++ CGEN_PRINT_NORMAL (cd, info, value, attrs, pc, length); ++#endif ++ ++ /* Print the operand as directed by the attributes. */ ++ if (CGEN_BOOL_ATTR (attrs, CGEN_OPERAND_SEM_ONLY)) ++ ; /* nothing to do */ ++ else if (CGEN_BOOL_ATTR (attrs, CGEN_OPERAND_SIGNED)) ++ (*info->fprintf_func) (info->stream, "%ld", value); ++ else ++ (*info->fprintf_func) (info->stream, "0x%lx", value); ++} ++ ++/* Default address handler. */ ++ ++static void ++print_address (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ void *dis_info, ++ bfd_vma value, ++ unsigned int attrs, ++ bfd_vma pc ATTRIBUTE_UNUSED, ++ int length ATTRIBUTE_UNUSED) ++{ ++ disassemble_info *info = (disassemble_info *) dis_info; ++ ++#ifdef CGEN_PRINT_ADDRESS ++ CGEN_PRINT_ADDRESS (cd, info, value, attrs, pc, length); ++#endif ++ ++ /* Print the operand as directed by the attributes. */ ++ if (CGEN_BOOL_ATTR (attrs, CGEN_OPERAND_SEM_ONLY)) ++ ; /* Nothing to do. */ ++ else if (CGEN_BOOL_ATTR (attrs, CGEN_OPERAND_PCREL_ADDR)) ++ (*info->print_address_func) (value, info); ++ else if (CGEN_BOOL_ATTR (attrs, CGEN_OPERAND_ABS_ADDR)) ++ (*info->print_address_func) (value, info); ++ else if (CGEN_BOOL_ATTR (attrs, CGEN_OPERAND_SIGNED)) ++ (*info->fprintf_func) (info->stream, "%ld", (long) value); ++ else ++ (*info->fprintf_func) (info->stream, "0x%lx", (long) value); ++} ++ ++/* Keyword print handler. */ ++ ++static void ++print_keyword (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ void *dis_info, ++ CGEN_KEYWORD *keyword_table, ++ long value, ++ unsigned int attrs ATTRIBUTE_UNUSED) ++{ ++ disassemble_info *info = (disassemble_info *) dis_info; ++ const CGEN_KEYWORD_ENTRY *ke; ++ ++ ke = cgen_keyword_lookup_value (keyword_table, value); ++ if (ke != NULL) ++ (*info->fprintf_func) (info->stream, "%s", ke->name); ++ else ++ (*info->fprintf_func) (info->stream, "???"); ++} ++ ++/* Default insn printer. ++ ++ DIS_INFO is defined as `void *' so the disassembler needn't know anything ++ about disassemble_info. */ ++ ++static void ++print_insn_normal (CGEN_CPU_DESC cd, ++ void *dis_info, ++ const CGEN_INSN *insn, ++ CGEN_FIELDS *fields, ++ bfd_vma pc, ++ int length) ++{ ++ const CGEN_SYNTAX *syntax = CGEN_INSN_SYNTAX (insn); ++ disassemble_info *info = (disassemble_info *) dis_info; ++ const CGEN_SYNTAX_CHAR_TYPE *syn; ++ ++ CGEN_INIT_PRINT (cd); ++ ++ for (syn = CGEN_SYNTAX_STRING (syntax); *syn; ++syn) ++ { ++ if (CGEN_SYNTAX_MNEMONIC_P (*syn)) ++ { ++ (*info->fprintf_func) (info->stream, "%s", CGEN_INSN_MNEMONIC (insn)); ++ continue; ++ } ++ if (CGEN_SYNTAX_CHAR_P (*syn)) ++ { ++ (*info->fprintf_func) (info->stream, "%c", CGEN_SYNTAX_CHAR (*syn)); ++ continue; ++ } ++ ++ /* We have an operand. */ ++ ubicom32_cgen_print_operand (cd, CGEN_SYNTAX_FIELD (*syn), info, ++ fields, CGEN_INSN_ATTRS (insn), pc, length); ++ } ++} ++ ++/* Subroutine of print_insn. Reads an insn into the given buffers and updates ++ the extract info. ++ Returns 0 if all is well, non-zero otherwise. */ ++ ++static int ++read_insn (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ bfd_vma pc, ++ disassemble_info *info, ++ bfd_byte *buf, ++ int buflen, ++ CGEN_EXTRACT_INFO *ex_info, ++ unsigned long *insn_value) ++{ ++ int status = (*info->read_memory_func) (pc, buf, buflen, info); ++ ++ if (status != 0) ++ { ++ (*info->memory_error_func) (status, pc, info); ++ return -1; ++ } ++ ++ ex_info->dis_info = info; ++ ex_info->valid = (1 << buflen) - 1; ++ ex_info->insn_bytes = buf; ++ ++ *insn_value = bfd_get_bits (buf, buflen * 8, info->endian == BFD_ENDIAN_BIG); ++ return 0; ++} ++ ++/* Utility to print an insn. ++ BUF is the base part of the insn, target byte order, BUFLEN bytes long. ++ The result is the size of the insn in bytes or zero for an unknown insn ++ or -1 if an error occurs fetching data (memory_error_func will have ++ been called). */ ++ ++static int ++print_insn (CGEN_CPU_DESC cd, ++ bfd_vma pc, ++ disassemble_info *info, ++ bfd_byte *buf, ++ unsigned int buflen) ++{ ++ CGEN_INSN_INT insn_value; ++ const CGEN_INSN_LIST *insn_list; ++ CGEN_EXTRACT_INFO ex_info; ++ int basesize; ++ ++ /* Extract base part of instruction, just in case CGEN_DIS_* uses it. */ ++ basesize = cd->base_insn_bitsize < buflen * 8 ? ++ cd->base_insn_bitsize : buflen * 8; ++ insn_value = cgen_get_insn_value (cd, buf, basesize); ++ ++ ++ /* Fill in ex_info fields like read_insn would. Don't actually call ++ read_insn, since the incoming buffer is already read (and possibly ++ modified a la m32r). */ ++ ex_info.valid = (1 << buflen) - 1; ++ ex_info.dis_info = info; ++ ex_info.insn_bytes = buf; ++ ++ /* The instructions are stored in hash lists. ++ Pick the first one and keep trying until we find the right one. */ ++ ++ insn_list = CGEN_DIS_LOOKUP_INSN (cd, (char *) buf, insn_value); ++ while (insn_list != NULL) ++ { ++ const CGEN_INSN *insn = insn_list->insn; ++ CGEN_FIELDS fields; ++ int length; ++ unsigned long insn_value_cropped; ++ ++#ifdef CGEN_VALIDATE_INSN_SUPPORTED ++ /* Not needed as insn shouldn't be in hash lists if not supported. */ ++ /* Supported by this cpu? */ ++ if (! ubicom32_cgen_insn_supported (cd, insn)) ++ { ++ insn_list = CGEN_DIS_NEXT_INSN (insn_list); ++ continue; ++ } ++#endif ++ ++ /* Basic bit mask must be correct. */ ++ /* ??? May wish to allow target to defer this check until the extract ++ handler. */ ++ ++ /* Base size may exceed this instruction's size. Extract the ++ relevant part from the buffer. */ ++ if ((unsigned) (CGEN_INSN_BITSIZE (insn) / 8) < buflen && ++ (unsigned) (CGEN_INSN_BITSIZE (insn) / 8) <= sizeof (unsigned long)) ++ insn_value_cropped = bfd_get_bits (buf, CGEN_INSN_BITSIZE (insn), ++ info->endian == BFD_ENDIAN_BIG); ++ else ++ insn_value_cropped = insn_value; ++ ++ if ((insn_value_cropped & CGEN_INSN_BASE_MASK (insn)) ++ == CGEN_INSN_BASE_VALUE (insn)) ++ { ++ /* Printing is handled in two passes. The first pass parses the ++ machine insn and extracts the fields. The second pass prints ++ them. */ ++ ++ /* Make sure the entire insn is loaded into insn_value, if it ++ can fit. */ ++ if (((unsigned) CGEN_INSN_BITSIZE (insn) > cd->base_insn_bitsize) && ++ (unsigned) (CGEN_INSN_BITSIZE (insn) / 8) <= sizeof (unsigned long)) ++ { ++ unsigned long full_insn_value; ++ int rc = read_insn (cd, pc, info, buf, ++ CGEN_INSN_BITSIZE (insn) / 8, ++ & ex_info, & full_insn_value); ++ if (rc != 0) ++ return rc; ++ length = CGEN_EXTRACT_FN (cd, insn) ++ (cd, insn, &ex_info, full_insn_value, &fields, pc); ++ } ++ else ++ length = CGEN_EXTRACT_FN (cd, insn) ++ (cd, insn, &ex_info, insn_value_cropped, &fields, pc); ++ ++ /* Length < 0 -> error. */ ++ if (length < 0) ++ return length; ++ if (length > 0) ++ { ++ CGEN_PRINT_FN (cd, insn) (cd, info, insn, &fields, pc, length); ++ /* Length is in bits, result is in bytes. */ ++ return length / 8; ++ } ++ } ++ ++ insn_list = CGEN_DIS_NEXT_INSN (insn_list); ++ } ++ ++ return 0; ++} ++ ++/* Default value for CGEN_PRINT_INSN. ++ The result is the size of the insn in bytes or zero for an unknown insn ++ or -1 if an error occured fetching bytes. */ ++ ++#ifndef CGEN_PRINT_INSN ++#define CGEN_PRINT_INSN default_print_insn ++#endif ++ ++static int ++default_print_insn (CGEN_CPU_DESC cd, bfd_vma pc, disassemble_info *info) ++{ ++ bfd_byte buf[CGEN_MAX_INSN_SIZE]; ++ int buflen; ++ int status; ++ ++ /* Attempt to read the base part of the insn. */ ++ buflen = cd->base_insn_bitsize / 8; ++ status = (*info->read_memory_func) (pc, buf, buflen, info); ++ ++ /* Try again with the minimum part, if min < base. */ ++ if (status != 0 && (cd->min_insn_bitsize < cd->base_insn_bitsize)) ++ { ++ buflen = cd->min_insn_bitsize / 8; ++ status = (*info->read_memory_func) (pc, buf, buflen, info); ++ } ++ ++ if (status != 0) ++ { ++ (*info->memory_error_func) (status, pc, info); ++ return -1; ++ } ++ ++ return print_insn (cd, pc, info, buf, buflen); ++} ++ ++/* Main entry point. ++ Print one instruction from PC on INFO->STREAM. ++ Return the size of the instruction (in bytes). */ ++ ++typedef struct cpu_desc_list ++{ ++ struct cpu_desc_list *next; ++ CGEN_BITSET *isa; ++ int mach; ++ int endian; ++ CGEN_CPU_DESC cd; ++} cpu_desc_list; ++ ++int ++print_insn_ubicom32 (bfd_vma pc, disassemble_info *info) ++{ ++ static cpu_desc_list *cd_list = 0; ++ cpu_desc_list *cl = 0; ++ static CGEN_CPU_DESC cd = 0; ++ static CGEN_BITSET *prev_isa; ++ static int prev_mach; ++ static int prev_endian; ++ int length; ++ CGEN_BITSET *isa; ++ int mach; ++ int endian = (info->endian == BFD_ENDIAN_BIG ++ ? CGEN_ENDIAN_BIG ++ : CGEN_ENDIAN_LITTLE); ++ enum bfd_architecture arch; ++ ++ /* ??? gdb will set mach but leave the architecture as "unknown" */ ++#ifndef CGEN_BFD_ARCH ++#define CGEN_BFD_ARCH bfd_arch_ubicom32 ++#endif ++ arch = info->arch; ++ if (arch == bfd_arch_unknown) ++ arch = CGEN_BFD_ARCH; ++ ++ /* There's no standard way to compute the machine or isa number ++ so we leave it to the target. */ ++#ifdef CGEN_COMPUTE_MACH ++ mach = CGEN_COMPUTE_MACH (info); ++#else ++ mach = info->mach; ++#endif ++ ++#ifdef CGEN_COMPUTE_ISA ++ { ++ static CGEN_BITSET *permanent_isa; ++ ++ if (!permanent_isa) ++ permanent_isa = cgen_bitset_create (MAX_ISAS); ++ isa = permanent_isa; ++ cgen_bitset_clear (isa); ++ cgen_bitset_add (isa, CGEN_COMPUTE_ISA (info)); ++ } ++#else ++ isa = info->insn_sets; ++#endif ++ ++ /* If we've switched cpu's, try to find a handle we've used before */ ++ if (cd ++ && (cgen_bitset_compare (isa, prev_isa) != 0 ++ || mach != prev_mach ++ || endian != prev_endian)) ++ { ++ cd = 0; ++ for (cl = cd_list; cl; cl = cl->next) ++ { ++ if (cgen_bitset_compare (cl->isa, isa) == 0 && ++ cl->mach == mach && ++ cl->endian == endian) ++ { ++ cd = cl->cd; ++ prev_isa = cd->isas; ++ break; ++ } ++ } ++ } ++ ++ /* If we haven't initialized yet, initialize the opcode table. */ ++ if (! cd) ++ { ++ const bfd_arch_info_type *arch_type = bfd_lookup_arch (arch, mach); ++ const char *mach_name; ++ ++ if (!arch_type) ++ abort (); ++ mach_name = arch_type->printable_name; ++ ++ prev_isa = cgen_bitset_copy (isa); ++ prev_mach = mach; ++ prev_endian = endian; ++ cd = ubicom32_cgen_cpu_open (CGEN_CPU_OPEN_ISAS, prev_isa, ++ CGEN_CPU_OPEN_BFDMACH, mach_name, ++ CGEN_CPU_OPEN_ENDIAN, prev_endian, ++ CGEN_CPU_OPEN_END); ++ if (!cd) ++ abort (); ++ ++ /* Save this away for future reference. */ ++ cl = xmalloc (sizeof (struct cpu_desc_list)); ++ cl->cd = cd; ++ cl->isa = prev_isa; ++ cl->mach = mach; ++ cl->endian = endian; ++ cl->next = cd_list; ++ cd_list = cl; ++ ++ ubicom32_cgen_init_dis (cd); ++ } ++ ++ /* We try to have as much common code as possible. ++ But at this point some targets need to take over. */ ++ /* ??? Some targets may need a hook elsewhere. Try to avoid this, ++ but if not possible try to move this hook elsewhere rather than ++ have two hooks. */ ++ length = CGEN_PRINT_INSN (cd, pc, info); ++ if (length > 0) ++ return length; ++ if (length < 0) ++ return -1; ++ ++ (*info->fprintf_func) (info->stream, UNKNOWN_INSN_MSG); ++ return cd->default_insn_bitsize / 8; ++} +--- /dev/null ++++ b/opcodes/ubicom32-ibld.c +@@ -0,0 +1,2072 @@ ++/* Instruction building/extraction support for ubicom32. -*- C -*- ++ ++ THIS FILE IS MACHINE GENERATED WITH CGEN: Cpu tools GENerator. ++ - the resultant file is machine generated, cgen-ibld.in isn't ++ ++ Copyright 1996, 1997, 1998, 1999, 2000, 2001, 2005, 2006, 2007 ++ Free Software Foundation, Inc. ++ ++ This file is part of libopcodes. ++ ++ This library is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 3, or (at your option) ++ any later version. ++ ++ It is distributed in the hope that it will be useful, but WITHOUT ++ ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ++ or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public ++ License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software Foundation, Inc., ++ 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */ ++ ++/* ??? Eventually more and more of this stuff can go to cpu-independent files. ++ Keep that in mind. */ ++ ++#include "sysdep.h" ++#include ++#include "ansidecl.h" ++#include "dis-asm.h" ++#include "bfd.h" ++#include "symcat.h" ++#include "ubicom32-desc.h" ++#include "ubicom32-opc.h" ++#include "opintl.h" ++#include "safe-ctype.h" ++ ++#undef min ++#define min(a,b) ((a) < (b) ? (a) : (b)) ++#undef max ++#define max(a,b) ((a) > (b) ? (a) : (b)) ++ ++/* Used by the ifield rtx function. */ ++#define FLD(f) (fields->f) ++ ++static const char * insert_normal ++ (CGEN_CPU_DESC, long, unsigned int, unsigned int, unsigned int, ++ unsigned int, unsigned int, unsigned int, CGEN_INSN_BYTES_PTR); ++static const char * insert_insn_normal ++ (CGEN_CPU_DESC, const CGEN_INSN *, ++ CGEN_FIELDS *, CGEN_INSN_BYTES_PTR, bfd_vma); ++static int extract_normal ++ (CGEN_CPU_DESC, CGEN_EXTRACT_INFO *, CGEN_INSN_INT, ++ unsigned int, unsigned int, unsigned int, unsigned int, ++ unsigned int, unsigned int, bfd_vma, long *); ++static int extract_insn_normal ++ (CGEN_CPU_DESC, const CGEN_INSN *, CGEN_EXTRACT_INFO *, ++ CGEN_INSN_INT, CGEN_FIELDS *, bfd_vma); ++#if CGEN_INT_INSN_P ++static void put_insn_int_value ++ (CGEN_CPU_DESC, CGEN_INSN_BYTES_PTR, int, int, CGEN_INSN_INT); ++#endif ++#if ! CGEN_INT_INSN_P ++static CGEN_INLINE void insert_1 ++ (CGEN_CPU_DESC, unsigned long, int, int, int, unsigned char *); ++static CGEN_INLINE int fill_cache ++ (CGEN_CPU_DESC, CGEN_EXTRACT_INFO *, int, int, bfd_vma); ++static CGEN_INLINE long extract_1 ++ (CGEN_CPU_DESC, CGEN_EXTRACT_INFO *, int, int, int, unsigned char *, bfd_vma); ++#endif ++ ++/* Operand insertion. */ ++ ++#if ! CGEN_INT_INSN_P ++ ++/* Subroutine of insert_normal. */ ++ ++static CGEN_INLINE void ++insert_1 (CGEN_CPU_DESC cd, ++ unsigned long value, ++ int start, ++ int length, ++ int word_length, ++ unsigned char *bufp) ++{ ++ unsigned long x,mask; ++ int shift; ++ ++ x = cgen_get_insn_value (cd, bufp, word_length); ++ ++ /* Written this way to avoid undefined behaviour. */ ++ mask = (((1L << (length - 1)) - 1) << 1) | 1; ++ if (CGEN_INSN_LSB0_P) ++ shift = (start + 1) - length; ++ else ++ shift = (word_length - (start + length)); ++ x = (x & ~(mask << shift)) | ((value & mask) << shift); ++ ++ cgen_put_insn_value (cd, bufp, word_length, (bfd_vma) x); ++} ++ ++#endif /* ! CGEN_INT_INSN_P */ ++ ++/* Default insertion routine. ++ ++ ATTRS is a mask of the boolean attributes. ++ WORD_OFFSET is the offset in bits from the start of the insn of the value. ++ WORD_LENGTH is the length of the word in bits in which the value resides. ++ START is the starting bit number in the word, architecture origin. ++ LENGTH is the length of VALUE in bits. ++ TOTAL_LENGTH is the total length of the insn in bits. ++ ++ The result is an error message or NULL if success. */ ++ ++/* ??? This duplicates functionality with bfd's howto table and ++ bfd_install_relocation. */ ++/* ??? This doesn't handle bfd_vma's. Create another function when ++ necessary. */ ++ ++static const char * ++insert_normal (CGEN_CPU_DESC cd, ++ long value, ++ unsigned int attrs, ++ unsigned int word_offset, ++ unsigned int start, ++ unsigned int length, ++ unsigned int word_length, ++ unsigned int total_length, ++ CGEN_INSN_BYTES_PTR buffer) ++{ ++ static char errbuf[100]; ++ /* Written this way to avoid undefined behaviour. */ ++ unsigned long mask = (((1L << (length - 1)) - 1) << 1) | 1; ++ ++ /* If LENGTH is zero, this operand doesn't contribute to the value. */ ++ if (length == 0) ++ return NULL; ++ ++ if (word_length > 32) ++ abort (); ++ ++ /* For architectures with insns smaller than the base-insn-bitsize, ++ word_length may be too big. */ ++ if (cd->min_insn_bitsize < cd->base_insn_bitsize) ++ { ++ if (word_offset == 0 ++ && word_length > total_length) ++ word_length = total_length; ++ } ++ ++ /* Ensure VALUE will fit. */ ++ if (CGEN_BOOL_ATTR (attrs, CGEN_IFLD_SIGN_OPT)) ++ { ++ long minval = - (1L << (length - 1)); ++ unsigned long maxval = mask; ++ ++ if ((value > 0 && (unsigned long) value > maxval) ++ || value < minval) ++ { ++ /* xgettext:c-format */ ++ sprintf (errbuf, ++ _("operand out of range (%ld not between %ld and %lu)"), ++ value, minval, maxval); ++ return errbuf; ++ } ++ } ++ else if (! CGEN_BOOL_ATTR (attrs, CGEN_IFLD_SIGNED)) ++ { ++ unsigned long maxval = mask; ++ unsigned long val = (unsigned long) value; ++ ++ /* For hosts with a word size > 32 check to see if value has been sign ++ extended beyond 32 bits. If so then ignore these higher sign bits ++ as the user is attempting to store a 32-bit signed value into an ++ unsigned 32-bit field which is allowed. */ ++ if (sizeof (unsigned long) > 4 && ((value >> 32) == -1)) ++ val &= 0xFFFFFFFF; ++ ++ if (val > maxval) ++ { ++ /* xgettext:c-format */ ++ sprintf (errbuf, ++ _("operand out of range (0x%lx not between 0 and 0x%lx)"), ++ val, maxval); ++ return errbuf; ++ } ++ } ++ else ++ { ++ if (! cgen_signed_overflow_ok_p (cd)) ++ { ++ long minval = - (1L << (length - 1)); ++ long maxval = (1L << (length - 1)) - 1; ++ ++ if (value < minval || value > maxval) ++ { ++ sprintf ++ /* xgettext:c-format */ ++ (errbuf, _("operand out of range (%ld not between %ld and %ld)"), ++ value, minval, maxval); ++ return errbuf; ++ } ++ } ++ } ++ ++#if CGEN_INT_INSN_P ++ ++ { ++ int shift; ++ ++ if (CGEN_INSN_LSB0_P) ++ shift = (word_offset + start + 1) - length; ++ else ++ shift = total_length - (word_offset + start + length); ++ *buffer = (*buffer & ~(mask << shift)) | ((value & mask) << shift); ++ } ++ ++#else /* ! CGEN_INT_INSN_P */ ++ ++ { ++ unsigned char *bufp = (unsigned char *) buffer + word_offset / 8; ++ ++ insert_1 (cd, value, start, length, word_length, bufp); ++ } ++ ++#endif /* ! CGEN_INT_INSN_P */ ++ ++ return NULL; ++} ++ ++/* Default insn builder (insert handler). ++ The instruction is recorded in CGEN_INT_INSN_P byte order (meaning ++ that if CGEN_INSN_BYTES_PTR is an int * and thus, the value is ++ recorded in host byte order, otherwise BUFFER is an array of bytes ++ and the value is recorded in target byte order). ++ The result is an error message or NULL if success. */ ++ ++static const char * ++insert_insn_normal (CGEN_CPU_DESC cd, ++ const CGEN_INSN * insn, ++ CGEN_FIELDS * fields, ++ CGEN_INSN_BYTES_PTR buffer, ++ bfd_vma pc) ++{ ++ const CGEN_SYNTAX *syntax = CGEN_INSN_SYNTAX (insn); ++ unsigned long value; ++ const CGEN_SYNTAX_CHAR_TYPE * syn; ++ ++ CGEN_INIT_INSERT (cd); ++ value = CGEN_INSN_BASE_VALUE (insn); ++ ++ /* If we're recording insns as numbers (rather than a string of bytes), ++ target byte order handling is deferred until later. */ ++ ++#if CGEN_INT_INSN_P ++ ++ put_insn_int_value (cd, buffer, cd->base_insn_bitsize, ++ CGEN_FIELDS_BITSIZE (fields), value); ++ ++#else ++ ++ cgen_put_insn_value (cd, buffer, min ((unsigned) cd->base_insn_bitsize, ++ (unsigned) CGEN_FIELDS_BITSIZE (fields)), ++ value); ++ ++#endif /* ! CGEN_INT_INSN_P */ ++ ++ /* ??? It would be better to scan the format's fields. ++ Still need to be able to insert a value based on the operand though; ++ e.g. storing a branch displacement that got resolved later. ++ Needs more thought first. */ ++ ++ for (syn = CGEN_SYNTAX_STRING (syntax); * syn; ++ syn) ++ { ++ const char *errmsg; ++ ++ if (CGEN_SYNTAX_CHAR_P (* syn)) ++ continue; ++ ++ errmsg = (* cd->insert_operand) (cd, CGEN_SYNTAX_FIELD (*syn), ++ fields, buffer, pc); ++ if (errmsg) ++ return errmsg; ++ } ++ ++ return NULL; ++} ++ ++#if CGEN_INT_INSN_P ++/* Cover function to store an insn value into an integral insn. Must go here ++ because it needs -desc.h for CGEN_INT_INSN_P. */ ++ ++static void ++put_insn_int_value (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ CGEN_INSN_BYTES_PTR buf, ++ int length, ++ int insn_length, ++ CGEN_INSN_INT value) ++{ ++ /* For architectures with insns smaller than the base-insn-bitsize, ++ length may be too big. */ ++ if (length > insn_length) ++ *buf = value; ++ else ++ { ++ int shift = insn_length - length; ++ /* Written this way to avoid undefined behaviour. */ ++ CGEN_INSN_INT mask = (((1L << (length - 1)) - 1) << 1) | 1; ++ ++ *buf = (*buf & ~(mask << shift)) | ((value & mask) << shift); ++ } ++} ++#endif ++ ++/* Operand extraction. */ ++ ++#if ! CGEN_INT_INSN_P ++ ++/* Subroutine of extract_normal. ++ Ensure sufficient bytes are cached in EX_INFO. ++ OFFSET is the offset in bytes from the start of the insn of the value. ++ BYTES is the length of the needed value. ++ Returns 1 for success, 0 for failure. */ ++ ++static CGEN_INLINE int ++fill_cache (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ CGEN_EXTRACT_INFO *ex_info, ++ int offset, ++ int bytes, ++ bfd_vma pc) ++{ ++ /* It's doubtful that the middle part has already been fetched so ++ we don't optimize that case. kiss. */ ++ unsigned int mask; ++ disassemble_info *info = (disassemble_info *) ex_info->dis_info; ++ ++ /* First do a quick check. */ ++ mask = (1 << bytes) - 1; ++ if (((ex_info->valid >> offset) & mask) == mask) ++ return 1; ++ ++ /* Search for the first byte we need to read. */ ++ for (mask = 1 << offset; bytes > 0; --bytes, ++offset, mask <<= 1) ++ if (! (mask & ex_info->valid)) ++ break; ++ ++ if (bytes) ++ { ++ int status; ++ ++ pc += offset; ++ status = (*info->read_memory_func) ++ (pc, ex_info->insn_bytes + offset, bytes, info); ++ ++ if (status != 0) ++ { ++ (*info->memory_error_func) (status, pc, info); ++ return 0; ++ } ++ ++ ex_info->valid |= ((1 << bytes) - 1) << offset; ++ } ++ ++ return 1; ++} ++ ++/* Subroutine of extract_normal. */ ++ ++static CGEN_INLINE long ++extract_1 (CGEN_CPU_DESC cd, ++ CGEN_EXTRACT_INFO *ex_info ATTRIBUTE_UNUSED, ++ int start, ++ int length, ++ int word_length, ++ unsigned char *bufp, ++ bfd_vma pc ATTRIBUTE_UNUSED) ++{ ++ unsigned long x; ++ int shift; ++ ++ x = cgen_get_insn_value (cd, bufp, word_length); ++ ++ if (CGEN_INSN_LSB0_P) ++ shift = (start + 1) - length; ++ else ++ shift = (word_length - (start + length)); ++ return x >> shift; ++} ++ ++#endif /* ! CGEN_INT_INSN_P */ ++ ++/* Default extraction routine. ++ ++ INSN_VALUE is the first base_insn_bitsize bits of the insn in host order, ++ or sometimes less for cases like the m32r where the base insn size is 32 ++ but some insns are 16 bits. ++ ATTRS is a mask of the boolean attributes. We only need `SIGNED', ++ but for generality we take a bitmask of all of them. ++ WORD_OFFSET is the offset in bits from the start of the insn of the value. ++ WORD_LENGTH is the length of the word in bits in which the value resides. ++ START is the starting bit number in the word, architecture origin. ++ LENGTH is the length of VALUE in bits. ++ TOTAL_LENGTH is the total length of the insn in bits. ++ ++ Returns 1 for success, 0 for failure. */ ++ ++/* ??? The return code isn't properly used. wip. */ ++ ++/* ??? This doesn't handle bfd_vma's. Create another function when ++ necessary. */ ++ ++static int ++extract_normal (CGEN_CPU_DESC cd, ++#if ! CGEN_INT_INSN_P ++ CGEN_EXTRACT_INFO *ex_info, ++#else ++ CGEN_EXTRACT_INFO *ex_info ATTRIBUTE_UNUSED, ++#endif ++ CGEN_INSN_INT insn_value, ++ unsigned int attrs, ++ unsigned int word_offset, ++ unsigned int start, ++ unsigned int length, ++ unsigned int word_length, ++ unsigned int total_length, ++#if ! CGEN_INT_INSN_P ++ bfd_vma pc, ++#else ++ bfd_vma pc ATTRIBUTE_UNUSED, ++#endif ++ long *valuep) ++{ ++ long value, mask; ++ ++ /* If LENGTH is zero, this operand doesn't contribute to the value ++ so give it a standard value of zero. */ ++ if (length == 0) ++ { ++ *valuep = 0; ++ return 1; ++ } ++ ++ if (word_length > 32) ++ abort (); ++ ++ /* For architectures with insns smaller than the insn-base-bitsize, ++ word_length may be too big. */ ++ if (cd->min_insn_bitsize < cd->base_insn_bitsize) ++ { ++ if (word_offset + word_length > total_length) ++ word_length = total_length - word_offset; ++ } ++ ++ /* Does the value reside in INSN_VALUE, and at the right alignment? */ ++ ++ if (CGEN_INT_INSN_P || (word_offset == 0 && word_length == total_length)) ++ { ++ if (CGEN_INSN_LSB0_P) ++ value = insn_value >> ((word_offset + start + 1) - length); ++ else ++ value = insn_value >> (total_length - ( word_offset + start + length)); ++ } ++ ++#if ! CGEN_INT_INSN_P ++ ++ else ++ { ++ unsigned char *bufp = ex_info->insn_bytes + word_offset / 8; ++ ++ if (word_length > 32) ++ abort (); ++ ++ if (fill_cache (cd, ex_info, word_offset / 8, word_length / 8, pc) == 0) ++ return 0; ++ ++ value = extract_1 (cd, ex_info, start, length, word_length, bufp, pc); ++ } ++ ++#endif /* ! CGEN_INT_INSN_P */ ++ ++ /* Written this way to avoid undefined behaviour. */ ++ mask = (((1L << (length - 1)) - 1) << 1) | 1; ++ ++ value &= mask; ++ /* sign extend? */ ++ if (CGEN_BOOL_ATTR (attrs, CGEN_IFLD_SIGNED) ++ && (value & (1L << (length - 1)))) ++ value |= ~mask; ++ ++ *valuep = value; ++ ++ return 1; ++} ++ ++/* Default insn extractor. ++ ++ INSN_VALUE is the first base_insn_bitsize bits, translated to host order. ++ The extracted fields are stored in FIELDS. ++ EX_INFO is used to handle reading variable length insns. ++ Return the length of the insn in bits, or 0 if no match, ++ or -1 if an error occurs fetching data (memory_error_func will have ++ been called). */ ++ ++static int ++extract_insn_normal (CGEN_CPU_DESC cd, ++ const CGEN_INSN *insn, ++ CGEN_EXTRACT_INFO *ex_info, ++ CGEN_INSN_INT insn_value, ++ CGEN_FIELDS *fields, ++ bfd_vma pc) ++{ ++ const CGEN_SYNTAX *syntax = CGEN_INSN_SYNTAX (insn); ++ const CGEN_SYNTAX_CHAR_TYPE *syn; ++ ++ CGEN_FIELDS_BITSIZE (fields) = CGEN_INSN_BITSIZE (insn); ++ ++ CGEN_INIT_EXTRACT (cd); ++ ++ for (syn = CGEN_SYNTAX_STRING (syntax); *syn; ++syn) ++ { ++ int length; ++ ++ if (CGEN_SYNTAX_CHAR_P (*syn)) ++ continue; ++ ++ length = (* cd->extract_operand) (cd, CGEN_SYNTAX_FIELD (*syn), ++ ex_info, insn_value, fields, pc); ++ if (length <= 0) ++ return length; ++ } ++ ++ /* We recognized and successfully extracted this insn. */ ++ return CGEN_INSN_BITSIZE (insn); ++} ++ ++/* Machine generated code added here. */ ++ ++const char * ubicom32_cgen_insert_operand ++ (CGEN_CPU_DESC, int, CGEN_FIELDS *, CGEN_INSN_BYTES_PTR, bfd_vma); ++ ++/* Main entry point for operand insertion. ++ ++ This function is basically just a big switch statement. Earlier versions ++ used tables to look up the function to use, but ++ - if the table contains both assembler and disassembler functions then ++ the disassembler contains much of the assembler and vice-versa, ++ - there's a lot of inlining possibilities as things grow, ++ - using a switch statement avoids the function call overhead. ++ ++ This function could be moved into `parse_insn_normal', but keeping it ++ separate makes clear the interface between `parse_insn_normal' and each of ++ the handlers. It's also needed by GAS to insert operands that couldn't be ++ resolved during parsing. */ ++ ++const char * ++ubicom32_cgen_insert_operand (CGEN_CPU_DESC cd, ++ int opindex, ++ CGEN_FIELDS * fields, ++ CGEN_INSN_BYTES_PTR buffer, ++ bfd_vma pc ATTRIBUTE_UNUSED) ++{ ++ const char * errmsg = NULL; ++ unsigned int total_length = CGEN_FIELDS_BITSIZE (fields); ++ ++ switch (opindex) ++ { ++ case UBICOM32_OPERAND_AM : ++ errmsg = insert_normal (cd, fields->f_Am, 0, 0, 7, 3, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_AN : ++ errmsg = insert_normal (cd, fields->f_An, 0, 0, 23, 3, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_C : ++ errmsg = insert_normal (cd, fields->f_C, 0, 0, 21, 1, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_DN : ++ errmsg = insert_normal (cd, fields->f_Dn, 0, 0, 20, 5, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_P : ++ errmsg = insert_normal (cd, fields->f_P, 0, 0, 22, 1, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_ACC1HI : ++ break; ++ case UBICOM32_OPERAND_ACC1LO : ++ break; ++ case UBICOM32_OPERAND_BIT5 : ++ errmsg = insert_normal (cd, fields->f_bit5, 0, 0, 15, 5, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_BIT5_ADDSUB : ++ errmsg = insert_normal (cd, fields->f_bit5, 0, 0, 15, 5, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_CC : ++ errmsg = insert_normal (cd, fields->f_cond, 0, 0, 26, 4, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_D_AN : ++ errmsg = insert_normal (cd, fields->f_d_An, 0, 0, 23, 3, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_D_DIRECT_ADDR : ++ { ++ long value = fields->f_d_direct; ++ value = ((unsigned int) (value) >> (2)); ++ errmsg = insert_normal (cd, value, 0, 0, 23, 8, 32, total_length, buffer); ++ } ++ break; ++ case UBICOM32_OPERAND_D_I4_1 : ++ errmsg = insert_normal (cd, fields->f_d_i4_1, 0|(1<f_d_i4_2; ++ value = ((unsigned int) (value) >> (1)); ++ errmsg = insert_normal (cd, value, 0|(1<f_d_i4_4; ++ value = ((unsigned int) (value) >> (2)); ++ errmsg = insert_normal (cd, value, 0|(1<> (5))) & (3)); ++ FLD (f_d_imm7_b) = ((((unsigned int) (FLD (f_d_imm7_1)) >> (0))) & (31)); ++} ++ errmsg = insert_normal (cd, fields->f_d_imm7_t, 0, 0, 25, 2, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ errmsg = insert_normal (cd, fields->f_d_imm7_b, 0, 0, 20, 5, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ } ++ break; ++ case UBICOM32_OPERAND_D_IMM7_2 : ++ { ++{ ++ FLD (f_d_imm7_t) = ((((unsigned int) (FLD (f_d_imm7_2)) >> (6))) & (3)); ++ FLD (f_d_imm7_b) = ((((unsigned int) (FLD (f_d_imm7_2)) >> (1))) & (31)); ++} ++ errmsg = insert_normal (cd, fields->f_d_imm7_t, 0, 0, 25, 2, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ errmsg = insert_normal (cd, fields->f_d_imm7_b, 0, 0, 20, 5, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ } ++ break; ++ case UBICOM32_OPERAND_D_IMM7_4 : ++ { ++{ ++ FLD (f_d_imm7_t) = ((((unsigned int) (FLD (f_d_imm7_4)) >> (7))) & (3)); ++ FLD (f_d_imm7_b) = ((((unsigned int) (FLD (f_d_imm7_4)) >> (2))) & (31)); ++} ++ errmsg = insert_normal (cd, fields->f_d_imm7_t, 0, 0, 25, 2, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ errmsg = insert_normal (cd, fields->f_d_imm7_b, 0, 0, 20, 5, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ } ++ break; ++ case UBICOM32_OPERAND_D_IMM8 : ++ errmsg = insert_normal (cd, fields->f_d_imm8, 0|(1<f_d_r, 0, 0, 20, 5, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_ADDSUB : ++ errmsg = insert_normal (cd, fields->f_dsp_S2, 0, 0, 14, 4, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_MUL : ++ errmsg = insert_normal (cd, fields->f_dsp_S2, 0, 0, 14, 4, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG : ++ errmsg = insert_normal (cd, fields->f_dsp_S2, 0, 0, 14, 4, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG_ADDSUB : ++ errmsg = insert_normal (cd, fields->f_dsp_S2, 0, 0, 14, 4, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_SEL : ++ errmsg = insert_normal (cd, fields->f_dsp_S2_sel, 0, 0, 18, 1, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_DSP_C : ++ errmsg = insert_normal (cd, fields->f_dsp_C, 0, 0, 20, 1, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_DSP_DESTA : ++ errmsg = insert_normal (cd, fields->f_dsp_destA, 0, 0, 16, 1, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_DSP_T : ++ errmsg = insert_normal (cd, fields->f_dsp_T, 0, 0, 19, 1, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_DSP_T_ADDSUB : ++ errmsg = insert_normal (cd, fields->f_dsp_T, 0, 0, 19, 1, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_IMM16_1 : ++ errmsg = insert_normal (cd, fields->f_imm16_1, 0|(1<f_imm16_2, 0|(1<> (21))) & (7)); ++ FLD (f_o20_0) = ((FLD (f_imm24)) & (2097151)); ++} ++ errmsg = insert_normal (cd, fields->f_imm23_21, 0, 0, 26, 3, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ errmsg = insert_normal (cd, fields->f_o20_0, 0, 0, 20, 21, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ } ++ break; ++ case UBICOM32_OPERAND_INTERRUPT : ++ errmsg = insert_normal (cd, fields->f_int, 0, 0, 5, 6, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_IREAD : ++ break; ++ case UBICOM32_OPERAND_IRQ_0 : ++ break; ++ case UBICOM32_OPERAND_IRQ_1 : ++ break; ++ case UBICOM32_OPERAND_MACHI : ++ break; ++ case UBICOM32_OPERAND_MACLO : ++ break; ++ case UBICOM32_OPERAND_OFFSET16 : ++ { ++ fields->f_o16 = ((int) (fields->f_o16) >> (2)); ++{ ++ FLD (f_o15_13) = ((((unsigned int) (FLD (f_o16)) >> (13))) & (7)); ++ FLD (f_o12_8) = ((((unsigned int) (FLD (f_o16)) >> (8))) & (31)); ++ FLD (f_o7_5) = ((((unsigned int) (FLD (f_o16)) >> (5))) & (7)); ++ FLD (f_o4_0) = ((FLD (f_o16)) & (31)); ++} ++ errmsg = insert_normal (cd, fields->f_o15_13, 0|(1<f_o12_8, 0, 0, 20, 5, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ errmsg = insert_normal (cd, fields->f_o7_5, 0, 0, 10, 3, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ errmsg = insert_normal (cd, fields->f_o4_0, 0, 0, 4, 5, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ } ++ break; ++ case UBICOM32_OPERAND_OFFSET21 : ++ { ++ long value = fields->f_o21; ++ value = ((unsigned int) (((value) - (pc))) >> (2)); ++ errmsg = insert_normal (cd, value, 0|(1<f_o24 = ((int) (((fields->f_o24) - (pc))) >> (2)); ++{ ++ FLD (f_o23_21) = ((((unsigned int) (FLD (f_o24)) >> (21))) & (7)); ++ FLD (f_o20_0) = ((FLD (f_o24)) & (2097151)); ++} ++ errmsg = insert_normal (cd, fields->f_o23_21, 0|(1<f_o20_0, 0, 0, 20, 21, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ } ++ break; ++ case UBICOM32_OPERAND_OPC1 : ++ errmsg = insert_normal (cd, fields->f_op1, 0, 0, 31, 5, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_OPC2 : ++ errmsg = insert_normal (cd, fields->f_op2, 0, 0, 15, 5, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_PDEC_S1_IMM7_4 : ++ { ++{ ++ FLD (f_s1_imm7_t) = ((((unsigned int) (FLD (f_s1_imm7_4)) >> (7))) & (3)); ++ FLD (f_s1_imm7_b) = ((((unsigned int) (FLD (f_s1_imm7_4)) >> (2))) & (31)); ++} ++ errmsg = insert_normal (cd, fields->f_s1_imm7_t, 0, 0, 9, 2, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ errmsg = insert_normal (cd, fields->f_s1_imm7_b, 0, 0, 4, 5, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ } ++ break; ++ case UBICOM32_OPERAND_S1_AN : ++ errmsg = insert_normal (cd, fields->f_s1_An, 0, 0, 7, 3, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_S1_DIRECT_ADDR : ++ { ++ long value = fields->f_s1_direct; ++ value = ((unsigned int) (value) >> (2)); ++ errmsg = insert_normal (cd, value, 0, 0, 7, 8, 32, total_length, buffer); ++ } ++ break; ++ case UBICOM32_OPERAND_S1_I4_1 : ++ errmsg = insert_normal (cd, fields->f_s1_i4_1, 0|(1<f_s1_i4_2; ++ value = ((unsigned int) (value) >> (1)); ++ errmsg = insert_normal (cd, value, 0|(1<f_s1_i4_4; ++ value = ((unsigned int) (value) >> (2)); ++ errmsg = insert_normal (cd, value, 0|(1<> (5))) & (3)); ++ FLD (f_s1_imm7_b) = ((((unsigned int) (FLD (f_s1_imm7_1)) >> (0))) & (31)); ++} ++ errmsg = insert_normal (cd, fields->f_s1_imm7_t, 0, 0, 9, 2, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ errmsg = insert_normal (cd, fields->f_s1_imm7_b, 0, 0, 4, 5, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ } ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_2 : ++ { ++{ ++ FLD (f_s1_imm7_t) = ((((unsigned int) (FLD (f_s1_imm7_2)) >> (6))) & (3)); ++ FLD (f_s1_imm7_b) = ((((unsigned int) (FLD (f_s1_imm7_2)) >> (1))) & (31)); ++} ++ errmsg = insert_normal (cd, fields->f_s1_imm7_t, 0, 0, 9, 2, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ errmsg = insert_normal (cd, fields->f_s1_imm7_b, 0, 0, 4, 5, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ } ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_4 : ++ { ++{ ++ FLD (f_s1_imm7_t) = ((((unsigned int) (FLD (f_s1_imm7_4)) >> (7))) & (3)); ++ FLD (f_s1_imm7_b) = ((((unsigned int) (FLD (f_s1_imm7_4)) >> (2))) & (31)); ++} ++ errmsg = insert_normal (cd, fields->f_s1_imm7_t, 0, 0, 9, 2, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ errmsg = insert_normal (cd, fields->f_s1_imm7_b, 0, 0, 4, 5, 32, total_length, buffer); ++ if (errmsg) ++ break; ++ } ++ break; ++ case UBICOM32_OPERAND_S1_IMM8 : ++ errmsg = insert_normal (cd, fields->f_s1_imm8, 0|(1<f_s1_r, 0, 0, 4, 5, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_S2 : ++ errmsg = insert_normal (cd, fields->f_s2, 0, 0, 14, 4, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_SRC3 : ++ break; ++ case UBICOM32_OPERAND_X_BIT26 : ++ errmsg = insert_normal (cd, fields->f_bit26, 0, 0, 26, 1, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_X_D : ++ errmsg = insert_normal (cd, fields->f_d, 0, 0, 26, 11, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_X_DN : ++ errmsg = insert_normal (cd, fields->f_Dn, 0, 0, 20, 5, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_X_OP2 : ++ errmsg = insert_normal (cd, fields->f_op2, 0, 0, 15, 5, 32, total_length, buffer); ++ break; ++ case UBICOM32_OPERAND_X_S1 : ++ errmsg = insert_normal (cd, fields->f_s1, 0, 0, 10, 11, 32, total_length, buffer); ++ break; ++ ++ default : ++ /* xgettext:c-format */ ++ fprintf (stderr, _("Unrecognized field %d while building insn.\n"), ++ opindex); ++ abort (); ++ } ++ ++ return errmsg; ++} ++ ++int ubicom32_cgen_extract_operand ++ (CGEN_CPU_DESC, int, CGEN_EXTRACT_INFO *, CGEN_INSN_INT, CGEN_FIELDS *, bfd_vma); ++ ++/* Main entry point for operand extraction. ++ The result is <= 0 for error, >0 for success. ++ ??? Actual values aren't well defined right now. ++ ++ This function is basically just a big switch statement. Earlier versions ++ used tables to look up the function to use, but ++ - if the table contains both assembler and disassembler functions then ++ the disassembler contains much of the assembler and vice-versa, ++ - there's a lot of inlining possibilities as things grow, ++ - using a switch statement avoids the function call overhead. ++ ++ This function could be moved into `print_insn_normal', but keeping it ++ separate makes clear the interface between `print_insn_normal' and each of ++ the handlers. */ ++ ++int ++ubicom32_cgen_extract_operand (CGEN_CPU_DESC cd, ++ int opindex, ++ CGEN_EXTRACT_INFO *ex_info, ++ CGEN_INSN_INT insn_value, ++ CGEN_FIELDS * fields, ++ bfd_vma pc) ++{ ++ /* Assume success (for those operands that are nops). */ ++ int length = 1; ++ unsigned int total_length = CGEN_FIELDS_BITSIZE (fields); ++ ++ switch (opindex) ++ { ++ case UBICOM32_OPERAND_AM : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 7, 3, 32, total_length, pc, & fields->f_Am); ++ break; ++ case UBICOM32_OPERAND_AN : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 23, 3, 32, total_length, pc, & fields->f_An); ++ break; ++ case UBICOM32_OPERAND_C : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 21, 1, 32, total_length, pc, & fields->f_C); ++ break; ++ case UBICOM32_OPERAND_DN : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 20, 5, 32, total_length, pc, & fields->f_Dn); ++ break; ++ case UBICOM32_OPERAND_P : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 22, 1, 32, total_length, pc, & fields->f_P); ++ break; ++ case UBICOM32_OPERAND_ACC1HI : ++ break; ++ case UBICOM32_OPERAND_ACC1LO : ++ break; ++ case UBICOM32_OPERAND_BIT5 : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 15, 5, 32, total_length, pc, & fields->f_bit5); ++ break; ++ case UBICOM32_OPERAND_BIT5_ADDSUB : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 15, 5, 32, total_length, pc, & fields->f_bit5); ++ break; ++ case UBICOM32_OPERAND_CC : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 26, 4, 32, total_length, pc, & fields->f_cond); ++ break; ++ case UBICOM32_OPERAND_D_AN : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 23, 3, 32, total_length, pc, & fields->f_d_An); ++ break; ++ case UBICOM32_OPERAND_D_DIRECT_ADDR : ++ { ++ long value; ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 23, 8, 32, total_length, pc, & value); ++ value = ((value) << (2)); ++ fields->f_d_direct = value; ++ } ++ break; ++ case UBICOM32_OPERAND_D_I4_1 : ++ length = extract_normal (cd, ex_info, insn_value, 0|(1<f_d_i4_1); ++ break; ++ case UBICOM32_OPERAND_D_I4_2 : ++ { ++ long value; ++ length = extract_normal (cd, ex_info, insn_value, 0|(1<f_d_i4_2 = value; ++ } ++ break; ++ case UBICOM32_OPERAND_D_I4_4 : ++ { ++ long value; ++ length = extract_normal (cd, ex_info, insn_value, 0|(1<f_d_i4_4 = value; ++ } ++ break; ++ case UBICOM32_OPERAND_D_IMM7_1 : ++ { ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 25, 2, 32, total_length, pc, & fields->f_d_imm7_t); ++ if (length <= 0) break; ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 20, 5, 32, total_length, pc, & fields->f_d_imm7_b); ++ if (length <= 0) break; ++{ ++ FLD (f_d_imm7_1) = ((((((FLD (f_d_imm7_t)) << (5))) | (FLD (f_d_imm7_b)))) << (0)); ++} ++ } ++ break; ++ case UBICOM32_OPERAND_D_IMM7_2 : ++ { ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 25, 2, 32, total_length, pc, & fields->f_d_imm7_t); ++ if (length <= 0) break; ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 20, 5, 32, total_length, pc, & fields->f_d_imm7_b); ++ if (length <= 0) break; ++{ ++ FLD (f_d_imm7_2) = ((((((FLD (f_d_imm7_t)) << (5))) | (FLD (f_d_imm7_b)))) << (1)); ++} ++ } ++ break; ++ case UBICOM32_OPERAND_D_IMM7_4 : ++ { ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 25, 2, 32, total_length, pc, & fields->f_d_imm7_t); ++ if (length <= 0) break; ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 20, 5, 32, total_length, pc, & fields->f_d_imm7_b); ++ if (length <= 0) break; ++{ ++ FLD (f_d_imm7_4) = ((((((FLD (f_d_imm7_t)) << (5))) | (FLD (f_d_imm7_b)))) << (2)); ++} ++ } ++ break; ++ case UBICOM32_OPERAND_D_IMM8 : ++ length = extract_normal (cd, ex_info, insn_value, 0|(1<f_d_imm8); ++ break; ++ case UBICOM32_OPERAND_D_R : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 20, 5, 32, total_length, pc, & fields->f_d_r); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_ADDSUB : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 14, 4, 32, total_length, pc, & fields->f_dsp_S2); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_MUL : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 14, 4, 32, total_length, pc, & fields->f_dsp_S2); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 14, 4, 32, total_length, pc, & fields->f_dsp_S2); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG_ADDSUB : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 14, 4, 32, total_length, pc, & fields->f_dsp_S2); ++ break; ++ case UBICOM32_OPERAND_DSP_S2_SEL : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 18, 1, 32, total_length, pc, & fields->f_dsp_S2_sel); ++ break; ++ case UBICOM32_OPERAND_DSP_C : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 20, 1, 32, total_length, pc, & fields->f_dsp_C); ++ break; ++ case UBICOM32_OPERAND_DSP_DESTA : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 16, 1, 32, total_length, pc, & fields->f_dsp_destA); ++ break; ++ case UBICOM32_OPERAND_DSP_T : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 19, 1, 32, total_length, pc, & fields->f_dsp_T); ++ break; ++ case UBICOM32_OPERAND_DSP_T_ADDSUB : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 19, 1, 32, total_length, pc, & fields->f_dsp_T); ++ break; ++ case UBICOM32_OPERAND_IMM16_1 : ++ length = extract_normal (cd, ex_info, insn_value, 0|(1<f_imm16_1); ++ break; ++ case UBICOM32_OPERAND_IMM16_2 : ++ length = extract_normal (cd, ex_info, insn_value, 0|(1<f_imm16_2); ++ break; ++ case UBICOM32_OPERAND_IMM24 : ++ { ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 26, 3, 32, total_length, pc, & fields->f_imm23_21); ++ if (length <= 0) break; ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 20, 21, 32, total_length, pc, & fields->f_o20_0); ++ if (length <= 0) break; ++{ ++ FLD (f_imm24) = ((FLD (f_o20_0)) | (((FLD (f_imm23_21)) << (21)))); ++} ++ } ++ break; ++ case UBICOM32_OPERAND_INTERRUPT : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 5, 6, 32, total_length, pc, & fields->f_int); ++ break; ++ case UBICOM32_OPERAND_IREAD : ++ break; ++ case UBICOM32_OPERAND_IRQ_0 : ++ break; ++ case UBICOM32_OPERAND_IRQ_1 : ++ break; ++ case UBICOM32_OPERAND_MACHI : ++ break; ++ case UBICOM32_OPERAND_MACLO : ++ break; ++ case UBICOM32_OPERAND_OFFSET16 : ++ { ++ length = extract_normal (cd, ex_info, insn_value, 0|(1<f_o15_13); ++ if (length <= 0) break; ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 20, 5, 32, total_length, pc, & fields->f_o12_8); ++ if (length <= 0) break; ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 10, 3, 32, total_length, pc, & fields->f_o7_5); ++ if (length <= 0) break; ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 4, 5, 32, total_length, pc, & fields->f_o4_0); ++ if (length <= 0) break; ++{ ++ FLD (f_o16) = ((FLD (f_o4_0)) | (((((FLD (f_o15_13)) << (13))) | (((((FLD (f_o12_8)) << (8))) | (((FLD (f_o7_5)) << (5)))))))); ++} ++ fields->f_o16 = ((fields->f_o16) << (2)); ++ } ++ break; ++ case UBICOM32_OPERAND_OFFSET21 : ++ { ++ long value; ++ length = extract_normal (cd, ex_info, insn_value, 0|(1<f_o21 = value; ++ } ++ break; ++ case UBICOM32_OPERAND_OFFSET24 : ++ { ++ length = extract_normal (cd, ex_info, insn_value, 0|(1<f_o23_21); ++ if (length <= 0) break; ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 20, 21, 32, total_length, pc, & fields->f_o20_0); ++ if (length <= 0) break; ++{ ++ FLD (f_o24) = ((FLD (f_o20_0)) | (((FLD (f_o23_21)) << (21)))); ++} ++ fields->f_o24 = ((((fields->f_o24) << (2))) + (pc)); ++ } ++ break; ++ case UBICOM32_OPERAND_OPC1 : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 31, 5, 32, total_length, pc, & fields->f_op1); ++ break; ++ case UBICOM32_OPERAND_OPC2 : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 15, 5, 32, total_length, pc, & fields->f_op2); ++ break; ++ case UBICOM32_OPERAND_PDEC_S1_IMM7_4 : ++ { ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 9, 2, 32, total_length, pc, & fields->f_s1_imm7_t); ++ if (length <= 0) break; ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 4, 5, 32, total_length, pc, & fields->f_s1_imm7_b); ++ if (length <= 0) break; ++{ ++ FLD (f_s1_imm7_4) = ((((((FLD (f_s1_imm7_t)) << (5))) | (FLD (f_s1_imm7_b)))) << (2)); ++} ++ } ++ break; ++ case UBICOM32_OPERAND_S1_AN : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 7, 3, 32, total_length, pc, & fields->f_s1_An); ++ break; ++ case UBICOM32_OPERAND_S1_DIRECT_ADDR : ++ { ++ long value; ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 7, 8, 32, total_length, pc, & value); ++ value = ((value) << (2)); ++ fields->f_s1_direct = value; ++ } ++ break; ++ case UBICOM32_OPERAND_S1_I4_1 : ++ length = extract_normal (cd, ex_info, insn_value, 0|(1<f_s1_i4_1); ++ break; ++ case UBICOM32_OPERAND_S1_I4_2 : ++ { ++ long value; ++ length = extract_normal (cd, ex_info, insn_value, 0|(1<f_s1_i4_2 = value; ++ } ++ break; ++ case UBICOM32_OPERAND_S1_I4_4 : ++ { ++ long value; ++ length = extract_normal (cd, ex_info, insn_value, 0|(1<f_s1_i4_4 = value; ++ } ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_1 : ++ { ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 9, 2, 32, total_length, pc, & fields->f_s1_imm7_t); ++ if (length <= 0) break; ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 4, 5, 32, total_length, pc, & fields->f_s1_imm7_b); ++ if (length <= 0) break; ++{ ++ FLD (f_s1_imm7_1) = ((((((FLD (f_s1_imm7_t)) << (5))) | (FLD (f_s1_imm7_b)))) << (0)); ++} ++ } ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_2 : ++ { ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 9, 2, 32, total_length, pc, & fields->f_s1_imm7_t); ++ if (length <= 0) break; ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 4, 5, 32, total_length, pc, & fields->f_s1_imm7_b); ++ if (length <= 0) break; ++{ ++ FLD (f_s1_imm7_2) = ((((((FLD (f_s1_imm7_t)) << (5))) | (FLD (f_s1_imm7_b)))) << (1)); ++} ++ } ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_4 : ++ { ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 9, 2, 32, total_length, pc, & fields->f_s1_imm7_t); ++ if (length <= 0) break; ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 4, 5, 32, total_length, pc, & fields->f_s1_imm7_b); ++ if (length <= 0) break; ++{ ++ FLD (f_s1_imm7_4) = ((((((FLD (f_s1_imm7_t)) << (5))) | (FLD (f_s1_imm7_b)))) << (2)); ++} ++ } ++ break; ++ case UBICOM32_OPERAND_S1_IMM8 : ++ length = extract_normal (cd, ex_info, insn_value, 0|(1<f_s1_imm8); ++ break; ++ case UBICOM32_OPERAND_S1_R : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 4, 5, 32, total_length, pc, & fields->f_s1_r); ++ break; ++ case UBICOM32_OPERAND_S2 : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 14, 4, 32, total_length, pc, & fields->f_s2); ++ break; ++ case UBICOM32_OPERAND_SRC3 : ++ break; ++ case UBICOM32_OPERAND_X_BIT26 : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 26, 1, 32, total_length, pc, & fields->f_bit26); ++ break; ++ case UBICOM32_OPERAND_X_D : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 26, 11, 32, total_length, pc, & fields->f_d); ++ break; ++ case UBICOM32_OPERAND_X_DN : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 20, 5, 32, total_length, pc, & fields->f_Dn); ++ break; ++ case UBICOM32_OPERAND_X_OP2 : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 15, 5, 32, total_length, pc, & fields->f_op2); ++ break; ++ case UBICOM32_OPERAND_X_S1 : ++ length = extract_normal (cd, ex_info, insn_value, 0, 0, 10, 11, 32, total_length, pc, & fields->f_s1); ++ break; ++ ++ default : ++ /* xgettext:c-format */ ++ fprintf (stderr, _("Unrecognized field %d while decoding insn.\n"), ++ opindex); ++ abort (); ++ } ++ ++ return length; ++} ++ ++cgen_insert_fn * const ubicom32_cgen_insert_handlers[] = ++{ ++ insert_insn_normal, ++}; ++ ++cgen_extract_fn * const ubicom32_cgen_extract_handlers[] = ++{ ++ extract_insn_normal, ++}; ++ ++int ubicom32_cgen_get_int_operand (CGEN_CPU_DESC, int, const CGEN_FIELDS *); ++bfd_vma ubicom32_cgen_get_vma_operand (CGEN_CPU_DESC, int, const CGEN_FIELDS *); ++ ++/* Getting values from cgen_fields is handled by a collection of functions. ++ They are distinguished by the type of the VALUE argument they return. ++ TODO: floating point, inlining support, remove cases where result type ++ not appropriate. */ ++ ++int ++ubicom32_cgen_get_int_operand (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ int opindex, ++ const CGEN_FIELDS * fields) ++{ ++ int value; ++ ++ switch (opindex) ++ { ++ case UBICOM32_OPERAND_AM : ++ value = fields->f_Am; ++ break; ++ case UBICOM32_OPERAND_AN : ++ value = fields->f_An; ++ break; ++ case UBICOM32_OPERAND_C : ++ value = fields->f_C; ++ break; ++ case UBICOM32_OPERAND_DN : ++ value = fields->f_Dn; ++ break; ++ case UBICOM32_OPERAND_P : ++ value = fields->f_P; ++ break; ++ case UBICOM32_OPERAND_ACC1HI : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_ACC1LO : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_BIT5 : ++ value = fields->f_bit5; ++ break; ++ case UBICOM32_OPERAND_BIT5_ADDSUB : ++ value = fields->f_bit5; ++ break; ++ case UBICOM32_OPERAND_CC : ++ value = fields->f_cond; ++ break; ++ case UBICOM32_OPERAND_D_AN : ++ value = fields->f_d_An; ++ break; ++ case UBICOM32_OPERAND_D_DIRECT_ADDR : ++ value = fields->f_d_direct; ++ break; ++ case UBICOM32_OPERAND_D_I4_1 : ++ value = fields->f_d_i4_1; ++ break; ++ case UBICOM32_OPERAND_D_I4_2 : ++ value = fields->f_d_i4_2; ++ break; ++ case UBICOM32_OPERAND_D_I4_4 : ++ value = fields->f_d_i4_4; ++ break; ++ case UBICOM32_OPERAND_D_IMM7_1 : ++ value = fields->f_d_imm7_1; ++ break; ++ case UBICOM32_OPERAND_D_IMM7_2 : ++ value = fields->f_d_imm7_2; ++ break; ++ case UBICOM32_OPERAND_D_IMM7_4 : ++ value = fields->f_d_imm7_4; ++ break; ++ case UBICOM32_OPERAND_D_IMM8 : ++ value = fields->f_d_imm8; ++ break; ++ case UBICOM32_OPERAND_D_R : ++ value = fields->f_d_r; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_ADDSUB : ++ value = fields->f_dsp_S2; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_MUL : ++ value = fields->f_dsp_S2; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG : ++ value = fields->f_dsp_S2; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG_ADDSUB : ++ value = fields->f_dsp_S2; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_SEL : ++ value = fields->f_dsp_S2_sel; ++ break; ++ case UBICOM32_OPERAND_DSP_C : ++ value = fields->f_dsp_C; ++ break; ++ case UBICOM32_OPERAND_DSP_DESTA : ++ value = fields->f_dsp_destA; ++ break; ++ case UBICOM32_OPERAND_DSP_T : ++ value = fields->f_dsp_T; ++ break; ++ case UBICOM32_OPERAND_DSP_T_ADDSUB : ++ value = fields->f_dsp_T; ++ break; ++ case UBICOM32_OPERAND_IMM16_1 : ++ value = fields->f_imm16_1; ++ break; ++ case UBICOM32_OPERAND_IMM16_2 : ++ value = fields->f_imm16_2; ++ break; ++ case UBICOM32_OPERAND_IMM24 : ++ value = fields->f_imm24; ++ break; ++ case UBICOM32_OPERAND_INTERRUPT : ++ value = fields->f_int; ++ break; ++ case UBICOM32_OPERAND_IREAD : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_IRQ_0 : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_IRQ_1 : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_MACHI : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_MACLO : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_OFFSET16 : ++ value = fields->f_o16; ++ break; ++ case UBICOM32_OPERAND_OFFSET21 : ++ value = fields->f_o21; ++ break; ++ case UBICOM32_OPERAND_OFFSET24 : ++ value = fields->f_o24; ++ break; ++ case UBICOM32_OPERAND_OPC1 : ++ value = fields->f_op1; ++ break; ++ case UBICOM32_OPERAND_OPC2 : ++ value = fields->f_op2; ++ break; ++ case UBICOM32_OPERAND_PDEC_S1_IMM7_4 : ++ value = fields->f_s1_imm7_4; ++ break; ++ case UBICOM32_OPERAND_S1_AN : ++ value = fields->f_s1_An; ++ break; ++ case UBICOM32_OPERAND_S1_DIRECT_ADDR : ++ value = fields->f_s1_direct; ++ break; ++ case UBICOM32_OPERAND_S1_I4_1 : ++ value = fields->f_s1_i4_1; ++ break; ++ case UBICOM32_OPERAND_S1_I4_2 : ++ value = fields->f_s1_i4_2; ++ break; ++ case UBICOM32_OPERAND_S1_I4_4 : ++ value = fields->f_s1_i4_4; ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_1 : ++ value = fields->f_s1_imm7_1; ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_2 : ++ value = fields->f_s1_imm7_2; ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_4 : ++ value = fields->f_s1_imm7_4; ++ break; ++ case UBICOM32_OPERAND_S1_IMM8 : ++ value = fields->f_s1_imm8; ++ break; ++ case UBICOM32_OPERAND_S1_R : ++ value = fields->f_s1_r; ++ break; ++ case UBICOM32_OPERAND_S2 : ++ value = fields->f_s2; ++ break; ++ case UBICOM32_OPERAND_SRC3 : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_X_BIT26 : ++ value = fields->f_bit26; ++ break; ++ case UBICOM32_OPERAND_X_D : ++ value = fields->f_d; ++ break; ++ case UBICOM32_OPERAND_X_DN : ++ value = fields->f_Dn; ++ break; ++ case UBICOM32_OPERAND_X_OP2 : ++ value = fields->f_op2; ++ break; ++ case UBICOM32_OPERAND_X_S1 : ++ value = fields->f_s1; ++ break; ++ ++ default : ++ /* xgettext:c-format */ ++ fprintf (stderr, _("Unrecognized field %d while getting int operand.\n"), ++ opindex); ++ abort (); ++ } ++ ++ return value; ++} ++ ++bfd_vma ++ubicom32_cgen_get_vma_operand (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ int opindex, ++ const CGEN_FIELDS * fields) ++{ ++ bfd_vma value; ++ ++ switch (opindex) ++ { ++ case UBICOM32_OPERAND_AM : ++ value = fields->f_Am; ++ break; ++ case UBICOM32_OPERAND_AN : ++ value = fields->f_An; ++ break; ++ case UBICOM32_OPERAND_C : ++ value = fields->f_C; ++ break; ++ case UBICOM32_OPERAND_DN : ++ value = fields->f_Dn; ++ break; ++ case UBICOM32_OPERAND_P : ++ value = fields->f_P; ++ break; ++ case UBICOM32_OPERAND_ACC1HI : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_ACC1LO : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_BIT5 : ++ value = fields->f_bit5; ++ break; ++ case UBICOM32_OPERAND_BIT5_ADDSUB : ++ value = fields->f_bit5; ++ break; ++ case UBICOM32_OPERAND_CC : ++ value = fields->f_cond; ++ break; ++ case UBICOM32_OPERAND_D_AN : ++ value = fields->f_d_An; ++ break; ++ case UBICOM32_OPERAND_D_DIRECT_ADDR : ++ value = fields->f_d_direct; ++ break; ++ case UBICOM32_OPERAND_D_I4_1 : ++ value = fields->f_d_i4_1; ++ break; ++ case UBICOM32_OPERAND_D_I4_2 : ++ value = fields->f_d_i4_2; ++ break; ++ case UBICOM32_OPERAND_D_I4_4 : ++ value = fields->f_d_i4_4; ++ break; ++ case UBICOM32_OPERAND_D_IMM7_1 : ++ value = fields->f_d_imm7_1; ++ break; ++ case UBICOM32_OPERAND_D_IMM7_2 : ++ value = fields->f_d_imm7_2; ++ break; ++ case UBICOM32_OPERAND_D_IMM7_4 : ++ value = fields->f_d_imm7_4; ++ break; ++ case UBICOM32_OPERAND_D_IMM8 : ++ value = fields->f_d_imm8; ++ break; ++ case UBICOM32_OPERAND_D_R : ++ value = fields->f_d_r; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_ADDSUB : ++ value = fields->f_dsp_S2; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_MUL : ++ value = fields->f_dsp_S2; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG : ++ value = fields->f_dsp_S2; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG_ADDSUB : ++ value = fields->f_dsp_S2; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_SEL : ++ value = fields->f_dsp_S2_sel; ++ break; ++ case UBICOM32_OPERAND_DSP_C : ++ value = fields->f_dsp_C; ++ break; ++ case UBICOM32_OPERAND_DSP_DESTA : ++ value = fields->f_dsp_destA; ++ break; ++ case UBICOM32_OPERAND_DSP_T : ++ value = fields->f_dsp_T; ++ break; ++ case UBICOM32_OPERAND_DSP_T_ADDSUB : ++ value = fields->f_dsp_T; ++ break; ++ case UBICOM32_OPERAND_IMM16_1 : ++ value = fields->f_imm16_1; ++ break; ++ case UBICOM32_OPERAND_IMM16_2 : ++ value = fields->f_imm16_2; ++ break; ++ case UBICOM32_OPERAND_IMM24 : ++ value = fields->f_imm24; ++ break; ++ case UBICOM32_OPERAND_INTERRUPT : ++ value = fields->f_int; ++ break; ++ case UBICOM32_OPERAND_IREAD : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_IRQ_0 : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_IRQ_1 : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_MACHI : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_MACLO : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_OFFSET16 : ++ value = fields->f_o16; ++ break; ++ case UBICOM32_OPERAND_OFFSET21 : ++ value = fields->f_o21; ++ break; ++ case UBICOM32_OPERAND_OFFSET24 : ++ value = fields->f_o24; ++ break; ++ case UBICOM32_OPERAND_OPC1 : ++ value = fields->f_op1; ++ break; ++ case UBICOM32_OPERAND_OPC2 : ++ value = fields->f_op2; ++ break; ++ case UBICOM32_OPERAND_PDEC_S1_IMM7_4 : ++ value = fields->f_s1_imm7_4; ++ break; ++ case UBICOM32_OPERAND_S1_AN : ++ value = fields->f_s1_An; ++ break; ++ case UBICOM32_OPERAND_S1_DIRECT_ADDR : ++ value = fields->f_s1_direct; ++ break; ++ case UBICOM32_OPERAND_S1_I4_1 : ++ value = fields->f_s1_i4_1; ++ break; ++ case UBICOM32_OPERAND_S1_I4_2 : ++ value = fields->f_s1_i4_2; ++ break; ++ case UBICOM32_OPERAND_S1_I4_4 : ++ value = fields->f_s1_i4_4; ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_1 : ++ value = fields->f_s1_imm7_1; ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_2 : ++ value = fields->f_s1_imm7_2; ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_4 : ++ value = fields->f_s1_imm7_4; ++ break; ++ case UBICOM32_OPERAND_S1_IMM8 : ++ value = fields->f_s1_imm8; ++ break; ++ case UBICOM32_OPERAND_S1_R : ++ value = fields->f_s1_r; ++ break; ++ case UBICOM32_OPERAND_S2 : ++ value = fields->f_s2; ++ break; ++ case UBICOM32_OPERAND_SRC3 : ++ value = 0; ++ break; ++ case UBICOM32_OPERAND_X_BIT26 : ++ value = fields->f_bit26; ++ break; ++ case UBICOM32_OPERAND_X_D : ++ value = fields->f_d; ++ break; ++ case UBICOM32_OPERAND_X_DN : ++ value = fields->f_Dn; ++ break; ++ case UBICOM32_OPERAND_X_OP2 : ++ value = fields->f_op2; ++ break; ++ case UBICOM32_OPERAND_X_S1 : ++ value = fields->f_s1; ++ break; ++ ++ default : ++ /* xgettext:c-format */ ++ fprintf (stderr, _("Unrecognized field %d while getting vma operand.\n"), ++ opindex); ++ abort (); ++ } ++ ++ return value; ++} ++ ++void ubicom32_cgen_set_int_operand (CGEN_CPU_DESC, int, CGEN_FIELDS *, int); ++void ubicom32_cgen_set_vma_operand (CGEN_CPU_DESC, int, CGEN_FIELDS *, bfd_vma); ++ ++/* Stuffing values in cgen_fields is handled by a collection of functions. ++ They are distinguished by the type of the VALUE argument they accept. ++ TODO: floating point, inlining support, remove cases where argument type ++ not appropriate. */ ++ ++void ++ubicom32_cgen_set_int_operand (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ int opindex, ++ CGEN_FIELDS * fields, ++ int value) ++{ ++ switch (opindex) ++ { ++ case UBICOM32_OPERAND_AM : ++ fields->f_Am = value; ++ break; ++ case UBICOM32_OPERAND_AN : ++ fields->f_An = value; ++ break; ++ case UBICOM32_OPERAND_C : ++ fields->f_C = value; ++ break; ++ case UBICOM32_OPERAND_DN : ++ fields->f_Dn = value; ++ break; ++ case UBICOM32_OPERAND_P : ++ fields->f_P = value; ++ break; ++ case UBICOM32_OPERAND_ACC1HI : ++ break; ++ case UBICOM32_OPERAND_ACC1LO : ++ break; ++ case UBICOM32_OPERAND_BIT5 : ++ fields->f_bit5 = value; ++ break; ++ case UBICOM32_OPERAND_BIT5_ADDSUB : ++ fields->f_bit5 = value; ++ break; ++ case UBICOM32_OPERAND_CC : ++ fields->f_cond = value; ++ break; ++ case UBICOM32_OPERAND_D_AN : ++ fields->f_d_An = value; ++ break; ++ case UBICOM32_OPERAND_D_DIRECT_ADDR : ++ fields->f_d_direct = value; ++ break; ++ case UBICOM32_OPERAND_D_I4_1 : ++ fields->f_d_i4_1 = value; ++ break; ++ case UBICOM32_OPERAND_D_I4_2 : ++ fields->f_d_i4_2 = value; ++ break; ++ case UBICOM32_OPERAND_D_I4_4 : ++ fields->f_d_i4_4 = value; ++ break; ++ case UBICOM32_OPERAND_D_IMM7_1 : ++ fields->f_d_imm7_1 = value; ++ break; ++ case UBICOM32_OPERAND_D_IMM7_2 : ++ fields->f_d_imm7_2 = value; ++ break; ++ case UBICOM32_OPERAND_D_IMM7_4 : ++ fields->f_d_imm7_4 = value; ++ break; ++ case UBICOM32_OPERAND_D_IMM8 : ++ fields->f_d_imm8 = value; ++ break; ++ case UBICOM32_OPERAND_D_R : ++ fields->f_d_r = value; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_ADDSUB : ++ fields->f_dsp_S2 = value; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_MUL : ++ fields->f_dsp_S2 = value; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG : ++ fields->f_dsp_S2 = value; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG_ADDSUB : ++ fields->f_dsp_S2 = value; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_SEL : ++ fields->f_dsp_S2_sel = value; ++ break; ++ case UBICOM32_OPERAND_DSP_C : ++ fields->f_dsp_C = value; ++ break; ++ case UBICOM32_OPERAND_DSP_DESTA : ++ fields->f_dsp_destA = value; ++ break; ++ case UBICOM32_OPERAND_DSP_T : ++ fields->f_dsp_T = value; ++ break; ++ case UBICOM32_OPERAND_DSP_T_ADDSUB : ++ fields->f_dsp_T = value; ++ break; ++ case UBICOM32_OPERAND_IMM16_1 : ++ fields->f_imm16_1 = value; ++ break; ++ case UBICOM32_OPERAND_IMM16_2 : ++ fields->f_imm16_2 = value; ++ break; ++ case UBICOM32_OPERAND_IMM24 : ++ fields->f_imm24 = value; ++ break; ++ case UBICOM32_OPERAND_INTERRUPT : ++ fields->f_int = value; ++ break; ++ case UBICOM32_OPERAND_IREAD : ++ break; ++ case UBICOM32_OPERAND_IRQ_0 : ++ break; ++ case UBICOM32_OPERAND_IRQ_1 : ++ break; ++ case UBICOM32_OPERAND_MACHI : ++ break; ++ case UBICOM32_OPERAND_MACLO : ++ break; ++ case UBICOM32_OPERAND_OFFSET16 : ++ fields->f_o16 = value; ++ break; ++ case UBICOM32_OPERAND_OFFSET21 : ++ fields->f_o21 = value; ++ break; ++ case UBICOM32_OPERAND_OFFSET24 : ++ fields->f_o24 = value; ++ break; ++ case UBICOM32_OPERAND_OPC1 : ++ fields->f_op1 = value; ++ break; ++ case UBICOM32_OPERAND_OPC2 : ++ fields->f_op2 = value; ++ break; ++ case UBICOM32_OPERAND_PDEC_S1_IMM7_4 : ++ fields->f_s1_imm7_4 = value; ++ break; ++ case UBICOM32_OPERAND_S1_AN : ++ fields->f_s1_An = value; ++ break; ++ case UBICOM32_OPERAND_S1_DIRECT_ADDR : ++ fields->f_s1_direct = value; ++ break; ++ case UBICOM32_OPERAND_S1_I4_1 : ++ fields->f_s1_i4_1 = value; ++ break; ++ case UBICOM32_OPERAND_S1_I4_2 : ++ fields->f_s1_i4_2 = value; ++ break; ++ case UBICOM32_OPERAND_S1_I4_4 : ++ fields->f_s1_i4_4 = value; ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_1 : ++ fields->f_s1_imm7_1 = value; ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_2 : ++ fields->f_s1_imm7_2 = value; ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_4 : ++ fields->f_s1_imm7_4 = value; ++ break; ++ case UBICOM32_OPERAND_S1_IMM8 : ++ fields->f_s1_imm8 = value; ++ break; ++ case UBICOM32_OPERAND_S1_R : ++ fields->f_s1_r = value; ++ break; ++ case UBICOM32_OPERAND_S2 : ++ fields->f_s2 = value; ++ break; ++ case UBICOM32_OPERAND_SRC3 : ++ break; ++ case UBICOM32_OPERAND_X_BIT26 : ++ fields->f_bit26 = value; ++ break; ++ case UBICOM32_OPERAND_X_D : ++ fields->f_d = value; ++ break; ++ case UBICOM32_OPERAND_X_DN : ++ fields->f_Dn = value; ++ break; ++ case UBICOM32_OPERAND_X_OP2 : ++ fields->f_op2 = value; ++ break; ++ case UBICOM32_OPERAND_X_S1 : ++ fields->f_s1 = value; ++ break; ++ ++ default : ++ /* xgettext:c-format */ ++ fprintf (stderr, _("Unrecognized field %d while setting int operand.\n"), ++ opindex); ++ abort (); ++ } ++} ++ ++void ++ubicom32_cgen_set_vma_operand (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, ++ int opindex, ++ CGEN_FIELDS * fields, ++ bfd_vma value) ++{ ++ switch (opindex) ++ { ++ case UBICOM32_OPERAND_AM : ++ fields->f_Am = value; ++ break; ++ case UBICOM32_OPERAND_AN : ++ fields->f_An = value; ++ break; ++ case UBICOM32_OPERAND_C : ++ fields->f_C = value; ++ break; ++ case UBICOM32_OPERAND_DN : ++ fields->f_Dn = value; ++ break; ++ case UBICOM32_OPERAND_P : ++ fields->f_P = value; ++ break; ++ case UBICOM32_OPERAND_ACC1HI : ++ break; ++ case UBICOM32_OPERAND_ACC1LO : ++ break; ++ case UBICOM32_OPERAND_BIT5 : ++ fields->f_bit5 = value; ++ break; ++ case UBICOM32_OPERAND_BIT5_ADDSUB : ++ fields->f_bit5 = value; ++ break; ++ case UBICOM32_OPERAND_CC : ++ fields->f_cond = value; ++ break; ++ case UBICOM32_OPERAND_D_AN : ++ fields->f_d_An = value; ++ break; ++ case UBICOM32_OPERAND_D_DIRECT_ADDR : ++ fields->f_d_direct = value; ++ break; ++ case UBICOM32_OPERAND_D_I4_1 : ++ fields->f_d_i4_1 = value; ++ break; ++ case UBICOM32_OPERAND_D_I4_2 : ++ fields->f_d_i4_2 = value; ++ break; ++ case UBICOM32_OPERAND_D_I4_4 : ++ fields->f_d_i4_4 = value; ++ break; ++ case UBICOM32_OPERAND_D_IMM7_1 : ++ fields->f_d_imm7_1 = value; ++ break; ++ case UBICOM32_OPERAND_D_IMM7_2 : ++ fields->f_d_imm7_2 = value; ++ break; ++ case UBICOM32_OPERAND_D_IMM7_4 : ++ fields->f_d_imm7_4 = value; ++ break; ++ case UBICOM32_OPERAND_D_IMM8 : ++ fields->f_d_imm8 = value; ++ break; ++ case UBICOM32_OPERAND_D_R : ++ fields->f_d_r = value; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_ADDSUB : ++ fields->f_dsp_S2 = value; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_ACC_REG_MUL : ++ fields->f_dsp_S2 = value; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG : ++ fields->f_dsp_S2 = value; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_DATA_REG_ADDSUB : ++ fields->f_dsp_S2 = value; ++ break; ++ case UBICOM32_OPERAND_DSP_S2_SEL : ++ fields->f_dsp_S2_sel = value; ++ break; ++ case UBICOM32_OPERAND_DSP_C : ++ fields->f_dsp_C = value; ++ break; ++ case UBICOM32_OPERAND_DSP_DESTA : ++ fields->f_dsp_destA = value; ++ break; ++ case UBICOM32_OPERAND_DSP_T : ++ fields->f_dsp_T = value; ++ break; ++ case UBICOM32_OPERAND_DSP_T_ADDSUB : ++ fields->f_dsp_T = value; ++ break; ++ case UBICOM32_OPERAND_IMM16_1 : ++ fields->f_imm16_1 = value; ++ break; ++ case UBICOM32_OPERAND_IMM16_2 : ++ fields->f_imm16_2 = value; ++ break; ++ case UBICOM32_OPERAND_IMM24 : ++ fields->f_imm24 = value; ++ break; ++ case UBICOM32_OPERAND_INTERRUPT : ++ fields->f_int = value; ++ break; ++ case UBICOM32_OPERAND_IREAD : ++ break; ++ case UBICOM32_OPERAND_IRQ_0 : ++ break; ++ case UBICOM32_OPERAND_IRQ_1 : ++ break; ++ case UBICOM32_OPERAND_MACHI : ++ break; ++ case UBICOM32_OPERAND_MACLO : ++ break; ++ case UBICOM32_OPERAND_OFFSET16 : ++ fields->f_o16 = value; ++ break; ++ case UBICOM32_OPERAND_OFFSET21 : ++ fields->f_o21 = value; ++ break; ++ case UBICOM32_OPERAND_OFFSET24 : ++ fields->f_o24 = value; ++ break; ++ case UBICOM32_OPERAND_OPC1 : ++ fields->f_op1 = value; ++ break; ++ case UBICOM32_OPERAND_OPC2 : ++ fields->f_op2 = value; ++ break; ++ case UBICOM32_OPERAND_PDEC_S1_IMM7_4 : ++ fields->f_s1_imm7_4 = value; ++ break; ++ case UBICOM32_OPERAND_S1_AN : ++ fields->f_s1_An = value; ++ break; ++ case UBICOM32_OPERAND_S1_DIRECT_ADDR : ++ fields->f_s1_direct = value; ++ break; ++ case UBICOM32_OPERAND_S1_I4_1 : ++ fields->f_s1_i4_1 = value; ++ break; ++ case UBICOM32_OPERAND_S1_I4_2 : ++ fields->f_s1_i4_2 = value; ++ break; ++ case UBICOM32_OPERAND_S1_I4_4 : ++ fields->f_s1_i4_4 = value; ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_1 : ++ fields->f_s1_imm7_1 = value; ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_2 : ++ fields->f_s1_imm7_2 = value; ++ break; ++ case UBICOM32_OPERAND_S1_IMM7_4 : ++ fields->f_s1_imm7_4 = value; ++ break; ++ case UBICOM32_OPERAND_S1_IMM8 : ++ fields->f_s1_imm8 = value; ++ break; ++ case UBICOM32_OPERAND_S1_R : ++ fields->f_s1_r = value; ++ break; ++ case UBICOM32_OPERAND_S2 : ++ fields->f_s2 = value; ++ break; ++ case UBICOM32_OPERAND_SRC3 : ++ break; ++ case UBICOM32_OPERAND_X_BIT26 : ++ fields->f_bit26 = value; ++ break; ++ case UBICOM32_OPERAND_X_D : ++ fields->f_d = value; ++ break; ++ case UBICOM32_OPERAND_X_DN : ++ fields->f_Dn = value; ++ break; ++ case UBICOM32_OPERAND_X_OP2 : ++ fields->f_op2 = value; ++ break; ++ case UBICOM32_OPERAND_X_S1 : ++ fields->f_s1 = value; ++ break; ++ ++ default : ++ /* xgettext:c-format */ ++ fprintf (stderr, _("Unrecognized field %d while setting vma operand.\n"), ++ opindex); ++ abort (); ++ } ++} ++ ++/* Function to call before using the instruction builder tables. */ ++ ++void ++ubicom32_cgen_init_ibld_table (CGEN_CPU_DESC cd) ++{ ++ cd->insert_handlers = & ubicom32_cgen_insert_handlers[0]; ++ cd->extract_handlers = & ubicom32_cgen_extract_handlers[0]; ++ ++ cd->insert_operand = ubicom32_cgen_insert_operand; ++ cd->extract_operand = ubicom32_cgen_extract_operand; ++ ++ cd->get_int_operand = ubicom32_cgen_get_int_operand; ++ cd->set_int_operand = ubicom32_cgen_set_int_operand; ++ cd->get_vma_operand = ubicom32_cgen_get_vma_operand; ++ cd->set_vma_operand = ubicom32_cgen_set_vma_operand; ++} +--- /dev/null ++++ b/opcodes/ubicom32-opc.c +@@ -0,0 +1,20075 @@ ++/* Instruction opcode table for ubicom32. ++ ++THIS FILE IS MACHINE GENERATED WITH CGEN. ++ ++Copyright 1996-2007 Free Software Foundation, Inc. ++ ++This file is part of the GNU Binutils and/or GDB, the GNU debugger. ++ ++ This file is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 3, or (at your option) ++ any later version. ++ ++ It is distributed in the hope that it will be useful, but WITHOUT ++ ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ++ or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public ++ License for more details. ++ ++ You should have received a copy of the GNU General Public License along ++ with this program; if not, write to the Free Software Foundation, Inc., ++ 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. ++ ++*/ ++ ++#include "sysdep.h" ++#include "ansidecl.h" ++#include "bfd.h" ++#include "symcat.h" ++#include "ubicom32-desc.h" ++#include "ubicom32-opc.h" ++#include "libiberty.h" ++ ++/* -- opc.c */ ++#include "safe-ctype.h" ++ ++unsigned int ++ubicom32_dis_hash (const char *buf, CGEN_INSN_INT value ATTRIBUTE_UNUSED) ++{ ++ unsigned int hash = (*buf >> 3); ++ return hash % CGEN_DIS_HASH_SIZE; ++} ++ ++ ++/* A better hash function for instruction mnemonics. */ ++unsigned int ++ubicom32_asm_hash (const char* insn) ++{ ++ unsigned int hash; ++ const char* m = insn; ++ ++ /* for certain instructions, the variations are coded as operands ++ and so only the mnemonic will have been used to seed the hash table. ++ Examples of this are the jmp family and the int instruction. ++ If we suspect we may have these instructions, just use the first 3 chars. ++ */ ++ if (*m == 'j' || *m == 'i' || *m=='m') ++ { ++ int i = 0; ++ for (hash = 0; *m && !ISSPACE(*m) && i < 3; m++, ++i) ++ hash = (hash * 23) ^ (0x1F & TOLOWER(*m)); ++ } ++ else ++ { ++ for (hash = 0; *m && !ISSPACE(*m); m++) ++ hash = (hash * 23) ^ (0x1F & TOLOWER(*m)); ++ } ++ ++ /* printf ("%s %d\n", insn, (hash % CGEN_ASM_HASH_SIZE)); */ ++ ++ return hash % CGEN_ASM_HASH_SIZE; ++} ++ ++/* Special check to ensure that instruction exists for given machine. */ ++int ++ubicom32_cgen_insn_supported (CGEN_CPU_DESC cd, ++ const CGEN_INSN *insn) ++{ ++ int machs = CGEN_INSN_ATTR_VALUE (insn, CGEN_INSN_MACH); ++ ++ /* No mach attribute? Assume it's supported for all machs. */ ++ if (machs == 0) ++ return 1; ++ ++ return ((machs & cd->machs) != 0); ++} ++ ++/* -- asm.c */ ++/* The hash functions are recorded here to help keep assembler code out of ++ the disassembler and vice versa. */ ++ ++static int asm_hash_insn_p (const CGEN_INSN *); ++static unsigned int asm_hash_insn (const char *); ++static int dis_hash_insn_p (const CGEN_INSN *); ++static unsigned int dis_hash_insn (const char *, CGEN_INSN_INT); ++ ++/* Instruction formats. */ ++ ++#if defined (__STDC__) || defined (ALMOST_STDC) || defined (HAVE_STRINGIZE) ++#define F(f) & ubicom32_cgen_ifld_table[UBICOM32_##f] ++#else ++#define F(f) & ubicom32_cgen_ifld_table[UBICOM32_/**/f] ++#endif ++static const CGEN_IFMT ifmt_empty ATTRIBUTE_UNUSED = { ++ 0, 0, 0x0, { { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_direct_dsp_src2_data_reg_addsub2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_immediate_dsp_src2_data_reg_addsub2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_indirect_with_index_2_dsp_src2_data_reg_addsub2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_indirect_with_offset_2_dsp_src2_data_reg_addsub2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_indirect_2_dsp_src2_data_reg_addsub2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe6871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_indirect_with_post_increment_2_dsp_src2_data_reg_addsub2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_indirect_with_pre_increment_2_dsp_src2_data_reg_addsub2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_direct_dsp_src2_reg_acc_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_immediate_dsp_src2_reg_acc_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_indirect_with_index_2_dsp_src2_reg_acc_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_indirect_with_offset_2_dsp_src2_reg_acc_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_indirect_2_dsp_src2_reg_acc_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe6871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_indirect_with_post_increment_2_dsp_src2_reg_acc_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_indirect_with_pre_increment_2_dsp_src2_reg_acc_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_direct_dsp_imm_bit5_addsub2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe60700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_immediate_dsp_imm_bit5_addsub2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe60700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_indirect_with_index_2_dsp_imm_bit5_addsub2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe60700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_indirect_with_offset_2_dsp_imm_bit5_addsub2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe60400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_indirect_2_dsp_imm_bit5_addsub2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe6071f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_indirect_with_post_increment_2_dsp_imm_bit5_addsub2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe60710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_2_s1_indirect_with_pre_increment_2_dsp_imm_bit5_addsub2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe60710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_direct_dsp_src2_data_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_immediate_dsp_src2_data_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_indirect_with_index_4_dsp_src2_data_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_indirect_with_offset_4_dsp_src2_data_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee8400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_indirect_4_dsp_src2_data_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_indirect_with_post_increment_4_dsp_src2_data_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_indirect_with_pre_increment_4_dsp_src2_data_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_direct_dsp_src2_reg_acc_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_immediate_dsp_src2_reg_acc_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_indirect_with_index_4_dsp_src2_reg_acc_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_indirect_with_offset_4_dsp_src2_reg_acc_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee8400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_indirect_4_dsp_src2_reg_acc_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_indirect_with_post_increment_4_dsp_src2_reg_acc_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_indirect_with_pre_increment_4_dsp_src2_reg_acc_reg_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_direct_dsp_imm_bit5_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee0700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_immediate_dsp_imm_bit5_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee0700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_indirect_with_index_4_dsp_imm_bit5_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee0700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_indirect_with_offset_4_dsp_imm_bit5_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee0400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_indirect_4_dsp_imm_bit5_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee071f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_indirect_with_post_increment_4_dsp_imm_bit5_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee0710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msub_4_s1_indirect_with_pre_increment_4_dsp_imm_bit5_addsub ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffee0710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_direct_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_immediate_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_indirect_2_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe6871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_direct_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_immediate_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_indirect_2_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe6871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe68710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_direct_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe60700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_immediate_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe60700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe60700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe60400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_indirect_2_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe6071f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe60710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe60710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_direct_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_immediate_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_indirect_with_index_4_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_indirect_with_offset_4_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe8400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_indirect_4_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_indirect_with_post_increment_4_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_indirect_with_pre_increment_4_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_direct_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_immediate_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_indirect_with_index_4_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_indirect_with_offset_4_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe8400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_indirect_4_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_indirect_with_post_increment_4_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_indirect_with_pre_increment_4_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_direct_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe0700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_immediate_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe0700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_indirect_with_index_4_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe0700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_indirect_with_offset_4_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe0400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_indirect_4_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe071f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_indirect_with_post_increment_4_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe0710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_4_s1_indirect_with_pre_increment_4_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffe0710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_direct_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_immediate_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_indirect_with_index_2_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_indirect_with_offset_2_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff68400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_indirect_2_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff6871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_indirect_with_post_increment_2_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff68710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_indirect_with_pre_increment_2_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff68710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_direct_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_immediate_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_indirect_with_index_2_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff68700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_indirect_with_offset_2_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff68400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_indirect_2_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff6871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_indirect_with_post_increment_2_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff68710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_indirect_with_pre_increment_2_dsp_src2_reg_acc_reg_mul ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff68710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_direct_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff60700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_immediate_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff60700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_indirect_with_index_2_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff60700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_indirect_with_offset_2_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff60400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_indirect_2_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff6071f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_indirect_with_post_increment_2_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff60710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_mulu_s1_indirect_with_pre_increment_2_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfff60710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_ierase_d_pea_indirect_with_index ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ffff, { { F (F_OP1) }, { F (F_OP2) }, { F (F_S1) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_ierase_d_pea_indirect_with_offset ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ffff, { { F (F_OP1) }, { F (F_OP2) }, { F (F_S1) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_ierase_d_pea_indirect ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fffff, { { F (F_OP1) }, { F (F_OP2) }, { F (F_S1) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_ierase_d_pea_indirect_with_post_increment ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ffff, { { F (F_OP1) }, { F (F_OP2) }, { F (F_S1) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_ierase_d_pea_indirect_with_pre_increment ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ffff, { { F (F_OP1) }, { F (F_OP2) }, { F (F_S1) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iread_s1_ea_indirect ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffffff1f, { { F (F_OP1) }, { F (F_D) }, { F (F_OP2) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iread_s1_ea_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffffff00, { { F (F_OP1) }, { F (F_D) }, { F (F_OP2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iread_s1_ea_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffffff10, { { F (F_OP1) }, { F (F_D) }, { F (F_OP2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iread_s1_ea_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffffff10, { { F (F_OP1) }, { F (F_D) }, { F (F_OP2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iread_s1_ea_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffffc00, { { F (F_OP1) }, { F (F_D) }, { F (F_OP2) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_index_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_offset_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_post_increment_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_index_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_offset_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_post_increment_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_index_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_offset_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_post_increment_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_index_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_offset_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1ffc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_post_increment_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_index_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_offset_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_post_increment_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_index_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_offset_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_post_increment_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_index_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_offset_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_post_increment_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_setcsr_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffffff00, { { F (F_OP1) }, { F (F_D) }, { F (F_OP2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_setcsr_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffffff00, { { F (F_OP1) }, { F (F_D) }, { F (F_OP2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_setcsr_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffffff00, { { F (F_OP1) }, { F (F_D) }, { F (F_OP2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_setcsr_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffffc00, { { F (F_OP1) }, { F (F_D) }, { F (F_OP2) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_setcsr_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffffff1f, { { F (F_OP1) }, { F (F_D) }, { F (F_OP2) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_setcsr_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffffff10, { { F (F_OP1) }, { F (F_D) }, { F (F_OP2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_setcsr_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffffff10, { { F (F_OP1) }, { F (F_D) }, { F (F_OP2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_direct_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_immediate_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_index_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_offset_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_post_increment_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_pre_increment_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_direct_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_immediate_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_index_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_offset_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_post_increment_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_pre_increment_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_direct_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_immediate_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_index_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_direct_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_immediate_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_index_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1ffc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_direct_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_immediate_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_index_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_offset_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_direct_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_immediate_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_index_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_direct_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_immediate_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_index_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_immediate_2_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_index_2_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_offset_2_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_2_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_post_increment_2_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_pre_increment_2_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_immediate_2_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_index_2_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_offset_2_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_2_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_post_increment_2_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_pre_increment_2_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_direct_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_immediate_2_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_2_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_direct_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_immediate_2_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_2_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1ffc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_direct_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_immediate_2_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_index_2_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_offset_2_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_2_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_direct_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_immediate_2_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_2_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_direct_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_immediate_2_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_2_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_immediate_1_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_index_1_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_offset_1_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_1_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_post_increment_1_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_pre_increment_1_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_immediate_1_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_index_1_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_offset_1_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_1_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_post_increment_1_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_pre_increment_1_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_direct_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_immediate_1_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_index_1_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_offset_1_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_1_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_post_increment_1_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_pre_increment_1_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_direct_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_immediate_1_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_index_1_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_offset_1_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_1_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1ffc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_post_increment_1_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_pre_increment_1_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_direct_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_immediate_1_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_index_1_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_offset_1_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_1_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_post_increment_1_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_pre_increment_1_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_direct_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_immediate_1_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_index_1_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_offset_1_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_1_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_post_increment_1_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_pre_increment_1_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_direct_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_immediate_1_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_index_1_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_offset_1_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_1_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_post_increment_1_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_move_1_d_indirect_with_pre_increment_1_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movei_d_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000000, { { F (F_OP1) }, { F (F_IMM16_2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movei_d_immediate_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000000, { { F (F_OP1) }, { F (F_IMM16_2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movei_d_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000000, { { F (F_OP1) }, { F (F_IMM16_2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movei_d_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc000000, { { F (F_OP1) }, { F (F_IMM16_2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movei_d_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f0000, { { F (F_OP1) }, { F (F_IMM16_2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movei_d_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff100000, { { F (F_OP1) }, { F (F_IMM16_2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_movei_d_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff100000, { { F (F_OP1) }, { F (F_IMM16_2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_direct_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_immediate_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_index_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_offset_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc000700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f0700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_post_increment_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff100700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_pre_increment_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff100700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_direct_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_immediate_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_index_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_offset_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc000700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f0700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_post_increment_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff100700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_pre_increment_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff100700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_direct_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_immediate_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_index_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_offset_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc000700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f0700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_post_increment_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff100700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_pre_increment_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff100700, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_direct_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000400, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_immediate_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000400, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_index_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000400, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_offset_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc000400, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f0400, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_post_increment_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff100400, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff100400, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_direct_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00071f, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_immediate_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00071f, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_index_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00071f, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_offset_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00071f, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f071f, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_post_increment_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10071f, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_pre_increment_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10071f, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_direct_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000710, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_immediate_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000710, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_index_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000710, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_offset_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc000710, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f0710, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff100710, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff100710, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_direct_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000710, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_immediate_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000710, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_index_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff000710, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc000710, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f0710, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff100710, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bclr_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff100710, { { F (F_OP1) }, { F (F_BIT5) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_btst_s1_direct_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_btst_s1_immediate_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_btst_s1_indirect_with_index_4_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_btst_s1_indirect_with_offset_4_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_btst_s1_indirect_4_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff071f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_btst_s1_indirect_with_post_increment_4_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_btst_s1_indirect_with_pre_increment_4_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_btst_s1_direct_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_btst_s1_immediate_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_btst_s1_indirect_with_index_4_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_btst_s1_indirect_with_offset_4_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_btst_s1_indirect_4_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_btst_s1_indirect_with_post_increment_4_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_btst_s1_indirect_with_pre_increment_4_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_2_imm_bit5_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_2_dyn_reg_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_2_imm_bit5_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_2_dyn_reg_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_2_imm_bit5_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_2_dyn_reg_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_2_imm_bit5_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_2_dyn_reg_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_2_imm_bit5_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe0071f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_2_dyn_reg_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe0871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_2_imm_bit5_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_2_dyn_reg_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_2_imm_bit5_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_2_dyn_reg_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_1_imm_bit5_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_1_dyn_reg_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_1_imm_bit5_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_1_dyn_reg_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_1_imm_bit5_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe0071f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_1_dyn_reg_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe0871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_1_imm_bit5_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_1_dyn_reg_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_1_imm_bit5_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_shmrg_1_dyn_reg_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_crcgen_s1_indirect_with_index_1_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_crcgen_s1_indirect_with_offset_1_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_crcgen_s1_indirect_1_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff071f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_crcgen_s1_indirect_with_post_increment_1_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_crcgen_s1_indirect_with_pre_increment_1_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_crcgen_s1_indirect_with_index_1_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_crcgen_s1_indirect_with_offset_1_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_crcgen_s1_indirect_1_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_crcgen_s1_indirect_with_post_increment_1_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_crcgen_s1_indirect_with_pre_increment_1_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bfextu_s1_direct_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bfextu_s1_immediate_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bfextu_s1_indirect_with_index_4_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bfextu_s1_indirect_with_offset_4_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bfextu_s1_indirect_4_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe0071f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bfextu_s1_indirect_with_post_increment_4_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bfextu_s1_indirect_with_pre_increment_4_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bfextu_s1_direct_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bfextu_s1_immediate_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bfextu_s1_indirect_with_index_4_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bfextu_s1_indirect_with_offset_4_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bfextu_s1_indirect_4_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe0871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bfextu_s1_indirect_with_post_increment_4_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_bfextu_s1_indirect_with_pre_increment_4_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_asr_4_imm_bit5_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_asr_4_dyn_reg_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_asr_4_imm_bit5_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_asr_4_dyn_reg_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_asr_4_imm_bit5_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe0071f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_asr_4_dyn_reg_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe0871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_asr_4_imm_bit5_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_asr_4_dyn_reg_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_asr_4_imm_bit5_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe00710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_BIT5) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_asr_4_dyn_reg_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_compatibility_mac_s1_direct_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_compatibility_mac_s1_immediate_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_compatibility_mac_s1_indirect_with_index_2_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_compatibility_mac_s1_indirect_with_offset_2_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_compatibility_mac_s1_indirect_2_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_compatibility_mac_s1_indirect_with_post_increment_2_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_compatibility_mac_s1_indirect_with_pre_increment_2_dsp_src2_data_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_B15) }, { F (F_BIT26) }, { F (F_DSP_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_compatibility_mac_s1_direct_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_compatibility_mac_s1_immediate_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_compatibility_mac_s1_indirect_with_index_2_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_compatibility_mac_s1_indirect_with_offset_2_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_compatibility_mac_s1_indirect_2_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff071f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_compatibility_mac_s1_indirect_with_post_increment_2_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_compatibility_mac_s1_indirect_with_pre_increment_2_dsp_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_mac_s1_indirect_with_index_2_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_mac_s1_indirect_with_offset_2_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_mac_s1_indirect_2_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff071f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_mac_s1_indirect_with_post_increment_2_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_mac_s1_indirect_with_pre_increment_2_imm_bit5 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff0710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_BIT5) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_mac_s1_indirect_with_index_2_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8700, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_mac_s1_indirect_with_offset_2_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8400, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_mac_s1_indirect_2_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff871f, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_mac_s1_indirect_with_post_increment_2_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_mac_s1_indirect_with_pre_increment_2_dyn_reg ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffff8710, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { F (F_BIT26) }, { F (F_B15) }, { F (F_S2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pdec_d_direct_pdec_s1_ea_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pdec_d_immediate_4_pdec_s1_ea_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pdec_d_indirect_with_index_4_pdec_s1_ea_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pdec_d_indirect_with_offset_4_pdec_s1_ea_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pdec_d_indirect_4_pdec_s1_ea_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1ffc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pdec_d_indirect_with_post_increment_4_pdec_s1_ea_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pdec_d_indirect_with_pre_increment_4_pdec_s1_ea_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_direct_s1_ea_indirect ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_immediate_4_s1_ea_indirect ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_index_4_s1_ea_indirect ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_offset_4_s1_ea_indirect ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_4_s1_ea_indirect ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_indirect ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_indirect ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_direct_s1_ea_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_immediate_4_s1_ea_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_index_4_s1_ea_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_offset_4_s1_ea_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_4_s1_ea_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1ffc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_direct_s1_ea_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_immediate_4_s1_ea_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_index_4_s1_ea_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_offset_4_s1_ea_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_4_s1_ea_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_direct_s1_ea_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_immediate_4_s1_ea_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_index_4_s1_ea_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_offset_4_s1_ea_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_4_s1_ea_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_direct_s1_ea_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_immediate_4_s1_ea_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_index_4_s1_ea_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_offset_4_s1_ea_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_4_s1_ea_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_direct_s1_ea_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_immediate_4_s1_ea_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_index_4_s1_ea_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_offset_4_s1_ea_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_4_s1_ea_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_direct_s1_ea_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_immediate_4_s1_ea_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_index_4_s1_ea_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_offset_4_s1_ea_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_4_s1_ea_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1ffc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_post_increment_4_s1_ea_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_pre_increment_4_s1_ea_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_direct_s1_ea_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_immediate_4_s1_ea_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_index_4_s1_ea_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_offset_4_s1_ea_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_4_s1_ea_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_post_increment_4_s1_ea_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_pre_increment_4_s1_ea_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_direct_s1_ea_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_immediate_4_s1_ea_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_index_4_s1_ea_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_offset_4_s1_ea_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_4_s1_ea_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_post_increment_4_s1_ea_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_pre_increment_4_s1_ea_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_direct_s1_ea_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_immediate_4_s1_ea_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_index_4_s1_ea_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_offset_4_s1_ea_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_4_s1_ea_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_post_increment_4_s1_ea_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_2_d_indirect_with_pre_increment_4_s1_ea_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_direct_s1_ea_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_immediate_4_s1_ea_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_index_4_s1_ea_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_offset_4_s1_ea_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_4_s1_ea_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1ffc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_post_increment_4_s1_ea_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_pre_increment_4_s1_ea_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_direct_s1_ea_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_immediate_4_s1_ea_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_index_4_s1_ea_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_offset_4_s1_ea_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_4_s1_ea_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_post_increment_4_s1_ea_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_pre_increment_4_s1_ea_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_direct_s1_ea_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_immediate_4_s1_ea_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_index_4_s1_ea_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_offset_4_s1_ea_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_4_s1_ea_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_post_increment_4_s1_ea_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_pre_increment_4_s1_ea_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_direct_s1_ea_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_immediate_4_s1_ea_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_index_4_s1_ea_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_offset_4_s1_ea_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_4_s1_ea_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_post_increment_4_s1_ea_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_lea_1_d_indirect_with_pre_increment_4_s1_ea_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_cmpi_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xf8000700, { { F (F_OP1) }, { F (F_IMM16_1) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_cmpi_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xf8000700, { { F (F_OP1) }, { F (F_IMM16_1) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_cmpi_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xf8000700, { { F (F_OP1) }, { F (F_IMM16_1) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_cmpi_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xf8000400, { { F (F_OP1) }, { F (F_IMM16_1) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_cmpi_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xf800071f, { { F (F_OP1) }, { F (F_IMM16_1) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_cmpi_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xf8000710, { { F (F_OP1) }, { F (F_IMM16_1) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_cmpi_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xf8000710, { { F (F_OP1) }, { F (F_IMM16_1) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_direct_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_immediate_2_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_index_2_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_offset_2_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_2_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_direct_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_immediate_2_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_index_2_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_offset_2_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_2_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_direct_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_immediate_2_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_index_2_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_offset_2_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_2_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_direct_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_immediate_2_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_index_2_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_offset_2_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_2_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_direct_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_immediate_2_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_index_2_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_offset_2_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_2_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_direct_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_immediate_2_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_index_2_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_offset_2_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_2_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_direct_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_immediate_2_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_index_2_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_offset_2_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_2_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxhi_s_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08700, { { F (F_OP1) }, { F (F_BIT26) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxhi_s_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08700, { { F (F_OP1) }, { F (F_BIT26) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxhi_s_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08700, { { F (F_OP1) }, { F (F_BIT26) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxhi_s_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08400, { { F (F_OP1) }, { F (F_BIT26) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxhi_s_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe0871f, { { F (F_OP1) }, { F (F_BIT26) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxhi_s_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08710, { { F (F_OP1) }, { F (F_BIT26) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxhi_s_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffe08710, { { F (F_OP1) }, { F (F_BIT26) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_B15) }, { F (F_S2) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_immediate_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_index_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_offset_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_immediate_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_index_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_offset_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_immediate_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_immediate_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_immediate_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_immediate_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_immediate_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_4) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_immediate_2_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_index_2_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_offset_2_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_2_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_post_increment_2_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_pre_increment_2_s1_indirect_with_index_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_immediate_2_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_index_2_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_offset_2_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_2_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1ffc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_post_increment_2_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_pre_increment_2_s1_indirect_with_offset_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10fc00, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_immediate_2_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_index_2_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_offset_2_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_2_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_post_increment_2_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_pre_increment_2_s1_indirect_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff1f, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_immediate_2_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_index_2_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_offset_2_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_2_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_immediate_2_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_index_2_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_offset_2_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_2_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1fff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_pxcnv_t_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_4 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10ff10, { { F (F_OP1) }, { F (F_OP2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_4) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_immediate_1_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_index_1_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_offset_1_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_1_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_post_increment_1_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_pre_increment_1_s1_direct ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_DIRECT) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_immediate_1_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_index_1_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_offset_1_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_1_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_post_increment_1_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_pre_increment_1_s1_immediate ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_IMM8) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_direct_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_immediate_1_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_1_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_index_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_direct_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_immediate_1_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_1_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_offset_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_direct_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_immediate_1_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_index_1_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_1_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_direct_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_immediate_1_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_1_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_post_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_direct_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_immediate_1_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_1_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_pre_increment_1 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_1) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_1) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_direct_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_immediate_2_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_2_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_index_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108700, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_R) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_direct_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_immediate_2_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_2_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_offset_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108400, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_direct_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_immediate_2_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_index_2_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff00871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc00871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_2_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff10871f, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_IMM7_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_direct_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_immediate_2_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_2_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_direct_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_DIRECT) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_immediate_2_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_IMM8) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_R) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfc008710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_2_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff1f8710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_IMM7_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_2 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xff108710, { { F (F_OP1) }, { F (F_B15) }, { F (F_S2) }, { F (F_D_BIT10) }, { F (F_D_TYPE) }, { F (F_D_M) }, { F (F_D_I4_2) }, { F (F_D_AN) }, { F (F_S1_BIT10) }, { F (F_S1_TYPE) }, { F (F_S1_M) }, { F (F_S1_I4_2) }, { F (F_S1_AN) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_moveai ATTRIBUTE_UNUSED = { ++ 32, 32, 0xf8000000, { { F (F_OP1) }, { F (F_AN) }, { F (F_IMM24) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_nop_insn ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffffffff, { { F (F_OP1) }, { F (F_D) }, { F (F_IMM16_2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_jmpcc ATTRIBUTE_UNUSED = { ++ 32, 32, 0xf8000000, { { F (F_OP1) }, { F (F_COND) }, { F (F_P) }, { F (F_C) }, { F (F_O21) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_call ATTRIBUTE_UNUSED = { ++ 32, 32, 0xf8000000, { { F (F_OP1) }, { F (F_AN) }, { F (F_O24) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_calli ATTRIBUTE_UNUSED = { ++ 32, 32, 0xf800f800, { { F (F_OP1) }, { F (F_AN) }, { F (F_BIT5) }, { F (F_AM) }, { F (F_O16) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_suspend ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffffffff, { { F (F_OP1) }, { F (F_D) }, { F (F_OP2) }, { F (F_S1) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_clracc ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffeffff, { { F (F_OP1) }, { F (F_BIT26) }, { F (F_OPEXT) }, { F (F_DSP_C) }, { F (F_DSP_T) }, { F (F_DSP_S2_SEL) }, { F (F_DSP_R) }, { F (F_DSP_DESTA) }, { F (F_BIT5) }, { F (F_S1) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_unused_00_11 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xf800f800, { { F (F_OP1) }, { F (F_D) }, { F (F_OP2) }, { F (F_S1) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_unused_02_04 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfbe00000, { { F (F_OP1) }, { F (F_BIT26) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_OP2) }, { F (F_S1) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_unused_01 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xf8000000, { { F (F_OP1) }, { F (F_D) }, { F (F_OP2) }, { F (F_S1) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_unused_DSP_06 ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfbe00000, { { F (F_OP1) }, { F (F_BIT26) }, { F (F_OPEXT) }, { F (F_DN) }, { F (F_OP2) }, { F (F_S1) }, { 0 } } ++}; ++ ++#undef F ++ ++#if defined (__STDC__) || defined (ALMOST_STDC) || defined (HAVE_STRINGIZE) ++#define A(a) (1 << CGEN_INSN_##a) ++#else ++#define A(a) (1 << CGEN_INSN_/**/a) ++#endif ++#if defined (__STDC__) || defined (ALMOST_STDC) || defined (HAVE_STRINGIZE) ++#define OPERAND(op) UBICOM32_OPERAND_##op ++#else ++#define OPERAND(op) UBICOM32_OPERAND_/**/op ++#endif ++#define MNEM CGEN_SYNTAX_MNEMONIC /* syntax value for mnemonic */ ++#define OP(field) CGEN_SYNTAX_MAKE_FIELD (OPERAND (field)) ++ ++/* The instruction table. */ ++ ++static const CGEN_OPCODE ubicom32_cgen_insn_opcode_table[MAX_INSNS] = ++{ ++ /* Special null first entry. ++ A `num' value of zero is thus invalid. ++ Also, the special `invalid' insn resides here. */ ++ { { 0, 0, 0, 0 }, {{0}}, 0, {0}}, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-direct-addr},${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_direct_dsp_src2_data_reg_addsub2, { 0x36600100 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},#${s1-imm8},${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_immediate_dsp_src2_data_reg_addsub2, { 0x36600000 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_index_2_dsp_src2_data_reg_addsub2, { 0x36600300 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_offset_2_dsp_src2_data_reg_addsub2, { 0x36600400 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An}),${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_2_dsp_src2_data_reg_addsub2, { 0x36600400 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_post_increment_2_dsp_src2_data_reg_addsub2, { 0x36600200 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_pre_increment_2_dsp_src2_data_reg_addsub2, { 0x36600210 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-direct-addr},${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_direct_dsp_src2_reg_acc_reg_addsub, { 0x36640100 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},#${s1-imm8},${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_immediate_dsp_src2_reg_acc_reg_addsub, { 0x36640000 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_index_2_dsp_src2_reg_acc_reg_addsub, { 0x36640300 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_offset_2_dsp_src2_reg_acc_reg_addsub, { 0x36640400 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An}),${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_2_dsp_src2_reg_acc_reg_addsub, { 0x36640400 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_post_increment_2_dsp_src2_reg_acc_reg_addsub, { 0x36640200 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_pre_increment_2_dsp_src2_reg_acc_reg_addsub, { 0x36640210 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-direct-addr},#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_direct_dsp_imm_bit5_addsub2, { 0x32600100 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},#${s1-imm8},#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_immediate_dsp_imm_bit5_addsub2, { 0x32600000 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An},${s1-r}),#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_index_2_dsp_imm_bit5_addsub2, { 0x32600300 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-imm7-2}(${s1-An}),#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_offset_2_dsp_imm_bit5_addsub2, { 0x32600400 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An}),#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_2_dsp_imm_bit5_addsub2, { 0x32600400 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An})${s1-i4-2}++,#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_post_increment_2_dsp_imm_bit5_addsub2, { 0x32600200 } ++ }, ++/* msub.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-i4-2}(${s1-An})++,#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_pre_increment_2_dsp_imm_bit5_addsub2, { 0x32600210 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},${s1-direct-addr},${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_direct_dsp_src2_data_reg_addsub, { 0x36400100 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},#${s1-imm8},${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_immediate_dsp_src2_data_reg_addsub, { 0x36400000 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_index_4_dsp_src2_data_reg_addsub, { 0x36400300 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},${s1-imm7-4}(${s1-An}),${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_offset_4_dsp_src2_data_reg_addsub, { 0x36400400 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},(${s1-An}),${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_4_dsp_src2_data_reg_addsub, { 0x36400400 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},(${s1-An})${s1-i4-4}++,${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_post_increment_4_dsp_src2_data_reg_addsub, { 0x36400200 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},${s1-i4-4}(${s1-An})++,${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_pre_increment_4_dsp_src2_data_reg_addsub, { 0x36400210 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},${s1-direct-addr},${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_direct_dsp_src2_reg_acc_reg_addsub, { 0x36440100 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},#${s1-imm8},${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_immediate_dsp_src2_reg_acc_reg_addsub, { 0x36440000 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_index_4_dsp_src2_reg_acc_reg_addsub, { 0x36440300 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},${s1-imm7-4}(${s1-An}),${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_offset_4_dsp_src2_reg_acc_reg_addsub, { 0x36440400 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},(${s1-An}),${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_4_dsp_src2_reg_acc_reg_addsub, { 0x36440400 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},(${s1-An})${s1-i4-4}++,${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_post_increment_4_dsp_src2_reg_acc_reg_addsub, { 0x36440200 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},${s1-i4-4}(${s1-An})++,${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_pre_increment_4_dsp_src2_reg_acc_reg_addsub, { 0x36440210 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},${s1-direct-addr},#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_direct_dsp_imm_bit5_addsub, { 0x32400100 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},#${s1-imm8},#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_immediate_dsp_imm_bit5_addsub, { 0x32400000 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},(${s1-An},${s1-r}),#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_index_4_dsp_imm_bit5_addsub, { 0x32400300 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},${s1-imm7-4}(${s1-An}),#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_offset_4_dsp_imm_bit5_addsub, { 0x32400400 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},(${s1-An}),#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_4_dsp_imm_bit5_addsub, { 0x32400400 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},(${s1-An})${s1-i4-4}++,#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_post_increment_4_dsp_imm_bit5_addsub, { 0x32400200 } ++ }, ++/* msub.4${dsp-c} ${dsp-destA},${s1-i4-4}(${s1-An})++,#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_pre_increment_4_dsp_imm_bit5_addsub, { 0x32400210 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-direct-addr},${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_direct_dsp_src2_data_reg_addsub2, { 0x36200100 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},#${s1-imm8},${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_immediate_dsp_src2_data_reg_addsub2, { 0x36200000 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_index_2_dsp_src2_data_reg_addsub2, { 0x36200300 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_offset_2_dsp_src2_data_reg_addsub2, { 0x36200400 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An}),${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_2_dsp_src2_data_reg_addsub2, { 0x36200400 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_post_increment_2_dsp_src2_data_reg_addsub2, { 0x36200200 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_pre_increment_2_dsp_src2_data_reg_addsub2, { 0x36200210 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-direct-addr},${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_direct_dsp_src2_reg_acc_reg_addsub, { 0x36240100 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},#${s1-imm8},${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_immediate_dsp_src2_reg_acc_reg_addsub, { 0x36240000 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_index_2_dsp_src2_reg_acc_reg_addsub, { 0x36240300 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_offset_2_dsp_src2_reg_acc_reg_addsub, { 0x36240400 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An}),${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_2_dsp_src2_reg_acc_reg_addsub, { 0x36240400 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_post_increment_2_dsp_src2_reg_acc_reg_addsub, { 0x36240200 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_pre_increment_2_dsp_src2_reg_acc_reg_addsub, { 0x36240210 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-direct-addr},#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_direct_dsp_imm_bit5_addsub2, { 0x32200100 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},#${s1-imm8},#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_immediate_dsp_imm_bit5_addsub2, { 0x32200000 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An},${s1-r}),#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_index_2_dsp_imm_bit5_addsub2, { 0x32200300 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-imm7-2}(${s1-An}),#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_offset_2_dsp_imm_bit5_addsub2, { 0x32200400 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An}),#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_2_dsp_imm_bit5_addsub2, { 0x32200400 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},(${s1-An})${s1-i4-2}++,#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_post_increment_2_dsp_imm_bit5_addsub2, { 0x32200200 } ++ }, ++/* madd.2${dsp-c}${dsp-t-addsub} ${dsp-destA},${s1-i4-2}(${s1-An})++,#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T_ADDSUB), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_2_s1_indirect_with_pre_increment_2_dsp_imm_bit5_addsub2, { 0x32200210 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},${s1-direct-addr},${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_direct_dsp_src2_data_reg_addsub, { 0x36000100 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},#${s1-imm8},${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_immediate_dsp_src2_data_reg_addsub, { 0x36000000 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_index_4_dsp_src2_data_reg_addsub, { 0x36000300 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},${s1-imm7-4}(${s1-An}),${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_offset_4_dsp_src2_data_reg_addsub, { 0x36000400 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},(${s1-An}),${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_4_dsp_src2_data_reg_addsub, { 0x36000400 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},(${s1-An})${s1-i4-4}++,${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_post_increment_4_dsp_src2_data_reg_addsub, { 0x36000200 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},${s1-i4-4}(${s1-An})++,${dsp-S2-data-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_pre_increment_4_dsp_src2_data_reg_addsub, { 0x36000210 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},${s1-direct-addr},${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_direct_dsp_src2_reg_acc_reg_addsub, { 0x36040100 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},#${s1-imm8},${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_immediate_dsp_src2_reg_acc_reg_addsub, { 0x36040000 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_index_4_dsp_src2_reg_acc_reg_addsub, { 0x36040300 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},${s1-imm7-4}(${s1-An}),${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_offset_4_dsp_src2_reg_acc_reg_addsub, { 0x36040400 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},(${s1-An}),${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_4_dsp_src2_reg_acc_reg_addsub, { 0x36040400 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},(${s1-An})${s1-i4-4}++,${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_post_increment_4_dsp_src2_reg_acc_reg_addsub, { 0x36040200 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},${s1-i4-4}(${s1-An})++,${dsp-S2-acc-reg-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_ACC_REG_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_pre_increment_4_dsp_src2_reg_acc_reg_addsub, { 0x36040210 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},${s1-direct-addr},#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_direct_dsp_imm_bit5_addsub, { 0x32000100 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},#${s1-imm8},#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_immediate_dsp_imm_bit5_addsub, { 0x32000000 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},(${s1-An},${s1-r}),#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_index_4_dsp_imm_bit5_addsub, { 0x32000300 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},${s1-imm7-4}(${s1-An}),#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_offset_4_dsp_imm_bit5_addsub, { 0x32000400 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},(${s1-An}),#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_4_dsp_imm_bit5_addsub, { 0x32000400 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},(${s1-An})${s1-i4-4}++,#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_post_increment_4_dsp_imm_bit5_addsub, { 0x32000200 } ++ }, ++/* madd.4${dsp-c} ${dsp-destA},${s1-i4-4}(${s1-An})++,#${bit5-addsub} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), ' ', OP (DSP_DESTA), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5_ADDSUB), 0 } }, ++ & ifmt_dsp_msub_4_s1_indirect_with_pre_increment_4_dsp_imm_bit5_addsub, { 0x32000210 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_src2_data_reg, { 0x35200100 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_src2_data_reg, { 0x35200000 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_src2_data_reg, { 0x35200300 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_src2_data_reg, { 0x35200400 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_src2_data_reg, { 0x35200400 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_src2_data_reg, { 0x35200200 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_src2_data_reg, { 0x35200210 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_src2_reg_acc_reg_mul, { 0x35240100 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_src2_reg_acc_reg_mul, { 0x35240000 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_src2_reg_acc_reg_mul, { 0x35240300 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_src2_reg_acc_reg_mul, { 0x35240400 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_src2_reg_acc_reg_mul, { 0x35240400 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_src2_reg_acc_reg_mul, { 0x35240200 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_src2_reg_acc_reg_mul, { 0x35240210 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_imm_bit5, { 0x31200100 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_imm_bit5, { 0x31200000 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_imm_bit5, { 0x31200300 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_imm_bit5, { 0x31200400 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_imm_bit5, { 0x31200400 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_imm_bit5, { 0x31200200 } ++ }, ++/* msuf${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_imm_bit5, { 0x31200210 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_src2_data_reg, { 0x34e00100 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_src2_data_reg, { 0x34e00000 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_src2_data_reg, { 0x34e00300 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_src2_data_reg, { 0x34e00400 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_src2_data_reg, { 0x34e00400 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_src2_data_reg, { 0x34e00200 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_src2_data_reg, { 0x34e00210 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_src2_reg_acc_reg_mul, { 0x34e40100 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_src2_reg_acc_reg_mul, { 0x34e40000 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_src2_reg_acc_reg_mul, { 0x34e40300 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_src2_reg_acc_reg_mul, { 0x34e40400 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_src2_reg_acc_reg_mul, { 0x34e40400 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_src2_reg_acc_reg_mul, { 0x34e40200 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_src2_reg_acc_reg_mul, { 0x34e40210 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_imm_bit5, { 0x30e00100 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_imm_bit5, { 0x30e00000 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_imm_bit5, { 0x30e00300 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_imm_bit5, { 0x30e00400 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_imm_bit5, { 0x30e00400 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_imm_bit5, { 0x30e00200 } ++ }, ++/* macus${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_imm_bit5, { 0x30e00210 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_src2_data_reg, { 0x34a00100 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_src2_data_reg, { 0x34a00000 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_src2_data_reg, { 0x34a00300 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_src2_data_reg, { 0x34a00400 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_src2_data_reg, { 0x34a00400 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_src2_data_reg, { 0x34a00200 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_src2_data_reg, { 0x34a00210 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_src2_reg_acc_reg_mul, { 0x34a40100 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_src2_reg_acc_reg_mul, { 0x34a40000 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_src2_reg_acc_reg_mul, { 0x34a40300 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_src2_reg_acc_reg_mul, { 0x34a40400 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_src2_reg_acc_reg_mul, { 0x34a40400 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_src2_reg_acc_reg_mul, { 0x34a40200 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_src2_reg_acc_reg_mul, { 0x34a40210 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_imm_bit5, { 0x30a00100 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_imm_bit5, { 0x30a00000 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_imm_bit5, { 0x30a00300 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_imm_bit5, { 0x30a00400 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_imm_bit5, { 0x30a00400 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_imm_bit5, { 0x30a00200 } ++ }, ++/* macf${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_imm_bit5, { 0x30a00210 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_src2_data_reg, { 0x34800100 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_src2_data_reg, { 0x34800000 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_src2_data_reg, { 0x34800300 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_src2_data_reg, { 0x34800400 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_src2_data_reg, { 0x34800400 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_src2_data_reg, { 0x34800200 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_src2_data_reg, { 0x34800210 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_src2_reg_acc_reg_mul, { 0x34840100 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_src2_reg_acc_reg_mul, { 0x34840000 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_src2_reg_acc_reg_mul, { 0x34840300 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_src2_reg_acc_reg_mul, { 0x34840400 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_src2_reg_acc_reg_mul, { 0x34840400 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_src2_reg_acc_reg_mul, { 0x34840200 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_src2_reg_acc_reg_mul, { 0x34840210 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_imm_bit5, { 0x30800100 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_imm_bit5, { 0x30800000 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_imm_bit5, { 0x30800300 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_imm_bit5, { 0x30800400 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_imm_bit5, { 0x30800400 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_imm_bit5, { 0x30800200 } ++ }, ++/* mulf${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_imm_bit5, { 0x30800210 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_src2_data_reg, { 0x34600100 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_src2_data_reg, { 0x34600000 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_src2_data_reg, { 0x34600300 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_src2_data_reg, { 0x34600400 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_src2_data_reg, { 0x34600400 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_src2_data_reg, { 0x34600200 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_src2_data_reg, { 0x34600210 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_src2_reg_acc_reg_mul, { 0x34640100 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_src2_reg_acc_reg_mul, { 0x34640000 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_src2_reg_acc_reg_mul, { 0x34640300 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_src2_reg_acc_reg_mul, { 0x34640400 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_src2_reg_acc_reg_mul, { 0x34640400 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_src2_reg_acc_reg_mul, { 0x34640200 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_src2_reg_acc_reg_mul, { 0x34640210 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_imm_bit5, { 0x30600100 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_imm_bit5, { 0x30600000 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_imm_bit5, { 0x30600300 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_imm_bit5, { 0x30600400 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_imm_bit5, { 0x30600400 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_imm_bit5, { 0x30600200 } ++ }, ++/* macu${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_imm_bit5, { 0x30600210 } ++ }, ++/* mulu.4 ${dsp-destA},${s1-direct-addr},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_4_s1_direct_dsp_src2_data_reg, { 0x35400100 } ++ }, ++/* mulu.4 ${dsp-destA},#${s1-imm8},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_4_s1_immediate_dsp_src2_data_reg, { 0x35400000 } ++ }, ++/* mulu.4 ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_index_4_dsp_src2_data_reg, { 0x35400300 } ++ }, ++/* mulu.4 ${dsp-destA},${s1-imm7-4}(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_offset_4_dsp_src2_data_reg, { 0x35400400 } ++ }, ++/* mulu.4 ${dsp-destA},(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_4_dsp_src2_data_reg, { 0x35400400 } ++ }, ++/* mulu.4 ${dsp-destA},(${s1-An})${s1-i4-4}++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_post_increment_4_dsp_src2_data_reg, { 0x35400200 } ++ }, ++/* mulu.4 ${dsp-destA},${s1-i4-4}(${s1-An})++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_pre_increment_4_dsp_src2_data_reg, { 0x35400210 } ++ }, ++/* mulu.4 ${dsp-destA},${s1-direct-addr},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_4_s1_direct_dsp_src2_reg_acc_reg_mul, { 0x35440100 } ++ }, ++/* mulu.4 ${dsp-destA},#${s1-imm8},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_4_s1_immediate_dsp_src2_reg_acc_reg_mul, { 0x35440000 } ++ }, ++/* mulu.4 ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_index_4_dsp_src2_reg_acc_reg_mul, { 0x35440300 } ++ }, ++/* mulu.4 ${dsp-destA},${s1-imm7-4}(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_offset_4_dsp_src2_reg_acc_reg_mul, { 0x35440400 } ++ }, ++/* mulu.4 ${dsp-destA},(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_4_dsp_src2_reg_acc_reg_mul, { 0x35440400 } ++ }, ++/* mulu.4 ${dsp-destA},(${s1-An})${s1-i4-4}++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_post_increment_4_dsp_src2_reg_acc_reg_mul, { 0x35440200 } ++ }, ++/* mulu.4 ${dsp-destA},${s1-i4-4}(${s1-An})++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_pre_increment_4_dsp_src2_reg_acc_reg_mul, { 0x35440210 } ++ }, ++/* mulu.4 ${dsp-destA},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_4_s1_direct_dsp_imm_bit5, { 0x31400100 } ++ }, ++/* mulu.4 ${dsp-destA},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_4_s1_immediate_dsp_imm_bit5, { 0x31400000 } ++ }, ++/* mulu.4 ${dsp-destA},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_index_4_dsp_imm_bit5, { 0x31400300 } ++ }, ++/* mulu.4 ${dsp-destA},${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_offset_4_dsp_imm_bit5, { 0x31400400 } ++ }, ++/* mulu.4 ${dsp-destA},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_4_dsp_imm_bit5, { 0x31400400 } ++ }, ++/* mulu.4 ${dsp-destA},(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_post_increment_4_dsp_imm_bit5, { 0x31400200 } ++ }, ++/* mulu.4 ${dsp-destA},${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_pre_increment_4_dsp_imm_bit5, { 0x31400210 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_s1_direct_dsp_src2_data_reg, { 0x34400100 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_s1_immediate_dsp_src2_data_reg, { 0x34400000 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_index_2_dsp_src2_data_reg, { 0x34400300 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_offset_2_dsp_src2_data_reg, { 0x34400400 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_2_dsp_src2_data_reg, { 0x34400400 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_post_increment_2_dsp_src2_data_reg, { 0x34400200 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_pre_increment_2_dsp_src2_data_reg, { 0x34400210 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_s1_direct_dsp_src2_reg_acc_reg_mul, { 0x34440100 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_s1_immediate_dsp_src2_reg_acc_reg_mul, { 0x34440000 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_index_2_dsp_src2_reg_acc_reg_mul, { 0x34440300 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_offset_2_dsp_src2_reg_acc_reg_mul, { 0x34440400 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_2_dsp_src2_reg_acc_reg_mul, { 0x34440400 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_post_increment_2_dsp_src2_reg_acc_reg_mul, { 0x34440200 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_pre_increment_2_dsp_src2_reg_acc_reg_mul, { 0x34440210 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_s1_direct_dsp_imm_bit5, { 0x30400100 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_s1_immediate_dsp_imm_bit5, { 0x30400000 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_index_2_dsp_imm_bit5, { 0x30400300 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_offset_2_dsp_imm_bit5, { 0x30400400 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_2_dsp_imm_bit5, { 0x30400400 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_post_increment_2_dsp_imm_bit5, { 0x30400200 } ++ }, ++/* mulu${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_pre_increment_2_dsp_imm_bit5, { 0x30400210 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_src2_data_reg, { 0x34200100 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_src2_data_reg, { 0x34200000 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_src2_data_reg, { 0x34200300 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_src2_data_reg, { 0x34200400 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_src2_data_reg, { 0x34200400 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_src2_data_reg, { 0x34200200 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_src2_data_reg, { 0x34200210 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_src2_reg_acc_reg_mul, { 0x34240100 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_src2_reg_acc_reg_mul, { 0x34240000 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_src2_reg_acc_reg_mul, { 0x34240300 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_src2_reg_acc_reg_mul, { 0x34240400 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_src2_reg_acc_reg_mul, { 0x34240400 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_src2_reg_acc_reg_mul, { 0x34240200 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_src2_reg_acc_reg_mul, { 0x34240210 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_direct_dsp_imm_bit5, { 0x30200100 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_immediate_dsp_imm_bit5, { 0x30200000 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_index_2_dsp_imm_bit5, { 0x30200300 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_offset_2_dsp_imm_bit5, { 0x30200400 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_2_dsp_imm_bit5, { 0x30200400 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_post_increment_2_dsp_imm_bit5, { 0x30200200 } ++ }, ++/* macs${dsp-c}${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_C), OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_msuf_s1_indirect_with_pre_increment_2_dsp_imm_bit5, { 0x30200210 } ++ }, ++/* muls.4 ${dsp-destA},${s1-direct-addr},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_4_s1_direct_dsp_src2_data_reg, { 0x35000100 } ++ }, ++/* muls.4 ${dsp-destA},#${s1-imm8},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_4_s1_immediate_dsp_src2_data_reg, { 0x35000000 } ++ }, ++/* muls.4 ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_index_4_dsp_src2_data_reg, { 0x35000300 } ++ }, ++/* muls.4 ${dsp-destA},${s1-imm7-4}(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_offset_4_dsp_src2_data_reg, { 0x35000400 } ++ }, ++/* muls.4 ${dsp-destA},(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_4_dsp_src2_data_reg, { 0x35000400 } ++ }, ++/* muls.4 ${dsp-destA},(${s1-An})${s1-i4-4}++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_post_increment_4_dsp_src2_data_reg, { 0x35000200 } ++ }, ++/* muls.4 ${dsp-destA},${s1-i4-4}(${s1-An})++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_pre_increment_4_dsp_src2_data_reg, { 0x35000210 } ++ }, ++/* muls.4 ${dsp-destA},${s1-direct-addr},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_4_s1_direct_dsp_src2_reg_acc_reg_mul, { 0x35040100 } ++ }, ++/* muls.4 ${dsp-destA},#${s1-imm8},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_4_s1_immediate_dsp_src2_reg_acc_reg_mul, { 0x35040000 } ++ }, ++/* muls.4 ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_index_4_dsp_src2_reg_acc_reg_mul, { 0x35040300 } ++ }, ++/* muls.4 ${dsp-destA},${s1-imm7-4}(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_offset_4_dsp_src2_reg_acc_reg_mul, { 0x35040400 } ++ }, ++/* muls.4 ${dsp-destA},(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_4_dsp_src2_reg_acc_reg_mul, { 0x35040400 } ++ }, ++/* muls.4 ${dsp-destA},(${s1-An})${s1-i4-4}++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_post_increment_4_dsp_src2_reg_acc_reg_mul, { 0x35040200 } ++ }, ++/* muls.4 ${dsp-destA},${s1-i4-4}(${s1-An})++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_pre_increment_4_dsp_src2_reg_acc_reg_mul, { 0x35040210 } ++ }, ++/* muls.4 ${dsp-destA},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_4_s1_direct_dsp_imm_bit5, { 0x31000100 } ++ }, ++/* muls.4 ${dsp-destA},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_4_s1_immediate_dsp_imm_bit5, { 0x31000000 } ++ }, ++/* muls.4 ${dsp-destA},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_index_4_dsp_imm_bit5, { 0x31000300 } ++ }, ++/* muls.4 ${dsp-destA},${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_offset_4_dsp_imm_bit5, { 0x31000400 } ++ }, ++/* muls.4 ${dsp-destA},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_4_dsp_imm_bit5, { 0x31000400 } ++ }, ++/* muls.4 ${dsp-destA},(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_post_increment_4_dsp_imm_bit5, { 0x31000200 } ++ }, ++/* muls.4 ${dsp-destA},${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_4_s1_indirect_with_pre_increment_4_dsp_imm_bit5, { 0x31000210 } ++ }, ++/* muls${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_s1_direct_dsp_src2_data_reg, { 0x34000100 } ++ }, ++/* muls${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_s1_immediate_dsp_src2_data_reg, { 0x34000000 } ++ }, ++/* muls${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_index_2_dsp_src2_data_reg, { 0x34000300 } ++ }, ++/* muls${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_offset_2_dsp_src2_data_reg, { 0x34000400 } ++ }, ++/* muls${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_2_dsp_src2_data_reg, { 0x34000400 } ++ }, ++/* muls${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_post_increment_2_dsp_src2_data_reg, { 0x34000200 } ++ }, ++/* muls${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_pre_increment_2_dsp_src2_data_reg, { 0x34000210 } ++ }, ++/* muls${dsp-t} ${dsp-destA},${s1-direct-addr},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_s1_direct_dsp_src2_reg_acc_reg_mul, { 0x34040100 } ++ }, ++/* muls${dsp-t} ${dsp-destA},#${s1-imm8},${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_s1_immediate_dsp_src2_reg_acc_reg_mul, { 0x34040000 } ++ }, ++/* muls${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_index_2_dsp_src2_reg_acc_reg_mul, { 0x34040300 } ++ }, ++/* muls${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_offset_2_dsp_src2_reg_acc_reg_mul, { 0x34040400 } ++ }, ++/* muls${dsp-t} ${dsp-destA},(${s1-An}),${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_2_dsp_src2_reg_acc_reg_mul, { 0x34040400 } ++ }, ++/* muls${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_post_increment_2_dsp_src2_reg_acc_reg_mul, { 0x34040200 } ++ }, ++/* muls${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,${dsp-S2-acc-reg-mul} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_ACC_REG_MUL), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_pre_increment_2_dsp_src2_reg_acc_reg_mul, { 0x34040210 } ++ }, ++/* muls${dsp-t} ${dsp-destA},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_s1_direct_dsp_imm_bit5, { 0x30000100 } ++ }, ++/* muls${dsp-t} ${dsp-destA},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_s1_immediate_dsp_imm_bit5, { 0x30000000 } ++ }, ++/* muls${dsp-t} ${dsp-destA},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_index_2_dsp_imm_bit5, { 0x30000300 } ++ }, ++/* muls${dsp-t} ${dsp-destA},${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_offset_2_dsp_imm_bit5, { 0x30000400 } ++ }, ++/* muls${dsp-t} ${dsp-destA},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_2_dsp_imm_bit5, { 0x30000400 } ++ }, ++/* muls${dsp-t} ${dsp-destA},(${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_post_increment_2_dsp_imm_bit5, { 0x30000200 } ++ }, ++/* muls${dsp-t} ${dsp-destA},${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (DSP_T), ' ', OP (DSP_DESTA), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_dsp_mulu_s1_indirect_with_pre_increment_2_dsp_imm_bit5, { 0x30000210 } ++ }, ++/* ierase (${d-An},${d-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', 0 } }, ++ & ifmt_ierase_d_pea_indirect_with_index, { 0x3002800 } ++ }, ++/* ierase ${d-imm7-4}(${d-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', 0 } }, ++ & ifmt_ierase_d_pea_indirect_with_offset, { 0x4002800 } ++ }, ++/* ierase (${d-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', 0 } }, ++ & ifmt_ierase_d_pea_indirect, { 0x4002800 } ++ }, ++/* ierase (${d-An})${d-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', 0 } }, ++ & ifmt_ierase_d_pea_indirect_with_post_increment, { 0x2002800 } ++ }, ++/* ierase ${d-i4-4}(${d-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', 0 } }, ++ & ifmt_ierase_d_pea_indirect_with_pre_increment, { 0x2102800 } ++ }, ++/* iread (${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iread_s1_ea_indirect, { 0x3400 } ++ }, ++/* iread (${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_iread_s1_ea_indirect_with_index_4, { 0x3300 } ++ }, ++/* iread (${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_iread_s1_ea_indirect_with_post_increment_4, { 0x3200 } ++ }, ++/* iread ${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_iread_s1_ea_indirect_with_pre_increment_4, { 0x3210 } ++ }, ++/* iread ${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iread_s1_ea_indirect_with_offset_4, { 0x3400 } ++ }, ++/* iwrite (${d-An},${d-r}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_index_s1_direct, { 0x3008100 } ++ }, ++/* iwrite ${d-imm7-4}(${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_offset_s1_direct, { 0x4008100 } ++ }, ++/* iwrite (${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_s1_direct, { 0x4008100 } ++ }, ++/* iwrite (${d-An})${d-i4-4}++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_post_increment_s1_direct, { 0x2008100 } ++ }, ++/* iwrite ${d-i4-4}(${d-An})++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_direct, { 0x2108100 } ++ }, ++/* iwrite (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_index_s1_immediate, { 0x3008000 } ++ }, ++/* iwrite ${d-imm7-4}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_offset_s1_immediate, { 0x4008000 } ++ }, ++/* iwrite (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_s1_immediate, { 0x4008000 } ++ }, ++/* iwrite (${d-An})${d-i4-4}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_post_increment_s1_immediate, { 0x2008000 } ++ }, ++/* iwrite ${d-i4-4}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_immediate, { 0x2108000 } ++ }, ++/* iwrite (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_index_s1_indirect_with_index_4, { 0x3008300 } ++ }, ++/* iwrite ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_offset_s1_indirect_with_index_4, { 0x4008300 } ++ }, ++/* iwrite (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_s1_indirect_with_index_4, { 0x4008300 } ++ }, ++/* iwrite (${d-An})${d-i4-4}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_post_increment_s1_indirect_with_index_4, { 0x2008300 } ++ }, ++/* iwrite ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_indirect_with_index_4, { 0x2108300 } ++ }, ++/* iwrite (${d-An},${d-r}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_index_s1_indirect_with_offset_4, { 0x3008400 } ++ }, ++/* iwrite ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_offset_s1_indirect_with_offset_4, { 0x4008400 } ++ }, ++/* iwrite (${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_s1_indirect_with_offset_4, { 0x4008400 } ++ }, ++/* iwrite (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_post_increment_s1_indirect_with_offset_4, { 0x2008400 } ++ }, ++/* iwrite ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_indirect_with_offset_4, { 0x2108400 } ++ }, ++/* iwrite (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_index_s1_indirect_4, { 0x3008400 } ++ }, ++/* iwrite ${d-imm7-4}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_offset_s1_indirect_4, { 0x4008400 } ++ }, ++/* iwrite (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_s1_indirect_4, { 0x4008400 } ++ }, ++/* iwrite (${d-An})${d-i4-4}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_post_increment_s1_indirect_4, { 0x2008400 } ++ }, ++/* iwrite ${d-i4-4}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_indirect_4, { 0x2108400 } ++ }, ++/* iwrite (${d-An},${d-r}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_index_s1_indirect_with_post_increment_4, { 0x3008200 } ++ }, ++/* iwrite ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_offset_s1_indirect_with_post_increment_4, { 0x4008200 } ++ }, ++/* iwrite (${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_s1_indirect_with_post_increment_4, { 0x4008200 } ++ }, ++/* iwrite (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_post_increment_s1_indirect_with_post_increment_4, { 0x2008200 } ++ }, ++/* iwrite ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_indirect_with_post_increment_4, { 0x2108200 } ++ }, ++/* iwrite (${d-An},${d-r}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_index_s1_indirect_with_pre_increment_4, { 0x3008210 } ++ }, ++/* iwrite ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_offset_s1_indirect_with_pre_increment_4, { 0x4008210 } ++ }, ++/* iwrite (${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_s1_indirect_with_pre_increment_4, { 0x4008210 } ++ }, ++/* iwrite (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_post_increment_s1_indirect_with_pre_increment_4, { 0x2008210 } ++ }, ++/* iwrite ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_indirect_with_pre_increment_4, { 0x2108210 } ++ }, ++/* setcsr ${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_setcsr_s1_direct, { 0x12d9100 } ++ }, ++/* setcsr #${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_setcsr_s1_immediate, { 0x12d9000 } ++ }, ++/* setcsr (${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_setcsr_s1_indirect_with_index_4, { 0x12d9300 } ++ }, ++/* setcsr ${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_setcsr_s1_indirect_with_offset_4, { 0x12d9400 } ++ }, ++/* setcsr (${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_setcsr_s1_indirect_4, { 0x12d9400 } ++ }, ++/* setcsr (${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_setcsr_s1_indirect_with_post_increment_4, { 0x12d9200 } ++ }, ++/* setcsr ${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_setcsr_s1_indirect_with_pre_increment_4, { 0x12d9210 } ++ }, ++/* bkpt ${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_setcsr_s1_direct, { 0x3900 } ++ }, ++/* bkpt #${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_setcsr_s1_immediate, { 0x3800 } ++ }, ++/* bkpt (${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_setcsr_s1_indirect_with_index_4, { 0x3b00 } ++ }, ++/* bkpt ${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_setcsr_s1_indirect_with_offset_4, { 0x3c00 } ++ }, ++/* bkpt (${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_setcsr_s1_indirect_4, { 0x3c00 } ++ }, ++/* bkpt (${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_setcsr_s1_indirect_with_post_increment_4, { 0x3a00 } ++ }, ++/* bkpt ${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_setcsr_s1_indirect_with_pre_increment_4, { 0x3a10 } ++ }, ++/* ret ${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_setcsr_s1_direct, { 0x2100 } ++ }, ++/* ret #${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_setcsr_s1_immediate, { 0x2000 } ++ }, ++/* ret (${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_setcsr_s1_indirect_with_index_4, { 0x2300 } ++ }, ++/* ret ${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_setcsr_s1_indirect_with_offset_4, { 0x2400 } ++ }, ++/* ret (${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_setcsr_s1_indirect_4, { 0x2400 } ++ }, ++/* ret (${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_setcsr_s1_indirect_with_post_increment_4, { 0x2200 } ++ }, ++/* ret ${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_setcsr_s1_indirect_with_pre_increment_4, { 0x2210 } ++ }, ++/* movea ${d-direct-addr},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_direct_s1_direct, { 0x1007100 } ++ }, ++/* movea #${d-imm8},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_immediate_4_s1_direct, { 0x7100 } ++ }, ++/* movea (${d-An},${d-r}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_direct, { 0x3007100 } ++ }, ++/* movea ${d-imm7-4}(${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_direct, { 0x4007100 } ++ }, ++/* movea (${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_4_s1_direct, { 0x4007100 } ++ }, ++/* movea (${d-An})${d-i4-4}++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_direct, { 0x2007100 } ++ }, ++/* movea ${d-i4-4}(${d-An})++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_direct, { 0x2107100 } ++ }, ++/* movea ${d-direct-addr},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_direct_s1_immediate, { 0x1007000 } ++ }, ++/* movea #${d-imm8},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_immediate_4_s1_immediate, { 0x7000 } ++ }, ++/* movea (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_immediate, { 0x3007000 } ++ }, ++/* movea ${d-imm7-4}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_immediate, { 0x4007000 } ++ }, ++/* movea (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_4_s1_immediate, { 0x4007000 } ++ }, ++/* movea (${d-An})${d-i4-4}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_immediate, { 0x2007000 } ++ }, ++/* movea ${d-i4-4}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_immediate, { 0x2107000 } ++ }, ++/* movea ${d-direct-addr},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_index_4, { 0x1007300 } ++ }, ++/* movea #${d-imm8},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_index_4, { 0x7300 } ++ }, ++/* movea (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_index_4, { 0x3007300 } ++ }, ++/* movea ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0x4007300 } ++ }, ++/* movea (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_index_4, { 0x4007300 } ++ }, ++/* movea (${d-An})${d-i4-4}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0x2007300 } ++ }, ++/* movea ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0x2107300 } ++ }, ++/* movea ${d-direct-addr},${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_offset_4, { 0x1007400 } ++ }, ++/* movea #${d-imm8},${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_offset_4, { 0x7400 } ++ }, ++/* movea (${d-An},${d-r}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0x3007400 } ++ }, ++/* movea ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0x4007400 } ++ }, ++/* movea (${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_offset_4, { 0x4007400 } ++ }, ++/* movea (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0x2007400 } ++ }, ++/* movea ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0x2107400 } ++ }, ++/* movea ${d-direct-addr},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_4, { 0x1007400 } ++ }, ++/* movea #${d-imm8},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_4, { 0x7400 } ++ }, ++/* movea (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_4, { 0x3007400 } ++ }, ++/* movea ${d-imm7-4}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_4, { 0x4007400 } ++ }, ++/* movea (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_4, { 0x4007400 } ++ }, ++/* movea (${d-An})${d-i4-4}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_4, { 0x2007400 } ++ }, ++/* movea ${d-i4-4}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_4, { 0x2107400 } ++ }, ++/* movea ${d-direct-addr},(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_post_increment_4, { 0x1007200 } ++ }, ++/* movea #${d-imm8},(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_post_increment_4, { 0x7200 } ++ }, ++/* movea (${d-An},${d-r}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0x3007200 } ++ }, ++/* movea ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0x4007200 } ++ }, ++/* movea (${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_post_increment_4, { 0x4007200 } ++ }, ++/* movea (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0x2007200 } ++ }, ++/* movea ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0x2107200 } ++ }, ++/* movea ${d-direct-addr},${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_pre_increment_4, { 0x1007210 } ++ }, ++/* movea #${d-imm8},${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_pre_increment_4, { 0x7210 } ++ }, ++/* movea (${d-An},${d-r}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0x3007210 } ++ }, ++/* movea ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0x4007210 } ++ }, ++/* movea (${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_pre_increment_4, { 0x4007210 } ++ }, ++/* movea (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0x2007210 } ++ }, ++/* movea ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0x2107210 } ++ }, ++/* move.4 ${d-direct-addr},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_direct_s1_direct, { 0x1006100 } ++ }, ++/* move.4 #${d-imm8},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_immediate_4_s1_direct, { 0x6100 } ++ }, ++/* move.4 (${d-An},${d-r}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_direct, { 0x3006100 } ++ }, ++/* move.4 ${d-imm7-4}(${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_direct, { 0x4006100 } ++ }, ++/* move.4 (${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_4_s1_direct, { 0x4006100 } ++ }, ++/* move.4 (${d-An})${d-i4-4}++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_direct, { 0x2006100 } ++ }, ++/* move.4 ${d-i4-4}(${d-An})++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_direct, { 0x2106100 } ++ }, ++/* move.4 ${d-direct-addr},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_direct_s1_immediate, { 0x1006000 } ++ }, ++/* move.4 #${d-imm8},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_immediate_4_s1_immediate, { 0x6000 } ++ }, ++/* move.4 (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_immediate, { 0x3006000 } ++ }, ++/* move.4 ${d-imm7-4}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_immediate, { 0x4006000 } ++ }, ++/* move.4 (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_4_s1_immediate, { 0x4006000 } ++ }, ++/* move.4 (${d-An})${d-i4-4}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_immediate, { 0x2006000 } ++ }, ++/* move.4 ${d-i4-4}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_immediate, { 0x2106000 } ++ }, ++/* move.4 ${d-direct-addr},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_index_4, { 0x1006300 } ++ }, ++/* move.4 #${d-imm8},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_index_4, { 0x6300 } ++ }, ++/* move.4 (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_index_4, { 0x3006300 } ++ }, ++/* move.4 ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0x4006300 } ++ }, ++/* move.4 (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_index_4, { 0x4006300 } ++ }, ++/* move.4 (${d-An})${d-i4-4}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0x2006300 } ++ }, ++/* move.4 ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0x2106300 } ++ }, ++/* move.4 ${d-direct-addr},${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_offset_4, { 0x1006400 } ++ }, ++/* move.4 #${d-imm8},${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_offset_4, { 0x6400 } ++ }, ++/* move.4 (${d-An},${d-r}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0x3006400 } ++ }, ++/* move.4 ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0x4006400 } ++ }, ++/* move.4 (${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_offset_4, { 0x4006400 } ++ }, ++/* move.4 (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0x2006400 } ++ }, ++/* move.4 ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0x2106400 } ++ }, ++/* move.4 ${d-direct-addr},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_4, { 0x1006400 } ++ }, ++/* move.4 #${d-imm8},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_4, { 0x6400 } ++ }, ++/* move.4 (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_4, { 0x3006400 } ++ }, ++/* move.4 ${d-imm7-4}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_4, { 0x4006400 } ++ }, ++/* move.4 (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_4, { 0x4006400 } ++ }, ++/* move.4 (${d-An})${d-i4-4}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_4, { 0x2006400 } ++ }, ++/* move.4 ${d-i4-4}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_4, { 0x2106400 } ++ }, ++/* move.4 ${d-direct-addr},(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_post_increment_4, { 0x1006200 } ++ }, ++/* move.4 #${d-imm8},(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_post_increment_4, { 0x6200 } ++ }, ++/* move.4 (${d-An},${d-r}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0x3006200 } ++ }, ++/* move.4 ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0x4006200 } ++ }, ++/* move.4 (${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_post_increment_4, { 0x4006200 } ++ }, ++/* move.4 (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0x2006200 } ++ }, ++/* move.4 ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0x2106200 } ++ }, ++/* move.4 ${d-direct-addr},${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_pre_increment_4, { 0x1006210 } ++ }, ++/* move.4 #${d-imm8},${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_pre_increment_4, { 0x6210 } ++ }, ++/* move.4 (${d-An},${d-r}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0x3006210 } ++ }, ++/* move.4 ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0x4006210 } ++ }, ++/* move.4 (${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_pre_increment_4, { 0x4006210 } ++ }, ++/* move.4 (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0x2006210 } ++ }, ++/* move.4 ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0x2106210 } ++ }, ++/* iread (${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iread_s1_ea_indirect, { 0x12f6400 } ++ }, ++/* iread (${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_iread_s1_ea_indirect_with_index_4, { 0x12f6300 } ++ }, ++/* iread (${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_iread_s1_ea_indirect_with_post_increment_4, { 0x12f6200 } ++ }, ++/* iread ${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_iread_s1_ea_indirect_with_pre_increment_4, { 0x12f6210 } ++ }, ++/* iread ${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iread_s1_ea_indirect_with_offset_4, { 0x12f6400 } ++ }, ++/* iwrite (${d-An},${d-r}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_index_s1_direct, { 0x3006100 } ++ }, ++/* iwrite ${d-imm7-4}(${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_offset_s1_direct, { 0x4006100 } ++ }, ++/* iwrite (${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_s1_direct, { 0x4006100 } ++ }, ++/* iwrite (${d-An})${d-i4-4}++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_post_increment_s1_direct, { 0x2006100 } ++ }, ++/* iwrite ${d-i4-4}(${d-An})++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_direct, { 0x2106100 } ++ }, ++/* iwrite (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_index_s1_immediate, { 0x3006000 } ++ }, ++/* iwrite ${d-imm7-4}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_offset_s1_immediate, { 0x4006000 } ++ }, ++/* iwrite (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_s1_immediate, { 0x4006000 } ++ }, ++/* iwrite (${d-An})${d-i4-4}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_post_increment_s1_immediate, { 0x2006000 } ++ }, ++/* iwrite ${d-i4-4}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_immediate, { 0x2106000 } ++ }, ++/* iwrite (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_index_s1_indirect_with_index_4, { 0x3006300 } ++ }, ++/* iwrite ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_offset_s1_indirect_with_index_4, { 0x4006300 } ++ }, ++/* iwrite (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_s1_indirect_with_index_4, { 0x4006300 } ++ }, ++/* iwrite (${d-An})${d-i4-4}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_post_increment_s1_indirect_with_index_4, { 0x2006300 } ++ }, ++/* iwrite ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_indirect_with_index_4, { 0x2106300 } ++ }, ++/* iwrite (${d-An},${d-r}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_index_s1_indirect_with_offset_4, { 0x3006400 } ++ }, ++/* iwrite ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_offset_s1_indirect_with_offset_4, { 0x4006400 } ++ }, ++/* iwrite (${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_s1_indirect_with_offset_4, { 0x4006400 } ++ }, ++/* iwrite (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_post_increment_s1_indirect_with_offset_4, { 0x2006400 } ++ }, ++/* iwrite ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_indirect_with_offset_4, { 0x2106400 } ++ }, ++/* iwrite (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_index_s1_indirect_4, { 0x3006400 } ++ }, ++/* iwrite ${d-imm7-4}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_offset_s1_indirect_4, { 0x4006400 } ++ }, ++/* iwrite (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_s1_indirect_4, { 0x4006400 } ++ }, ++/* iwrite (${d-An})${d-i4-4}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_post_increment_s1_indirect_4, { 0x2006400 } ++ }, ++/* iwrite ${d-i4-4}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_indirect_4, { 0x2106400 } ++ }, ++/* iwrite (${d-An},${d-r}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_index_s1_indirect_with_post_increment_4, { 0x3006200 } ++ }, ++/* iwrite ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_offset_s1_indirect_with_post_increment_4, { 0x4006200 } ++ }, ++/* iwrite (${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_s1_indirect_with_post_increment_4, { 0x4006200 } ++ }, ++/* iwrite (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_post_increment_s1_indirect_with_post_increment_4, { 0x2006200 } ++ }, ++/* iwrite ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_indirect_with_post_increment_4, { 0x2106200 } ++ }, ++/* iwrite (${d-An},${d-r}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_index_s1_indirect_with_pre_increment_4, { 0x3006210 } ++ }, ++/* iwrite ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_offset_s1_indirect_with_pre_increment_4, { 0x4006210 } ++ }, ++/* iwrite (${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_s1_indirect_with_pre_increment_4, { 0x4006210 } ++ }, ++/* iwrite (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_post_increment_s1_indirect_with_pre_increment_4, { 0x2006210 } ++ }, ++/* iwrite ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_iwrite_d_pea_indirect_with_pre_increment_s1_indirect_with_pre_increment_4, { 0x2106210 } ++ }, ++/* move.2 ${d-direct-addr},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_direct_s1_direct, { 0x1006900 } ++ }, ++/* move.2 #${d-imm8},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_direct, { 0x6900 } ++ }, ++/* move.2 (${d-An},${d-r}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_direct, { 0x3006900 } ++ }, ++/* move.2 ${d-imm7-2}(${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_direct, { 0x4006900 } ++ }, ++/* move.2 (${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_direct, { 0x4006900 } ++ }, ++/* move.2 (${d-An})${d-i4-2}++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_direct, { 0x2006900 } ++ }, ++/* move.2 ${d-i4-2}(${d-An})++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_direct, { 0x2106900 } ++ }, ++/* move.2 ${d-direct-addr},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_direct_s1_immediate, { 0x1006800 } ++ }, ++/* move.2 #${d-imm8},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_immediate, { 0x6800 } ++ }, ++/* move.2 (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_immediate, { 0x3006800 } ++ }, ++/* move.2 ${d-imm7-2}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_immediate, { 0x4006800 } ++ }, ++/* move.2 (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_immediate, { 0x4006800 } ++ }, ++/* move.2 (${d-An})${d-i4-2}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_immediate, { 0x2006800 } ++ }, ++/* move.2 ${d-i4-2}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_immediate, { 0x2106800 } ++ }, ++/* move.2 ${d-direct-addr},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_index_2, { 0x1006b00 } ++ }, ++/* move.2 #${d-imm8},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_index_2, { 0x6b00 } ++ }, ++/* move.2 (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_index_2, { 0x3006b00 } ++ }, ++/* move.2 ${d-imm7-2}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_index_2, { 0x4006b00 } ++ }, ++/* move.2 (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_index_2, { 0x4006b00 } ++ }, ++/* move.2 (${d-An})${d-i4-2}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_index_2, { 0x2006b00 } ++ }, ++/* move.2 ${d-i4-2}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_index_2, { 0x2106b00 } ++ }, ++/* move.2 ${d-direct-addr},${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_offset_2, { 0x1006c00 } ++ }, ++/* move.2 #${d-imm8},${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_offset_2, { 0x6c00 } ++ }, ++/* move.2 (${d-An},${d-r}),${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_offset_2, { 0x3006c00 } ++ }, ++/* move.2 ${d-imm7-2}(${d-An}),${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_offset_2, { 0x4006c00 } ++ }, ++/* move.2 (${d-An}),${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_offset_2, { 0x4006c00 } ++ }, ++/* move.2 (${d-An})${d-i4-2}++,${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_offset_2, { 0x2006c00 } ++ }, ++/* move.2 ${d-i4-2}(${d-An})++,${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_offset_2, { 0x2106c00 } ++ }, ++/* move.2 ${d-direct-addr},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_2, { 0x1006c00 } ++ }, ++/* move.2 #${d-imm8},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_2, { 0x6c00 } ++ }, ++/* move.2 (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_2, { 0x3006c00 } ++ }, ++/* move.2 ${d-imm7-2}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_2, { 0x4006c00 } ++ }, ++/* move.2 (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_2, { 0x4006c00 } ++ }, ++/* move.2 (${d-An})${d-i4-2}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_2, { 0x2006c00 } ++ }, ++/* move.2 ${d-i4-2}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_2, { 0x2106c00 } ++ }, ++/* move.2 ${d-direct-addr},(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_post_increment_2, { 0x1006a00 } ++ }, ++/* move.2 #${d-imm8},(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_post_increment_2, { 0x6a00 } ++ }, ++/* move.2 (${d-An},${d-r}),(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_post_increment_2, { 0x3006a00 } ++ }, ++/* move.2 ${d-imm7-2}(${d-An}),(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_post_increment_2, { 0x4006a00 } ++ }, ++/* move.2 (${d-An}),(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_post_increment_2, { 0x4006a00 } ++ }, ++/* move.2 (${d-An})${d-i4-2}++,(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_2, { 0x2006a00 } ++ }, ++/* move.2 ${d-i4-2}(${d-An})++,(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_2, { 0x2106a00 } ++ }, ++/* move.2 ${d-direct-addr},${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_pre_increment_2, { 0x1006a10 } ++ }, ++/* move.2 #${d-imm8},${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_pre_increment_2, { 0x6a10 } ++ }, ++/* move.2 (${d-An},${d-r}),${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_pre_increment_2, { 0x3006a10 } ++ }, ++/* move.2 ${d-imm7-2}(${d-An}),${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_pre_increment_2, { 0x4006a10 } ++ }, ++/* move.2 (${d-An}),${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_pre_increment_2, { 0x4006a10 } ++ }, ++/* move.2 (${d-An})${d-i4-2}++,${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_2, { 0x2006a10 } ++ }, ++/* move.2 ${d-i4-2}(${d-An})++,${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_2, { 0x2106a10 } ++ }, ++/* move.1 ${d-direct-addr},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_direct_s1_direct, { 0x1007900 } ++ }, ++/* move.1 #${d-imm8},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_1_d_immediate_1_s1_direct, { 0x7900 } ++ }, ++/* move.1 (${d-An},${d-r}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_1_d_indirect_with_index_1_s1_direct, { 0x3007900 } ++ }, ++/* move.1 ${d-imm7-1}(${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_1_d_indirect_with_offset_1_s1_direct, { 0x4007900 } ++ }, ++/* move.1 (${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_1_d_indirect_1_s1_direct, { 0x4007900 } ++ }, ++/* move.1 (${d-An})${d-i4-1}++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_1_d_indirect_with_post_increment_1_s1_direct, { 0x2007900 } ++ }, ++/* move.1 ${d-i4-1}(${d-An})++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_1_d_indirect_with_pre_increment_1_s1_direct, { 0x2107900 } ++ }, ++/* move.1 ${d-direct-addr},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_direct_s1_immediate, { 0x1007800 } ++ }, ++/* move.1 #${d-imm8},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_1_d_immediate_1_s1_immediate, { 0x7800 } ++ }, ++/* move.1 (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_1_d_indirect_with_index_1_s1_immediate, { 0x3007800 } ++ }, ++/* move.1 ${d-imm7-1}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_1_d_indirect_with_offset_1_s1_immediate, { 0x4007800 } ++ }, ++/* move.1 (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_1_d_indirect_1_s1_immediate, { 0x4007800 } ++ }, ++/* move.1 (${d-An})${d-i4-1}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_1_d_indirect_with_post_increment_1_s1_immediate, { 0x2007800 } ++ }, ++/* move.1 ${d-i4-1}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_1_d_indirect_with_pre_increment_1_s1_immediate, { 0x2107800 } ++ }, ++/* move.1 ${d-direct-addr},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_1_d_direct_s1_indirect_with_index_1, { 0x1007b00 } ++ }, ++/* move.1 #${d-imm8},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_1_d_immediate_1_s1_indirect_with_index_1, { 0x7b00 } ++ }, ++/* move.1 (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_index_1_s1_indirect_with_index_1, { 0x3007b00 } ++ }, ++/* move.1 ${d-imm7-1}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_offset_1_s1_indirect_with_index_1, { 0x4007b00 } ++ }, ++/* move.1 (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_1_d_indirect_1_s1_indirect_with_index_1, { 0x4007b00 } ++ }, ++/* move.1 (${d-An})${d-i4-1}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_post_increment_1_s1_indirect_with_index_1, { 0x2007b00 } ++ }, ++/* move.1 ${d-i4-1}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_pre_increment_1_s1_indirect_with_index_1, { 0x2107b00 } ++ }, ++/* move.1 ${d-direct-addr},${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_direct_s1_indirect_with_offset_1, { 0x1007c00 } ++ }, ++/* move.1 #${d-imm8},${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_immediate_1_s1_indirect_with_offset_1, { 0x7c00 } ++ }, ++/* move.1 (${d-An},${d-r}),${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_index_1_s1_indirect_with_offset_1, { 0x3007c00 } ++ }, ++/* move.1 ${d-imm7-1}(${d-An}),${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_offset_1_s1_indirect_with_offset_1, { 0x4007c00 } ++ }, ++/* move.1 (${d-An}),${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_1_s1_indirect_with_offset_1, { 0x4007c00 } ++ }, ++/* move.1 (${d-An})${d-i4-1}++,${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_post_increment_1_s1_indirect_with_offset_1, { 0x2007c00 } ++ }, ++/* move.1 ${d-i4-1}(${d-An})++,${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_pre_increment_1_s1_indirect_with_offset_1, { 0x2107c00 } ++ }, ++/* move.1 ${d-direct-addr},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_direct_s1_indirect_1, { 0x1007c00 } ++ }, ++/* move.1 #${d-imm8},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_immediate_1_s1_indirect_1, { 0x7c00 } ++ }, ++/* move.1 (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_index_1_s1_indirect_1, { 0x3007c00 } ++ }, ++/* move.1 ${d-imm7-1}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_offset_1_s1_indirect_1, { 0x4007c00 } ++ }, ++/* move.1 (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_1_s1_indirect_1, { 0x4007c00 } ++ }, ++/* move.1 (${d-An})${d-i4-1}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_post_increment_1_s1_indirect_1, { 0x2007c00 } ++ }, ++/* move.1 ${d-i4-1}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_pre_increment_1_s1_indirect_1, { 0x2107c00 } ++ }, ++/* move.1 ${d-direct-addr},(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_move_1_d_direct_s1_indirect_with_post_increment_1, { 0x1007a00 } ++ }, ++/* move.1 #${d-imm8},(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_move_1_d_immediate_1_s1_indirect_with_post_increment_1, { 0x7a00 } ++ }, ++/* move.1 (${d-An},${d-r}),(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_index_1_s1_indirect_with_post_increment_1, { 0x3007a00 } ++ }, ++/* move.1 ${d-imm7-1}(${d-An}),(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_offset_1_s1_indirect_with_post_increment_1, { 0x4007a00 } ++ }, ++/* move.1 (${d-An}),(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_1_s1_indirect_with_post_increment_1, { 0x4007a00 } ++ }, ++/* move.1 (${d-An})${d-i4-1}++,(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_post_increment_1_s1_indirect_with_post_increment_1, { 0x2007a00 } ++ }, ++/* move.1 ${d-i4-1}(${d-An})++,(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_pre_increment_1_s1_indirect_with_post_increment_1, { 0x2107a00 } ++ }, ++/* move.1 ${d-direct-addr},${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_1_d_direct_s1_indirect_with_pre_increment_1, { 0x1007a10 } ++ }, ++/* move.1 #${d-imm8},${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_1_d_immediate_1_s1_indirect_with_pre_increment_1, { 0x7a10 } ++ }, ++/* move.1 (${d-An},${d-r}),${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_index_1_s1_indirect_with_pre_increment_1, { 0x3007a10 } ++ }, ++/* move.1 ${d-imm7-1}(${d-An}),${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_offset_1_s1_indirect_with_pre_increment_1, { 0x4007a10 } ++ }, ++/* move.1 (${d-An}),${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_1_s1_indirect_with_pre_increment_1, { 0x4007a10 } ++ }, ++/* move.1 (${d-An})${d-i4-1}++,${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_post_increment_1_s1_indirect_with_pre_increment_1, { 0x2007a10 } ++ }, ++/* move.1 ${d-i4-1}(${d-An})++,${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_pre_increment_1_s1_indirect_with_pre_increment_1, { 0x2107a10 } ++ }, ++/* ext.2 ${d-direct-addr},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_direct_s1_direct, { 0x100a900 } ++ }, ++/* ext.2 #${d-imm8},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_direct, { 0xa900 } ++ }, ++/* ext.2 (${d-An},${d-r}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_direct, { 0x300a900 } ++ }, ++/* ext.2 ${d-imm7-2}(${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_direct, { 0x400a900 } ++ }, ++/* ext.2 (${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_direct, { 0x400a900 } ++ }, ++/* ext.2 (${d-An})${d-i4-2}++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_direct, { 0x200a900 } ++ }, ++/* ext.2 ${d-i4-2}(${d-An})++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_direct, { 0x210a900 } ++ }, ++/* ext.2 ${d-direct-addr},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_direct_s1_immediate, { 0x100a800 } ++ }, ++/* ext.2 #${d-imm8},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_immediate, { 0xa800 } ++ }, ++/* ext.2 (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_immediate, { 0x300a800 } ++ }, ++/* ext.2 ${d-imm7-2}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_immediate, { 0x400a800 } ++ }, ++/* ext.2 (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_immediate, { 0x400a800 } ++ }, ++/* ext.2 (${d-An})${d-i4-2}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_immediate, { 0x200a800 } ++ }, ++/* ext.2 ${d-i4-2}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_immediate, { 0x210a800 } ++ }, ++/* ext.2 ${d-direct-addr},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_index_2, { 0x100ab00 } ++ }, ++/* ext.2 #${d-imm8},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_index_2, { 0xab00 } ++ }, ++/* ext.2 (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_index_2, { 0x300ab00 } ++ }, ++/* ext.2 ${d-imm7-2}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_index_2, { 0x400ab00 } ++ }, ++/* ext.2 (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_index_2, { 0x400ab00 } ++ }, ++/* ext.2 (${d-An})${d-i4-2}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_index_2, { 0x200ab00 } ++ }, ++/* ext.2 ${d-i4-2}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_index_2, { 0x210ab00 } ++ }, ++/* ext.2 ${d-direct-addr},${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_offset_2, { 0x100ac00 } ++ }, ++/* ext.2 #${d-imm8},${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_offset_2, { 0xac00 } ++ }, ++/* ext.2 (${d-An},${d-r}),${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_offset_2, { 0x300ac00 } ++ }, ++/* ext.2 ${d-imm7-2}(${d-An}),${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_offset_2, { 0x400ac00 } ++ }, ++/* ext.2 (${d-An}),${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_offset_2, { 0x400ac00 } ++ }, ++/* ext.2 (${d-An})${d-i4-2}++,${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_offset_2, { 0x200ac00 } ++ }, ++/* ext.2 ${d-i4-2}(${d-An})++,${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_offset_2, { 0x210ac00 } ++ }, ++/* ext.2 ${d-direct-addr},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_2, { 0x100ac00 } ++ }, ++/* ext.2 #${d-imm8},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_2, { 0xac00 } ++ }, ++/* ext.2 (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_2, { 0x300ac00 } ++ }, ++/* ext.2 ${d-imm7-2}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_2, { 0x400ac00 } ++ }, ++/* ext.2 (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_2, { 0x400ac00 } ++ }, ++/* ext.2 (${d-An})${d-i4-2}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_2, { 0x200ac00 } ++ }, ++/* ext.2 ${d-i4-2}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_2, { 0x210ac00 } ++ }, ++/* ext.2 ${d-direct-addr},(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_post_increment_2, { 0x100aa00 } ++ }, ++/* ext.2 #${d-imm8},(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_post_increment_2, { 0xaa00 } ++ }, ++/* ext.2 (${d-An},${d-r}),(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_post_increment_2, { 0x300aa00 } ++ }, ++/* ext.2 ${d-imm7-2}(${d-An}),(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_post_increment_2, { 0x400aa00 } ++ }, ++/* ext.2 (${d-An}),(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_post_increment_2, { 0x400aa00 } ++ }, ++/* ext.2 (${d-An})${d-i4-2}++,(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_2, { 0x200aa00 } ++ }, ++/* ext.2 ${d-i4-2}(${d-An})++,(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_2, { 0x210aa00 } ++ }, ++/* ext.2 ${d-direct-addr},${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_pre_increment_2, { 0x100aa10 } ++ }, ++/* ext.2 #${d-imm8},${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_pre_increment_2, { 0xaa10 } ++ }, ++/* ext.2 (${d-An},${d-r}),${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_pre_increment_2, { 0x300aa10 } ++ }, ++/* ext.2 ${d-imm7-2}(${d-An}),${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_pre_increment_2, { 0x400aa10 } ++ }, ++/* ext.2 (${d-An}),${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_pre_increment_2, { 0x400aa10 } ++ }, ++/* ext.2 (${d-An})${d-i4-2}++,${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_2, { 0x200aa10 } ++ }, ++/* ext.2 ${d-i4-2}(${d-An})++,${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_2, { 0x210aa10 } ++ }, ++/* ext.1 ${d-direct-addr},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_direct_s1_direct, { 0x100b900 } ++ }, ++/* ext.1 #${d-imm8},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_1_d_immediate_1_s1_direct, { 0xb900 } ++ }, ++/* ext.1 (${d-An},${d-r}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_1_d_indirect_with_index_1_s1_direct, { 0x300b900 } ++ }, ++/* ext.1 ${d-imm7-1}(${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_1_d_indirect_with_offset_1_s1_direct, { 0x400b900 } ++ }, ++/* ext.1 (${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_1_d_indirect_1_s1_direct, { 0x400b900 } ++ }, ++/* ext.1 (${d-An})${d-i4-1}++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_1_d_indirect_with_post_increment_1_s1_direct, { 0x200b900 } ++ }, ++/* ext.1 ${d-i4-1}(${d-An})++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_1_d_indirect_with_pre_increment_1_s1_direct, { 0x210b900 } ++ }, ++/* ext.1 ${d-direct-addr},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_direct_s1_immediate, { 0x100b800 } ++ }, ++/* ext.1 #${d-imm8},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_1_d_immediate_1_s1_immediate, { 0xb800 } ++ }, ++/* ext.1 (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_1_d_indirect_with_index_1_s1_immediate, { 0x300b800 } ++ }, ++/* ext.1 ${d-imm7-1}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_1_d_indirect_with_offset_1_s1_immediate, { 0x400b800 } ++ }, ++/* ext.1 (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_1_d_indirect_1_s1_immediate, { 0x400b800 } ++ }, ++/* ext.1 (${d-An})${d-i4-1}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_1_d_indirect_with_post_increment_1_s1_immediate, { 0x200b800 } ++ }, ++/* ext.1 ${d-i4-1}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_1_d_indirect_with_pre_increment_1_s1_immediate, { 0x210b800 } ++ }, ++/* ext.1 ${d-direct-addr},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_1_d_direct_s1_indirect_with_index_1, { 0x100bb00 } ++ }, ++/* ext.1 #${d-imm8},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_1_d_immediate_1_s1_indirect_with_index_1, { 0xbb00 } ++ }, ++/* ext.1 (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_index_1_s1_indirect_with_index_1, { 0x300bb00 } ++ }, ++/* ext.1 ${d-imm7-1}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_offset_1_s1_indirect_with_index_1, { 0x400bb00 } ++ }, ++/* ext.1 (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_1_d_indirect_1_s1_indirect_with_index_1, { 0x400bb00 } ++ }, ++/* ext.1 (${d-An})${d-i4-1}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_post_increment_1_s1_indirect_with_index_1, { 0x200bb00 } ++ }, ++/* ext.1 ${d-i4-1}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_pre_increment_1_s1_indirect_with_index_1, { 0x210bb00 } ++ }, ++/* ext.1 ${d-direct-addr},${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_direct_s1_indirect_with_offset_1, { 0x100bc00 } ++ }, ++/* ext.1 #${d-imm8},${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_immediate_1_s1_indirect_with_offset_1, { 0xbc00 } ++ }, ++/* ext.1 (${d-An},${d-r}),${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_index_1_s1_indirect_with_offset_1, { 0x300bc00 } ++ }, ++/* ext.1 ${d-imm7-1}(${d-An}),${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_offset_1_s1_indirect_with_offset_1, { 0x400bc00 } ++ }, ++/* ext.1 (${d-An}),${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_1_s1_indirect_with_offset_1, { 0x400bc00 } ++ }, ++/* ext.1 (${d-An})${d-i4-1}++,${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_post_increment_1_s1_indirect_with_offset_1, { 0x200bc00 } ++ }, ++/* ext.1 ${d-i4-1}(${d-An})++,${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_pre_increment_1_s1_indirect_with_offset_1, { 0x210bc00 } ++ }, ++/* ext.1 ${d-direct-addr},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_direct_s1_indirect_1, { 0x100bc00 } ++ }, ++/* ext.1 #${d-imm8},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_immediate_1_s1_indirect_1, { 0xbc00 } ++ }, ++/* ext.1 (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_index_1_s1_indirect_1, { 0x300bc00 } ++ }, ++/* ext.1 ${d-imm7-1}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_offset_1_s1_indirect_1, { 0x400bc00 } ++ }, ++/* ext.1 (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_1_s1_indirect_1, { 0x400bc00 } ++ }, ++/* ext.1 (${d-An})${d-i4-1}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_post_increment_1_s1_indirect_1, { 0x200bc00 } ++ }, ++/* ext.1 ${d-i4-1}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_1_d_indirect_with_pre_increment_1_s1_indirect_1, { 0x210bc00 } ++ }, ++/* ext.1 ${d-direct-addr},(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_move_1_d_direct_s1_indirect_with_post_increment_1, { 0x100ba00 } ++ }, ++/* ext.1 #${d-imm8},(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_move_1_d_immediate_1_s1_indirect_with_post_increment_1, { 0xba00 } ++ }, ++/* ext.1 (${d-An},${d-r}),(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_index_1_s1_indirect_with_post_increment_1, { 0x300ba00 } ++ }, ++/* ext.1 ${d-imm7-1}(${d-An}),(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_offset_1_s1_indirect_with_post_increment_1, { 0x400ba00 } ++ }, ++/* ext.1 (${d-An}),(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_1_s1_indirect_with_post_increment_1, { 0x400ba00 } ++ }, ++/* ext.1 (${d-An})${d-i4-1}++,(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_post_increment_1_s1_indirect_with_post_increment_1, { 0x200ba00 } ++ }, ++/* ext.1 ${d-i4-1}(${d-An})++,(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_pre_increment_1_s1_indirect_with_post_increment_1, { 0x210ba00 } ++ }, ++/* ext.1 ${d-direct-addr},${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_1_d_direct_s1_indirect_with_pre_increment_1, { 0x100ba10 } ++ }, ++/* ext.1 #${d-imm8},${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_1_d_immediate_1_s1_indirect_with_pre_increment_1, { 0xba10 } ++ }, ++/* ext.1 (${d-An},${d-r}),${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_index_1_s1_indirect_with_pre_increment_1, { 0x300ba10 } ++ }, ++/* ext.1 ${d-imm7-1}(${d-An}),${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_offset_1_s1_indirect_with_pre_increment_1, { 0x400ba10 } ++ }, ++/* ext.1 (${d-An}),${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_1_s1_indirect_with_pre_increment_1, { 0x400ba10 } ++ }, ++/* ext.1 (${d-An})${d-i4-1}++,${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_post_increment_1_s1_indirect_with_pre_increment_1, { 0x200ba10 } ++ }, ++/* ext.1 ${d-i4-1}(${d-An})++,${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_1_d_indirect_with_pre_increment_1_s1_indirect_with_pre_increment_1, { 0x210ba10 } ++ }, ++/* movei ${d-direct-addr},#${imm16-2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (IMM16_2), 0 } }, ++ & ifmt_movei_d_direct, { 0xc9000000 } ++ }, ++/* movei #${d-imm8},#${imm16-2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (IMM16_2), 0 } }, ++ & ifmt_movei_d_immediate_2, { 0xc8000000 } ++ }, ++/* movei (${d-An},${d-r}),#${imm16-2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (IMM16_2), 0 } }, ++ & ifmt_movei_d_indirect_with_index_2, { 0xcb000000 } ++ }, ++/* movei ${d-imm7-2}(${d-An}),#${imm16-2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '#', OP (IMM16_2), 0 } }, ++ & ifmt_movei_d_indirect_with_offset_2, { 0xcc000000 } ++ }, ++/* movei (${d-An}),#${imm16-2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (IMM16_2), 0 } }, ++ & ifmt_movei_d_indirect_2, { 0xcc000000 } ++ }, ++/* movei (${d-An})${d-i4-2}++,#${imm16-2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '#', OP (IMM16_2), 0 } }, ++ & ifmt_movei_d_indirect_with_post_increment_2, { 0xca000000 } ++ }, ++/* movei ${d-i4-2}(${d-An})++,#${imm16-2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (IMM16_2), 0 } }, ++ & ifmt_movei_d_indirect_with_pre_increment_2, { 0xca100000 } ++ }, ++/* bclr ${d-direct-addr},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_direct_s1_direct, { 0x29000100 } ++ }, ++/* bclr #${d-imm8},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_immediate_4_s1_direct, { 0x28000100 } ++ }, ++/* bclr (${d-An},${d-r}),${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_index_4_s1_direct, { 0x2b000100 } ++ }, ++/* bclr ${d-imm7-4}(${d-An}),${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_offset_4_s1_direct, { 0x2c000100 } ++ }, ++/* bclr (${d-An}),${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_4_s1_direct, { 0x2c000100 } ++ }, ++/* bclr (${d-An})${d-i4-4}++,${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_post_increment_4_s1_direct, { 0x2a000100 } ++ }, ++/* bclr ${d-i4-4}(${d-An})++,${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_pre_increment_4_s1_direct, { 0x2a100100 } ++ }, ++/* bclr ${d-direct-addr},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_direct_s1_immediate, { 0x29000000 } ++ }, ++/* bclr #${d-imm8},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_immediate_4_s1_immediate, { 0x28000000 } ++ }, ++/* bclr (${d-An},${d-r}),#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_index_4_s1_immediate, { 0x2b000000 } ++ }, ++/* bclr ${d-imm7-4}(${d-An}),#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_offset_4_s1_immediate, { 0x2c000000 } ++ }, ++/* bclr (${d-An}),#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_4_s1_immediate, { 0x2c000000 } ++ }, ++/* bclr (${d-An})${d-i4-4}++,#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_post_increment_4_s1_immediate, { 0x2a000000 } ++ }, ++/* bclr ${d-i4-4}(${d-An})++,#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_pre_increment_4_s1_immediate, { 0x2a100000 } ++ }, ++/* bclr ${d-direct-addr},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_direct_s1_indirect_with_index_4, { 0x29000300 } ++ }, ++/* bclr #${d-imm8},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_immediate_4_s1_indirect_with_index_4, { 0x28000300 } ++ }, ++/* bclr (${d-An},${d-r}),(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_index_4_s1_indirect_with_index_4, { 0x2b000300 } ++ }, ++/* bclr ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0x2c000300 } ++ }, ++/* bclr (${d-An}),(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_4_s1_indirect_with_index_4, { 0x2c000300 } ++ }, ++/* bclr (${d-An})${d-i4-4}++,(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0x2a000300 } ++ }, ++/* bclr ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0x2a100300 } ++ }, ++/* bclr ${d-direct-addr},${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_direct_s1_indirect_with_offset_4, { 0x29000400 } ++ }, ++/* bclr #${d-imm8},${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_immediate_4_s1_indirect_with_offset_4, { 0x28000400 } ++ }, ++/* bclr (${d-An},${d-r}),${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0x2b000400 } ++ }, ++/* bclr ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0x2c000400 } ++ }, ++/* bclr (${d-An}),${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_4_s1_indirect_with_offset_4, { 0x2c000400 } ++ }, ++/* bclr (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0x2a000400 } ++ }, ++/* bclr ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0x2a100400 } ++ }, ++/* bclr ${d-direct-addr},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_direct_s1_indirect_4, { 0x29000400 } ++ }, ++/* bclr #${d-imm8},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_immediate_4_s1_indirect_4, { 0x28000400 } ++ }, ++/* bclr (${d-An},${d-r}),(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_index_4_s1_indirect_4, { 0x2b000400 } ++ }, ++/* bclr ${d-imm7-4}(${d-An}),(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_offset_4_s1_indirect_4, { 0x2c000400 } ++ }, ++/* bclr (${d-An}),(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_4_s1_indirect_4, { 0x2c000400 } ++ }, ++/* bclr (${d-An})${d-i4-4}++,(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_post_increment_4_s1_indirect_4, { 0x2a000400 } ++ }, ++/* bclr ${d-i4-4}(${d-An})++,(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_pre_increment_4_s1_indirect_4, { 0x2a100400 } ++ }, ++/* bclr ${d-direct-addr},(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_direct_s1_indirect_with_post_increment_4, { 0x29000200 } ++ }, ++/* bclr #${d-imm8},(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_immediate_4_s1_indirect_with_post_increment_4, { 0x28000200 } ++ }, ++/* bclr (${d-An},${d-r}),(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0x2b000200 } ++ }, ++/* bclr ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0x2c000200 } ++ }, ++/* bclr (${d-An}),(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_4_s1_indirect_with_post_increment_4, { 0x2c000200 } ++ }, ++/* bclr (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0x2a000200 } ++ }, ++/* bclr ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0x2a100200 } ++ }, ++/* bclr ${d-direct-addr},${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_direct_s1_indirect_with_pre_increment_4, { 0x29000210 } ++ }, ++/* bclr #${d-imm8},${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_immediate_4_s1_indirect_with_pre_increment_4, { 0x28000210 } ++ }, ++/* bclr (${d-An},${d-r}),${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0x2b000210 } ++ }, ++/* bclr ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0x2c000210 } ++ }, ++/* bclr (${d-An}),${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_4_s1_indirect_with_pre_increment_4, { 0x2c000210 } ++ }, ++/* bclr (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0x2a000210 } ++ }, ++/* bclr ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0x2a100210 } ++ }, ++/* bset ${d-direct-addr},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_direct_s1_direct, { 0x21000100 } ++ }, ++/* bset #${d-imm8},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_immediate_4_s1_direct, { 0x20000100 } ++ }, ++/* bset (${d-An},${d-r}),${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_index_4_s1_direct, { 0x23000100 } ++ }, ++/* bset ${d-imm7-4}(${d-An}),${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_offset_4_s1_direct, { 0x24000100 } ++ }, ++/* bset (${d-An}),${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_4_s1_direct, { 0x24000100 } ++ }, ++/* bset (${d-An})${d-i4-4}++,${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_post_increment_4_s1_direct, { 0x22000100 } ++ }, ++/* bset ${d-i4-4}(${d-An})++,${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_pre_increment_4_s1_direct, { 0x22100100 } ++ }, ++/* bset ${d-direct-addr},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_direct_s1_immediate, { 0x21000000 } ++ }, ++/* bset #${d-imm8},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_immediate_4_s1_immediate, { 0x20000000 } ++ }, ++/* bset (${d-An},${d-r}),#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_index_4_s1_immediate, { 0x23000000 } ++ }, ++/* bset ${d-imm7-4}(${d-An}),#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_offset_4_s1_immediate, { 0x24000000 } ++ }, ++/* bset (${d-An}),#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_4_s1_immediate, { 0x24000000 } ++ }, ++/* bset (${d-An})${d-i4-4}++,#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_post_increment_4_s1_immediate, { 0x22000000 } ++ }, ++/* bset ${d-i4-4}(${d-An})++,#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_pre_increment_4_s1_immediate, { 0x22100000 } ++ }, ++/* bset ${d-direct-addr},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_direct_s1_indirect_with_index_4, { 0x21000300 } ++ }, ++/* bset #${d-imm8},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_immediate_4_s1_indirect_with_index_4, { 0x20000300 } ++ }, ++/* bset (${d-An},${d-r}),(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_index_4_s1_indirect_with_index_4, { 0x23000300 } ++ }, ++/* bset ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0x24000300 } ++ }, ++/* bset (${d-An}),(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_4_s1_indirect_with_index_4, { 0x24000300 } ++ }, ++/* bset (${d-An})${d-i4-4}++,(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0x22000300 } ++ }, ++/* bset ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0x22100300 } ++ }, ++/* bset ${d-direct-addr},${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_direct_s1_indirect_with_offset_4, { 0x21000400 } ++ }, ++/* bset #${d-imm8},${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_immediate_4_s1_indirect_with_offset_4, { 0x20000400 } ++ }, ++/* bset (${d-An},${d-r}),${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0x23000400 } ++ }, ++/* bset ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0x24000400 } ++ }, ++/* bset (${d-An}),${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_4_s1_indirect_with_offset_4, { 0x24000400 } ++ }, ++/* bset (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0x22000400 } ++ }, ++/* bset ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0x22100400 } ++ }, ++/* bset ${d-direct-addr},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_direct_s1_indirect_4, { 0x21000400 } ++ }, ++/* bset #${d-imm8},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_immediate_4_s1_indirect_4, { 0x20000400 } ++ }, ++/* bset (${d-An},${d-r}),(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_index_4_s1_indirect_4, { 0x23000400 } ++ }, ++/* bset ${d-imm7-4}(${d-An}),(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_offset_4_s1_indirect_4, { 0x24000400 } ++ }, ++/* bset (${d-An}),(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_4_s1_indirect_4, { 0x24000400 } ++ }, ++/* bset (${d-An})${d-i4-4}++,(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_post_increment_4_s1_indirect_4, { 0x22000400 } ++ }, ++/* bset ${d-i4-4}(${d-An})++,(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_pre_increment_4_s1_indirect_4, { 0x22100400 } ++ }, ++/* bset ${d-direct-addr},(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_direct_s1_indirect_with_post_increment_4, { 0x21000200 } ++ }, ++/* bset #${d-imm8},(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_immediate_4_s1_indirect_with_post_increment_4, { 0x20000200 } ++ }, ++/* bset (${d-An},${d-r}),(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0x23000200 } ++ }, ++/* bset ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0x24000200 } ++ }, ++/* bset (${d-An}),(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_4_s1_indirect_with_post_increment_4, { 0x24000200 } ++ }, ++/* bset (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0x22000200 } ++ }, ++/* bset ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0x22100200 } ++ }, ++/* bset ${d-direct-addr},${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_direct_s1_indirect_with_pre_increment_4, { 0x21000210 } ++ }, ++/* bset #${d-imm8},${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_immediate_4_s1_indirect_with_pre_increment_4, { 0x20000210 } ++ }, ++/* bset (${d-An},${d-r}),${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0x23000210 } ++ }, ++/* bset ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0x24000210 } ++ }, ++/* bset (${d-An}),${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_4_s1_indirect_with_pre_increment_4, { 0x24000210 } ++ }, ++/* bset (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0x22000210 } ++ }, ++/* bset ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bclr_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0x22100210 } ++ }, ++/* btst ${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_direct_imm_bit5, { 0x10c00100 } ++ }, ++/* btst #${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_immediate_imm_bit5, { 0x10c00000 } ++ }, ++/* btst (${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_indirect_with_index_4_imm_bit5, { 0x10c00300 } ++ }, ++/* btst ${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_indirect_with_offset_4_imm_bit5, { 0x10c00400 } ++ }, ++/* btst (${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_indirect_4_imm_bit5, { 0x10c00400 } ++ }, ++/* btst (${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_indirect_with_post_increment_4_imm_bit5, { 0x10c00200 } ++ }, ++/* btst ${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_indirect_with_pre_increment_4_imm_bit5, { 0x10c00210 } ++ }, ++/* btst ${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_direct_dyn_reg, { 0x14c00100 } ++ }, ++/* btst #${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_immediate_dyn_reg, { 0x14c00000 } ++ }, ++/* btst (${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_indirect_with_index_4_dyn_reg, { 0x14c00300 } ++ }, ++/* btst ${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_indirect_with_offset_4_dyn_reg, { 0x14c00400 } ++ }, ++/* btst (${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_indirect_4_dyn_reg, { 0x14c00400 } ++ }, ++/* btst (${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_indirect_with_post_increment_4_dyn_reg, { 0x14c00200 } ++ }, ++/* btst ${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_indirect_with_pre_increment_4_dyn_reg, { 0x14c00210 } ++ }, ++/* shmrg.2 ${Dn},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_direct, { 0x13c00100 } ++ }, ++/* shmrg.2 ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_direct, { 0x17c00100 } ++ }, ++/* shmrg.2 ${Dn},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_immediate, { 0x13c00000 } ++ }, ++/* shmrg.2 ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_immediate, { 0x17c00000 } ++ }, ++/* shmrg.2 ${Dn},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_index_2, { 0x13c00300 } ++ }, ++/* shmrg.2 ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_index_2, { 0x17c00300 } ++ }, ++/* shmrg.2 ${Dn},${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_offset_2, { 0x13c00400 } ++ }, ++/* shmrg.2 ${Dn},${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_offset_2, { 0x17c00400 } ++ }, ++/* shmrg.2 ${Dn},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_2, { 0x13c00400 } ++ }, ++/* shmrg.2 ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_2, { 0x17c00400 } ++ }, ++/* shmrg.2 ${Dn},(${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_post_increment_2, { 0x13c00200 } ++ }, ++/* shmrg.2 ${Dn},(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_post_increment_2, { 0x17c00200 } ++ }, ++/* shmrg.2 ${Dn},${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_pre_increment_2, { 0x13c00210 } ++ }, ++/* shmrg.2 ${Dn},${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_pre_increment_2, { 0x17c00210 } ++ }, ++/* shmrg.1 ${Dn},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_direct, { 0x13e00100 } ++ }, ++/* shmrg.1 ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_direct, { 0x17e00100 } ++ }, ++/* shmrg.1 ${Dn},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_immediate, { 0x13e00000 } ++ }, ++/* shmrg.1 ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_immediate, { 0x17e00000 } ++ }, ++/* shmrg.1 ${Dn},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_index_1, { 0x13e00300 } ++ }, ++/* shmrg.1 ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_index_1, { 0x17e00300 } ++ }, ++/* shmrg.1 ${Dn},${s1-imm7-1}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_offset_1, { 0x13e00400 } ++ }, ++/* shmrg.1 ${Dn},${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_offset_1, { 0x17e00400 } ++ }, ++/* shmrg.1 ${Dn},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_1, { 0x13e00400 } ++ }, ++/* shmrg.1 ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_1, { 0x17e00400 } ++ }, ++/* shmrg.1 ${Dn},(${s1-An})${s1-i4-1}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_post_increment_1, { 0x13e00200 } ++ }, ++/* shmrg.1 ${Dn},(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_post_increment_1, { 0x17e00200 } ++ }, ++/* shmrg.1 ${Dn},${s1-i4-1}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_pre_increment_1, { 0x13e00210 } ++ }, ++/* shmrg.1 ${Dn},${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_pre_increment_1, { 0x17e00210 } ++ }, ++/* crcgen ${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_direct_imm_bit5, { 0x11000100 } ++ }, ++/* crcgen #${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_immediate_imm_bit5, { 0x11000000 } ++ }, ++/* crcgen (${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_crcgen_s1_indirect_with_index_1_imm_bit5, { 0x11000300 } ++ }, ++/* crcgen ${s1-imm7-1}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_crcgen_s1_indirect_with_offset_1_imm_bit5, { 0x11000400 } ++ }, ++/* crcgen (${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_crcgen_s1_indirect_1_imm_bit5, { 0x11000400 } ++ }, ++/* crcgen (${s1-An})${s1-i4-1}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_crcgen_s1_indirect_with_post_increment_1_imm_bit5, { 0x11000200 } ++ }, ++/* crcgen ${s1-i4-1}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_crcgen_s1_indirect_with_pre_increment_1_imm_bit5, { 0x11000210 } ++ }, ++/* crcgen ${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_direct_dyn_reg, { 0x15000100 } ++ }, ++/* crcgen #${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_immediate_dyn_reg, { 0x15000000 } ++ }, ++/* crcgen (${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_crcgen_s1_indirect_with_index_1_dyn_reg, { 0x15000300 } ++ }, ++/* crcgen ${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_crcgen_s1_indirect_with_offset_1_dyn_reg, { 0x15000400 } ++ }, ++/* crcgen (${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_crcgen_s1_indirect_1_dyn_reg, { 0x15000400 } ++ }, ++/* crcgen (${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_crcgen_s1_indirect_with_post_increment_1_dyn_reg, { 0x15000200 } ++ }, ++/* crcgen ${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_crcgen_s1_indirect_with_pre_increment_1_dyn_reg, { 0x15000210 } ++ }, ++/* bfextu ${Dn},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_direct_imm_bit5, { 0x12c00100 } ++ }, ++/* bfextu ${Dn},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_immediate_imm_bit5, { 0x12c00000 } ++ }, ++/* bfextu ${Dn},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_index_4_imm_bit5, { 0x12c00300 } ++ }, ++/* bfextu ${Dn},${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_offset_4_imm_bit5, { 0x12c00400 } ++ }, ++/* bfextu ${Dn},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_4_imm_bit5, { 0x12c00400 } ++ }, ++/* bfextu ${Dn},(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_post_increment_4_imm_bit5, { 0x12c00200 } ++ }, ++/* bfextu ${Dn},${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_pre_increment_4_imm_bit5, { 0x12c00210 } ++ }, ++/* bfextu ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_direct_dyn_reg, { 0x16c00100 } ++ }, ++/* bfextu ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_immediate_dyn_reg, { 0x16c00000 } ++ }, ++/* bfextu ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_index_4_dyn_reg, { 0x16c00300 } ++ }, ++/* bfextu ${Dn},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_offset_4_dyn_reg, { 0x16c00400 } ++ }, ++/* bfextu ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_4_dyn_reg, { 0x16c00400 } ++ }, ++/* bfextu ${Dn},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_post_increment_4_dyn_reg, { 0x16c00200 } ++ }, ++/* bfextu ${Dn},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_pre_increment_4_dyn_reg, { 0x16c00210 } ++ }, ++/* bfrvrs ${Dn},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_direct_imm_bit5, { 0x13000100 } ++ }, ++/* bfrvrs ${Dn},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_immediate_imm_bit5, { 0x13000000 } ++ }, ++/* bfrvrs ${Dn},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_index_4_imm_bit5, { 0x13000300 } ++ }, ++/* bfrvrs ${Dn},${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_offset_4_imm_bit5, { 0x13000400 } ++ }, ++/* bfrvrs ${Dn},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_4_imm_bit5, { 0x13000400 } ++ }, ++/* bfrvrs ${Dn},(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_post_increment_4_imm_bit5, { 0x13000200 } ++ }, ++/* bfrvrs ${Dn},${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_pre_increment_4_imm_bit5, { 0x13000210 } ++ }, ++/* bfrvrs ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_direct_dyn_reg, { 0x17000100 } ++ }, ++/* bfrvrs ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_immediate_dyn_reg, { 0x17000000 } ++ }, ++/* bfrvrs ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_index_4_dyn_reg, { 0x17000300 } ++ }, ++/* bfrvrs ${Dn},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_offset_4_dyn_reg, { 0x17000400 } ++ }, ++/* bfrvrs ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_4_dyn_reg, { 0x17000400 } ++ }, ++/* bfrvrs ${Dn},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_post_increment_4_dyn_reg, { 0x17000200 } ++ }, ++/* bfrvrs ${Dn},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_pre_increment_4_dyn_reg, { 0x17000210 } ++ }, ++/* merge ${Dn},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_direct_imm_bit5, { 0x13800100 } ++ }, ++/* merge ${Dn},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_immediate_imm_bit5, { 0x13800000 } ++ }, ++/* merge ${Dn},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_index_4_imm_bit5, { 0x13800300 } ++ }, ++/* merge ${Dn},${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_offset_4_imm_bit5, { 0x13800400 } ++ }, ++/* merge ${Dn},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_4_imm_bit5, { 0x13800400 } ++ }, ++/* merge ${Dn},(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_post_increment_4_imm_bit5, { 0x13800200 } ++ }, ++/* merge ${Dn},${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_pre_increment_4_imm_bit5, { 0x13800210 } ++ }, ++/* merge ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_direct_dyn_reg, { 0x17800100 } ++ }, ++/* merge ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_immediate_dyn_reg, { 0x17800000 } ++ }, ++/* merge ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_index_4_dyn_reg, { 0x17800300 } ++ }, ++/* merge ${Dn},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_offset_4_dyn_reg, { 0x17800400 } ++ }, ++/* merge ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_4_dyn_reg, { 0x17800400 } ++ }, ++/* merge ${Dn},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_post_increment_4_dyn_reg, { 0x17800200 } ++ }, ++/* merge ${Dn},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_pre_increment_4_dyn_reg, { 0x17800210 } ++ }, ++/* shftd ${Dn},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_direct_imm_bit5, { 0x13400100 } ++ }, ++/* shftd ${Dn},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_immediate_imm_bit5, { 0x13400000 } ++ }, ++/* shftd ${Dn},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_index_4_imm_bit5, { 0x13400300 } ++ }, ++/* shftd ${Dn},${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_offset_4_imm_bit5, { 0x13400400 } ++ }, ++/* shftd ${Dn},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_4_imm_bit5, { 0x13400400 } ++ }, ++/* shftd ${Dn},(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_post_increment_4_imm_bit5, { 0x13400200 } ++ }, ++/* shftd ${Dn},${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_pre_increment_4_imm_bit5, { 0x13400210 } ++ }, ++/* shftd ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_direct_dyn_reg, { 0x17400100 } ++ }, ++/* shftd ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_immediate_dyn_reg, { 0x17400000 } ++ }, ++/* shftd ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_index_4_dyn_reg, { 0x17400300 } ++ }, ++/* shftd ${Dn},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_offset_4_dyn_reg, { 0x17400400 } ++ }, ++/* shftd ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_4_dyn_reg, { 0x17400400 } ++ }, ++/* shftd ${Dn},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_post_increment_4_dyn_reg, { 0x17400200 } ++ }, ++/* shftd ${Dn},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_bfextu_s1_indirect_with_pre_increment_4_dyn_reg, { 0x17400210 } ++ }, ++/* asr.1 ${Dn},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_direct, { 0x11800100 } ++ }, ++/* asr.1 ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_direct, { 0x15800100 } ++ }, ++/* asr.1 ${Dn},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_immediate, { 0x11800000 } ++ }, ++/* asr.1 ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_immediate, { 0x15800000 } ++ }, ++/* asr.1 ${Dn},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_index_1, { 0x11800300 } ++ }, ++/* asr.1 ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_index_1, { 0x15800300 } ++ }, ++/* asr.1 ${Dn},${s1-imm7-1}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_offset_1, { 0x11800400 } ++ }, ++/* asr.1 ${Dn},${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_offset_1, { 0x15800400 } ++ }, ++/* asr.1 ${Dn},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_1, { 0x11800400 } ++ }, ++/* asr.1 ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_1, { 0x15800400 } ++ }, ++/* asr.1 ${Dn},(${s1-An})${s1-i4-1}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_post_increment_1, { 0x11800200 } ++ }, ++/* asr.1 ${Dn},(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_post_increment_1, { 0x15800200 } ++ }, ++/* asr.1 ${Dn},${s1-i4-1}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_pre_increment_1, { 0x11800210 } ++ }, ++/* asr.1 ${Dn},${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_pre_increment_1, { 0x15800210 } ++ }, ++/* lsl.1 ${Dn},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_direct, { 0x11400100 } ++ }, ++/* lsl.1 ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_direct, { 0x15400100 } ++ }, ++/* lsl.1 ${Dn},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_immediate, { 0x11400000 } ++ }, ++/* lsl.1 ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_immediate, { 0x15400000 } ++ }, ++/* lsl.1 ${Dn},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_index_1, { 0x11400300 } ++ }, ++/* lsl.1 ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_index_1, { 0x15400300 } ++ }, ++/* lsl.1 ${Dn},${s1-imm7-1}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_offset_1, { 0x11400400 } ++ }, ++/* lsl.1 ${Dn},${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_offset_1, { 0x15400400 } ++ }, ++/* lsl.1 ${Dn},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_1, { 0x11400400 } ++ }, ++/* lsl.1 ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_1, { 0x15400400 } ++ }, ++/* lsl.1 ${Dn},(${s1-An})${s1-i4-1}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_post_increment_1, { 0x11400200 } ++ }, ++/* lsl.1 ${Dn},(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_post_increment_1, { 0x15400200 } ++ }, ++/* lsl.1 ${Dn},${s1-i4-1}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_pre_increment_1, { 0x11400210 } ++ }, ++/* lsl.1 ${Dn},${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_pre_increment_1, { 0x15400210 } ++ }, ++/* lsr.1 ${Dn},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_direct, { 0x11600100 } ++ }, ++/* lsr.1 ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_direct, { 0x15600100 } ++ }, ++/* lsr.1 ${Dn},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_immediate, { 0x11600000 } ++ }, ++/* lsr.1 ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_immediate, { 0x15600000 } ++ }, ++/* lsr.1 ${Dn},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_index_1, { 0x11600300 } ++ }, ++/* lsr.1 ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_index_1, { 0x15600300 } ++ }, ++/* lsr.1 ${Dn},${s1-imm7-1}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_offset_1, { 0x11600400 } ++ }, ++/* lsr.1 ${Dn},${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_offset_1, { 0x15600400 } ++ }, ++/* lsr.1 ${Dn},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_1, { 0x11600400 } ++ }, ++/* lsr.1 ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_1, { 0x15600400 } ++ }, ++/* lsr.1 ${Dn},(${s1-An})${s1-i4-1}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_post_increment_1, { 0x11600200 } ++ }, ++/* lsr.1 ${Dn},(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_post_increment_1, { 0x15600200 } ++ }, ++/* lsr.1 ${Dn},${s1-i4-1}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_1_imm_bit5_s1_indirect_with_pre_increment_1, { 0x11600210 } ++ }, ++/* lsr.1 ${Dn},${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_1_dyn_reg_s1_indirect_with_pre_increment_1, { 0x15600210 } ++ }, ++/* asr.2 ${Dn},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_direct, { 0x12a00100 } ++ }, ++/* asr.2 ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_direct, { 0x16a00100 } ++ }, ++/* asr.2 ${Dn},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_immediate, { 0x12a00000 } ++ }, ++/* asr.2 ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_immediate, { 0x16a00000 } ++ }, ++/* asr.2 ${Dn},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_index_2, { 0x12a00300 } ++ }, ++/* asr.2 ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_index_2, { 0x16a00300 } ++ }, ++/* asr.2 ${Dn},${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_offset_2, { 0x12a00400 } ++ }, ++/* asr.2 ${Dn},${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_offset_2, { 0x16a00400 } ++ }, ++/* asr.2 ${Dn},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_2, { 0x12a00400 } ++ }, ++/* asr.2 ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_2, { 0x16a00400 } ++ }, ++/* asr.2 ${Dn},(${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_post_increment_2, { 0x12a00200 } ++ }, ++/* asr.2 ${Dn},(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_post_increment_2, { 0x16a00200 } ++ }, ++/* asr.2 ${Dn},${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_pre_increment_2, { 0x12a00210 } ++ }, ++/* asr.2 ${Dn},${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_pre_increment_2, { 0x16a00210 } ++ }, ++/* lsl.2 ${Dn},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_direct, { 0x12200100 } ++ }, ++/* lsl.2 ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_direct, { 0x16200100 } ++ }, ++/* lsl.2 ${Dn},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_immediate, { 0x12200000 } ++ }, ++/* lsl.2 ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_immediate, { 0x16200000 } ++ }, ++/* lsl.2 ${Dn},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_index_2, { 0x12200300 } ++ }, ++/* lsl.2 ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_index_2, { 0x16200300 } ++ }, ++/* lsl.2 ${Dn},${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_offset_2, { 0x12200400 } ++ }, ++/* lsl.2 ${Dn},${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_offset_2, { 0x16200400 } ++ }, ++/* lsl.2 ${Dn},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_2, { 0x12200400 } ++ }, ++/* lsl.2 ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_2, { 0x16200400 } ++ }, ++/* lsl.2 ${Dn},(${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_post_increment_2, { 0x12200200 } ++ }, ++/* lsl.2 ${Dn},(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_post_increment_2, { 0x16200200 } ++ }, ++/* lsl.2 ${Dn},${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_pre_increment_2, { 0x12200210 } ++ }, ++/* lsl.2 ${Dn},${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_pre_increment_2, { 0x16200210 } ++ }, ++/* lsr.2 ${Dn},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_direct, { 0x12600100 } ++ }, ++/* lsr.2 ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_direct, { 0x16600100 } ++ }, ++/* lsr.2 ${Dn},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_immediate, { 0x12600000 } ++ }, ++/* lsr.2 ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_immediate, { 0x16600000 } ++ }, ++/* lsr.2 ${Dn},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_index_2, { 0x12600300 } ++ }, ++/* lsr.2 ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_index_2, { 0x16600300 } ++ }, ++/* lsr.2 ${Dn},${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_offset_2, { 0x12600400 } ++ }, ++/* lsr.2 ${Dn},${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_offset_2, { 0x16600400 } ++ }, ++/* lsr.2 ${Dn},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_2, { 0x12600400 } ++ }, ++/* lsr.2 ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_2, { 0x16600400 } ++ }, ++/* lsr.2 ${Dn},(${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_post_increment_2, { 0x12600200 } ++ }, ++/* lsr.2 ${Dn},(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_post_increment_2, { 0x16600200 } ++ }, ++/* lsr.2 ${Dn},${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_indirect_with_pre_increment_2, { 0x12600210 } ++ }, ++/* lsr.2 ${Dn},${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_indirect_with_pre_increment_2, { 0x16600210 } ++ }, ++/* asr.4 ${Dn},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_direct, { 0x12800100 } ++ }, ++/* asr.4 ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_direct, { 0x16800100 } ++ }, ++/* asr.4 ${Dn},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_immediate, { 0x12800000 } ++ }, ++/* asr.4 ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_immediate, { 0x16800000 } ++ }, ++/* asr.4 ${Dn},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_asr_4_imm_bit5_s1_indirect_with_index_4, { 0x12800300 } ++ }, ++/* asr.4 ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_asr_4_dyn_reg_s1_indirect_with_index_4, { 0x16800300 } ++ }, ++/* asr.4 ${Dn},${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_asr_4_imm_bit5_s1_indirect_with_offset_4, { 0x12800400 } ++ }, ++/* asr.4 ${Dn},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_asr_4_dyn_reg_s1_indirect_with_offset_4, { 0x16800400 } ++ }, ++/* asr.4 ${Dn},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_asr_4_imm_bit5_s1_indirect_4, { 0x12800400 } ++ }, ++/* asr.4 ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_asr_4_dyn_reg_s1_indirect_4, { 0x16800400 } ++ }, ++/* asr.4 ${Dn},(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_asr_4_imm_bit5_s1_indirect_with_post_increment_4, { 0x12800200 } ++ }, ++/* asr.4 ${Dn},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_asr_4_dyn_reg_s1_indirect_with_post_increment_4, { 0x16800200 } ++ }, ++/* asr.4 ${Dn},${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_asr_4_imm_bit5_s1_indirect_with_pre_increment_4, { 0x12800210 } ++ }, ++/* asr.4 ${Dn},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_asr_4_dyn_reg_s1_indirect_with_pre_increment_4, { 0x16800210 } ++ }, ++/* lsl.4 ${Dn},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_direct, { 0x12000100 } ++ }, ++/* lsl.4 ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_direct, { 0x16000100 } ++ }, ++/* lsl.4 ${Dn},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_immediate, { 0x12000000 } ++ }, ++/* lsl.4 ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_immediate, { 0x16000000 } ++ }, ++/* lsl.4 ${Dn},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_asr_4_imm_bit5_s1_indirect_with_index_4, { 0x12000300 } ++ }, ++/* lsl.4 ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_asr_4_dyn_reg_s1_indirect_with_index_4, { 0x16000300 } ++ }, ++/* lsl.4 ${Dn},${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_asr_4_imm_bit5_s1_indirect_with_offset_4, { 0x12000400 } ++ }, ++/* lsl.4 ${Dn},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_asr_4_dyn_reg_s1_indirect_with_offset_4, { 0x16000400 } ++ }, ++/* lsl.4 ${Dn},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_asr_4_imm_bit5_s1_indirect_4, { 0x12000400 } ++ }, ++/* lsl.4 ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_asr_4_dyn_reg_s1_indirect_4, { 0x16000400 } ++ }, ++/* lsl.4 ${Dn},(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_asr_4_imm_bit5_s1_indirect_with_post_increment_4, { 0x12000200 } ++ }, ++/* lsl.4 ${Dn},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_asr_4_dyn_reg_s1_indirect_with_post_increment_4, { 0x16000200 } ++ }, ++/* lsl.4 ${Dn},${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_asr_4_imm_bit5_s1_indirect_with_pre_increment_4, { 0x12000210 } ++ }, ++/* lsl.4 ${Dn},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_asr_4_dyn_reg_s1_indirect_with_pre_increment_4, { 0x16000210 } ++ }, ++/* lsr.4 ${Dn},${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_direct, { 0x12400100 } ++ }, ++/* lsr.4 ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_direct, { 0x16400100 } ++ }, ++/* lsr.4 ${Dn},#${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_shmrg_2_imm_bit5_s1_immediate, { 0x12400000 } ++ }, ++/* lsr.4 ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_shmrg_2_dyn_reg_s1_immediate, { 0x16400000 } ++ }, ++/* lsr.4 ${Dn},(${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_asr_4_imm_bit5_s1_indirect_with_index_4, { 0x12400300 } ++ }, ++/* lsr.4 ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_asr_4_dyn_reg_s1_indirect_with_index_4, { 0x16400300 } ++ }, ++/* lsr.4 ${Dn},${s1-imm7-4}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_asr_4_imm_bit5_s1_indirect_with_offset_4, { 0x12400400 } ++ }, ++/* lsr.4 ${Dn},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_asr_4_dyn_reg_s1_indirect_with_offset_4, { 0x16400400 } ++ }, ++/* lsr.4 ${Dn},(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_asr_4_imm_bit5_s1_indirect_4, { 0x12400400 } ++ }, ++/* lsr.4 ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_asr_4_dyn_reg_s1_indirect_4, { 0x16400400 } ++ }, ++/* lsr.4 ${Dn},(${s1-An})${s1-i4-4}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_asr_4_imm_bit5_s1_indirect_with_post_increment_4, { 0x12400200 } ++ }, ++/* lsr.4 ${Dn},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_asr_4_dyn_reg_s1_indirect_with_post_increment_4, { 0x16400200 } ++ }, ++/* lsr.4 ${Dn},${s1-i4-4}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_asr_4_imm_bit5_s1_indirect_with_pre_increment_4, { 0x12400210 } ++ }, ++/* lsr.4 ${Dn},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_asr_4_dyn_reg_s1_indirect_with_pre_increment_4, { 0x16400210 } ++ }, ++/* mac ${s1-direct-addr},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_direct_dsp_src2_data_reg, { 0x34200100 } ++ }, ++/* mac #${s1-imm8},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_immediate_dsp_src2_data_reg, { 0x34200000 } ++ }, ++/* mac (${s1-An},${s1-r}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_index_2_dsp_src2_data_reg, { 0x34200300 } ++ }, ++/* mac ${s1-imm7-2}(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_offset_2_dsp_src2_data_reg, { 0x34200400 } ++ }, ++/* mac (${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_2_dsp_src2_data_reg, { 0x34200400 } ++ }, ++/* mac (${s1-An})${s1-i4-2}++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_post_increment_2_dsp_src2_data_reg, { 0x34200200 } ++ }, ++/* mac ${s1-i4-2}(${s1-An})++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_pre_increment_2_dsp_src2_data_reg, { 0x34200210 } ++ }, ++/* mac ${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_direct_dsp_imm_bit5, { 0x30200100 } ++ }, ++/* mac #${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_immediate_dsp_imm_bit5, { 0x30200000 } ++ }, ++/* mac (${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_index_2_dsp_imm_bit5, { 0x30200300 } ++ }, ++/* mac ${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_offset_2_dsp_imm_bit5, { 0x30200400 } ++ }, ++/* mac (${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_2_dsp_imm_bit5, { 0x30200400 } ++ }, ++/* mac (${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_post_increment_2_dsp_imm_bit5, { 0x30200200 } ++ }, ++/* mac ${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_pre_increment_2_dsp_imm_bit5, { 0x30200210 } ++ }, ++/* mac ${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_direct_imm_bit5, { 0x11200100 } ++ }, ++/* mac #${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_immediate_imm_bit5, { 0x11200000 } ++ }, ++/* mac (${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_index_2_imm_bit5, { 0x11200300 } ++ }, ++/* mac ${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_offset_2_imm_bit5, { 0x11200400 } ++ }, ++/* mac (${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_2_imm_bit5, { 0x11200400 } ++ }, ++/* mac (${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_post_increment_2_imm_bit5, { 0x11200200 } ++ }, ++/* mac ${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_pre_increment_2_imm_bit5, { 0x11200210 } ++ }, ++/* mac ${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_direct_dyn_reg, { 0x15200100 } ++ }, ++/* mac #${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_immediate_dyn_reg, { 0x15200000 } ++ }, ++/* mac (${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_index_2_dyn_reg, { 0x15200300 } ++ }, ++/* mac ${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_offset_2_dyn_reg, { 0x15200400 } ++ }, ++/* mac (${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_2_dyn_reg, { 0x15200400 } ++ }, ++/* mac (${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_post_increment_2_dyn_reg, { 0x15200200 } ++ }, ++/* mac ${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_pre_increment_2_dyn_reg, { 0x15200210 } ++ }, ++/* mulf ${s1-direct-addr},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_direct_dsp_src2_data_reg, { 0x34800100 } ++ }, ++/* mulf #${s1-imm8},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_immediate_dsp_src2_data_reg, { 0x34800000 } ++ }, ++/* mulf (${s1-An},${s1-r}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_index_2_dsp_src2_data_reg, { 0x34800300 } ++ }, ++/* mulf ${s1-imm7-2}(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_offset_2_dsp_src2_data_reg, { 0x34800400 } ++ }, ++/* mulf (${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_2_dsp_src2_data_reg, { 0x34800400 } ++ }, ++/* mulf (${s1-An})${s1-i4-2}++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_post_increment_2_dsp_src2_data_reg, { 0x34800200 } ++ }, ++/* mulf ${s1-i4-2}(${s1-An})++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_pre_increment_2_dsp_src2_data_reg, { 0x34800210 } ++ }, ++/* mulf ${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_direct_dsp_imm_bit5, { 0x30800100 } ++ }, ++/* mulf #${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_immediate_dsp_imm_bit5, { 0x30800000 } ++ }, ++/* mulf (${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_index_2_dsp_imm_bit5, { 0x30800300 } ++ }, ++/* mulf ${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_offset_2_dsp_imm_bit5, { 0x30800400 } ++ }, ++/* mulf (${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_2_dsp_imm_bit5, { 0x30800400 } ++ }, ++/* mulf (${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_post_increment_2_dsp_imm_bit5, { 0x30800200 } ++ }, ++/* mulf ${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_pre_increment_2_dsp_imm_bit5, { 0x30800210 } ++ }, ++/* mulf ${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_direct_imm_bit5, { 0x10a00100 } ++ }, ++/* mulf #${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_immediate_imm_bit5, { 0x10a00000 } ++ }, ++/* mulf (${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_index_2_imm_bit5, { 0x10a00300 } ++ }, ++/* mulf ${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_offset_2_imm_bit5, { 0x10a00400 } ++ }, ++/* mulf (${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_2_imm_bit5, { 0x10a00400 } ++ }, ++/* mulf (${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_post_increment_2_imm_bit5, { 0x10a00200 } ++ }, ++/* mulf ${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_pre_increment_2_imm_bit5, { 0x10a00210 } ++ }, ++/* mulf ${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_direct_dyn_reg, { 0x14a00100 } ++ }, ++/* mulf #${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_immediate_dyn_reg, { 0x14a00000 } ++ }, ++/* mulf (${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_index_2_dyn_reg, { 0x14a00300 } ++ }, ++/* mulf ${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_offset_2_dyn_reg, { 0x14a00400 } ++ }, ++/* mulf (${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_2_dyn_reg, { 0x14a00400 } ++ }, ++/* mulf (${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_post_increment_2_dyn_reg, { 0x14a00200 } ++ }, ++/* mulf ${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_pre_increment_2_dyn_reg, { 0x14a00210 } ++ }, ++/* mulu ${s1-direct-addr},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_direct_dsp_src2_data_reg, { 0x34400100 } ++ }, ++/* mulu #${s1-imm8},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_immediate_dsp_src2_data_reg, { 0x34400000 } ++ }, ++/* mulu (${s1-An},${s1-r}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_index_2_dsp_src2_data_reg, { 0x34400300 } ++ }, ++/* mulu ${s1-imm7-2}(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_offset_2_dsp_src2_data_reg, { 0x34400400 } ++ }, ++/* mulu (${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_2_dsp_src2_data_reg, { 0x34400400 } ++ }, ++/* mulu (${s1-An})${s1-i4-2}++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_post_increment_2_dsp_src2_data_reg, { 0x34400200 } ++ }, ++/* mulu ${s1-i4-2}(${s1-An})++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_pre_increment_2_dsp_src2_data_reg, { 0x34400210 } ++ }, ++/* mulu ${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_direct_dsp_imm_bit5, { 0x30400100 } ++ }, ++/* mulu #${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_immediate_dsp_imm_bit5, { 0x30400000 } ++ }, ++/* mulu (${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_index_2_dsp_imm_bit5, { 0x30400300 } ++ }, ++/* mulu ${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_offset_2_dsp_imm_bit5, { 0x30400400 } ++ }, ++/* mulu (${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_2_dsp_imm_bit5, { 0x30400400 } ++ }, ++/* mulu (${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_post_increment_2_dsp_imm_bit5, { 0x30400200 } ++ }, ++/* mulu ${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_pre_increment_2_dsp_imm_bit5, { 0x30400210 } ++ }, ++/* mulu ${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_direct_imm_bit5, { 0x10600100 } ++ }, ++/* mulu #${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_immediate_imm_bit5, { 0x10600000 } ++ }, ++/* mulu (${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_index_2_imm_bit5, { 0x10600300 } ++ }, ++/* mulu ${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_offset_2_imm_bit5, { 0x10600400 } ++ }, ++/* mulu (${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_2_imm_bit5, { 0x10600400 } ++ }, ++/* mulu (${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_post_increment_2_imm_bit5, { 0x10600200 } ++ }, ++/* mulu ${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_pre_increment_2_imm_bit5, { 0x10600210 } ++ }, ++/* mulu ${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_direct_dyn_reg, { 0x14600100 } ++ }, ++/* mulu #${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_immediate_dyn_reg, { 0x14600000 } ++ }, ++/* mulu (${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_index_2_dyn_reg, { 0x14600300 } ++ }, ++/* mulu ${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_offset_2_dyn_reg, { 0x14600400 } ++ }, ++/* mulu (${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_2_dyn_reg, { 0x14600400 } ++ }, ++/* mulu (${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_post_increment_2_dyn_reg, { 0x14600200 } ++ }, ++/* mulu ${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_pre_increment_2_dyn_reg, { 0x14600210 } ++ }, ++/* muls ${s1-direct-addr},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_direct_dsp_src2_data_reg, { 0x34000100 } ++ }, ++/* muls #${s1-imm8},${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_immediate_dsp_src2_data_reg, { 0x34000000 } ++ }, ++/* muls (${s1-An},${s1-r}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_index_2_dsp_src2_data_reg, { 0x34000300 } ++ }, ++/* muls ${s1-imm7-2}(${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_offset_2_dsp_src2_data_reg, { 0x34000400 } ++ }, ++/* muls (${s1-An}),${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_2_dsp_src2_data_reg, { 0x34000400 } ++ }, ++/* muls (${s1-An})${s1-i4-2}++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_post_increment_2_dsp_src2_data_reg, { 0x34000200 } ++ }, ++/* muls ${s1-i4-2}(${s1-An})++,${dsp-S2-data-reg} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (DSP_S2_DATA_REG), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_pre_increment_2_dsp_src2_data_reg, { 0x34000210 } ++ }, ++/* muls ${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_direct_dsp_imm_bit5, { 0x30000100 } ++ }, ++/* muls #${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_immediate_dsp_imm_bit5, { 0x30000000 } ++ }, ++/* muls (${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_index_2_dsp_imm_bit5, { 0x30000300 } ++ }, ++/* muls ${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_offset_2_dsp_imm_bit5, { 0x30000400 } ++ }, ++/* muls (${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_2_dsp_imm_bit5, { 0x30000400 } ++ }, ++/* muls (${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_post_increment_2_dsp_imm_bit5, { 0x30000200 } ++ }, ++/* muls ${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_compatibility_mac_s1_indirect_with_pre_increment_2_dsp_imm_bit5, { 0x30000210 } ++ }, ++/* muls ${s1-direct-addr},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_direct_imm_bit5, { 0x10200100 } ++ }, ++/* muls #${s1-imm8},#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', '#', OP (BIT5), 0 } }, ++ & ifmt_btst_s1_immediate_imm_bit5, { 0x10200000 } ++ }, ++/* muls (${s1-An},${s1-r}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_index_2_imm_bit5, { 0x10200300 } ++ }, ++/* muls ${s1-imm7-2}(${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_offset_2_imm_bit5, { 0x10200400 } ++ }, ++/* muls (${s1-An}),#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_2_imm_bit5, { 0x10200400 } ++ }, ++/* muls (${s1-An})${s1-i4-2}++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_post_increment_2_imm_bit5, { 0x10200200 } ++ }, ++/* muls ${s1-i4-2}(${s1-An})++,#${bit5} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (BIT5), 0 } }, ++ & ifmt_mac_s1_indirect_with_pre_increment_2_imm_bit5, { 0x10200210 } ++ }, ++/* muls ${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_direct_dyn_reg, { 0x14200100 } ++ }, ++/* muls #${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_btst_s1_immediate_dyn_reg, { 0x14200000 } ++ }, ++/* muls (${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_index_2_dyn_reg, { 0x14200300 } ++ }, ++/* muls ${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_offset_2_dyn_reg, { 0x14200400 } ++ }, ++/* muls (${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_2_dyn_reg, { 0x14200400 } ++ }, ++/* muls (${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_post_increment_2_dyn_reg, { 0x14200200 } ++ }, ++/* muls ${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_mac_s1_indirect_with_pre_increment_2_dyn_reg, { 0x14200210 } ++ }, ++/* swapb.4 ${d-direct-addr},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_direct_s1_direct, { 0x100c900 } ++ }, ++/* swapb.4 #${d-imm8},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_immediate_4_s1_direct, { 0xc900 } ++ }, ++/* swapb.4 (${d-An},${d-r}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_direct, { 0x300c900 } ++ }, ++/* swapb.4 ${d-imm7-4}(${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_direct, { 0x400c900 } ++ }, ++/* swapb.4 (${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_4_s1_direct, { 0x400c900 } ++ }, ++/* swapb.4 (${d-An})${d-i4-4}++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_direct, { 0x200c900 } ++ }, ++/* swapb.4 ${d-i4-4}(${d-An})++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_direct, { 0x210c900 } ++ }, ++/* swapb.4 ${d-direct-addr},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_direct_s1_immediate, { 0x100c800 } ++ }, ++/* swapb.4 #${d-imm8},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_immediate_4_s1_immediate, { 0xc800 } ++ }, ++/* swapb.4 (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_immediate, { 0x300c800 } ++ }, ++/* swapb.4 ${d-imm7-4}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_immediate, { 0x400c800 } ++ }, ++/* swapb.4 (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_4_s1_immediate, { 0x400c800 } ++ }, ++/* swapb.4 (${d-An})${d-i4-4}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_immediate, { 0x200c800 } ++ }, ++/* swapb.4 ${d-i4-4}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_immediate, { 0x210c800 } ++ }, ++/* swapb.4 ${d-direct-addr},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_index_4, { 0x100cb00 } ++ }, ++/* swapb.4 #${d-imm8},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_index_4, { 0xcb00 } ++ }, ++/* swapb.4 (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_index_4, { 0x300cb00 } ++ }, ++/* swapb.4 ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0x400cb00 } ++ }, ++/* swapb.4 (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_index_4, { 0x400cb00 } ++ }, ++/* swapb.4 (${d-An})${d-i4-4}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0x200cb00 } ++ }, ++/* swapb.4 ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0x210cb00 } ++ }, ++/* swapb.4 ${d-direct-addr},${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_offset_4, { 0x100cc00 } ++ }, ++/* swapb.4 #${d-imm8},${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_offset_4, { 0xcc00 } ++ }, ++/* swapb.4 (${d-An},${d-r}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0x300cc00 } ++ }, ++/* swapb.4 ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0x400cc00 } ++ }, ++/* swapb.4 (${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_offset_4, { 0x400cc00 } ++ }, ++/* swapb.4 (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0x200cc00 } ++ }, ++/* swapb.4 ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0x210cc00 } ++ }, ++/* swapb.4 ${d-direct-addr},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_4, { 0x100cc00 } ++ }, ++/* swapb.4 #${d-imm8},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_4, { 0xcc00 } ++ }, ++/* swapb.4 (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_4, { 0x300cc00 } ++ }, ++/* swapb.4 ${d-imm7-4}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_4, { 0x400cc00 } ++ }, ++/* swapb.4 (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_4, { 0x400cc00 } ++ }, ++/* swapb.4 (${d-An})${d-i4-4}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_4, { 0x200cc00 } ++ }, ++/* swapb.4 ${d-i4-4}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_4, { 0x210cc00 } ++ }, ++/* swapb.4 ${d-direct-addr},(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_post_increment_4, { 0x100ca00 } ++ }, ++/* swapb.4 #${d-imm8},(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_post_increment_4, { 0xca00 } ++ }, ++/* swapb.4 (${d-An},${d-r}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0x300ca00 } ++ }, ++/* swapb.4 ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0x400ca00 } ++ }, ++/* swapb.4 (${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_post_increment_4, { 0x400ca00 } ++ }, ++/* swapb.4 (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0x200ca00 } ++ }, ++/* swapb.4 ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0x210ca00 } ++ }, ++/* swapb.4 ${d-direct-addr},${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_pre_increment_4, { 0x100ca10 } ++ }, ++/* swapb.4 #${d-imm8},${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_pre_increment_4, { 0xca10 } ++ }, ++/* swapb.4 (${d-An},${d-r}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0x300ca10 } ++ }, ++/* swapb.4 ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0x400ca10 } ++ }, ++/* swapb.4 (${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_pre_increment_4, { 0x400ca10 } ++ }, ++/* swapb.4 (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0x200ca10 } ++ }, ++/* swapb.4 ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0x210ca10 } ++ }, ++/* swapb.2 ${d-direct-addr},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_direct_s1_direct, { 0x100c100 } ++ }, ++/* swapb.2 #${d-imm8},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_direct, { 0xc100 } ++ }, ++/* swapb.2 (${d-An},${d-r}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_direct, { 0x300c100 } ++ }, ++/* swapb.2 ${d-imm7-2}(${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_direct, { 0x400c100 } ++ }, ++/* swapb.2 (${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_direct, { 0x400c100 } ++ }, ++/* swapb.2 (${d-An})${d-i4-2}++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_direct, { 0x200c100 } ++ }, ++/* swapb.2 ${d-i4-2}(${d-An})++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_direct, { 0x210c100 } ++ }, ++/* swapb.2 ${d-direct-addr},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_direct_s1_immediate, { 0x100c000 } ++ }, ++/* swapb.2 #${d-imm8},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_immediate, { 0xc000 } ++ }, ++/* swapb.2 (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_immediate, { 0x300c000 } ++ }, ++/* swapb.2 ${d-imm7-2}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_immediate, { 0x400c000 } ++ }, ++/* swapb.2 (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_immediate, { 0x400c000 } ++ }, ++/* swapb.2 (${d-An})${d-i4-2}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_immediate, { 0x200c000 } ++ }, ++/* swapb.2 ${d-i4-2}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_immediate, { 0x210c000 } ++ }, ++/* swapb.2 ${d-direct-addr},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_index_2, { 0x100c300 } ++ }, ++/* swapb.2 #${d-imm8},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_index_2, { 0xc300 } ++ }, ++/* swapb.2 (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_index_2, { 0x300c300 } ++ }, ++/* swapb.2 ${d-imm7-2}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_index_2, { 0x400c300 } ++ }, ++/* swapb.2 (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_index_2, { 0x400c300 } ++ }, ++/* swapb.2 (${d-An})${d-i4-2}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_index_2, { 0x200c300 } ++ }, ++/* swapb.2 ${d-i4-2}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_index_2, { 0x210c300 } ++ }, ++/* swapb.2 ${d-direct-addr},${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_offset_2, { 0x100c400 } ++ }, ++/* swapb.2 #${d-imm8},${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_offset_2, { 0xc400 } ++ }, ++/* swapb.2 (${d-An},${d-r}),${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_offset_2, { 0x300c400 } ++ }, ++/* swapb.2 ${d-imm7-2}(${d-An}),${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_offset_2, { 0x400c400 } ++ }, ++/* swapb.2 (${d-An}),${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_offset_2, { 0x400c400 } ++ }, ++/* swapb.2 (${d-An})${d-i4-2}++,${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_offset_2, { 0x200c400 } ++ }, ++/* swapb.2 ${d-i4-2}(${d-An})++,${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_offset_2, { 0x210c400 } ++ }, ++/* swapb.2 ${d-direct-addr},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_2, { 0x100c400 } ++ }, ++/* swapb.2 #${d-imm8},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_2, { 0xc400 } ++ }, ++/* swapb.2 (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_2, { 0x300c400 } ++ }, ++/* swapb.2 ${d-imm7-2}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_2, { 0x400c400 } ++ }, ++/* swapb.2 (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_2, { 0x400c400 } ++ }, ++/* swapb.2 (${d-An})${d-i4-2}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_2, { 0x200c400 } ++ }, ++/* swapb.2 ${d-i4-2}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_2, { 0x210c400 } ++ }, ++/* swapb.2 ${d-direct-addr},(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_post_increment_2, { 0x100c200 } ++ }, ++/* swapb.2 #${d-imm8},(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_post_increment_2, { 0xc200 } ++ }, ++/* swapb.2 (${d-An},${d-r}),(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_post_increment_2, { 0x300c200 } ++ }, ++/* swapb.2 ${d-imm7-2}(${d-An}),(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_post_increment_2, { 0x400c200 } ++ }, ++/* swapb.2 (${d-An}),(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_post_increment_2, { 0x400c200 } ++ }, ++/* swapb.2 (${d-An})${d-i4-2}++,(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_2, { 0x200c200 } ++ }, ++/* swapb.2 ${d-i4-2}(${d-An})++,(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_2, { 0x210c200 } ++ }, ++/* swapb.2 ${d-direct-addr},${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_pre_increment_2, { 0x100c210 } ++ }, ++/* swapb.2 #${d-imm8},${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_pre_increment_2, { 0xc210 } ++ }, ++/* swapb.2 (${d-An},${d-r}),${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_pre_increment_2, { 0x300c210 } ++ }, ++/* swapb.2 ${d-imm7-2}(${d-An}),${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_pre_increment_2, { 0x400c210 } ++ }, ++/* swapb.2 (${d-An}),${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_pre_increment_2, { 0x400c210 } ++ }, ++/* swapb.2 (${d-An})${d-i4-2}++,${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_2, { 0x200c210 } ++ }, ++/* swapb.2 ${d-i4-2}(${d-An})++,${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_2, { 0x210c210 } ++ }, ++/* pdec ${d-direct-addr},${pdec-s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (PDEC_S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pdec_d_direct_pdec_s1_ea_indirect_with_offset_4, { 0x100f400 } ++ }, ++/* pdec #${d-imm8},${pdec-s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (PDEC_S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pdec_d_immediate_4_pdec_s1_ea_indirect_with_offset_4, { 0xf400 } ++ }, ++/* pdec (${d-An},${d-r}),${pdec-s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (PDEC_S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pdec_d_indirect_with_index_4_pdec_s1_ea_indirect_with_offset_4, { 0x300f400 } ++ }, ++/* pdec ${d-imm7-4}(${d-An}),${pdec-s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (PDEC_S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pdec_d_indirect_with_offset_4_pdec_s1_ea_indirect_with_offset_4, { 0x400f400 } ++ }, ++/* pdec (${d-An}),${pdec-s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (PDEC_S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pdec_d_indirect_4_pdec_s1_ea_indirect_with_offset_4, { 0x400f400 } ++ }, ++/* pdec (${d-An})${d-i4-4}++,${pdec-s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (PDEC_S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pdec_d_indirect_with_post_increment_4_pdec_s1_ea_indirect_with_offset_4, { 0x200f400 } ++ }, ++/* pdec ${d-i4-4}(${d-An})++,${pdec-s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (PDEC_S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pdec_d_indirect_with_pre_increment_4_pdec_s1_ea_indirect_with_offset_4, { 0x210f400 } ++ }, ++/* lea.4 ${d-direct-addr},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_direct_s1_ea_indirect, { 0x100e400 } ++ }, ++/* lea.4 #${d-imm8},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_immediate_4_s1_ea_indirect, { 0xe400 } ++ }, ++/* lea.4 (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_index_4_s1_ea_indirect, { 0x300e400 } ++ }, ++/* lea.4 ${d-imm7-4}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_offset_4_s1_ea_indirect, { 0x400e400 } ++ }, ++/* lea.4 (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_4_s1_ea_indirect, { 0x400e400 } ++ }, ++/* lea.4 (${d-An})${d-i4-4}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_indirect, { 0x200e400 } ++ }, ++/* lea.4 ${d-i4-4}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_indirect, { 0x210e400 } ++ }, ++/* lea.4 ${d-direct-addr},${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_direct_s1_ea_indirect_with_offset_4, { 0x100e400 } ++ }, ++/* lea.4 #${d-imm8},${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_immediate_4_s1_ea_indirect_with_offset_4, { 0xe400 } ++ }, ++/* lea.4 (${d-An},${d-r}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_index_4_s1_ea_indirect_with_offset_4, { 0x300e400 } ++ }, ++/* lea.4 ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_offset_4_s1_ea_indirect_with_offset_4, { 0x400e400 } ++ }, ++/* lea.4 (${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_4_s1_ea_indirect_with_offset_4, { 0x400e400 } ++ }, ++/* lea.4 (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_indirect_with_offset_4, { 0x200e400 } ++ }, ++/* lea.4 ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_indirect_with_offset_4, { 0x210e400 } ++ }, ++/* lea.4 ${d-direct-addr},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_4_d_direct_s1_ea_indirect_with_index_4, { 0x100e300 } ++ }, ++/* lea.4 #${d-imm8},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_4_d_immediate_4_s1_ea_indirect_with_index_4, { 0xe300 } ++ }, ++/* lea.4 (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_index_4_s1_ea_indirect_with_index_4, { 0x300e300 } ++ }, ++/* lea.4 ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_offset_4_s1_ea_indirect_with_index_4, { 0x400e300 } ++ }, ++/* lea.4 (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_4_s1_ea_indirect_with_index_4, { 0x400e300 } ++ }, ++/* lea.4 (${d-An})${d-i4-4}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_indirect_with_index_4, { 0x200e300 } ++ }, ++/* lea.4 ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_indirect_with_index_4, { 0x210e300 } ++ }, ++/* lea.4 ${d-direct-addr},(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_lea_4_d_direct_s1_ea_indirect_with_post_increment_4, { 0x100e200 } ++ }, ++/* lea.4 #${d-imm8},(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_lea_4_d_immediate_4_s1_ea_indirect_with_post_increment_4, { 0xe200 } ++ }, ++/* lea.4 (${d-An},${d-r}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_lea_4_d_indirect_with_index_4_s1_ea_indirect_with_post_increment_4, { 0x300e200 } ++ }, ++/* lea.4 ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_lea_4_d_indirect_with_offset_4_s1_ea_indirect_with_post_increment_4, { 0x400e200 } ++ }, ++/* lea.4 (${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_lea_4_d_indirect_4_s1_ea_indirect_with_post_increment_4, { 0x400e200 } ++ }, ++/* lea.4 (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_indirect_with_post_increment_4, { 0x200e200 } ++ }, ++/* lea.4 ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_indirect_with_post_increment_4, { 0x210e200 } ++ }, ++/* lea.4 ${d-direct-addr},${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_4_d_direct_s1_ea_indirect_with_pre_increment_4, { 0x100e210 } ++ }, ++/* lea.4 #${d-imm8},${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_4_d_immediate_4_s1_ea_indirect_with_pre_increment_4, { 0xe210 } ++ }, ++/* lea.4 (${d-An},${d-r}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_4_d_indirect_with_index_4_s1_ea_indirect_with_pre_increment_4, { 0x300e210 } ++ }, ++/* lea.4 ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_4_d_indirect_with_offset_4_s1_ea_indirect_with_pre_increment_4, { 0x400e210 } ++ }, ++/* lea.4 (${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_4_d_indirect_4_s1_ea_indirect_with_pre_increment_4, { 0x400e210 } ++ }, ++/* lea.4 (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_indirect_with_pre_increment_4, { 0x200e210 } ++ }, ++/* lea.4 ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_indirect_with_pre_increment_4, { 0x210e210 } ++ }, ++/* lea.4 ${d-direct-addr},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_direct_s1_ea_immediate, { 0x100e000 } ++ }, ++/* lea.4 #${d-imm8},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_immediate_4_s1_ea_immediate, { 0xe000 } ++ }, ++/* lea.4 (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_indirect_with_index_4_s1_ea_immediate, { 0x300e000 } ++ }, ++/* lea.4 ${d-imm7-4}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_indirect_with_offset_4_s1_ea_immediate, { 0x400e000 } ++ }, ++/* lea.4 (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_indirect_4_s1_ea_immediate, { 0x400e000 } ++ }, ++/* lea.4 (${d-An})${d-i4-4}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_immediate, { 0x200e000 } ++ }, ++/* lea.4 ${d-i4-4}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_immediate, { 0x210e000 } ++ }, ++/* lea.2 ${d-direct-addr},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_direct_s1_ea_indirect, { 0x100ec00 } ++ }, ++/* lea.2 #${d-imm8},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_immediate_4_s1_ea_indirect, { 0xec00 } ++ }, ++/* lea.2 (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_index_4_s1_ea_indirect, { 0x300ec00 } ++ }, ++/* lea.2 ${d-imm7-4}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_offset_4_s1_ea_indirect, { 0x400ec00 } ++ }, ++/* lea.2 (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_4_s1_ea_indirect, { 0x400ec00 } ++ }, ++/* lea.2 (${d-An})${d-i4-4}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_indirect, { 0x200ec00 } ++ }, ++/* lea.2 ${d-i4-4}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_indirect, { 0x210ec00 } ++ }, ++/* lea.2 ${d-direct-addr},${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_2_d_direct_s1_ea_indirect_with_offset_2, { 0x100ec00 } ++ }, ++/* lea.2 #${d-imm8},${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_2_d_immediate_4_s1_ea_indirect_with_offset_2, { 0xec00 } ++ }, ++/* lea.2 (${d-An},${d-r}),${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_2_d_indirect_with_index_4_s1_ea_indirect_with_offset_2, { 0x300ec00 } ++ }, ++/* lea.2 ${d-imm7-4}(${d-An}),${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_2_d_indirect_with_offset_4_s1_ea_indirect_with_offset_2, { 0x400ec00 } ++ }, ++/* lea.2 (${d-An}),${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_2_d_indirect_4_s1_ea_indirect_with_offset_2, { 0x400ec00 } ++ }, ++/* lea.2 (${d-An})${d-i4-4}++,${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_2_d_indirect_with_post_increment_4_s1_ea_indirect_with_offset_2, { 0x200ec00 } ++ }, ++/* lea.2 ${d-i4-4}(${d-An})++,${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_2_d_indirect_with_pre_increment_4_s1_ea_indirect_with_offset_2, { 0x210ec00 } ++ }, ++/* lea.2 ${d-direct-addr},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_2_d_direct_s1_ea_indirect_with_index_2, { 0x100eb00 } ++ }, ++/* lea.2 #${d-imm8},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_2_d_immediate_4_s1_ea_indirect_with_index_2, { 0xeb00 } ++ }, ++/* lea.2 (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_2_d_indirect_with_index_4_s1_ea_indirect_with_index_2, { 0x300eb00 } ++ }, ++/* lea.2 ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_2_d_indirect_with_offset_4_s1_ea_indirect_with_index_2, { 0x400eb00 } ++ }, ++/* lea.2 (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_2_d_indirect_4_s1_ea_indirect_with_index_2, { 0x400eb00 } ++ }, ++/* lea.2 (${d-An})${d-i4-4}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_2_d_indirect_with_post_increment_4_s1_ea_indirect_with_index_2, { 0x200eb00 } ++ }, ++/* lea.2 ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_2_d_indirect_with_pre_increment_4_s1_ea_indirect_with_index_2, { 0x210eb00 } ++ }, ++/* lea.2 ${d-direct-addr},(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_lea_2_d_direct_s1_ea_indirect_with_post_increment_2, { 0x100ea00 } ++ }, ++/* lea.2 #${d-imm8},(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_lea_2_d_immediate_4_s1_ea_indirect_with_post_increment_2, { 0xea00 } ++ }, ++/* lea.2 (${d-An},${d-r}),(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_lea_2_d_indirect_with_index_4_s1_ea_indirect_with_post_increment_2, { 0x300ea00 } ++ }, ++/* lea.2 ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_lea_2_d_indirect_with_offset_4_s1_ea_indirect_with_post_increment_2, { 0x400ea00 } ++ }, ++/* lea.2 (${d-An}),(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_lea_2_d_indirect_4_s1_ea_indirect_with_post_increment_2, { 0x400ea00 } ++ }, ++/* lea.2 (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_lea_2_d_indirect_with_post_increment_4_s1_ea_indirect_with_post_increment_2, { 0x200ea00 } ++ }, ++/* lea.2 ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_lea_2_d_indirect_with_pre_increment_4_s1_ea_indirect_with_post_increment_2, { 0x210ea00 } ++ }, ++/* lea.2 ${d-direct-addr},${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_2_d_direct_s1_ea_indirect_with_pre_increment_2, { 0x100ea10 } ++ }, ++/* lea.2 #${d-imm8},${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_2_d_immediate_4_s1_ea_indirect_with_pre_increment_2, { 0xea10 } ++ }, ++/* lea.2 (${d-An},${d-r}),${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_2_d_indirect_with_index_4_s1_ea_indirect_with_pre_increment_2, { 0x300ea10 } ++ }, ++/* lea.2 ${d-imm7-4}(${d-An}),${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_2_d_indirect_with_offset_4_s1_ea_indirect_with_pre_increment_2, { 0x400ea10 } ++ }, ++/* lea.2 (${d-An}),${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_2_d_indirect_4_s1_ea_indirect_with_pre_increment_2, { 0x400ea10 } ++ }, ++/* lea.2 (${d-An})${d-i4-4}++,${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_2_d_indirect_with_post_increment_4_s1_ea_indirect_with_pre_increment_2, { 0x200ea10 } ++ }, ++/* lea.2 ${d-i4-4}(${d-An})++,${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_2_d_indirect_with_pre_increment_4_s1_ea_indirect_with_pre_increment_2, { 0x210ea10 } ++ }, ++/* lea.2 ${d-direct-addr},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_direct_s1_ea_immediate, { 0x100e800 } ++ }, ++/* lea.2 #${d-imm8},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_immediate_4_s1_ea_immediate, { 0xe800 } ++ }, ++/* lea.2 (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_indirect_with_index_4_s1_ea_immediate, { 0x300e800 } ++ }, ++/* lea.2 ${d-imm7-4}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_indirect_with_offset_4_s1_ea_immediate, { 0x400e800 } ++ }, ++/* lea.2 (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_indirect_4_s1_ea_immediate, { 0x400e800 } ++ }, ++/* lea.2 (${d-An})${d-i4-4}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_immediate, { 0x200e800 } ++ }, ++/* lea.2 ${d-i4-4}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_immediate, { 0x210e800 } ++ }, ++/* lea.1 ${d-direct-addr},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_direct_s1_ea_indirect, { 0x100fc00 } ++ }, ++/* lea.1 #${d-imm8},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_immediate_4_s1_ea_indirect, { 0xfc00 } ++ }, ++/* lea.1 (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_index_4_s1_ea_indirect, { 0x300fc00 } ++ }, ++/* lea.1 ${d-imm7-4}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_offset_4_s1_ea_indirect, { 0x400fc00 } ++ }, ++/* lea.1 (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_4_s1_ea_indirect, { 0x400fc00 } ++ }, ++/* lea.1 (${d-An})${d-i4-4}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_indirect, { 0x200fc00 } ++ }, ++/* lea.1 ${d-i4-4}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_indirect, { 0x210fc00 } ++ }, ++/* lea.1 ${d-direct-addr},${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_1_d_direct_s1_ea_indirect_with_offset_1, { 0x100fc00 } ++ }, ++/* lea.1 #${d-imm8},${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_1_d_immediate_4_s1_ea_indirect_with_offset_1, { 0xfc00 } ++ }, ++/* lea.1 (${d-An},${d-r}),${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_1_d_indirect_with_index_4_s1_ea_indirect_with_offset_1, { 0x300fc00 } ++ }, ++/* lea.1 ${d-imm7-4}(${d-An}),${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_1_d_indirect_with_offset_4_s1_ea_indirect_with_offset_1, { 0x400fc00 } ++ }, ++/* lea.1 (${d-An}),${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_1_d_indirect_4_s1_ea_indirect_with_offset_1, { 0x400fc00 } ++ }, ++/* lea.1 (${d-An})${d-i4-4}++,${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_1_d_indirect_with_post_increment_4_s1_ea_indirect_with_offset_1, { 0x200fc00 } ++ }, ++/* lea.1 ${d-i4-4}(${d-An})++,${s1-imm7-1}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_lea_1_d_indirect_with_pre_increment_4_s1_ea_indirect_with_offset_1, { 0x210fc00 } ++ }, ++/* lea.1 ${d-direct-addr},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_1_d_direct_s1_ea_indirect_with_index_1, { 0x100fb00 } ++ }, ++/* lea.1 #${d-imm8},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_1_d_immediate_4_s1_ea_indirect_with_index_1, { 0xfb00 } ++ }, ++/* lea.1 (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_1_d_indirect_with_index_4_s1_ea_indirect_with_index_1, { 0x300fb00 } ++ }, ++/* lea.1 ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_1_d_indirect_with_offset_4_s1_ea_indirect_with_index_1, { 0x400fb00 } ++ }, ++/* lea.1 (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_1_d_indirect_4_s1_ea_indirect_with_index_1, { 0x400fb00 } ++ }, ++/* lea.1 (${d-An})${d-i4-4}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_1_d_indirect_with_post_increment_4_s1_ea_indirect_with_index_1, { 0x200fb00 } ++ }, ++/* lea.1 ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_lea_1_d_indirect_with_pre_increment_4_s1_ea_indirect_with_index_1, { 0x210fb00 } ++ }, ++/* lea.1 ${d-direct-addr},(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_lea_1_d_direct_s1_ea_indirect_with_post_increment_1, { 0x100fa00 } ++ }, ++/* lea.1 #${d-imm8},(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_lea_1_d_immediate_4_s1_ea_indirect_with_post_increment_1, { 0xfa00 } ++ }, ++/* lea.1 (${d-An},${d-r}),(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_lea_1_d_indirect_with_index_4_s1_ea_indirect_with_post_increment_1, { 0x300fa00 } ++ }, ++/* lea.1 ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_lea_1_d_indirect_with_offset_4_s1_ea_indirect_with_post_increment_1, { 0x400fa00 } ++ }, ++/* lea.1 (${d-An}),(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_lea_1_d_indirect_4_s1_ea_indirect_with_post_increment_1, { 0x400fa00 } ++ }, ++/* lea.1 (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_lea_1_d_indirect_with_post_increment_4_s1_ea_indirect_with_post_increment_1, { 0x200fa00 } ++ }, ++/* lea.1 ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-1}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', 0 } }, ++ & ifmt_lea_1_d_indirect_with_pre_increment_4_s1_ea_indirect_with_post_increment_1, { 0x210fa00 } ++ }, ++/* lea.1 ${d-direct-addr},${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_1_d_direct_s1_ea_indirect_with_pre_increment_1, { 0x100fa10 } ++ }, ++/* lea.1 #${d-imm8},${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_1_d_immediate_4_s1_ea_indirect_with_pre_increment_1, { 0xfa10 } ++ }, ++/* lea.1 (${d-An},${d-r}),${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_1_d_indirect_with_index_4_s1_ea_indirect_with_pre_increment_1, { 0x300fa10 } ++ }, ++/* lea.1 ${d-imm7-4}(${d-An}),${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_1_d_indirect_with_offset_4_s1_ea_indirect_with_pre_increment_1, { 0x400fa10 } ++ }, ++/* lea.1 (${d-An}),${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_1_d_indirect_4_s1_ea_indirect_with_pre_increment_1, { 0x400fa10 } ++ }, ++/* lea.1 (${d-An})${d-i4-4}++,${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_1_d_indirect_with_post_increment_4_s1_ea_indirect_with_pre_increment_1, { 0x200fa10 } ++ }, ++/* lea.1 ${d-i4-4}(${d-An})++,${s1-i4-1}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_lea_1_d_indirect_with_pre_increment_4_s1_ea_indirect_with_pre_increment_1, { 0x210fa10 } ++ }, ++/* lea.1 ${d-direct-addr},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_direct_s1_ea_immediate, { 0x100f800 } ++ }, ++/* lea.1 #${d-imm8},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_immediate_4_s1_ea_immediate, { 0xf800 } ++ }, ++/* lea.1 (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_indirect_with_index_4_s1_ea_immediate, { 0x300f800 } ++ }, ++/* lea.1 ${d-imm7-4}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_indirect_with_offset_4_s1_ea_immediate, { 0x400f800 } ++ }, ++/* lea.1 (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_indirect_4_s1_ea_immediate, { 0x400f800 } ++ }, ++/* lea.1 (${d-An})${d-i4-4}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_indirect_with_post_increment_4_s1_ea_immediate, { 0x200f800 } ++ }, ++/* lea.1 ${d-i4-4}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_lea_4_d_indirect_with_pre_increment_4_s1_ea_immediate, { 0x210f800 } ++ }, ++/* cmpi ${s1-direct-addr},#${imm16-1} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_DIRECT_ADDR), ',', '#', OP (IMM16_1), 0 } }, ++ & ifmt_cmpi_s1_direct, { 0xc0000100 } ++ }, ++/* cmpi #${s1-imm8},#${imm16-1} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (S1_IMM8), ',', '#', OP (IMM16_1), 0 } }, ++ & ifmt_cmpi_s1_immediate, { 0xc0000000 } ++ }, ++/* cmpi (${s1-An},${s1-r}),#${imm16-1} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', '#', OP (IMM16_1), 0 } }, ++ & ifmt_cmpi_s1_indirect_with_index_2, { 0xc0000300 } ++ }, ++/* cmpi ${s1-imm7-2}(${s1-An}),#${imm16-1} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', '#', OP (IMM16_1), 0 } }, ++ & ifmt_cmpi_s1_indirect_with_offset_2, { 0xc0000400 } ++ }, ++/* cmpi (${s1-An}),#${imm16-1} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', ',', '#', OP (IMM16_1), 0 } }, ++ & ifmt_cmpi_s1_indirect_2, { 0xc0000400 } ++ }, ++/* cmpi (${s1-An})${s1-i4-2}++,#${imm16-1} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', '#', OP (IMM16_1), 0 } }, ++ & ifmt_cmpi_s1_indirect_with_post_increment_2, { 0xc0000200 } ++ }, ++/* cmpi ${s1-i4-2}(${s1-An})++,#${imm16-1} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', '#', OP (IMM16_1), 0 } }, ++ & ifmt_cmpi_s1_indirect_with_pre_increment_2, { 0xc0000210 } ++ }, ++/* pxadds.u ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0xb1008100 } ++ }, ++/* pxadds.u #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_direct, { 0xb0008100 } ++ }, ++/* pxadds.u (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_direct, { 0xb3008100 } ++ }, ++/* pxadds.u ${d-imm7-2}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_direct, { 0xb4008100 } ++ }, ++/* pxadds.u (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_direct, { 0xb4008100 } ++ }, ++/* pxadds.u (${d-An})${d-i4-2}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_direct, { 0xb2008100 } ++ }, ++/* pxadds.u ${d-i4-2}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_direct, { 0xb2108100 } ++ }, ++/* pxadds.u ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0xb1008000 } ++ }, ++/* pxadds.u #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_immediate, { 0xb0008000 } ++ }, ++/* pxadds.u (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_immediate, { 0xb3008000 } ++ }, ++/* pxadds.u ${d-imm7-2}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_immediate, { 0xb4008000 } ++ }, ++/* pxadds.u (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_immediate, { 0xb4008000 } ++ }, ++/* pxadds.u (${d-An})${d-i4-2}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_immediate, { 0xb2008000 } ++ }, ++/* pxadds.u ${d-i4-2}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_immediate, { 0xb2108000 } ++ }, ++/* pxadds.u ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_index_4, { 0xb1008300 } ++ }, ++/* pxadds.u #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_indirect_with_index_4, { 0xb0008300 } ++ }, ++/* pxadds.u (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_indirect_with_index_4, { 0xb3008300 } ++ }, ++/* pxadds.u ${d-imm7-2}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_indirect_with_index_4, { 0xb4008300 } ++ }, ++/* pxadds.u (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_indirect_with_index_4, { 0xb4008300 } ++ }, ++/* pxadds.u (${d-An})${d-i4-2}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_indirect_with_index_4, { 0xb2008300 } ++ }, ++/* pxadds.u ${d-i4-2}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_indirect_with_index_4, { 0xb2108300 } ++ }, ++/* pxadds.u ${d-direct-addr},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_offset_4, { 0xb1008400 } ++ }, ++/* pxadds.u #${d-imm8},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_indirect_with_offset_4, { 0xb0008400 } ++ }, ++/* pxadds.u (${d-An},${d-r}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_indirect_with_offset_4, { 0xb3008400 } ++ }, ++/* pxadds.u ${d-imm7-2}(${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_indirect_with_offset_4, { 0xb4008400 } ++ }, ++/* pxadds.u (${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_indirect_with_offset_4, { 0xb4008400 } ++ }, ++/* pxadds.u (${d-An})${d-i4-2}++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_indirect_with_offset_4, { 0xb2008400 } ++ }, ++/* pxadds.u ${d-i4-2}(${d-An})++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_indirect_with_offset_4, { 0xb2108400 } ++ }, ++/* pxadds.u ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_4, { 0xb1008400 } ++ }, ++/* pxadds.u #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_indirect_4, { 0xb0008400 } ++ }, ++/* pxadds.u (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_indirect_4, { 0xb3008400 } ++ }, ++/* pxadds.u ${d-imm7-2}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_indirect_4, { 0xb4008400 } ++ }, ++/* pxadds.u (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_indirect_4, { 0xb4008400 } ++ }, ++/* pxadds.u (${d-An})${d-i4-2}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_indirect_4, { 0xb2008400 } ++ }, ++/* pxadds.u ${d-i4-2}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_indirect_4, { 0xb2108400 } ++ }, ++/* pxadds.u ${d-direct-addr},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_post_increment_4, { 0xb1008200 } ++ }, ++/* pxadds.u #${d-imm8},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_indirect_with_post_increment_4, { 0xb0008200 } ++ }, ++/* pxadds.u (${d-An},${d-r}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_indirect_with_post_increment_4, { 0xb3008200 } ++ }, ++/* pxadds.u ${d-imm7-2}(${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_indirect_with_post_increment_4, { 0xb4008200 } ++ }, ++/* pxadds.u (${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_indirect_with_post_increment_4, { 0xb4008200 } ++ }, ++/* pxadds.u (${d-An})${d-i4-2}++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_4, { 0xb2008200 } ++ }, ++/* pxadds.u ${d-i4-2}(${d-An})++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_4, { 0xb2108200 } ++ }, ++/* pxadds.u ${d-direct-addr},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_pre_increment_4, { 0xb1008210 } ++ }, ++/* pxadds.u #${d-imm8},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_indirect_with_pre_increment_4, { 0xb0008210 } ++ }, ++/* pxadds.u (${d-An},${d-r}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_indirect_with_pre_increment_4, { 0xb3008210 } ++ }, ++/* pxadds.u ${d-imm7-2}(${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_indirect_with_pre_increment_4, { 0xb4008210 } ++ }, ++/* pxadds.u (${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_indirect_with_pre_increment_4, { 0xb4008210 } ++ }, ++/* pxadds.u (${d-An})${d-i4-2}++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_4, { 0xb2008210 } ++ }, ++/* pxadds.u ${d-i4-2}(${d-An})++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_4, { 0xb2108210 } ++ }, ++/* pxadds ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0xb1000100 } ++ }, ++/* pxadds #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_direct, { 0xb0000100 } ++ }, ++/* pxadds (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_direct, { 0xb3000100 } ++ }, ++/* pxadds ${d-imm7-2}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_direct, { 0xb4000100 } ++ }, ++/* pxadds (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_direct, { 0xb4000100 } ++ }, ++/* pxadds (${d-An})${d-i4-2}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_direct, { 0xb2000100 } ++ }, ++/* pxadds ${d-i4-2}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_direct, { 0xb2100100 } ++ }, ++/* pxadds ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0xb1000000 } ++ }, ++/* pxadds #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_immediate, { 0xb0000000 } ++ }, ++/* pxadds (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_immediate, { 0xb3000000 } ++ }, ++/* pxadds ${d-imm7-2}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_immediate, { 0xb4000000 } ++ }, ++/* pxadds (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_immediate, { 0xb4000000 } ++ }, ++/* pxadds (${d-An})${d-i4-2}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_immediate, { 0xb2000000 } ++ }, ++/* pxadds ${d-i4-2}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_immediate, { 0xb2100000 } ++ }, ++/* pxadds ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_index_4, { 0xb1000300 } ++ }, ++/* pxadds #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_indirect_with_index_4, { 0xb0000300 } ++ }, ++/* pxadds (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_indirect_with_index_4, { 0xb3000300 } ++ }, ++/* pxadds ${d-imm7-2}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_indirect_with_index_4, { 0xb4000300 } ++ }, ++/* pxadds (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_indirect_with_index_4, { 0xb4000300 } ++ }, ++/* pxadds (${d-An})${d-i4-2}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_indirect_with_index_4, { 0xb2000300 } ++ }, ++/* pxadds ${d-i4-2}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_indirect_with_index_4, { 0xb2100300 } ++ }, ++/* pxadds ${d-direct-addr},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_offset_4, { 0xb1000400 } ++ }, ++/* pxadds #${d-imm8},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_indirect_with_offset_4, { 0xb0000400 } ++ }, ++/* pxadds (${d-An},${d-r}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_indirect_with_offset_4, { 0xb3000400 } ++ }, ++/* pxadds ${d-imm7-2}(${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_indirect_with_offset_4, { 0xb4000400 } ++ }, ++/* pxadds (${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_indirect_with_offset_4, { 0xb4000400 } ++ }, ++/* pxadds (${d-An})${d-i4-2}++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_indirect_with_offset_4, { 0xb2000400 } ++ }, ++/* pxadds ${d-i4-2}(${d-An})++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_indirect_with_offset_4, { 0xb2100400 } ++ }, ++/* pxadds ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_4, { 0xb1000400 } ++ }, ++/* pxadds #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_indirect_4, { 0xb0000400 } ++ }, ++/* pxadds (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_indirect_4, { 0xb3000400 } ++ }, ++/* pxadds ${d-imm7-2}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_indirect_4, { 0xb4000400 } ++ }, ++/* pxadds (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_indirect_4, { 0xb4000400 } ++ }, ++/* pxadds (${d-An})${d-i4-2}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_indirect_4, { 0xb2000400 } ++ }, ++/* pxadds ${d-i4-2}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_indirect_4, { 0xb2100400 } ++ }, ++/* pxadds ${d-direct-addr},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_post_increment_4, { 0xb1000200 } ++ }, ++/* pxadds #${d-imm8},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_indirect_with_post_increment_4, { 0xb0000200 } ++ }, ++/* pxadds (${d-An},${d-r}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_indirect_with_post_increment_4, { 0xb3000200 } ++ }, ++/* pxadds ${d-imm7-2}(${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_indirect_with_post_increment_4, { 0xb4000200 } ++ }, ++/* pxadds (${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_indirect_with_post_increment_4, { 0xb4000200 } ++ }, ++/* pxadds (${d-An})${d-i4-2}++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_4, { 0xb2000200 } ++ }, ++/* pxadds ${d-i4-2}(${d-An})++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_4, { 0xb2100200 } ++ }, ++/* pxadds ${d-direct-addr},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_pre_increment_4, { 0xb1000210 } ++ }, ++/* pxadds #${d-imm8},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_indirect_with_pre_increment_4, { 0xb0000210 } ++ }, ++/* pxadds (${d-An},${d-r}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_indirect_with_pre_increment_4, { 0xb3000210 } ++ }, ++/* pxadds ${d-imm7-2}(${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_indirect_with_pre_increment_4, { 0xb4000210 } ++ }, ++/* pxadds (${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_indirect_with_pre_increment_4, { 0xb4000210 } ++ }, ++/* pxadds (${d-An})${d-i4-2}++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_4, { 0xb2000210 } ++ }, ++/* pxadds ${d-i4-2}(${d-An})++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_4, { 0xb2100210 } ++ }, ++/* pxhi.s ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxhi_s_s1_direct, { 0x14408100 } ++ }, ++/* pxhi.s ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxhi_s_s1_immediate, { 0x14408000 } ++ }, ++/* pxhi.s ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxhi_s_s1_indirect_with_index_4, { 0x14408300 } ++ }, ++/* pxhi.s ${Dn},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxhi_s_s1_indirect_with_offset_4, { 0x14408400 } ++ }, ++/* pxhi.s ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxhi_s_s1_indirect_4, { 0x14408400 } ++ }, ++/* pxhi.s ${Dn},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxhi_s_s1_indirect_with_post_increment_4, { 0x14408200 } ++ }, ++/* pxhi.s ${Dn},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxhi_s_s1_indirect_with_pre_increment_4, { 0x14408210 } ++ }, ++/* pxhi ${Dn},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxhi_s_s1_direct, { 0x14000100 } ++ }, ++/* pxhi ${Dn},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxhi_s_s1_immediate, { 0x14000000 } ++ }, ++/* pxhi ${Dn},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxhi_s_s1_indirect_with_index_4, { 0x14000300 } ++ }, ++/* pxhi ${Dn},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxhi_s_s1_indirect_with_offset_4, { 0x14000400 } ++ }, ++/* pxhi ${Dn},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxhi_s_s1_indirect_4, { 0x14000400 } ++ }, ++/* pxhi ${Dn},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxhi_s_s1_indirect_with_post_increment_4, { 0x14000200 } ++ }, ++/* pxhi ${Dn},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DN), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxhi_s_s1_indirect_with_pre_increment_4, { 0x14000210 } ++ }, ++/* pxvi.s ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0xa9008100 } ++ }, ++/* pxvi.s #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_direct, { 0xa8008100 } ++ }, ++/* pxvi.s (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_direct, { 0xab008100 } ++ }, ++/* pxvi.s ${d-imm7-4}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_direct, { 0xac008100 } ++ }, ++/* pxvi.s (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_direct, { 0xac008100 } ++ }, ++/* pxvi.s (${d-An})${d-i4-4}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_direct, { 0xaa008100 } ++ }, ++/* pxvi.s ${d-i4-4}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_direct, { 0xaa108100 } ++ }, ++/* pxvi.s ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0xa9008000 } ++ }, ++/* pxvi.s #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_immediate, { 0xa8008000 } ++ }, ++/* pxvi.s (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_immediate, { 0xab008000 } ++ }, ++/* pxvi.s ${d-imm7-4}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_immediate, { 0xac008000 } ++ }, ++/* pxvi.s (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_immediate, { 0xac008000 } ++ }, ++/* pxvi.s (${d-An})${d-i4-4}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_immediate, { 0xaa008000 } ++ }, ++/* pxvi.s ${d-i4-4}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_immediate, { 0xaa108000 } ++ }, ++/* pxvi.s ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_index_4, { 0xa9008300 } ++ }, ++/* pxvi.s #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_index_4, { 0xa8008300 } ++ }, ++/* pxvi.s (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_index_4, { 0xab008300 } ++ }, ++/* pxvi.s ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0xac008300 } ++ }, ++/* pxvi.s (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_index_4, { 0xac008300 } ++ }, ++/* pxvi.s (${d-An})${d-i4-4}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0xaa008300 } ++ }, ++/* pxvi.s ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0xaa108300 } ++ }, ++/* pxvi.s ${d-direct-addr},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_offset_4, { 0xa9008400 } ++ }, ++/* pxvi.s #${d-imm8},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_offset_4, { 0xa8008400 } ++ }, ++/* pxvi.s (${d-An},${d-r}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0xab008400 } ++ }, ++/* pxvi.s ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0xac008400 } ++ }, ++/* pxvi.s (${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_offset_4, { 0xac008400 } ++ }, ++/* pxvi.s (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0xaa008400 } ++ }, ++/* pxvi.s ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0xaa108400 } ++ }, ++/* pxvi.s ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_4, { 0xa9008400 } ++ }, ++/* pxvi.s #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_4, { 0xa8008400 } ++ }, ++/* pxvi.s (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_4, { 0xab008400 } ++ }, ++/* pxvi.s ${d-imm7-4}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_4, { 0xac008400 } ++ }, ++/* pxvi.s (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_4, { 0xac008400 } ++ }, ++/* pxvi.s (${d-An})${d-i4-4}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_4, { 0xaa008400 } ++ }, ++/* pxvi.s ${d-i4-4}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_4, { 0xaa108400 } ++ }, ++/* pxvi.s ${d-direct-addr},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_post_increment_4, { 0xa9008200 } ++ }, ++/* pxvi.s #${d-imm8},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_post_increment_4, { 0xa8008200 } ++ }, ++/* pxvi.s (${d-An},${d-r}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0xab008200 } ++ }, ++/* pxvi.s ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0xac008200 } ++ }, ++/* pxvi.s (${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_post_increment_4, { 0xac008200 } ++ }, ++/* pxvi.s (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0xaa008200 } ++ }, ++/* pxvi.s ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0xaa108200 } ++ }, ++/* pxvi.s ${d-direct-addr},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_pre_increment_4, { 0xa9008210 } ++ }, ++/* pxvi.s #${d-imm8},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_pre_increment_4, { 0xa8008210 } ++ }, ++/* pxvi.s (${d-An},${d-r}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0xab008210 } ++ }, ++/* pxvi.s ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0xac008210 } ++ }, ++/* pxvi.s (${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_pre_increment_4, { 0xac008210 } ++ }, ++/* pxvi.s (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0xaa008210 } ++ }, ++/* pxvi.s ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0xaa108210 } ++ }, ++/* pxvi ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0xa9000100 } ++ }, ++/* pxvi #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_direct, { 0xa8000100 } ++ }, ++/* pxvi (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_direct, { 0xab000100 } ++ }, ++/* pxvi ${d-imm7-4}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_direct, { 0xac000100 } ++ }, ++/* pxvi (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_direct, { 0xac000100 } ++ }, ++/* pxvi (${d-An})${d-i4-4}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_direct, { 0xaa000100 } ++ }, ++/* pxvi ${d-i4-4}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_direct, { 0xaa100100 } ++ }, ++/* pxvi ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0xa9000000 } ++ }, ++/* pxvi #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_immediate, { 0xa8000000 } ++ }, ++/* pxvi (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_immediate, { 0xab000000 } ++ }, ++/* pxvi ${d-imm7-4}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_immediate, { 0xac000000 } ++ }, ++/* pxvi (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_immediate, { 0xac000000 } ++ }, ++/* pxvi (${d-An})${d-i4-4}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_immediate, { 0xaa000000 } ++ }, ++/* pxvi ${d-i4-4}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_immediate, { 0xaa100000 } ++ }, ++/* pxvi ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_index_4, { 0xa9000300 } ++ }, ++/* pxvi #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_index_4, { 0xa8000300 } ++ }, ++/* pxvi (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_index_4, { 0xab000300 } ++ }, ++/* pxvi ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0xac000300 } ++ }, ++/* pxvi (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_index_4, { 0xac000300 } ++ }, ++/* pxvi (${d-An})${d-i4-4}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0xaa000300 } ++ }, ++/* pxvi ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0xaa100300 } ++ }, ++/* pxvi ${d-direct-addr},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_offset_4, { 0xa9000400 } ++ }, ++/* pxvi #${d-imm8},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_offset_4, { 0xa8000400 } ++ }, ++/* pxvi (${d-An},${d-r}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0xab000400 } ++ }, ++/* pxvi ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0xac000400 } ++ }, ++/* pxvi (${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_offset_4, { 0xac000400 } ++ }, ++/* pxvi (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0xaa000400 } ++ }, ++/* pxvi ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0xaa100400 } ++ }, ++/* pxvi ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_4, { 0xa9000400 } ++ }, ++/* pxvi #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_4, { 0xa8000400 } ++ }, ++/* pxvi (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_4, { 0xab000400 } ++ }, ++/* pxvi ${d-imm7-4}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_4, { 0xac000400 } ++ }, ++/* pxvi (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_4, { 0xac000400 } ++ }, ++/* pxvi (${d-An})${d-i4-4}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_4, { 0xaa000400 } ++ }, ++/* pxvi ${d-i4-4}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_4, { 0xaa100400 } ++ }, ++/* pxvi ${d-direct-addr},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_post_increment_4, { 0xa9000200 } ++ }, ++/* pxvi #${d-imm8},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_post_increment_4, { 0xa8000200 } ++ }, ++/* pxvi (${d-An},${d-r}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0xab000200 } ++ }, ++/* pxvi ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0xac000200 } ++ }, ++/* pxvi (${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_post_increment_4, { 0xac000200 } ++ }, ++/* pxvi (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0xaa000200 } ++ }, ++/* pxvi ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0xaa100200 } ++ }, ++/* pxvi ${d-direct-addr},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_pre_increment_4, { 0xa9000210 } ++ }, ++/* pxvi #${d-imm8},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_pre_increment_4, { 0xa8000210 } ++ }, ++/* pxvi (${d-An},${d-r}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0xab000210 } ++ }, ++/* pxvi ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0xac000210 } ++ }, ++/* pxvi (${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_pre_increment_4, { 0xac000210 } ++ }, ++/* pxvi (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0xaa000210 } ++ }, ++/* pxvi ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0xaa100210 } ++ }, ++/* pxblend.t ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0xa1008100 } ++ }, ++/* pxblend.t #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_direct, { 0xa0008100 } ++ }, ++/* pxblend.t (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_direct, { 0xa3008100 } ++ }, ++/* pxblend.t ${d-imm7-4}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_direct, { 0xa4008100 } ++ }, ++/* pxblend.t (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_direct, { 0xa4008100 } ++ }, ++/* pxblend.t (${d-An})${d-i4-4}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_direct, { 0xa2008100 } ++ }, ++/* pxblend.t ${d-i4-4}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_direct, { 0xa2108100 } ++ }, ++/* pxblend.t ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0xa1008000 } ++ }, ++/* pxblend.t #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_immediate, { 0xa0008000 } ++ }, ++/* pxblend.t (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_immediate, { 0xa3008000 } ++ }, ++/* pxblend.t ${d-imm7-4}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_immediate, { 0xa4008000 } ++ }, ++/* pxblend.t (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_immediate, { 0xa4008000 } ++ }, ++/* pxblend.t (${d-An})${d-i4-4}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_immediate, { 0xa2008000 } ++ }, ++/* pxblend.t ${d-i4-4}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_immediate, { 0xa2108000 } ++ }, ++/* pxblend.t ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_index_4, { 0xa1008300 } ++ }, ++/* pxblend.t #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_index_4, { 0xa0008300 } ++ }, ++/* pxblend.t (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_index_4, { 0xa3008300 } ++ }, ++/* pxblend.t ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0xa4008300 } ++ }, ++/* pxblend.t (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_index_4, { 0xa4008300 } ++ }, ++/* pxblend.t (${d-An})${d-i4-4}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0xa2008300 } ++ }, ++/* pxblend.t ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0xa2108300 } ++ }, ++/* pxblend.t ${d-direct-addr},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_offset_4, { 0xa1008400 } ++ }, ++/* pxblend.t #${d-imm8},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_offset_4, { 0xa0008400 } ++ }, ++/* pxblend.t (${d-An},${d-r}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0xa3008400 } ++ }, ++/* pxblend.t ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0xa4008400 } ++ }, ++/* pxblend.t (${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_offset_4, { 0xa4008400 } ++ }, ++/* pxblend.t (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0xa2008400 } ++ }, ++/* pxblend.t ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0xa2108400 } ++ }, ++/* pxblend.t ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_4, { 0xa1008400 } ++ }, ++/* pxblend.t #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_4, { 0xa0008400 } ++ }, ++/* pxblend.t (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_4, { 0xa3008400 } ++ }, ++/* pxblend.t ${d-imm7-4}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_4, { 0xa4008400 } ++ }, ++/* pxblend.t (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_4, { 0xa4008400 } ++ }, ++/* pxblend.t (${d-An})${d-i4-4}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_4, { 0xa2008400 } ++ }, ++/* pxblend.t ${d-i4-4}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_4, { 0xa2108400 } ++ }, ++/* pxblend.t ${d-direct-addr},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_post_increment_4, { 0xa1008200 } ++ }, ++/* pxblend.t #${d-imm8},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_post_increment_4, { 0xa0008200 } ++ }, ++/* pxblend.t (${d-An},${d-r}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0xa3008200 } ++ }, ++/* pxblend.t ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0xa4008200 } ++ }, ++/* pxblend.t (${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_post_increment_4, { 0xa4008200 } ++ }, ++/* pxblend.t (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0xa2008200 } ++ }, ++/* pxblend.t ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0xa2108200 } ++ }, ++/* pxblend.t ${d-direct-addr},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_pre_increment_4, { 0xa1008210 } ++ }, ++/* pxblend.t #${d-imm8},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_pre_increment_4, { 0xa0008210 } ++ }, ++/* pxblend.t (${d-An},${d-r}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0xa3008210 } ++ }, ++/* pxblend.t ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0xa4008210 } ++ }, ++/* pxblend.t (${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_pre_increment_4, { 0xa4008210 } ++ }, ++/* pxblend.t (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0xa2008210 } ++ }, ++/* pxblend.t ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0xa2108210 } ++ }, ++/* pxblend ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0xa1000100 } ++ }, ++/* pxblend #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_direct, { 0xa0000100 } ++ }, ++/* pxblend (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_direct, { 0xa3000100 } ++ }, ++/* pxblend ${d-imm7-4}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_direct, { 0xa4000100 } ++ }, ++/* pxblend (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_direct, { 0xa4000100 } ++ }, ++/* pxblend (${d-An})${d-i4-4}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_direct, { 0xa2000100 } ++ }, ++/* pxblend ${d-i4-4}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_direct, { 0xa2100100 } ++ }, ++/* pxblend ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0xa1000000 } ++ }, ++/* pxblend #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_immediate, { 0xa0000000 } ++ }, ++/* pxblend (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_immediate, { 0xa3000000 } ++ }, ++/* pxblend ${d-imm7-4}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_immediate, { 0xa4000000 } ++ }, ++/* pxblend (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_immediate, { 0xa4000000 } ++ }, ++/* pxblend (${d-An})${d-i4-4}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_immediate, { 0xa2000000 } ++ }, ++/* pxblend ${d-i4-4}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_immediate, { 0xa2100000 } ++ }, ++/* pxblend ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_index_4, { 0xa1000300 } ++ }, ++/* pxblend #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_index_4, { 0xa0000300 } ++ }, ++/* pxblend (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_index_4, { 0xa3000300 } ++ }, ++/* pxblend ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0xa4000300 } ++ }, ++/* pxblend (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_index_4, { 0xa4000300 } ++ }, ++/* pxblend (${d-An})${d-i4-4}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0xa2000300 } ++ }, ++/* pxblend ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0xa2100300 } ++ }, ++/* pxblend ${d-direct-addr},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_offset_4, { 0xa1000400 } ++ }, ++/* pxblend #${d-imm8},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_offset_4, { 0xa0000400 } ++ }, ++/* pxblend (${d-An},${d-r}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0xa3000400 } ++ }, ++/* pxblend ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0xa4000400 } ++ }, ++/* pxblend (${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_offset_4, { 0xa4000400 } ++ }, ++/* pxblend (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0xa2000400 } ++ }, ++/* pxblend ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0xa2100400 } ++ }, ++/* pxblend ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_4, { 0xa1000400 } ++ }, ++/* pxblend #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_4, { 0xa0000400 } ++ }, ++/* pxblend (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_4, { 0xa3000400 } ++ }, ++/* pxblend ${d-imm7-4}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_4, { 0xa4000400 } ++ }, ++/* pxblend (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_4, { 0xa4000400 } ++ }, ++/* pxblend (${d-An})${d-i4-4}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_4, { 0xa2000400 } ++ }, ++/* pxblend ${d-i4-4}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_4, { 0xa2100400 } ++ }, ++/* pxblend ${d-direct-addr},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_post_increment_4, { 0xa1000200 } ++ }, ++/* pxblend #${d-imm8},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_post_increment_4, { 0xa0000200 } ++ }, ++/* pxblend (${d-An},${d-r}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0xa3000200 } ++ }, ++/* pxblend ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0xa4000200 } ++ }, ++/* pxblend (${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_post_increment_4, { 0xa4000200 } ++ }, ++/* pxblend (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0xa2000200 } ++ }, ++/* pxblend ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0xa2100200 } ++ }, ++/* pxblend ${d-direct-addr},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_pre_increment_4, { 0xa1000210 } ++ }, ++/* pxblend #${d-imm8},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_pre_increment_4, { 0xa0000210 } ++ }, ++/* pxblend (${d-An},${d-r}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0xa3000210 } ++ }, ++/* pxblend ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0xa4000210 } ++ }, ++/* pxblend (${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_pre_increment_4, { 0xa4000210 } ++ }, ++/* pxblend (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0xa2000210 } ++ }, ++/* pxblend ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0xa2100210 } ++ }, ++/* pxcnv.t ${d-direct-addr},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_direct_s1_direct, { 0x100d900 } ++ }, ++/* pxcnv.t #${d-imm8},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_direct, { 0xd900 } ++ }, ++/* pxcnv.t (${d-An},${d-r}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_direct, { 0x300d900 } ++ }, ++/* pxcnv.t ${d-imm7-2}(${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_direct, { 0x400d900 } ++ }, ++/* pxcnv.t (${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_direct, { 0x400d900 } ++ }, ++/* pxcnv.t (${d-An})${d-i4-2}++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_direct, { 0x200d900 } ++ }, ++/* pxcnv.t ${d-i4-2}(${d-An})++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_direct, { 0x210d900 } ++ }, ++/* pxcnv.t ${d-direct-addr},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_direct_s1_immediate, { 0x100d800 } ++ }, ++/* pxcnv.t #${d-imm8},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_immediate, { 0xd800 } ++ }, ++/* pxcnv.t (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_immediate, { 0x300d800 } ++ }, ++/* pxcnv.t ${d-imm7-2}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_immediate, { 0x400d800 } ++ }, ++/* pxcnv.t (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_immediate, { 0x400d800 } ++ }, ++/* pxcnv.t (${d-An})${d-i4-2}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_immediate, { 0x200d800 } ++ }, ++/* pxcnv.t ${d-i4-2}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_immediate, { 0x210d800 } ++ }, ++/* pxcnv.t ${d-direct-addr},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_index_4, { 0x100db00 } ++ }, ++/* pxcnv.t #${d-imm8},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_pxcnv_t_d_immediate_2_s1_indirect_with_index_4, { 0xdb00 } ++ }, ++/* pxcnv.t (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_index_2_s1_indirect_with_index_4, { 0x300db00 } ++ }, ++/* pxcnv.t ${d-imm7-2}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_offset_2_s1_indirect_with_index_4, { 0x400db00 } ++ }, ++/* pxcnv.t (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_2_s1_indirect_with_index_4, { 0x400db00 } ++ }, ++/* pxcnv.t (${d-An})${d-i4-2}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_post_increment_2_s1_indirect_with_index_4, { 0x200db00 } ++ }, ++/* pxcnv.t ${d-i4-2}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_pre_increment_2_s1_indirect_with_index_4, { 0x210db00 } ++ }, ++/* pxcnv.t ${d-direct-addr},${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_offset_4, { 0x100dc00 } ++ }, ++/* pxcnv.t #${d-imm8},${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_immediate_2_s1_indirect_with_offset_4, { 0xdc00 } ++ }, ++/* pxcnv.t (${d-An},${d-r}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_index_2_s1_indirect_with_offset_4, { 0x300dc00 } ++ }, ++/* pxcnv.t ${d-imm7-2}(${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_offset_2_s1_indirect_with_offset_4, { 0x400dc00 } ++ }, ++/* pxcnv.t (${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_2_s1_indirect_with_offset_4, { 0x400dc00 } ++ }, ++/* pxcnv.t (${d-An})${d-i4-2}++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_post_increment_2_s1_indirect_with_offset_4, { 0x200dc00 } ++ }, ++/* pxcnv.t ${d-i4-2}(${d-An})++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_pre_increment_2_s1_indirect_with_offset_4, { 0x210dc00 } ++ }, ++/* pxcnv.t ${d-direct-addr},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_4, { 0x100dc00 } ++ }, ++/* pxcnv.t #${d-imm8},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_immediate_2_s1_indirect_4, { 0xdc00 } ++ }, ++/* pxcnv.t (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_index_2_s1_indirect_4, { 0x300dc00 } ++ }, ++/* pxcnv.t ${d-imm7-2}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_offset_2_s1_indirect_4, { 0x400dc00 } ++ }, ++/* pxcnv.t (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_2_s1_indirect_4, { 0x400dc00 } ++ }, ++/* pxcnv.t (${d-An})${d-i4-2}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_post_increment_2_s1_indirect_4, { 0x200dc00 } ++ }, ++/* pxcnv.t ${d-i4-2}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_pre_increment_2_s1_indirect_4, { 0x210dc00 } ++ }, ++/* pxcnv.t ${d-direct-addr},(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_post_increment_4, { 0x100da00 } ++ }, ++/* pxcnv.t #${d-imm8},(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_immediate_2_s1_indirect_with_post_increment_4, { 0xda00 } ++ }, ++/* pxcnv.t (${d-An},${d-r}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_index_2_s1_indirect_with_post_increment_4, { 0x300da00 } ++ }, ++/* pxcnv.t ${d-imm7-2}(${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_offset_2_s1_indirect_with_post_increment_4, { 0x400da00 } ++ }, ++/* pxcnv.t (${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_2_s1_indirect_with_post_increment_4, { 0x400da00 } ++ }, ++/* pxcnv.t (${d-An})${d-i4-2}++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_4, { 0x200da00 } ++ }, ++/* pxcnv.t ${d-i4-2}(${d-An})++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_4, { 0x210da00 } ++ }, ++/* pxcnv.t ${d-direct-addr},${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_pre_increment_4, { 0x100da10 } ++ }, ++/* pxcnv.t #${d-imm8},${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_immediate_2_s1_indirect_with_pre_increment_4, { 0xda10 } ++ }, ++/* pxcnv.t (${d-An},${d-r}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_index_2_s1_indirect_with_pre_increment_4, { 0x300da10 } ++ }, ++/* pxcnv.t ${d-imm7-2}(${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_offset_2_s1_indirect_with_pre_increment_4, { 0x400da10 } ++ }, ++/* pxcnv.t (${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_2_s1_indirect_with_pre_increment_4, { 0x400da10 } ++ }, ++/* pxcnv.t (${d-An})${d-i4-2}++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_4, { 0x200da10 } ++ }, ++/* pxcnv.t ${d-i4-2}(${d-An})++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_4, { 0x210da10 } ++ }, ++/* pxcnv ${d-direct-addr},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_direct_s1_direct, { 0x100d100 } ++ }, ++/* pxcnv #${d-imm8},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_direct, { 0xd100 } ++ }, ++/* pxcnv (${d-An},${d-r}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_direct, { 0x300d100 } ++ }, ++/* pxcnv ${d-imm7-2}(${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_direct, { 0x400d100 } ++ }, ++/* pxcnv (${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_direct, { 0x400d100 } ++ }, ++/* pxcnv (${d-An})${d-i4-2}++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_direct, { 0x200d100 } ++ }, ++/* pxcnv ${d-i4-2}(${d-An})++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_direct, { 0x210d100 } ++ }, ++/* pxcnv ${d-direct-addr},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_direct_s1_immediate, { 0x100d000 } ++ }, ++/* pxcnv #${d-imm8},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_immediate, { 0xd000 } ++ }, ++/* pxcnv (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_immediate, { 0x300d000 } ++ }, ++/* pxcnv ${d-imm7-2}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_immediate, { 0x400d000 } ++ }, ++/* pxcnv (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_immediate, { 0x400d000 } ++ }, ++/* pxcnv (${d-An})${d-i4-2}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_immediate, { 0x200d000 } ++ }, ++/* pxcnv ${d-i4-2}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_immediate, { 0x210d000 } ++ }, ++/* pxcnv ${d-direct-addr},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_index_4, { 0x100d300 } ++ }, ++/* pxcnv #${d-imm8},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_pxcnv_t_d_immediate_2_s1_indirect_with_index_4, { 0xd300 } ++ }, ++/* pxcnv (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_index_2_s1_indirect_with_index_4, { 0x300d300 } ++ }, ++/* pxcnv ${d-imm7-2}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_offset_2_s1_indirect_with_index_4, { 0x400d300 } ++ }, ++/* pxcnv (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_2_s1_indirect_with_index_4, { 0x400d300 } ++ }, ++/* pxcnv (${d-An})${d-i4-2}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_post_increment_2_s1_indirect_with_index_4, { 0x200d300 } ++ }, ++/* pxcnv ${d-i4-2}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_pre_increment_2_s1_indirect_with_index_4, { 0x210d300 } ++ }, ++/* pxcnv ${d-direct-addr},${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_offset_4, { 0x100d400 } ++ }, ++/* pxcnv #${d-imm8},${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_immediate_2_s1_indirect_with_offset_4, { 0xd400 } ++ }, ++/* pxcnv (${d-An},${d-r}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_index_2_s1_indirect_with_offset_4, { 0x300d400 } ++ }, ++/* pxcnv ${d-imm7-2}(${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_offset_2_s1_indirect_with_offset_4, { 0x400d400 } ++ }, ++/* pxcnv (${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_2_s1_indirect_with_offset_4, { 0x400d400 } ++ }, ++/* pxcnv (${d-An})${d-i4-2}++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_post_increment_2_s1_indirect_with_offset_4, { 0x200d400 } ++ }, ++/* pxcnv ${d-i4-2}(${d-An})++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_pre_increment_2_s1_indirect_with_offset_4, { 0x210d400 } ++ }, ++/* pxcnv ${d-direct-addr},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_4, { 0x100d400 } ++ }, ++/* pxcnv #${d-imm8},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_immediate_2_s1_indirect_4, { 0xd400 } ++ }, ++/* pxcnv (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_index_2_s1_indirect_4, { 0x300d400 } ++ }, ++/* pxcnv ${d-imm7-2}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_offset_2_s1_indirect_4, { 0x400d400 } ++ }, ++/* pxcnv (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_2_s1_indirect_4, { 0x400d400 } ++ }, ++/* pxcnv (${d-An})${d-i4-2}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_post_increment_2_s1_indirect_4, { 0x200d400 } ++ }, ++/* pxcnv ${d-i4-2}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_pre_increment_2_s1_indirect_4, { 0x210d400 } ++ }, ++/* pxcnv ${d-direct-addr},(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_post_increment_4, { 0x100d200 } ++ }, ++/* pxcnv #${d-imm8},(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_immediate_2_s1_indirect_with_post_increment_4, { 0xd200 } ++ }, ++/* pxcnv (${d-An},${d-r}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_index_2_s1_indirect_with_post_increment_4, { 0x300d200 } ++ }, ++/* pxcnv ${d-imm7-2}(${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_offset_2_s1_indirect_with_post_increment_4, { 0x400d200 } ++ }, ++/* pxcnv (${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_2_s1_indirect_with_post_increment_4, { 0x400d200 } ++ }, ++/* pxcnv (${d-An})${d-i4-2}++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_4, { 0x200d200 } ++ }, ++/* pxcnv ${d-i4-2}(${d-An})++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_4, { 0x210d200 } ++ }, ++/* pxcnv ${d-direct-addr},${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_pre_increment_4, { 0x100d210 } ++ }, ++/* pxcnv #${d-imm8},${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_immediate_2_s1_indirect_with_pre_increment_4, { 0xd210 } ++ }, ++/* pxcnv (${d-An},${d-r}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_index_2_s1_indirect_with_pre_increment_4, { 0x300d210 } ++ }, ++/* pxcnv ${d-imm7-2}(${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_offset_2_s1_indirect_with_pre_increment_4, { 0x400d210 } ++ }, ++/* pxcnv (${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_2_s1_indirect_with_pre_increment_4, { 0x400d210 } ++ }, ++/* pxcnv (${d-An})${d-i4-2}++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_4, { 0x200d210 } ++ }, ++/* pxcnv ${d-i4-2}(${d-An})++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_pxcnv_t_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_4, { 0x210d210 } ++ }, ++/* subc ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x99000100 } ++ }, ++/* subc #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_direct, { 0x98000100 } ++ }, ++/* subc (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_direct, { 0x9b000100 } ++ }, ++/* subc ${d-imm7-4}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_direct, { 0x9c000100 } ++ }, ++/* subc (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_direct, { 0x9c000100 } ++ }, ++/* subc (${d-An})${d-i4-4}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_direct, { 0x9a000100 } ++ }, ++/* subc ${d-i4-4}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_direct, { 0x9a100100 } ++ }, ++/* subc ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x99000000 } ++ }, ++/* subc #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_immediate, { 0x98000000 } ++ }, ++/* subc (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_immediate, { 0x9b000000 } ++ }, ++/* subc ${d-imm7-4}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_immediate, { 0x9c000000 } ++ }, ++/* subc (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_immediate, { 0x9c000000 } ++ }, ++/* subc (${d-An})${d-i4-4}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_immediate, { 0x9a000000 } ++ }, ++/* subc ${d-i4-4}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_immediate, { 0x9a100000 } ++ }, ++/* subc ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_index_4, { 0x99000300 } ++ }, ++/* subc #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_index_4, { 0x98000300 } ++ }, ++/* subc (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_index_4, { 0x9b000300 } ++ }, ++/* subc ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0x9c000300 } ++ }, ++/* subc (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_index_4, { 0x9c000300 } ++ }, ++/* subc (${d-An})${d-i4-4}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0x9a000300 } ++ }, ++/* subc ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0x9a100300 } ++ }, ++/* subc ${d-direct-addr},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_offset_4, { 0x99000400 } ++ }, ++/* subc #${d-imm8},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_offset_4, { 0x98000400 } ++ }, ++/* subc (${d-An},${d-r}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0x9b000400 } ++ }, ++/* subc ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0x9c000400 } ++ }, ++/* subc (${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_offset_4, { 0x9c000400 } ++ }, ++/* subc (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0x9a000400 } ++ }, ++/* subc ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0x9a100400 } ++ }, ++/* subc ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_4, { 0x99000400 } ++ }, ++/* subc #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_4, { 0x98000400 } ++ }, ++/* subc (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_4, { 0x9b000400 } ++ }, ++/* subc ${d-imm7-4}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_4, { 0x9c000400 } ++ }, ++/* subc (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_4, { 0x9c000400 } ++ }, ++/* subc (${d-An})${d-i4-4}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_4, { 0x9a000400 } ++ }, ++/* subc ${d-i4-4}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_4, { 0x9a100400 } ++ }, ++/* subc ${d-direct-addr},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_post_increment_4, { 0x99000200 } ++ }, ++/* subc #${d-imm8},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_post_increment_4, { 0x98000200 } ++ }, ++/* subc (${d-An},${d-r}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0x9b000200 } ++ }, ++/* subc ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0x9c000200 } ++ }, ++/* subc (${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_post_increment_4, { 0x9c000200 } ++ }, ++/* subc (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0x9a000200 } ++ }, ++/* subc ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0x9a100200 } ++ }, ++/* subc ${d-direct-addr},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_pre_increment_4, { 0x99000210 } ++ }, ++/* subc #${d-imm8},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_pre_increment_4, { 0x98000210 } ++ }, ++/* subc (${d-An},${d-r}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0x9b000210 } ++ }, ++/* subc ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0x9c000210 } ++ }, ++/* subc (${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_pre_increment_4, { 0x9c000210 } ++ }, ++/* subc (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0x9a000210 } ++ }, ++/* subc ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0x9a100210 } ++ }, ++/* addc ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x81000100 } ++ }, ++/* addc #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_direct, { 0x80000100 } ++ }, ++/* addc (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_direct, { 0x83000100 } ++ }, ++/* addc ${d-imm7-4}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_direct, { 0x84000100 } ++ }, ++/* addc (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_direct, { 0x84000100 } ++ }, ++/* addc (${d-An})${d-i4-4}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_direct, { 0x82000100 } ++ }, ++/* addc ${d-i4-4}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_direct, { 0x82100100 } ++ }, ++/* addc ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x81000000 } ++ }, ++/* addc #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_immediate, { 0x80000000 } ++ }, ++/* addc (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_immediate, { 0x83000000 } ++ }, ++/* addc ${d-imm7-4}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_immediate, { 0x84000000 } ++ }, ++/* addc (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_immediate, { 0x84000000 } ++ }, ++/* addc (${d-An})${d-i4-4}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_immediate, { 0x82000000 } ++ }, ++/* addc ${d-i4-4}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_immediate, { 0x82100000 } ++ }, ++/* addc ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_index_4, { 0x81000300 } ++ }, ++/* addc #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_index_4, { 0x80000300 } ++ }, ++/* addc (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_index_4, { 0x83000300 } ++ }, ++/* addc ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0x84000300 } ++ }, ++/* addc (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_index_4, { 0x84000300 } ++ }, ++/* addc (${d-An})${d-i4-4}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0x82000300 } ++ }, ++/* addc ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0x82100300 } ++ }, ++/* addc ${d-direct-addr},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_offset_4, { 0x81000400 } ++ }, ++/* addc #${d-imm8},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_offset_4, { 0x80000400 } ++ }, ++/* addc (${d-An},${d-r}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0x83000400 } ++ }, ++/* addc ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0x84000400 } ++ }, ++/* addc (${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_offset_4, { 0x84000400 } ++ }, ++/* addc (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0x82000400 } ++ }, ++/* addc ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0x82100400 } ++ }, ++/* addc ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_4, { 0x81000400 } ++ }, ++/* addc #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_4, { 0x80000400 } ++ }, ++/* addc (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_4, { 0x83000400 } ++ }, ++/* addc ${d-imm7-4}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_4, { 0x84000400 } ++ }, ++/* addc (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_4, { 0x84000400 } ++ }, ++/* addc (${d-An})${d-i4-4}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_4, { 0x82000400 } ++ }, ++/* addc ${d-i4-4}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_4, { 0x82100400 } ++ }, ++/* addc ${d-direct-addr},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_post_increment_4, { 0x81000200 } ++ }, ++/* addc #${d-imm8},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_post_increment_4, { 0x80000200 } ++ }, ++/* addc (${d-An},${d-r}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0x83000200 } ++ }, ++/* addc ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0x84000200 } ++ }, ++/* addc (${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_post_increment_4, { 0x84000200 } ++ }, ++/* addc (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0x82000200 } ++ }, ++/* addc ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0x82100200 } ++ }, ++/* addc ${d-direct-addr},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_pre_increment_4, { 0x81000210 } ++ }, ++/* addc #${d-imm8},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_pre_increment_4, { 0x80000210 } ++ }, ++/* addc (${d-An},${d-r}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0x83000210 } ++ }, ++/* addc ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0x84000210 } ++ }, ++/* addc (${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_pre_increment_4, { 0x84000210 } ++ }, ++/* addc (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0x82000210 } ++ }, ++/* addc ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0x82100210 } ++ }, ++/* sub.1 ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x89008100 } ++ }, ++/* sub.1 #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_direct, { 0x88008100 } ++ }, ++/* sub.1 (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_direct, { 0x8b008100 } ++ }, ++/* sub.1 ${d-imm7-1}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_direct, { 0x8c008100 } ++ }, ++/* sub.1 (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_direct, { 0x8c008100 } ++ }, ++/* sub.1 (${d-An})${d-i4-1}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_direct, { 0x8a008100 } ++ }, ++/* sub.1 ${d-i4-1}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_direct, { 0x8a108100 } ++ }, ++/* sub.1 ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x89008000 } ++ }, ++/* sub.1 #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_immediate, { 0x88008000 } ++ }, ++/* sub.1 (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_immediate, { 0x8b008000 } ++ }, ++/* sub.1 ${d-imm7-1}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_immediate, { 0x8c008000 } ++ }, ++/* sub.1 (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_immediate, { 0x8c008000 } ++ }, ++/* sub.1 (${d-An})${d-i4-1}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_immediate, { 0x8a008000 } ++ }, ++/* sub.1 ${d-i4-1}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_immediate, { 0x8a108000 } ++ }, ++/* sub.1 ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_index_1, { 0x89008300 } ++ }, ++/* sub.1 #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_index_1, { 0x88008300 } ++ }, ++/* sub.1 (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_index_1, { 0x8b008300 } ++ }, ++/* sub.1 ${d-imm7-1}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_index_1, { 0x8c008300 } ++ }, ++/* sub.1 (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_index_1, { 0x8c008300 } ++ }, ++/* sub.1 (${d-An})${d-i4-1}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_index_1, { 0x8a008300 } ++ }, ++/* sub.1 ${d-i4-1}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_index_1, { 0x8a108300 } ++ }, ++/* sub.1 ${d-direct-addr},${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_offset_1, { 0x89008400 } ++ }, ++/* sub.1 #${d-imm8},${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_offset_1, { 0x88008400 } ++ }, ++/* sub.1 (${d-An},${d-r}),${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_offset_1, { 0x8b008400 } ++ }, ++/* sub.1 ${d-imm7-1}(${d-An}),${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_offset_1, { 0x8c008400 } ++ }, ++/* sub.1 (${d-An}),${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_offset_1, { 0x8c008400 } ++ }, ++/* sub.1 (${d-An})${d-i4-1}++,${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_offset_1, { 0x8a008400 } ++ }, ++/* sub.1 ${d-i4-1}(${d-An})++,${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_offset_1, { 0x8a108400 } ++ }, ++/* sub.1 ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_1, { 0x89008400 } ++ }, ++/* sub.1 #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_1, { 0x88008400 } ++ }, ++/* sub.1 (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_1, { 0x8b008400 } ++ }, ++/* sub.1 ${d-imm7-1}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_1, { 0x8c008400 } ++ }, ++/* sub.1 (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_1, { 0x8c008400 } ++ }, ++/* sub.1 (${d-An})${d-i4-1}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_1, { 0x8a008400 } ++ }, ++/* sub.1 ${d-i4-1}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_1, { 0x8a108400 } ++ }, ++/* sub.1 ${d-direct-addr},(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_post_increment_1, { 0x89008200 } ++ }, ++/* sub.1 #${d-imm8},(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_post_increment_1, { 0x88008200 } ++ }, ++/* sub.1 (${d-An},${d-r}),(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_post_increment_1, { 0x8b008200 } ++ }, ++/* sub.1 ${d-imm7-1}(${d-An}),(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_post_increment_1, { 0x8c008200 } ++ }, ++/* sub.1 (${d-An}),(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_post_increment_1, { 0x8c008200 } ++ }, ++/* sub.1 (${d-An})${d-i4-1}++,(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_post_increment_1, { 0x8a008200 } ++ }, ++/* sub.1 ${d-i4-1}(${d-An})++,(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_post_increment_1, { 0x8a108200 } ++ }, ++/* sub.1 ${d-direct-addr},${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_pre_increment_1, { 0x89008210 } ++ }, ++/* sub.1 #${d-imm8},${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_pre_increment_1, { 0x88008210 } ++ }, ++/* sub.1 (${d-An},${d-r}),${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_pre_increment_1, { 0x8b008210 } ++ }, ++/* sub.1 ${d-imm7-1}(${d-An}),${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_pre_increment_1, { 0x8c008210 } ++ }, ++/* sub.1 (${d-An}),${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_pre_increment_1, { 0x8c008210 } ++ }, ++/* sub.1 (${d-An})${d-i4-1}++,${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_pre_increment_1, { 0x8a008210 } ++ }, ++/* sub.1 ${d-i4-1}(${d-An})++,${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_pre_increment_1, { 0x8a108210 } ++ }, ++/* sub.4 ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x91000100 } ++ }, ++/* sub.4 #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_direct, { 0x90000100 } ++ }, ++/* sub.4 (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_direct, { 0x93000100 } ++ }, ++/* sub.4 ${d-imm7-4}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_direct, { 0x94000100 } ++ }, ++/* sub.4 (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_direct, { 0x94000100 } ++ }, ++/* sub.4 (${d-An})${d-i4-4}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_direct, { 0x92000100 } ++ }, ++/* sub.4 ${d-i4-4}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_direct, { 0x92100100 } ++ }, ++/* sub.4 ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x91000000 } ++ }, ++/* sub.4 #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_immediate, { 0x90000000 } ++ }, ++/* sub.4 (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_immediate, { 0x93000000 } ++ }, ++/* sub.4 ${d-imm7-4}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_immediate, { 0x94000000 } ++ }, ++/* sub.4 (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_immediate, { 0x94000000 } ++ }, ++/* sub.4 (${d-An})${d-i4-4}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_immediate, { 0x92000000 } ++ }, ++/* sub.4 ${d-i4-4}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_immediate, { 0x92100000 } ++ }, ++/* sub.4 ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_index_4, { 0x91000300 } ++ }, ++/* sub.4 #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_index_4, { 0x90000300 } ++ }, ++/* sub.4 (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_index_4, { 0x93000300 } ++ }, ++/* sub.4 ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0x94000300 } ++ }, ++/* sub.4 (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_index_4, { 0x94000300 } ++ }, ++/* sub.4 (${d-An})${d-i4-4}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0x92000300 } ++ }, ++/* sub.4 ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0x92100300 } ++ }, ++/* sub.4 ${d-direct-addr},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_offset_4, { 0x91000400 } ++ }, ++/* sub.4 #${d-imm8},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_offset_4, { 0x90000400 } ++ }, ++/* sub.4 (${d-An},${d-r}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0x93000400 } ++ }, ++/* sub.4 ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0x94000400 } ++ }, ++/* sub.4 (${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_offset_4, { 0x94000400 } ++ }, ++/* sub.4 (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0x92000400 } ++ }, ++/* sub.4 ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0x92100400 } ++ }, ++/* sub.4 ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_4, { 0x91000400 } ++ }, ++/* sub.4 #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_4, { 0x90000400 } ++ }, ++/* sub.4 (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_4, { 0x93000400 } ++ }, ++/* sub.4 ${d-imm7-4}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_4, { 0x94000400 } ++ }, ++/* sub.4 (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_4, { 0x94000400 } ++ }, ++/* sub.4 (${d-An})${d-i4-4}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_4, { 0x92000400 } ++ }, ++/* sub.4 ${d-i4-4}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_4, { 0x92100400 } ++ }, ++/* sub.4 ${d-direct-addr},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_post_increment_4, { 0x91000200 } ++ }, ++/* sub.4 #${d-imm8},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_post_increment_4, { 0x90000200 } ++ }, ++/* sub.4 (${d-An},${d-r}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0x93000200 } ++ }, ++/* sub.4 ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0x94000200 } ++ }, ++/* sub.4 (${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_post_increment_4, { 0x94000200 } ++ }, ++/* sub.4 (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0x92000200 } ++ }, ++/* sub.4 ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0x92100200 } ++ }, ++/* sub.4 ${d-direct-addr},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_pre_increment_4, { 0x91000210 } ++ }, ++/* sub.4 #${d-imm8},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_pre_increment_4, { 0x90000210 } ++ }, ++/* sub.4 (${d-An},${d-r}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0x93000210 } ++ }, ++/* sub.4 ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0x94000210 } ++ }, ++/* sub.4 (${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_pre_increment_4, { 0x94000210 } ++ }, ++/* sub.4 (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0x92000210 } ++ }, ++/* sub.4 ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0x92100210 } ++ }, ++/* sub.2 ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x89000100 } ++ }, ++/* sub.2 #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_direct, { 0x88000100 } ++ }, ++/* sub.2 (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_direct, { 0x8b000100 } ++ }, ++/* sub.2 ${d-imm7-2}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_direct, { 0x8c000100 } ++ }, ++/* sub.2 (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_direct, { 0x8c000100 } ++ }, ++/* sub.2 (${d-An})${d-i4-2}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_direct, { 0x8a000100 } ++ }, ++/* sub.2 ${d-i4-2}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_direct, { 0x8a100100 } ++ }, ++/* sub.2 ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x89000000 } ++ }, ++/* sub.2 #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_immediate, { 0x88000000 } ++ }, ++/* sub.2 (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_immediate, { 0x8b000000 } ++ }, ++/* sub.2 ${d-imm7-2}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_immediate, { 0x8c000000 } ++ }, ++/* sub.2 (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_immediate, { 0x8c000000 } ++ }, ++/* sub.2 (${d-An})${d-i4-2}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_immediate, { 0x8a000000 } ++ }, ++/* sub.2 ${d-i4-2}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_immediate, { 0x8a100000 } ++ }, ++/* sub.2 ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_index_2, { 0x89000300 } ++ }, ++/* sub.2 #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_index_2, { 0x88000300 } ++ }, ++/* sub.2 (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_index_2, { 0x8b000300 } ++ }, ++/* sub.2 ${d-imm7-2}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_index_2, { 0x8c000300 } ++ }, ++/* sub.2 (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_index_2, { 0x8c000300 } ++ }, ++/* sub.2 (${d-An})${d-i4-2}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_index_2, { 0x8a000300 } ++ }, ++/* sub.2 ${d-i4-2}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_index_2, { 0x8a100300 } ++ }, ++/* sub.2 ${d-direct-addr},${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_offset_2, { 0x89000400 } ++ }, ++/* sub.2 #${d-imm8},${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_offset_2, { 0x88000400 } ++ }, ++/* sub.2 (${d-An},${d-r}),${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_offset_2, { 0x8b000400 } ++ }, ++/* sub.2 ${d-imm7-2}(${d-An}),${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_offset_2, { 0x8c000400 } ++ }, ++/* sub.2 (${d-An}),${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_offset_2, { 0x8c000400 } ++ }, ++/* sub.2 (${d-An})${d-i4-2}++,${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_offset_2, { 0x8a000400 } ++ }, ++/* sub.2 ${d-i4-2}(${d-An})++,${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_offset_2, { 0x8a100400 } ++ }, ++/* sub.2 ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_2, { 0x89000400 } ++ }, ++/* sub.2 #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_2, { 0x88000400 } ++ }, ++/* sub.2 (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_2, { 0x8b000400 } ++ }, ++/* sub.2 ${d-imm7-2}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_2, { 0x8c000400 } ++ }, ++/* sub.2 (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_2, { 0x8c000400 } ++ }, ++/* sub.2 (${d-An})${d-i4-2}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_2, { 0x8a000400 } ++ }, ++/* sub.2 ${d-i4-2}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_2, { 0x8a100400 } ++ }, ++/* sub.2 ${d-direct-addr},(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_post_increment_2, { 0x89000200 } ++ }, ++/* sub.2 #${d-imm8},(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_post_increment_2, { 0x88000200 } ++ }, ++/* sub.2 (${d-An},${d-r}),(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_post_increment_2, { 0x8b000200 } ++ }, ++/* sub.2 ${d-imm7-2}(${d-An}),(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_post_increment_2, { 0x8c000200 } ++ }, ++/* sub.2 (${d-An}),(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_post_increment_2, { 0x8c000200 } ++ }, ++/* sub.2 (${d-An})${d-i4-2}++,(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_2, { 0x8a000200 } ++ }, ++/* sub.2 ${d-i4-2}(${d-An})++,(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_2, { 0x8a100200 } ++ }, ++/* sub.2 ${d-direct-addr},${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_pre_increment_2, { 0x89000210 } ++ }, ++/* sub.2 #${d-imm8},${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_pre_increment_2, { 0x88000210 } ++ }, ++/* sub.2 (${d-An},${d-r}),${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_pre_increment_2, { 0x8b000210 } ++ }, ++/* sub.2 ${d-imm7-2}(${d-An}),${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_pre_increment_2, { 0x8c000210 } ++ }, ++/* sub.2 (${d-An}),${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_pre_increment_2, { 0x8c000210 } ++ }, ++/* sub.2 (${d-An})${d-i4-2}++,${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_2, { 0x8a000210 } ++ }, ++/* sub.2 ${d-i4-2}(${d-An})++,${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_2, { 0x8a100210 } ++ }, ++/* add.1 ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x71008100 } ++ }, ++/* add.1 #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_direct, { 0x70008100 } ++ }, ++/* add.1 (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_direct, { 0x73008100 } ++ }, ++/* add.1 ${d-imm7-1}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_direct, { 0x74008100 } ++ }, ++/* add.1 (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_direct, { 0x74008100 } ++ }, ++/* add.1 (${d-An})${d-i4-1}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_direct, { 0x72008100 } ++ }, ++/* add.1 ${d-i4-1}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_direct, { 0x72108100 } ++ }, ++/* add.1 ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x71008000 } ++ }, ++/* add.1 #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_immediate, { 0x70008000 } ++ }, ++/* add.1 (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_immediate, { 0x73008000 } ++ }, ++/* add.1 ${d-imm7-1}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_immediate, { 0x74008000 } ++ }, ++/* add.1 (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_immediate, { 0x74008000 } ++ }, ++/* add.1 (${d-An})${d-i4-1}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_immediate, { 0x72008000 } ++ }, ++/* add.1 ${d-i4-1}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_immediate, { 0x72108000 } ++ }, ++/* add.1 ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_index_1, { 0x71008300 } ++ }, ++/* add.1 #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_index_1, { 0x70008300 } ++ }, ++/* add.1 (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_index_1, { 0x73008300 } ++ }, ++/* add.1 ${d-imm7-1}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_index_1, { 0x74008300 } ++ }, ++/* add.1 (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_index_1, { 0x74008300 } ++ }, ++/* add.1 (${d-An})${d-i4-1}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_index_1, { 0x72008300 } ++ }, ++/* add.1 ${d-i4-1}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_index_1, { 0x72108300 } ++ }, ++/* add.1 ${d-direct-addr},${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_offset_1, { 0x71008400 } ++ }, ++/* add.1 #${d-imm8},${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_offset_1, { 0x70008400 } ++ }, ++/* add.1 (${d-An},${d-r}),${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_offset_1, { 0x73008400 } ++ }, ++/* add.1 ${d-imm7-1}(${d-An}),${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_offset_1, { 0x74008400 } ++ }, ++/* add.1 (${d-An}),${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_offset_1, { 0x74008400 } ++ }, ++/* add.1 (${d-An})${d-i4-1}++,${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_offset_1, { 0x72008400 } ++ }, ++/* add.1 ${d-i4-1}(${d-An})++,${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_offset_1, { 0x72108400 } ++ }, ++/* add.1 ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_1, { 0x71008400 } ++ }, ++/* add.1 #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_1, { 0x70008400 } ++ }, ++/* add.1 (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_1, { 0x73008400 } ++ }, ++/* add.1 ${d-imm7-1}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_1, { 0x74008400 } ++ }, ++/* add.1 (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_1, { 0x74008400 } ++ }, ++/* add.1 (${d-An})${d-i4-1}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_1, { 0x72008400 } ++ }, ++/* add.1 ${d-i4-1}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_1, { 0x72108400 } ++ }, ++/* add.1 ${d-direct-addr},(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_post_increment_1, { 0x71008200 } ++ }, ++/* add.1 #${d-imm8},(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_post_increment_1, { 0x70008200 } ++ }, ++/* add.1 (${d-An},${d-r}),(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_post_increment_1, { 0x73008200 } ++ }, ++/* add.1 ${d-imm7-1}(${d-An}),(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_post_increment_1, { 0x74008200 } ++ }, ++/* add.1 (${d-An}),(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_post_increment_1, { 0x74008200 } ++ }, ++/* add.1 (${d-An})${d-i4-1}++,(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_post_increment_1, { 0x72008200 } ++ }, ++/* add.1 ${d-i4-1}(${d-An})++,(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_post_increment_1, { 0x72108200 } ++ }, ++/* add.1 ${d-direct-addr},${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_pre_increment_1, { 0x71008210 } ++ }, ++/* add.1 #${d-imm8},${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_pre_increment_1, { 0x70008210 } ++ }, ++/* add.1 (${d-An},${d-r}),${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_pre_increment_1, { 0x73008210 } ++ }, ++/* add.1 ${d-imm7-1}(${d-An}),${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_pre_increment_1, { 0x74008210 } ++ }, ++/* add.1 (${d-An}),${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_pre_increment_1, { 0x74008210 } ++ }, ++/* add.1 (${d-An})${d-i4-1}++,${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_pre_increment_1, { 0x72008210 } ++ }, ++/* add.1 ${d-i4-1}(${d-An})++,${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_pre_increment_1, { 0x72108210 } ++ }, ++/* add.4 ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x79000100 } ++ }, ++/* add.4 #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_direct, { 0x78000100 } ++ }, ++/* add.4 (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_direct, { 0x7b000100 } ++ }, ++/* add.4 ${d-imm7-4}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_direct, { 0x7c000100 } ++ }, ++/* add.4 (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_direct, { 0x7c000100 } ++ }, ++/* add.4 (${d-An})${d-i4-4}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_direct, { 0x7a000100 } ++ }, ++/* add.4 ${d-i4-4}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_direct, { 0x7a100100 } ++ }, ++/* add.4 ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x79000000 } ++ }, ++/* add.4 #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_immediate, { 0x78000000 } ++ }, ++/* add.4 (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_immediate, { 0x7b000000 } ++ }, ++/* add.4 ${d-imm7-4}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_immediate, { 0x7c000000 } ++ }, ++/* add.4 (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_immediate, { 0x7c000000 } ++ }, ++/* add.4 (${d-An})${d-i4-4}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_immediate, { 0x7a000000 } ++ }, ++/* add.4 ${d-i4-4}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_immediate, { 0x7a100000 } ++ }, ++/* add.4 ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_index_4, { 0x79000300 } ++ }, ++/* add.4 #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_index_4, { 0x78000300 } ++ }, ++/* add.4 (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_index_4, { 0x7b000300 } ++ }, ++/* add.4 ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0x7c000300 } ++ }, ++/* add.4 (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_index_4, { 0x7c000300 } ++ }, ++/* add.4 (${d-An})${d-i4-4}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0x7a000300 } ++ }, ++/* add.4 ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0x7a100300 } ++ }, ++/* add.4 ${d-direct-addr},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_offset_4, { 0x79000400 } ++ }, ++/* add.4 #${d-imm8},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_offset_4, { 0x78000400 } ++ }, ++/* add.4 (${d-An},${d-r}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0x7b000400 } ++ }, ++/* add.4 ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0x7c000400 } ++ }, ++/* add.4 (${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_offset_4, { 0x7c000400 } ++ }, ++/* add.4 (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0x7a000400 } ++ }, ++/* add.4 ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0x7a100400 } ++ }, ++/* add.4 ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_4, { 0x79000400 } ++ }, ++/* add.4 #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_4, { 0x78000400 } ++ }, ++/* add.4 (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_4, { 0x7b000400 } ++ }, ++/* add.4 ${d-imm7-4}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_4, { 0x7c000400 } ++ }, ++/* add.4 (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_4, { 0x7c000400 } ++ }, ++/* add.4 (${d-An})${d-i4-4}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_4, { 0x7a000400 } ++ }, ++/* add.4 ${d-i4-4}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_4, { 0x7a100400 } ++ }, ++/* add.4 ${d-direct-addr},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_post_increment_4, { 0x79000200 } ++ }, ++/* add.4 #${d-imm8},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_post_increment_4, { 0x78000200 } ++ }, ++/* add.4 (${d-An},${d-r}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0x7b000200 } ++ }, ++/* add.4 ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0x7c000200 } ++ }, ++/* add.4 (${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_post_increment_4, { 0x7c000200 } ++ }, ++/* add.4 (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0x7a000200 } ++ }, ++/* add.4 ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0x7a100200 } ++ }, ++/* add.4 ${d-direct-addr},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_pre_increment_4, { 0x79000210 } ++ }, ++/* add.4 #${d-imm8},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_pre_increment_4, { 0x78000210 } ++ }, ++/* add.4 (${d-An},${d-r}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0x7b000210 } ++ }, ++/* add.4 ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0x7c000210 } ++ }, ++/* add.4 (${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_pre_increment_4, { 0x7c000210 } ++ }, ++/* add.4 (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0x7a000210 } ++ }, ++/* add.4 ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0x7a100210 } ++ }, ++/* add.2 ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x71000100 } ++ }, ++/* add.2 #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_direct, { 0x70000100 } ++ }, ++/* add.2 (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_direct, { 0x73000100 } ++ }, ++/* add.2 ${d-imm7-2}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_direct, { 0x74000100 } ++ }, ++/* add.2 (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_direct, { 0x74000100 } ++ }, ++/* add.2 (${d-An})${d-i4-2}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_direct, { 0x72000100 } ++ }, ++/* add.2 ${d-i4-2}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_direct, { 0x72100100 } ++ }, ++/* add.2 ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x71000000 } ++ }, ++/* add.2 #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_immediate, { 0x70000000 } ++ }, ++/* add.2 (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_immediate, { 0x73000000 } ++ }, ++/* add.2 ${d-imm7-2}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_immediate, { 0x74000000 } ++ }, ++/* add.2 (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_immediate, { 0x74000000 } ++ }, ++/* add.2 (${d-An})${d-i4-2}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_immediate, { 0x72000000 } ++ }, ++/* add.2 ${d-i4-2}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_immediate, { 0x72100000 } ++ }, ++/* add.2 ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_index_2, { 0x71000300 } ++ }, ++/* add.2 #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_index_2, { 0x70000300 } ++ }, ++/* add.2 (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_index_2, { 0x73000300 } ++ }, ++/* add.2 ${d-imm7-2}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_index_2, { 0x74000300 } ++ }, ++/* add.2 (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_index_2, { 0x74000300 } ++ }, ++/* add.2 (${d-An})${d-i4-2}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_index_2, { 0x72000300 } ++ }, ++/* add.2 ${d-i4-2}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_index_2, { 0x72100300 } ++ }, ++/* add.2 ${d-direct-addr},${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_offset_2, { 0x71000400 } ++ }, ++/* add.2 #${d-imm8},${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_offset_2, { 0x70000400 } ++ }, ++/* add.2 (${d-An},${d-r}),${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_offset_2, { 0x73000400 } ++ }, ++/* add.2 ${d-imm7-2}(${d-An}),${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_offset_2, { 0x74000400 } ++ }, ++/* add.2 (${d-An}),${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_offset_2, { 0x74000400 } ++ }, ++/* add.2 (${d-An})${d-i4-2}++,${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_offset_2, { 0x72000400 } ++ }, ++/* add.2 ${d-i4-2}(${d-An})++,${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_offset_2, { 0x72100400 } ++ }, ++/* add.2 ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_2, { 0x71000400 } ++ }, ++/* add.2 #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_2, { 0x70000400 } ++ }, ++/* add.2 (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_2, { 0x73000400 } ++ }, ++/* add.2 ${d-imm7-2}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_2, { 0x74000400 } ++ }, ++/* add.2 (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_2, { 0x74000400 } ++ }, ++/* add.2 (${d-An})${d-i4-2}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_2, { 0x72000400 } ++ }, ++/* add.2 ${d-i4-2}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_2, { 0x72100400 } ++ }, ++/* add.2 ${d-direct-addr},(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_post_increment_2, { 0x71000200 } ++ }, ++/* add.2 #${d-imm8},(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_post_increment_2, { 0x70000200 } ++ }, ++/* add.2 (${d-An},${d-r}),(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_post_increment_2, { 0x73000200 } ++ }, ++/* add.2 ${d-imm7-2}(${d-An}),(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_post_increment_2, { 0x74000200 } ++ }, ++/* add.2 (${d-An}),(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_post_increment_2, { 0x74000200 } ++ }, ++/* add.2 (${d-An})${d-i4-2}++,(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_2, { 0x72000200 } ++ }, ++/* add.2 ${d-i4-2}(${d-An})++,(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_2, { 0x72100200 } ++ }, ++/* add.2 ${d-direct-addr},${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_pre_increment_2, { 0x71000210 } ++ }, ++/* add.2 #${d-imm8},${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_pre_increment_2, { 0x70000210 } ++ }, ++/* add.2 (${d-An},${d-r}),${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_pre_increment_2, { 0x73000210 } ++ }, ++/* add.2 ${d-imm7-2}(${d-An}),${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_pre_increment_2, { 0x74000210 } ++ }, ++/* add.2 (${d-An}),${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_pre_increment_2, { 0x74000210 } ++ }, ++/* add.2 (${d-An})${d-i4-2}++,${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_2, { 0x72000210 } ++ }, ++/* add.2 ${d-i4-2}(${d-An})++,${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_2, { 0x72100210 } ++ }, ++/* not.4 ${d-direct-addr},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_direct_s1_direct, { 0x1005100 } ++ }, ++/* not.4 #${d-imm8},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_immediate_4_s1_direct, { 0x5100 } ++ }, ++/* not.4 (${d-An},${d-r}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_direct, { 0x3005100 } ++ }, ++/* not.4 ${d-imm7-4}(${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_direct, { 0x4005100 } ++ }, ++/* not.4 (${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_4_s1_direct, { 0x4005100 } ++ }, ++/* not.4 (${d-An})${d-i4-4}++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_direct, { 0x2005100 } ++ }, ++/* not.4 ${d-i4-4}(${d-An})++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_direct, { 0x2105100 } ++ }, ++/* not.4 ${d-direct-addr},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_direct_s1_immediate, { 0x1005000 } ++ }, ++/* not.4 #${d-imm8},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_immediate_4_s1_immediate, { 0x5000 } ++ }, ++/* not.4 (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_immediate, { 0x3005000 } ++ }, ++/* not.4 ${d-imm7-4}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_immediate, { 0x4005000 } ++ }, ++/* not.4 (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_4_s1_immediate, { 0x4005000 } ++ }, ++/* not.4 (${d-An})${d-i4-4}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_immediate, { 0x2005000 } ++ }, ++/* not.4 ${d-i4-4}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_immediate, { 0x2105000 } ++ }, ++/* not.4 ${d-direct-addr},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_index_4, { 0x1005300 } ++ }, ++/* not.4 #${d-imm8},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_index_4, { 0x5300 } ++ }, ++/* not.4 (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_index_4, { 0x3005300 } ++ }, ++/* not.4 ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0x4005300 } ++ }, ++/* not.4 (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_index_4, { 0x4005300 } ++ }, ++/* not.4 (${d-An})${d-i4-4}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0x2005300 } ++ }, ++/* not.4 ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0x2105300 } ++ }, ++/* not.4 ${d-direct-addr},${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_offset_4, { 0x1005400 } ++ }, ++/* not.4 #${d-imm8},${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_offset_4, { 0x5400 } ++ }, ++/* not.4 (${d-An},${d-r}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0x3005400 } ++ }, ++/* not.4 ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0x4005400 } ++ }, ++/* not.4 (${d-An}),${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_offset_4, { 0x4005400 } ++ }, ++/* not.4 (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0x2005400 } ++ }, ++/* not.4 ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0x2105400 } ++ }, ++/* not.4 ${d-direct-addr},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_4, { 0x1005400 } ++ }, ++/* not.4 #${d-imm8},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_4, { 0x5400 } ++ }, ++/* not.4 (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_4, { 0x3005400 } ++ }, ++/* not.4 ${d-imm7-4}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_4, { 0x4005400 } ++ }, ++/* not.4 (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_4, { 0x4005400 } ++ }, ++/* not.4 (${d-An})${d-i4-4}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_4, { 0x2005400 } ++ }, ++/* not.4 ${d-i4-4}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_4, { 0x2105400 } ++ }, ++/* not.4 ${d-direct-addr},(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_post_increment_4, { 0x1005200 } ++ }, ++/* not.4 #${d-imm8},(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_post_increment_4, { 0x5200 } ++ }, ++/* not.4 (${d-An},${d-r}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0x3005200 } ++ }, ++/* not.4 ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0x4005200 } ++ }, ++/* not.4 (${d-An}),(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_post_increment_4, { 0x4005200 } ++ }, ++/* not.4 (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0x2005200 } ++ }, ++/* not.4 ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0x2105200 } ++ }, ++/* not.4 ${d-direct-addr},${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_direct_s1_indirect_with_pre_increment_4, { 0x1005210 } ++ }, ++/* not.4 #${d-imm8},${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_immediate_4_s1_indirect_with_pre_increment_4, { 0x5210 } ++ }, ++/* not.4 (${d-An},${d-r}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0x3005210 } ++ }, ++/* not.4 ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0x4005210 } ++ }, ++/* not.4 (${d-An}),${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_4_s1_indirect_with_pre_increment_4, { 0x4005210 } ++ }, ++/* not.4 (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0x2005210 } ++ }, ++/* not.4 ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_movea_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0x2105210 } ++ }, ++/* not.2 ${d-direct-addr},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_movea_d_direct_s1_direct, { 0x1005900 } ++ }, ++/* not.2 #${d-imm8},${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_direct, { 0x5900 } ++ }, ++/* not.2 (${d-An},${d-r}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_direct, { 0x3005900 } ++ }, ++/* not.2 ${d-imm7-2}(${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_direct, { 0x4005900 } ++ }, ++/* not.2 (${d-An}),${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_direct, { 0x4005900 } ++ }, ++/* not.2 (${d-An})${d-i4-2}++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_direct, { 0x2005900 } ++ }, ++/* not.2 ${d-i4-2}(${d-An})++,${s1-direct-addr} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_direct, { 0x2105900 } ++ }, ++/* not.2 ${d-direct-addr},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_movea_d_direct_s1_immediate, { 0x1005800 } ++ }, ++/* not.2 #${d-imm8},#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_immediate, { 0x5800 } ++ }, ++/* not.2 (${d-An},${d-r}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_immediate, { 0x3005800 } ++ }, ++/* not.2 ${d-imm7-2}(${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_immediate, { 0x4005800 } ++ }, ++/* not.2 (${d-An}),#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_immediate, { 0x4005800 } ++ }, ++/* not.2 (${d-An})${d-i4-2}++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_immediate, { 0x2005800 } ++ }, ++/* not.2 ${d-i4-2}(${d-An})++,#${s1-imm8} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_immediate, { 0x2105800 } ++ }, ++/* not.2 ${d-direct-addr},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_index_2, { 0x1005b00 } ++ }, ++/* not.2 #${d-imm8},(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_index_2, { 0x5b00 } ++ }, ++/* not.2 (${d-An},${d-r}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_index_2, { 0x3005b00 } ++ }, ++/* not.2 ${d-imm7-2}(${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_index_2, { 0x4005b00 } ++ }, ++/* not.2 (${d-An}),(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_index_2, { 0x4005b00 } ++ }, ++/* not.2 (${d-An})${d-i4-2}++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_index_2, { 0x2005b00 } ++ }, ++/* not.2 ${d-i4-2}(${d-An})++,(${s1-An},${s1-r}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_index_2, { 0x2105b00 } ++ }, ++/* not.2 ${d-direct-addr},${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_offset_2, { 0x1005c00 } ++ }, ++/* not.2 #${d-imm8},${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_offset_2, { 0x5c00 } ++ }, ++/* not.2 (${d-An},${d-r}),${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_offset_2, { 0x3005c00 } ++ }, ++/* not.2 ${d-imm7-2}(${d-An}),${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_offset_2, { 0x4005c00 } ++ }, ++/* not.2 (${d-An}),${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_offset_2, { 0x4005c00 } ++ }, ++/* not.2 (${d-An})${d-i4-2}++,${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_offset_2, { 0x2005c00 } ++ }, ++/* not.2 ${d-i4-2}(${d-An})++,${s1-imm7-2}(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_offset_2, { 0x2105c00 } ++ }, ++/* not.2 ${d-direct-addr},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_2, { 0x1005c00 } ++ }, ++/* not.2 #${d-imm8},(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_2, { 0x5c00 } ++ }, ++/* not.2 (${d-An},${d-r}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_2, { 0x3005c00 } ++ }, ++/* not.2 ${d-imm7-2}(${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_2, { 0x4005c00 } ++ }, ++/* not.2 (${d-An}),(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_2, { 0x4005c00 } ++ }, ++/* not.2 (${d-An})${d-i4-2}++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_2, { 0x2005c00 } ++ }, ++/* not.2 ${d-i4-2}(${d-An})++,(${s1-An}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_2, { 0x2105c00 } ++ }, ++/* not.2 ${d-direct-addr},(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_post_increment_2, { 0x1005a00 } ++ }, ++/* not.2 #${d-imm8},(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_post_increment_2, { 0x5a00 } ++ }, ++/* not.2 (${d-An},${d-r}),(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_post_increment_2, { 0x3005a00 } ++ }, ++/* not.2 ${d-imm7-2}(${d-An}),(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_post_increment_2, { 0x4005a00 } ++ }, ++/* not.2 (${d-An}),(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_post_increment_2, { 0x4005a00 } ++ }, ++/* not.2 (${d-An})${d-i4-2}++,(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_2, { 0x2005a00 } ++ }, ++/* not.2 ${d-i4-2}(${d-An})++,(${s1-An})${s1-i4-2}++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_2, { 0x2105a00 } ++ }, ++/* not.2 ${d-direct-addr},${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_direct_s1_indirect_with_pre_increment_2, { 0x1005a10 } ++ }, ++/* not.2 #${d-imm8},${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_immediate_2_s1_indirect_with_pre_increment_2, { 0x5a10 } ++ }, ++/* not.2 (${d-An},${d-r}),${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_index_2_s1_indirect_with_pre_increment_2, { 0x3005a10 } ++ }, ++/* not.2 ${d-imm7-2}(${d-An}),${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_offset_2_s1_indirect_with_pre_increment_2, { 0x4005a10 } ++ }, ++/* not.2 (${d-An}),${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_2_s1_indirect_with_pre_increment_2, { 0x4005a10 } ++ }, ++/* not.2 (${d-An})${d-i4-2}++,${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_2, { 0x2005a10 } ++ }, ++/* not.2 ${d-i4-2}(${d-An})++,${s1-i4-2}(${s1-An})++ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', 0 } }, ++ & ifmt_move_2_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_2, { 0x2105a10 } ++ }, ++/* xor.1 ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x61008100 } ++ }, ++/* xor.1 #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_direct, { 0x60008100 } ++ }, ++/* xor.1 (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_direct, { 0x63008100 } ++ }, ++/* xor.1 ${d-imm7-1}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_direct, { 0x64008100 } ++ }, ++/* xor.1 (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_direct, { 0x64008100 } ++ }, ++/* xor.1 (${d-An})${d-i4-1}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_direct, { 0x62008100 } ++ }, ++/* xor.1 ${d-i4-1}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_direct, { 0x62108100 } ++ }, ++/* xor.1 ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x61008000 } ++ }, ++/* xor.1 #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_immediate, { 0x60008000 } ++ }, ++/* xor.1 (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_immediate, { 0x63008000 } ++ }, ++/* xor.1 ${d-imm7-1}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_immediate, { 0x64008000 } ++ }, ++/* xor.1 (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_immediate, { 0x64008000 } ++ }, ++/* xor.1 (${d-An})${d-i4-1}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_immediate, { 0x62008000 } ++ }, ++/* xor.1 ${d-i4-1}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_immediate, { 0x62108000 } ++ }, ++/* xor.1 ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_index_1, { 0x61008300 } ++ }, ++/* xor.1 #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_index_1, { 0x60008300 } ++ }, ++/* xor.1 (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_index_1, { 0x63008300 } ++ }, ++/* xor.1 ${d-imm7-1}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_index_1, { 0x64008300 } ++ }, ++/* xor.1 (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_index_1, { 0x64008300 } ++ }, ++/* xor.1 (${d-An})${d-i4-1}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_index_1, { 0x62008300 } ++ }, ++/* xor.1 ${d-i4-1}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_index_1, { 0x62108300 } ++ }, ++/* xor.1 ${d-direct-addr},${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_offset_1, { 0x61008400 } ++ }, ++/* xor.1 #${d-imm8},${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_offset_1, { 0x60008400 } ++ }, ++/* xor.1 (${d-An},${d-r}),${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_offset_1, { 0x63008400 } ++ }, ++/* xor.1 ${d-imm7-1}(${d-An}),${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_offset_1, { 0x64008400 } ++ }, ++/* xor.1 (${d-An}),${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_offset_1, { 0x64008400 } ++ }, ++/* xor.1 (${d-An})${d-i4-1}++,${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_offset_1, { 0x62008400 } ++ }, ++/* xor.1 ${d-i4-1}(${d-An})++,${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_offset_1, { 0x62108400 } ++ }, ++/* xor.1 ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_1, { 0x61008400 } ++ }, ++/* xor.1 #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_1, { 0x60008400 } ++ }, ++/* xor.1 (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_1, { 0x63008400 } ++ }, ++/* xor.1 ${d-imm7-1}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_1, { 0x64008400 } ++ }, ++/* xor.1 (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_1, { 0x64008400 } ++ }, ++/* xor.1 (${d-An})${d-i4-1}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_1, { 0x62008400 } ++ }, ++/* xor.1 ${d-i4-1}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_1, { 0x62108400 } ++ }, ++/* xor.1 ${d-direct-addr},(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_post_increment_1, { 0x61008200 } ++ }, ++/* xor.1 #${d-imm8},(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_post_increment_1, { 0x60008200 } ++ }, ++/* xor.1 (${d-An},${d-r}),(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_post_increment_1, { 0x63008200 } ++ }, ++/* xor.1 ${d-imm7-1}(${d-An}),(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_post_increment_1, { 0x64008200 } ++ }, ++/* xor.1 (${d-An}),(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_post_increment_1, { 0x64008200 } ++ }, ++/* xor.1 (${d-An})${d-i4-1}++,(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_post_increment_1, { 0x62008200 } ++ }, ++/* xor.1 ${d-i4-1}(${d-An})++,(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_post_increment_1, { 0x62108200 } ++ }, ++/* xor.1 ${d-direct-addr},${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_pre_increment_1, { 0x61008210 } ++ }, ++/* xor.1 #${d-imm8},${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_pre_increment_1, { 0x60008210 } ++ }, ++/* xor.1 (${d-An},${d-r}),${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_pre_increment_1, { 0x63008210 } ++ }, ++/* xor.1 ${d-imm7-1}(${d-An}),${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_pre_increment_1, { 0x64008210 } ++ }, ++/* xor.1 (${d-An}),${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_pre_increment_1, { 0x64008210 } ++ }, ++/* xor.1 (${d-An})${d-i4-1}++,${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_pre_increment_1, { 0x62008210 } ++ }, ++/* xor.1 ${d-i4-1}(${d-An})++,${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_pre_increment_1, { 0x62108210 } ++ }, ++/* or.1 ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x51008100 } ++ }, ++/* or.1 #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_direct, { 0x50008100 } ++ }, ++/* or.1 (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_direct, { 0x53008100 } ++ }, ++/* or.1 ${d-imm7-1}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_direct, { 0x54008100 } ++ }, ++/* or.1 (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_direct, { 0x54008100 } ++ }, ++/* or.1 (${d-An})${d-i4-1}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_direct, { 0x52008100 } ++ }, ++/* or.1 ${d-i4-1}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_direct, { 0x52108100 } ++ }, ++/* or.1 ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x51008000 } ++ }, ++/* or.1 #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_immediate, { 0x50008000 } ++ }, ++/* or.1 (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_immediate, { 0x53008000 } ++ }, ++/* or.1 ${d-imm7-1}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_immediate, { 0x54008000 } ++ }, ++/* or.1 (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_immediate, { 0x54008000 } ++ }, ++/* or.1 (${d-An})${d-i4-1}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_immediate, { 0x52008000 } ++ }, ++/* or.1 ${d-i4-1}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_immediate, { 0x52108000 } ++ }, ++/* or.1 ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_index_1, { 0x51008300 } ++ }, ++/* or.1 #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_index_1, { 0x50008300 } ++ }, ++/* or.1 (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_index_1, { 0x53008300 } ++ }, ++/* or.1 ${d-imm7-1}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_index_1, { 0x54008300 } ++ }, ++/* or.1 (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_index_1, { 0x54008300 } ++ }, ++/* or.1 (${d-An})${d-i4-1}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_index_1, { 0x52008300 } ++ }, ++/* or.1 ${d-i4-1}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_index_1, { 0x52108300 } ++ }, ++/* or.1 ${d-direct-addr},${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_offset_1, { 0x51008400 } ++ }, ++/* or.1 #${d-imm8},${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_offset_1, { 0x50008400 } ++ }, ++/* or.1 (${d-An},${d-r}),${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_offset_1, { 0x53008400 } ++ }, ++/* or.1 ${d-imm7-1}(${d-An}),${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_offset_1, { 0x54008400 } ++ }, ++/* or.1 (${d-An}),${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_offset_1, { 0x54008400 } ++ }, ++/* or.1 (${d-An})${d-i4-1}++,${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_offset_1, { 0x52008400 } ++ }, ++/* or.1 ${d-i4-1}(${d-An})++,${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_offset_1, { 0x52108400 } ++ }, ++/* or.1 ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_1, { 0x51008400 } ++ }, ++/* or.1 #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_1, { 0x50008400 } ++ }, ++/* or.1 (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_1, { 0x53008400 } ++ }, ++/* or.1 ${d-imm7-1}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_1, { 0x54008400 } ++ }, ++/* or.1 (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_1, { 0x54008400 } ++ }, ++/* or.1 (${d-An})${d-i4-1}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_1, { 0x52008400 } ++ }, ++/* or.1 ${d-i4-1}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_1, { 0x52108400 } ++ }, ++/* or.1 ${d-direct-addr},(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_post_increment_1, { 0x51008200 } ++ }, ++/* or.1 #${d-imm8},(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_post_increment_1, { 0x50008200 } ++ }, ++/* or.1 (${d-An},${d-r}),(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_post_increment_1, { 0x53008200 } ++ }, ++/* or.1 ${d-imm7-1}(${d-An}),(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_post_increment_1, { 0x54008200 } ++ }, ++/* or.1 (${d-An}),(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_post_increment_1, { 0x54008200 } ++ }, ++/* or.1 (${d-An})${d-i4-1}++,(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_post_increment_1, { 0x52008200 } ++ }, ++/* or.1 ${d-i4-1}(${d-An})++,(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_post_increment_1, { 0x52108200 } ++ }, ++/* or.1 ${d-direct-addr},${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_pre_increment_1, { 0x51008210 } ++ }, ++/* or.1 #${d-imm8},${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_pre_increment_1, { 0x50008210 } ++ }, ++/* or.1 (${d-An},${d-r}),${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_pre_increment_1, { 0x53008210 } ++ }, ++/* or.1 ${d-imm7-1}(${d-An}),${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_pre_increment_1, { 0x54008210 } ++ }, ++/* or.1 (${d-An}),${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_pre_increment_1, { 0x54008210 } ++ }, ++/* or.1 (${d-An})${d-i4-1}++,${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_pre_increment_1, { 0x52008210 } ++ }, ++/* or.1 ${d-i4-1}(${d-An})++,${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_pre_increment_1, { 0x52108210 } ++ }, ++/* and.1 ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x41008100 } ++ }, ++/* and.1 #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_direct, { 0x40008100 } ++ }, ++/* and.1 (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_direct, { 0x43008100 } ++ }, ++/* and.1 ${d-imm7-1}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_direct, { 0x44008100 } ++ }, ++/* and.1 (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_direct, { 0x44008100 } ++ }, ++/* and.1 (${d-An})${d-i4-1}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_direct, { 0x42008100 } ++ }, ++/* and.1 ${d-i4-1}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_direct, { 0x42108100 } ++ }, ++/* and.1 ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x41008000 } ++ }, ++/* and.1 #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_immediate, { 0x40008000 } ++ }, ++/* and.1 (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_immediate, { 0x43008000 } ++ }, ++/* and.1 ${d-imm7-1}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_immediate, { 0x44008000 } ++ }, ++/* and.1 (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_immediate, { 0x44008000 } ++ }, ++/* and.1 (${d-An})${d-i4-1}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_immediate, { 0x42008000 } ++ }, ++/* and.1 ${d-i4-1}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_immediate, { 0x42108000 } ++ }, ++/* and.1 ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_index_1, { 0x41008300 } ++ }, ++/* and.1 #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_index_1, { 0x40008300 } ++ }, ++/* and.1 (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_index_1, { 0x43008300 } ++ }, ++/* and.1 ${d-imm7-1}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_index_1, { 0x44008300 } ++ }, ++/* and.1 (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_index_1, { 0x44008300 } ++ }, ++/* and.1 (${d-An})${d-i4-1}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_index_1, { 0x42008300 } ++ }, ++/* and.1 ${d-i4-1}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_index_1, { 0x42108300 } ++ }, ++/* and.1 ${d-direct-addr},${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_offset_1, { 0x41008400 } ++ }, ++/* and.1 #${d-imm8},${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_offset_1, { 0x40008400 } ++ }, ++/* and.1 (${d-An},${d-r}),${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_offset_1, { 0x43008400 } ++ }, ++/* and.1 ${d-imm7-1}(${d-An}),${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_offset_1, { 0x44008400 } ++ }, ++/* and.1 (${d-An}),${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_offset_1, { 0x44008400 } ++ }, ++/* and.1 (${d-An})${d-i4-1}++,${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_offset_1, { 0x42008400 } ++ }, ++/* and.1 ${d-i4-1}(${d-An})++,${s1-imm7-1}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_1), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_offset_1, { 0x42108400 } ++ }, ++/* and.1 ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_1, { 0x41008400 } ++ }, ++/* and.1 #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_1, { 0x40008400 } ++ }, ++/* and.1 (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_1, { 0x43008400 } ++ }, ++/* and.1 ${d-imm7-1}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_1, { 0x44008400 } ++ }, ++/* and.1 (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_1, { 0x44008400 } ++ }, ++/* and.1 (${d-An})${d-i4-1}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_1, { 0x42008400 } ++ }, ++/* and.1 ${d-i4-1}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_1, { 0x42108400 } ++ }, ++/* and.1 ${d-direct-addr},(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_post_increment_1, { 0x41008200 } ++ }, ++/* and.1 #${d-imm8},(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_post_increment_1, { 0x40008200 } ++ }, ++/* and.1 (${d-An},${d-r}),(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_post_increment_1, { 0x43008200 } ++ }, ++/* and.1 ${d-imm7-1}(${d-An}),(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_post_increment_1, { 0x44008200 } ++ }, ++/* and.1 (${d-An}),(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_post_increment_1, { 0x44008200 } ++ }, ++/* and.1 (${d-An})${d-i4-1}++,(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_post_increment_1, { 0x42008200 } ++ }, ++/* and.1 ${d-i4-1}(${d-An})++,(${s1-An})${s1-i4-1}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_1), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_post_increment_1, { 0x42108200 } ++ }, ++/* and.1 ${d-direct-addr},${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_direct_s1_indirect_with_pre_increment_1, { 0x41008210 } ++ }, ++/* and.1 #${d-imm8},${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_immediate_1_s1_indirect_with_pre_increment_1, { 0x40008210 } ++ }, ++/* and.1 (${d-An},${d-r}),${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_index_1_s1_indirect_with_pre_increment_1, { 0x43008210 } ++ }, ++/* and.1 ${d-imm7-1}(${d-An}),${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_1), '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_offset_1_s1_indirect_with_pre_increment_1, { 0x44008210 } ++ }, ++/* and.1 (${d-An}),${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_1_s1_indirect_with_pre_increment_1, { 0x44008210 } ++ }, ++/* and.1 (${d-An})${d-i4-1}++,${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_1), '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_post_increment_1_s1_indirect_with_pre_increment_1, { 0x42008210 } ++ }, ++/* and.1 ${d-i4-1}(${d-An})++,${s1-i4-1}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_1), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_1), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_1_d_indirect_with_pre_increment_1_s1_indirect_with_pre_increment_1, { 0x42108210 } ++ }, ++/* xor.4 ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x69000100 } ++ }, ++/* xor.4 #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_direct, { 0x68000100 } ++ }, ++/* xor.4 (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_direct, { 0x6b000100 } ++ }, ++/* xor.4 ${d-imm7-4}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_direct, { 0x6c000100 } ++ }, ++/* xor.4 (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_direct, { 0x6c000100 } ++ }, ++/* xor.4 (${d-An})${d-i4-4}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_direct, { 0x6a000100 } ++ }, ++/* xor.4 ${d-i4-4}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_direct, { 0x6a100100 } ++ }, ++/* xor.4 ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x69000000 } ++ }, ++/* xor.4 #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_immediate, { 0x68000000 } ++ }, ++/* xor.4 (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_immediate, { 0x6b000000 } ++ }, ++/* xor.4 ${d-imm7-4}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_immediate, { 0x6c000000 } ++ }, ++/* xor.4 (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_immediate, { 0x6c000000 } ++ }, ++/* xor.4 (${d-An})${d-i4-4}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_immediate, { 0x6a000000 } ++ }, ++/* xor.4 ${d-i4-4}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_immediate, { 0x6a100000 } ++ }, ++/* xor.4 ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_index_4, { 0x69000300 } ++ }, ++/* xor.4 #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_index_4, { 0x68000300 } ++ }, ++/* xor.4 (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_index_4, { 0x6b000300 } ++ }, ++/* xor.4 ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0x6c000300 } ++ }, ++/* xor.4 (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_index_4, { 0x6c000300 } ++ }, ++/* xor.4 (${d-An})${d-i4-4}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0x6a000300 } ++ }, ++/* xor.4 ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0x6a100300 } ++ }, ++/* xor.4 ${d-direct-addr},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_offset_4, { 0x69000400 } ++ }, ++/* xor.4 #${d-imm8},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_offset_4, { 0x68000400 } ++ }, ++/* xor.4 (${d-An},${d-r}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0x6b000400 } ++ }, ++/* xor.4 ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0x6c000400 } ++ }, ++/* xor.4 (${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_offset_4, { 0x6c000400 } ++ }, ++/* xor.4 (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0x6a000400 } ++ }, ++/* xor.4 ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0x6a100400 } ++ }, ++/* xor.4 ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_4, { 0x69000400 } ++ }, ++/* xor.4 #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_4, { 0x68000400 } ++ }, ++/* xor.4 (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_4, { 0x6b000400 } ++ }, ++/* xor.4 ${d-imm7-4}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_4, { 0x6c000400 } ++ }, ++/* xor.4 (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_4, { 0x6c000400 } ++ }, ++/* xor.4 (${d-An})${d-i4-4}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_4, { 0x6a000400 } ++ }, ++/* xor.4 ${d-i4-4}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_4, { 0x6a100400 } ++ }, ++/* xor.4 ${d-direct-addr},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_post_increment_4, { 0x69000200 } ++ }, ++/* xor.4 #${d-imm8},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_post_increment_4, { 0x68000200 } ++ }, ++/* xor.4 (${d-An},${d-r}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0x6b000200 } ++ }, ++/* xor.4 ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0x6c000200 } ++ }, ++/* xor.4 (${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_post_increment_4, { 0x6c000200 } ++ }, ++/* xor.4 (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0x6a000200 } ++ }, ++/* xor.4 ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0x6a100200 } ++ }, ++/* xor.4 ${d-direct-addr},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_pre_increment_4, { 0x69000210 } ++ }, ++/* xor.4 #${d-imm8},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_pre_increment_4, { 0x68000210 } ++ }, ++/* xor.4 (${d-An},${d-r}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0x6b000210 } ++ }, ++/* xor.4 ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0x6c000210 } ++ }, ++/* xor.4 (${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_pre_increment_4, { 0x6c000210 } ++ }, ++/* xor.4 (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0x6a000210 } ++ }, ++/* xor.4 ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0x6a100210 } ++ }, ++/* xor.2 ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x61000100 } ++ }, ++/* xor.2 #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_direct, { 0x60000100 } ++ }, ++/* xor.2 (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_direct, { 0x63000100 } ++ }, ++/* xor.2 ${d-imm7-2}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_direct, { 0x64000100 } ++ }, ++/* xor.2 (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_direct, { 0x64000100 } ++ }, ++/* xor.2 (${d-An})${d-i4-2}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_direct, { 0x62000100 } ++ }, ++/* xor.2 ${d-i4-2}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_direct, { 0x62100100 } ++ }, ++/* xor.2 ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x61000000 } ++ }, ++/* xor.2 #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_immediate, { 0x60000000 } ++ }, ++/* xor.2 (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_immediate, { 0x63000000 } ++ }, ++/* xor.2 ${d-imm7-2}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_immediate, { 0x64000000 } ++ }, ++/* xor.2 (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_immediate, { 0x64000000 } ++ }, ++/* xor.2 (${d-An})${d-i4-2}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_immediate, { 0x62000000 } ++ }, ++/* xor.2 ${d-i4-2}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_immediate, { 0x62100000 } ++ }, ++/* xor.2 ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_index_2, { 0x61000300 } ++ }, ++/* xor.2 #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_index_2, { 0x60000300 } ++ }, ++/* xor.2 (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_index_2, { 0x63000300 } ++ }, ++/* xor.2 ${d-imm7-2}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_index_2, { 0x64000300 } ++ }, ++/* xor.2 (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_index_2, { 0x64000300 } ++ }, ++/* xor.2 (${d-An})${d-i4-2}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_index_2, { 0x62000300 } ++ }, ++/* xor.2 ${d-i4-2}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_index_2, { 0x62100300 } ++ }, ++/* xor.2 ${d-direct-addr},${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_offset_2, { 0x61000400 } ++ }, ++/* xor.2 #${d-imm8},${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_offset_2, { 0x60000400 } ++ }, ++/* xor.2 (${d-An},${d-r}),${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_offset_2, { 0x63000400 } ++ }, ++/* xor.2 ${d-imm7-2}(${d-An}),${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_offset_2, { 0x64000400 } ++ }, ++/* xor.2 (${d-An}),${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_offset_2, { 0x64000400 } ++ }, ++/* xor.2 (${d-An})${d-i4-2}++,${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_offset_2, { 0x62000400 } ++ }, ++/* xor.2 ${d-i4-2}(${d-An})++,${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_offset_2, { 0x62100400 } ++ }, ++/* xor.2 ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_2, { 0x61000400 } ++ }, ++/* xor.2 #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_2, { 0x60000400 } ++ }, ++/* xor.2 (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_2, { 0x63000400 } ++ }, ++/* xor.2 ${d-imm7-2}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_2, { 0x64000400 } ++ }, ++/* xor.2 (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_2, { 0x64000400 } ++ }, ++/* xor.2 (${d-An})${d-i4-2}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_2, { 0x62000400 } ++ }, ++/* xor.2 ${d-i4-2}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_2, { 0x62100400 } ++ }, ++/* xor.2 ${d-direct-addr},(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_post_increment_2, { 0x61000200 } ++ }, ++/* xor.2 #${d-imm8},(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_post_increment_2, { 0x60000200 } ++ }, ++/* xor.2 (${d-An},${d-r}),(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_post_increment_2, { 0x63000200 } ++ }, ++/* xor.2 ${d-imm7-2}(${d-An}),(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_post_increment_2, { 0x64000200 } ++ }, ++/* xor.2 (${d-An}),(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_post_increment_2, { 0x64000200 } ++ }, ++/* xor.2 (${d-An})${d-i4-2}++,(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_2, { 0x62000200 } ++ }, ++/* xor.2 ${d-i4-2}(${d-An})++,(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_2, { 0x62100200 } ++ }, ++/* xor.2 ${d-direct-addr},${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_pre_increment_2, { 0x61000210 } ++ }, ++/* xor.2 #${d-imm8},${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_pre_increment_2, { 0x60000210 } ++ }, ++/* xor.2 (${d-An},${d-r}),${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_pre_increment_2, { 0x63000210 } ++ }, ++/* xor.2 ${d-imm7-2}(${d-An}),${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_pre_increment_2, { 0x64000210 } ++ }, ++/* xor.2 (${d-An}),${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_pre_increment_2, { 0x64000210 } ++ }, ++/* xor.2 (${d-An})${d-i4-2}++,${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_2, { 0x62000210 } ++ }, ++/* xor.2 ${d-i4-2}(${d-An})++,${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_2, { 0x62100210 } ++ }, ++/* or.4 ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x59000100 } ++ }, ++/* or.4 #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_direct, { 0x58000100 } ++ }, ++/* or.4 (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_direct, { 0x5b000100 } ++ }, ++/* or.4 ${d-imm7-4}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_direct, { 0x5c000100 } ++ }, ++/* or.4 (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_direct, { 0x5c000100 } ++ }, ++/* or.4 (${d-An})${d-i4-4}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_direct, { 0x5a000100 } ++ }, ++/* or.4 ${d-i4-4}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_direct, { 0x5a100100 } ++ }, ++/* or.4 ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x59000000 } ++ }, ++/* or.4 #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_immediate, { 0x58000000 } ++ }, ++/* or.4 (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_immediate, { 0x5b000000 } ++ }, ++/* or.4 ${d-imm7-4}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_immediate, { 0x5c000000 } ++ }, ++/* or.4 (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_immediate, { 0x5c000000 } ++ }, ++/* or.4 (${d-An})${d-i4-4}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_immediate, { 0x5a000000 } ++ }, ++/* or.4 ${d-i4-4}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_immediate, { 0x5a100000 } ++ }, ++/* or.4 ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_index_4, { 0x59000300 } ++ }, ++/* or.4 #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_index_4, { 0x58000300 } ++ }, ++/* or.4 (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_index_4, { 0x5b000300 } ++ }, ++/* or.4 ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0x5c000300 } ++ }, ++/* or.4 (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_index_4, { 0x5c000300 } ++ }, ++/* or.4 (${d-An})${d-i4-4}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0x5a000300 } ++ }, ++/* or.4 ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0x5a100300 } ++ }, ++/* or.4 ${d-direct-addr},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_offset_4, { 0x59000400 } ++ }, ++/* or.4 #${d-imm8},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_offset_4, { 0x58000400 } ++ }, ++/* or.4 (${d-An},${d-r}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0x5b000400 } ++ }, ++/* or.4 ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0x5c000400 } ++ }, ++/* or.4 (${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_offset_4, { 0x5c000400 } ++ }, ++/* or.4 (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0x5a000400 } ++ }, ++/* or.4 ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0x5a100400 } ++ }, ++/* or.4 ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_4, { 0x59000400 } ++ }, ++/* or.4 #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_4, { 0x58000400 } ++ }, ++/* or.4 (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_4, { 0x5b000400 } ++ }, ++/* or.4 ${d-imm7-4}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_4, { 0x5c000400 } ++ }, ++/* or.4 (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_4, { 0x5c000400 } ++ }, ++/* or.4 (${d-An})${d-i4-4}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_4, { 0x5a000400 } ++ }, ++/* or.4 ${d-i4-4}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_4, { 0x5a100400 } ++ }, ++/* or.4 ${d-direct-addr},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_post_increment_4, { 0x59000200 } ++ }, ++/* or.4 #${d-imm8},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_post_increment_4, { 0x58000200 } ++ }, ++/* or.4 (${d-An},${d-r}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0x5b000200 } ++ }, ++/* or.4 ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0x5c000200 } ++ }, ++/* or.4 (${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_post_increment_4, { 0x5c000200 } ++ }, ++/* or.4 (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0x5a000200 } ++ }, ++/* or.4 ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0x5a100200 } ++ }, ++/* or.4 ${d-direct-addr},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_pre_increment_4, { 0x59000210 } ++ }, ++/* or.4 #${d-imm8},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_pre_increment_4, { 0x58000210 } ++ }, ++/* or.4 (${d-An},${d-r}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0x5b000210 } ++ }, ++/* or.4 ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0x5c000210 } ++ }, ++/* or.4 (${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_pre_increment_4, { 0x5c000210 } ++ }, ++/* or.4 (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0x5a000210 } ++ }, ++/* or.4 ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0x5a100210 } ++ }, ++/* or.2 ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x51000100 } ++ }, ++/* or.2 #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_direct, { 0x50000100 } ++ }, ++/* or.2 (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_direct, { 0x53000100 } ++ }, ++/* or.2 ${d-imm7-2}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_direct, { 0x54000100 } ++ }, ++/* or.2 (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_direct, { 0x54000100 } ++ }, ++/* or.2 (${d-An})${d-i4-2}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_direct, { 0x52000100 } ++ }, ++/* or.2 ${d-i4-2}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_direct, { 0x52100100 } ++ }, ++/* or.2 ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x51000000 } ++ }, ++/* or.2 #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_immediate, { 0x50000000 } ++ }, ++/* or.2 (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_immediate, { 0x53000000 } ++ }, ++/* or.2 ${d-imm7-2}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_immediate, { 0x54000000 } ++ }, ++/* or.2 (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_immediate, { 0x54000000 } ++ }, ++/* or.2 (${d-An})${d-i4-2}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_immediate, { 0x52000000 } ++ }, ++/* or.2 ${d-i4-2}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_immediate, { 0x52100000 } ++ }, ++/* or.2 ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_index_2, { 0x51000300 } ++ }, ++/* or.2 #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_index_2, { 0x50000300 } ++ }, ++/* or.2 (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_index_2, { 0x53000300 } ++ }, ++/* or.2 ${d-imm7-2}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_index_2, { 0x54000300 } ++ }, ++/* or.2 (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_index_2, { 0x54000300 } ++ }, ++/* or.2 (${d-An})${d-i4-2}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_index_2, { 0x52000300 } ++ }, ++/* or.2 ${d-i4-2}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_index_2, { 0x52100300 } ++ }, ++/* or.2 ${d-direct-addr},${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_offset_2, { 0x51000400 } ++ }, ++/* or.2 #${d-imm8},${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_offset_2, { 0x50000400 } ++ }, ++/* or.2 (${d-An},${d-r}),${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_offset_2, { 0x53000400 } ++ }, ++/* or.2 ${d-imm7-2}(${d-An}),${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_offset_2, { 0x54000400 } ++ }, ++/* or.2 (${d-An}),${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_offset_2, { 0x54000400 } ++ }, ++/* or.2 (${d-An})${d-i4-2}++,${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_offset_2, { 0x52000400 } ++ }, ++/* or.2 ${d-i4-2}(${d-An})++,${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_offset_2, { 0x52100400 } ++ }, ++/* or.2 ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_2, { 0x51000400 } ++ }, ++/* or.2 #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_2, { 0x50000400 } ++ }, ++/* or.2 (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_2, { 0x53000400 } ++ }, ++/* or.2 ${d-imm7-2}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_2, { 0x54000400 } ++ }, ++/* or.2 (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_2, { 0x54000400 } ++ }, ++/* or.2 (${d-An})${d-i4-2}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_2, { 0x52000400 } ++ }, ++/* or.2 ${d-i4-2}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_2, { 0x52100400 } ++ }, ++/* or.2 ${d-direct-addr},(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_post_increment_2, { 0x51000200 } ++ }, ++/* or.2 #${d-imm8},(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_post_increment_2, { 0x50000200 } ++ }, ++/* or.2 (${d-An},${d-r}),(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_post_increment_2, { 0x53000200 } ++ }, ++/* or.2 ${d-imm7-2}(${d-An}),(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_post_increment_2, { 0x54000200 } ++ }, ++/* or.2 (${d-An}),(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_post_increment_2, { 0x54000200 } ++ }, ++/* or.2 (${d-An})${d-i4-2}++,(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_2, { 0x52000200 } ++ }, ++/* or.2 ${d-i4-2}(${d-An})++,(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_2, { 0x52100200 } ++ }, ++/* or.2 ${d-direct-addr},${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_pre_increment_2, { 0x51000210 } ++ }, ++/* or.2 #${d-imm8},${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_pre_increment_2, { 0x50000210 } ++ }, ++/* or.2 (${d-An},${d-r}),${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_pre_increment_2, { 0x53000210 } ++ }, ++/* or.2 ${d-imm7-2}(${d-An}),${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_pre_increment_2, { 0x54000210 } ++ }, ++/* or.2 (${d-An}),${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_pre_increment_2, { 0x54000210 } ++ }, ++/* or.2 (${d-An})${d-i4-2}++,${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_2, { 0x52000210 } ++ }, ++/* or.2 ${d-i4-2}(${d-An})++,${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_2, { 0x52100210 } ++ }, ++/* and.4 ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x49000100 } ++ }, ++/* and.4 #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_direct, { 0x48000100 } ++ }, ++/* and.4 (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_direct, { 0x4b000100 } ++ }, ++/* and.4 ${d-imm7-4}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_direct, { 0x4c000100 } ++ }, ++/* and.4 (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_direct, { 0x4c000100 } ++ }, ++/* and.4 (${d-An})${d-i4-4}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_direct, { 0x4a000100 } ++ }, ++/* and.4 ${d-i4-4}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_direct, { 0x4a100100 } ++ }, ++/* and.4 ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x49000000 } ++ }, ++/* and.4 #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_immediate, { 0x48000000 } ++ }, ++/* and.4 (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_immediate, { 0x4b000000 } ++ }, ++/* and.4 ${d-imm7-4}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_immediate, { 0x4c000000 } ++ }, ++/* and.4 (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_immediate, { 0x4c000000 } ++ }, ++/* and.4 (${d-An})${d-i4-4}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_immediate, { 0x4a000000 } ++ }, ++/* and.4 ${d-i4-4}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_immediate, { 0x4a100000 } ++ }, ++/* and.4 ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_index_4, { 0x49000300 } ++ }, ++/* and.4 #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_index_4, { 0x48000300 } ++ }, ++/* and.4 (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_index_4, { 0x4b000300 } ++ }, ++/* and.4 ${d-imm7-4}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_index_4, { 0x4c000300 } ++ }, ++/* and.4 (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_index_4, { 0x4c000300 } ++ }, ++/* and.4 (${d-An})${d-i4-4}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_index_4, { 0x4a000300 } ++ }, ++/* and.4 ${d-i4-4}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_index_4, { 0x4a100300 } ++ }, ++/* and.4 ${d-direct-addr},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_offset_4, { 0x49000400 } ++ }, ++/* and.4 #${d-imm8},${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_offset_4, { 0x48000400 } ++ }, ++/* and.4 (${d-An},${d-r}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_offset_4, { 0x4b000400 } ++ }, ++/* and.4 ${d-imm7-4}(${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_offset_4, { 0x4c000400 } ++ }, ++/* and.4 (${d-An}),${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_offset_4, { 0x4c000400 } ++ }, ++/* and.4 (${d-An})${d-i4-4}++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_offset_4, { 0x4a000400 } ++ }, ++/* and.4 ${d-i4-4}(${d-An})++,${s1-imm7-4}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_4), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_offset_4, { 0x4a100400 } ++ }, ++/* and.4 ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_4, { 0x49000400 } ++ }, ++/* and.4 #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_4, { 0x48000400 } ++ }, ++/* and.4 (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_4, { 0x4b000400 } ++ }, ++/* and.4 ${d-imm7-4}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_4, { 0x4c000400 } ++ }, ++/* and.4 (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_4, { 0x4c000400 } ++ }, ++/* and.4 (${d-An})${d-i4-4}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_4, { 0x4a000400 } ++ }, ++/* and.4 ${d-i4-4}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_4, { 0x4a100400 } ++ }, ++/* and.4 ${d-direct-addr},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_post_increment_4, { 0x49000200 } ++ }, ++/* and.4 #${d-imm8},(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_post_increment_4, { 0x48000200 } ++ }, ++/* and.4 (${d-An},${d-r}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_post_increment_4, { 0x4b000200 } ++ }, ++/* and.4 ${d-imm7-4}(${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_post_increment_4, { 0x4c000200 } ++ }, ++/* and.4 (${d-An}),(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_post_increment_4, { 0x4c000200 } ++ }, ++/* and.4 (${d-An})${d-i4-4}++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_post_increment_4, { 0x4a000200 } ++ }, ++/* and.4 ${d-i4-4}(${d-An})++,(${s1-An})${s1-i4-4}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_4), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_post_increment_4, { 0x4a100200 } ++ }, ++/* and.4 ${d-direct-addr},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_indirect_with_pre_increment_4, { 0x49000210 } ++ }, ++/* and.4 #${d-imm8},${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_immediate_4_s1_indirect_with_pre_increment_4, { 0x48000210 } ++ }, ++/* and.4 (${d-An},${d-r}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_index_4_s1_indirect_with_pre_increment_4, { 0x4b000210 } ++ }, ++/* and.4 ${d-imm7-4}(${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_4), '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_offset_4_s1_indirect_with_pre_increment_4, { 0x4c000210 } ++ }, ++/* and.4 (${d-An}),${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_4_s1_indirect_with_pre_increment_4, { 0x4c000210 } ++ }, ++/* and.4 (${d-An})${d-i4-4}++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_4), '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_post_increment_4_s1_indirect_with_pre_increment_4, { 0x4a000210 } ++ }, ++/* and.4 ${d-i4-4}(${d-An})++,${s1-i4-4}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_4), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_4), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_pxvi_s_d_indirect_with_pre_increment_4_s1_indirect_with_pre_increment_4, { 0x4a100210 } ++ }, ++/* and.2 ${d-direct-addr},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_direct, { 0x41000100 } ++ }, ++/* and.2 #${d-imm8},${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_direct, { 0x40000100 } ++ }, ++/* and.2 (${d-An},${d-r}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_direct, { 0x43000100 } ++ }, ++/* and.2 ${d-imm7-2}(${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_direct, { 0x44000100 } ++ }, ++/* and.2 (${d-An}),${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_direct, { 0x44000100 } ++ }, ++/* and.2 (${d-An})${d-i4-2}++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_direct, { 0x42000100 } ++ }, ++/* and.2 ${d-i4-2}(${d-An})++,${s1-direct-addr},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_DIRECT_ADDR), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_direct, { 0x42100100 } ++ }, ++/* and.2 ${d-direct-addr},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_direct_s1_immediate, { 0x41000000 } ++ }, ++/* and.2 #${d-imm8},#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_immediate_2_s1_immediate, { 0x40000000 } ++ }, ++/* and.2 (${d-An},${d-r}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_index_2_s1_immediate, { 0x43000000 } ++ }, ++/* and.2 ${d-imm7-2}(${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_offset_2_s1_immediate, { 0x44000000 } ++ }, ++/* and.2 (${d-An}),#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_2_s1_immediate, { 0x44000000 } ++ }, ++/* and.2 (${d-An})${d-i4-2}++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_post_increment_2_s1_immediate, { 0x42000000 } ++ }, ++/* and.2 ${d-i4-2}(${d-An})++,#${s1-imm8},${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '#', OP (S1_IMM8), ',', OP (S2), 0 } }, ++ & ifmt_pxadds_u_d_indirect_with_pre_increment_2_s1_immediate, { 0x42100000 } ++ }, ++/* and.2 ${d-direct-addr},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_index_2, { 0x41000300 } ++ }, ++/* and.2 #${d-imm8},(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_index_2, { 0x40000300 } ++ }, ++/* and.2 (${d-An},${d-r}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_index_2, { 0x43000300 } ++ }, ++/* and.2 ${d-imm7-2}(${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_index_2, { 0x44000300 } ++ }, ++/* and.2 (${d-An}),(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_index_2, { 0x44000300 } ++ }, ++/* and.2 (${d-An})${d-i4-2}++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_index_2, { 0x42000300 } ++ }, ++/* and.2 ${d-i4-2}(${d-An})++,(${s1-An},${s1-r}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ',', OP (S1_R), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_index_2, { 0x42100300 } ++ }, ++/* and.2 ${d-direct-addr},${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_offset_2, { 0x41000400 } ++ }, ++/* and.2 #${d-imm8},${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_offset_2, { 0x40000400 } ++ }, ++/* and.2 (${d-An},${d-r}),${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_offset_2, { 0x43000400 } ++ }, ++/* and.2 ${d-imm7-2}(${d-An}),${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_offset_2, { 0x44000400 } ++ }, ++/* and.2 (${d-An}),${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_offset_2, { 0x44000400 } ++ }, ++/* and.2 (${d-An})${d-i4-2}++,${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_offset_2, { 0x42000400 } ++ }, ++/* and.2 ${d-i4-2}(${d-An})++,${s1-imm7-2}(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_IMM7_2), '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_offset_2, { 0x42100400 } ++ }, ++/* and.2 ${d-direct-addr},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_2, { 0x41000400 } ++ }, ++/* and.2 #${d-imm8},(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_2, { 0x40000400 } ++ }, ++/* and.2 (${d-An},${d-r}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_2, { 0x43000400 } ++ }, ++/* and.2 ${d-imm7-2}(${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_2, { 0x44000400 } ++ }, ++/* and.2 (${d-An}),(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_2, { 0x44000400 } ++ }, ++/* and.2 (${d-An})${d-i4-2}++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_2, { 0x42000400 } ++ }, ++/* and.2 ${d-i4-2}(${d-An})++,(${s1-An}),${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_2, { 0x42100400 } ++ }, ++/* and.2 ${d-direct-addr},(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_post_increment_2, { 0x41000200 } ++ }, ++/* and.2 #${d-imm8},(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_post_increment_2, { 0x40000200 } ++ }, ++/* and.2 (${d-An},${d-r}),(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_post_increment_2, { 0x43000200 } ++ }, ++/* and.2 ${d-imm7-2}(${d-An}),(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_post_increment_2, { 0x44000200 } ++ }, ++/* and.2 (${d-An}),(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_post_increment_2, { 0x44000200 } ++ }, ++/* and.2 (${d-An})${d-i4-2}++,(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_post_increment_2, { 0x42000200 } ++ }, ++/* and.2 ${d-i4-2}(${d-An})++,(${s1-An})${s1-i4-2}++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', '(', OP (S1_AN), ')', OP (S1_I4_2), '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_post_increment_2, { 0x42100200 } ++ }, ++/* and.2 ${d-direct-addr},${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_DIRECT_ADDR), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_direct_s1_indirect_with_pre_increment_2, { 0x41000210 } ++ }, ++/* and.2 #${d-imm8},${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '#', OP (D_IMM8), ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_immediate_2_s1_indirect_with_pre_increment_2, { 0x40000210 } ++ }, ++/* and.2 (${d-An},${d-r}),${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ',', OP (D_R), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_index_2_s1_indirect_with_pre_increment_2, { 0x43000210 } ++ }, ++/* and.2 ${d-imm7-2}(${d-An}),${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_IMM7_2), '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_offset_2_s1_indirect_with_pre_increment_2, { 0x44000210 } ++ }, ++/* and.2 (${d-An}),${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_2_s1_indirect_with_pre_increment_2, { 0x44000210 } ++ }, ++/* and.2 (${d-An})${d-i4-2}++,${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', '(', OP (D_AN), ')', OP (D_I4_2), '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_post_increment_2_s1_indirect_with_pre_increment_2, { 0x42000210 } ++ }, ++/* and.2 ${d-i4-2}(${d-An})++,${s1-i4-2}(${s1-An})++,${s2} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (D_I4_2), '(', OP (D_AN), ')', '+', '+', ',', OP (S1_I4_2), '(', OP (S1_AN), ')', '+', '+', ',', OP (S2), 0 } }, ++ & ifmt_sub_2_d_indirect_with_pre_increment_2_s1_indirect_with_pre_increment_2, { 0x42100210 } ++ }, ++/* moveai ${An},#${imm24} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (AN), ',', '#', OP (IMM24), 0 } }, ++ & ifmt_moveai, { 0xe0000000 } ++ }, ++/* __nop__ */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_nop_insn, { 0xc8000000 } ++ }, ++/* jmp${cc}${C}${P} $offset21 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, OP (CC), OP (C), OP (P), ' ', OP (OFFSET21), 0 } }, ++ & ifmt_jmpcc, { 0xd0000000 } ++ }, ++/* call $An,$offset24 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (AN), ',', OP (OFFSET24), 0 } }, ++ & ifmt_call, { 0xd8000000 } ++ }, ++/* calli ${An},${offset16}(${Am}) */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (AN), ',', OP (OFFSET16), '(', OP (AM), ')', 0 } }, ++ & ifmt_calli, { 0xf0000000 } ++ }, ++/* suspend */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_suspend, { 0x800 } ++ }, ++/* __clracc__ ${dsp-destA} */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, ' ', OP (DSP_DESTA), 0 } }, ++ & ifmt_dsp_clracc, { 0x36400100 } ++ }, ++/* __unused__00_11 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_00_11, { 0x8800 } ++ }, ++/* __unused__00_13 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_00_11, { 0x9800 } ++ }, ++/* __unused__00_14 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_00_11, { 0xa000 } ++ }, ++/* __unused__00_16 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_00_11, { 0xb000 } ++ }, ++/* __unused__02_04 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_02_04, { 0x10800000 } ++ }, ++/* __unused__02_07 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_02_04, { 0x10e00000 } ++ }, ++/* __unused__02_0D */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_02_04, { 0x11a00000 } ++ }, ++/* __unused__02_0E */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_02_04, { 0x11c00000 } ++ }, ++/* __unused__02_0F */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_02_04, { 0x11e00000 } ++ }, ++/* __unused__02_17 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_02_04, { 0x12e00000 } ++ }, ++/* __unused__02_19 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_02_04, { 0x13200000 } ++ }, ++/* __unused__02_1B */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_02_04, { 0x13600000 } ++ }, ++/* __unused__02_1D */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_02_04, { 0x13a00000 } ++ }, ++/* __unused__01 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_01, { 0x8000000 } ++ }, ++/* __unused__03 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_01, { 0x18000000 } ++ }, ++/* __unused__07 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_01, { 0x38000000 } ++ }, ++/* __unused__17 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_01, { 0xb8000000 } ++ }, ++/* __unused__1D */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_01, { 0xe8000000 } ++ }, ++/* __unused__1F */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_01, { 0xf8000000 } ++ }, ++/* __unused__DSP_06 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x30c00000 } ++ }, ++/* __unused__DSP_0b */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x31600000 } ++ }, ++/* __unused__DSP_0c */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x31800000 } ++ }, ++/* __unused__DSP_0d */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x31a00000 } ++ }, ++/* __unused__DSP_0e */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x31c00000 } ++ }, ++/* __unused__DSP_0f */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x31e00000 } ++ }, ++/* __unused__DSP_14 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x32800000 } ++ }, ++/* __unused__DSP_15 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x32a00000 } ++ }, ++/* __unused__DSP_16 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x32c00000 } ++ }, ++/* __unused__DSP_17 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x32e00000 } ++ }, ++/* __unused__DSP_18 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x33000000 } ++ }, ++/* __unused__DSP_19 */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x33200000 } ++ }, ++/* __unused__DSP_1a */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x33400000 } ++ }, ++/* __unused__DSP_1b */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x33600000 } ++ }, ++/* __unused__DSP_1c */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x33800000 } ++ }, ++/* __unused__DSP_1d */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x33a00000 } ++ }, ++/* __unused__DSP_1e */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x33c00000 } ++ }, ++/* __unused__DSP_1f */ ++ { ++ { 0, 0, 0, 0 }, ++ { { MNEM, 0 } }, ++ & ifmt_unused_DSP_06, { 0x33e00000 } ++ }, ++}; ++ ++#undef A ++#undef OPERAND ++#undef MNEM ++#undef OP ++ ++/* Formats for ALIAS macro-insns. */ ++ ++#if defined (__STDC__) || defined (ALMOST_STDC) || defined (HAVE_STRINGIZE) ++#define F(f) & ubicom32_cgen_ifld_table[UBICOM32_##f] ++#else ++#define F(f) & ubicom32_cgen_ifld_table[UBICOM32_/**/f] ++#endif ++static const CGEN_IFMT ifmt_nop ATTRIBUTE_UNUSED = { ++ 32, 32, 0xffffffff, { { F (F_OP1) }, { F (F_D) }, { F (F_IMM16_2) }, { 0 } } ++}; ++ ++static const CGEN_IFMT ifmt_dsp_clracc_macro ATTRIBUTE_UNUSED = { ++ 32, 32, 0xfffeffff, { { F (F_OP1) }, { F (F_OPEXT) }, { F (F_DSP_DESTA) }, { F (F_S1) }, { F (F_DSP_S2_SEL) }, { F (F_BIT5) }, { F (F_DSP_T) }, { F (F_DSP_C) }, { F (F_BIT26) }, { F (F_DSP_R) }, { 0 } } ++}; ++ ++#undef F ++ ++/* Each non-simple macro entry points to an array of expansion possibilities. */ ++ ++#if defined (__STDC__) || defined (ALMOST_STDC) || defined (HAVE_STRINGIZE) ++#define A(a) (1 << CGEN_INSN_##a) ++#else ++#define A(a) (1 << CGEN_INSN_/**/a) ++#endif ++#if defined (__STDC__) || defined (ALMOST_STDC) || defined (HAVE_STRINGIZE) ++#define OPERAND(op) UBICOM32_OPERAND_##op ++#else ++#define OPERAND(op) UBICOM32_OPERAND_/**/op ++#endif ++#define MNEM CGEN_SYNTAX_MNEMONIC /* syntax value for mnemonic */ ++#define OP(field) CGEN_SYNTAX_MAKE_FIELD (OPERAND (field)) ++ ++/* The macro instruction table. */ ++ ++static const CGEN_IBASE ubicom32_cgen_macro_insn_table[] = ++{ ++/* nop */ ++ { ++ -1, "nop", "nop", 32, ++ { 0|A(ALIAS), { { { (1<macro_insn_table.init_entries = insns; ++ cd->macro_insn_table.entry_size = sizeof (CGEN_IBASE); ++ cd->macro_insn_table.num_init_entries = num_macros; ++ ++ oc = & ubicom32_cgen_insn_opcode_table[0]; ++ insns = (CGEN_INSN *) cd->insn_table.init_entries; ++ for (i = 0; i < MAX_INSNS; ++i) ++ { ++ insns[i].opcode = &oc[i]; ++ ubicom32_cgen_build_insn_regex (& insns[i]); ++ } ++ ++ cd->sizeof_fields = sizeof (CGEN_FIELDS); ++ cd->set_fields_bitsize = set_fields_bitsize; ++ ++ cd->asm_hash_p = asm_hash_insn_p; ++ cd->asm_hash = asm_hash_insn; ++ cd->asm_hash_size = CGEN_ASM_HASH_SIZE; ++ ++ cd->dis_hash_p = dis_hash_insn_p; ++ cd->dis_hash = dis_hash_insn; ++ cd->dis_hash_size = CGEN_DIS_HASH_SIZE; ++} +--- /dev/null ++++ b/opcodes/ubicom32-opc.h +@@ -0,0 +1,868 @@ ++/* Instruction opcode header for ubicom32. ++ ++THIS FILE IS MACHINE GENERATED WITH CGEN. ++ ++Copyright 1996-2007 Free Software Foundation, Inc. ++ ++This file is part of the GNU Binutils and/or GDB, the GNU debugger. ++ ++ This file is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 3, or (at your option) ++ any later version. ++ ++ It is distributed in the hope that it will be useful, but WITHOUT ++ ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ++ or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public ++ License for more details. ++ ++ You should have received a copy of the GNU General Public License along ++ with this program; if not, write to the Free Software Foundation, Inc., ++ 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. ++ ++*/ ++ ++#ifndef UBICOM32_OPC_H ++#define UBICOM32_OPC_H ++ ++/* -- opc.h */ ++ ++/* Check applicability of instructions against machines. */ ++#define CGEN_VALIDATE_INSN_SUPPORTED ++extern int ubicom32_cgen_insn_supported ++ PARAMS ((CGEN_CPU_DESC, const CGEN_INSN *)); ++ ++/* Allows reason codes to be output when assembler errors occur. */ ++#define CGEN_VERBOSE_ASSEMBLER_ERRORS ++ ++/* Override disassembly hashing */ ++ ++#define CGEN_DIS_HASH_SIZE 32 ++#define CGEN_DIS_HASH(buf,value) ubicom32_dis_hash(buf,value) ++ ++#define CGEN_ASM_HASH_SIZE 509 ++#define CGEN_ASM_HASH(insn) ubicom32_asm_hash(insn) ++ ++extern unsigned int ubicom32_dis_hash (const char *buf, CGEN_INSN_INT value); ++extern unsigned int ubicom32_asm_hash (const char *insn); ++ ++/* Structure used to map between directly addressable registers and ++ their human-readable names. Used by both the assembler and the ++ disassembler. ++*/ ++struct ubicom32_cgen_data_space_map { ++ long address; ++ char *name; ++ int type; ++}; ++ ++extern struct ubicom32_cgen_data_space_map ubicom32_cgen_data_space_map_mars[]; ++extern struct ubicom32_cgen_data_space_map ubicom32_cgen_data_space_map_mercury[]; ++ ++#define A0_ADDRESS 0x80 ++#define A1_ADDRESS (A0_ADDRESS + 4) ++#define A2_ADDRESS (A0_ADDRESS + 8) ++#define A3_ADDRESS (A0_ADDRESS + 12) ++#define A4_ADDRESS (A0_ADDRESS + 16) ++#define A5_ADDRESS (A0_ADDRESS + 20) ++#define A6_ADDRESS (A0_ADDRESS + 24) ++#define A7_ADDRESS (A0_ADDRESS + 28) ++ ++/* XXX */ ++typedef unsigned char UQI; ++ ++ ++/* -- opc.c */ ++/* Enum declaration for ubicom32 instruction types. */ ++typedef enum cgen_insn_type { ++ UBICOM32_INSN_INVALID, UBICOM32_INSN_DSP_MSUB_2_S1_DIRECT_DSP_SRC2_DATA_REG_ADDSUB2, UBICOM32_INSN_DSP_MSUB_2_S1_IMMEDIATE_DSP_SRC2_DATA_REG_ADDSUB2, UBICOM32_INSN_DSP_MSUB_2_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_DATA_REG_ADDSUB2 ++ , UBICOM32_INSN_DSP_MSUB_2_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_DATA_REG_ADDSUB2, UBICOM32_INSN_DSP_MSUB_2_S1_INDIRECT_2_DSP_SRC2_DATA_REG_ADDSUB2, UBICOM32_INSN_DSP_MSUB_2_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_DATA_REG_ADDSUB2, UBICOM32_INSN_DSP_MSUB_2_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_DATA_REG_ADDSUB2 ++ , UBICOM32_INSN_DSP_MSUB_2_S1_DIRECT_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_2_S1_IMMEDIATE_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_2_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_2_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_REG_ACC_REG_ADDSUB ++ , UBICOM32_INSN_DSP_MSUB_2_S1_INDIRECT_2_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_2_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_2_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_2_S1_DIRECT_DSP_IMM_BIT5_ADDSUB2 ++ , UBICOM32_INSN_DSP_MSUB_2_S1_IMMEDIATE_DSP_IMM_BIT5_ADDSUB2, UBICOM32_INSN_DSP_MSUB_2_S1_INDIRECT_WITH_INDEX_2_DSP_IMM_BIT5_ADDSUB2, UBICOM32_INSN_DSP_MSUB_2_S1_INDIRECT_WITH_OFFSET_2_DSP_IMM_BIT5_ADDSUB2, UBICOM32_INSN_DSP_MSUB_2_S1_INDIRECT_2_DSP_IMM_BIT5_ADDSUB2 ++ , UBICOM32_INSN_DSP_MSUB_2_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_IMM_BIT5_ADDSUB2, UBICOM32_INSN_DSP_MSUB_2_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_IMM_BIT5_ADDSUB2, UBICOM32_INSN_DSP_MSUB_4_S1_DIRECT_DSP_SRC2_DATA_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_4_S1_IMMEDIATE_DSP_SRC2_DATA_REG_ADDSUB ++ , UBICOM32_INSN_DSP_MSUB_4_S1_INDIRECT_WITH_INDEX_4_DSP_SRC2_DATA_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_4_S1_INDIRECT_WITH_OFFSET_4_DSP_SRC2_DATA_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_4_S1_INDIRECT_4_DSP_SRC2_DATA_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_4_S1_INDIRECT_WITH_POST_INCREMENT_4_DSP_SRC2_DATA_REG_ADDSUB ++ , UBICOM32_INSN_DSP_MSUB_4_S1_INDIRECT_WITH_PRE_INCREMENT_4_DSP_SRC2_DATA_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_4_S1_DIRECT_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_4_S1_IMMEDIATE_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_4_S1_INDIRECT_WITH_INDEX_4_DSP_SRC2_REG_ACC_REG_ADDSUB ++ , UBICOM32_INSN_DSP_MSUB_4_S1_INDIRECT_WITH_OFFSET_4_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_4_S1_INDIRECT_4_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_4_S1_INDIRECT_WITH_POST_INCREMENT_4_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MSUB_4_S1_INDIRECT_WITH_PRE_INCREMENT_4_DSP_SRC2_REG_ACC_REG_ADDSUB ++ , UBICOM32_INSN_DSP_MSUB_4_S1_DIRECT_DSP_IMM_BIT5_ADDSUB, UBICOM32_INSN_DSP_MSUB_4_S1_IMMEDIATE_DSP_IMM_BIT5_ADDSUB, UBICOM32_INSN_DSP_MSUB_4_S1_INDIRECT_WITH_INDEX_4_DSP_IMM_BIT5_ADDSUB, UBICOM32_INSN_DSP_MSUB_4_S1_INDIRECT_WITH_OFFSET_4_DSP_IMM_BIT5_ADDSUB ++ , UBICOM32_INSN_DSP_MSUB_4_S1_INDIRECT_4_DSP_IMM_BIT5_ADDSUB, UBICOM32_INSN_DSP_MSUB_4_S1_INDIRECT_WITH_POST_INCREMENT_4_DSP_IMM_BIT5_ADDSUB, UBICOM32_INSN_DSP_MSUB_4_S1_INDIRECT_WITH_PRE_INCREMENT_4_DSP_IMM_BIT5_ADDSUB, UBICOM32_INSN_DSP_MADD_2_S1_DIRECT_DSP_SRC2_DATA_REG_ADDSUB2 ++ , UBICOM32_INSN_DSP_MADD_2_S1_IMMEDIATE_DSP_SRC2_DATA_REG_ADDSUB2, UBICOM32_INSN_DSP_MADD_2_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_DATA_REG_ADDSUB2, UBICOM32_INSN_DSP_MADD_2_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_DATA_REG_ADDSUB2, UBICOM32_INSN_DSP_MADD_2_S1_INDIRECT_2_DSP_SRC2_DATA_REG_ADDSUB2 ++ , UBICOM32_INSN_DSP_MADD_2_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_DATA_REG_ADDSUB2, UBICOM32_INSN_DSP_MADD_2_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_DATA_REG_ADDSUB2, UBICOM32_INSN_DSP_MADD_2_S1_DIRECT_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_2_S1_IMMEDIATE_DSP_SRC2_REG_ACC_REG_ADDSUB ++ , UBICOM32_INSN_DSP_MADD_2_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_2_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_2_S1_INDIRECT_2_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_2_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_REG_ACC_REG_ADDSUB ++ , UBICOM32_INSN_DSP_MADD_2_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_2_S1_DIRECT_DSP_IMM_BIT5_ADDSUB2, UBICOM32_INSN_DSP_MADD_2_S1_IMMEDIATE_DSP_IMM_BIT5_ADDSUB2, UBICOM32_INSN_DSP_MADD_2_S1_INDIRECT_WITH_INDEX_2_DSP_IMM_BIT5_ADDSUB2 ++ , UBICOM32_INSN_DSP_MADD_2_S1_INDIRECT_WITH_OFFSET_2_DSP_IMM_BIT5_ADDSUB2, UBICOM32_INSN_DSP_MADD_2_S1_INDIRECT_2_DSP_IMM_BIT5_ADDSUB2, UBICOM32_INSN_DSP_MADD_2_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_IMM_BIT5_ADDSUB2, UBICOM32_INSN_DSP_MADD_2_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_IMM_BIT5_ADDSUB2 ++ , UBICOM32_INSN_DSP_MADD_4_S1_DIRECT_DSP_SRC2_DATA_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_4_S1_IMMEDIATE_DSP_SRC2_DATA_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_4_S1_INDIRECT_WITH_INDEX_4_DSP_SRC2_DATA_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_4_S1_INDIRECT_WITH_OFFSET_4_DSP_SRC2_DATA_REG_ADDSUB ++ , UBICOM32_INSN_DSP_MADD_4_S1_INDIRECT_4_DSP_SRC2_DATA_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_4_S1_INDIRECT_WITH_POST_INCREMENT_4_DSP_SRC2_DATA_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_4_S1_INDIRECT_WITH_PRE_INCREMENT_4_DSP_SRC2_DATA_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_4_S1_DIRECT_DSP_SRC2_REG_ACC_REG_ADDSUB ++ , UBICOM32_INSN_DSP_MADD_4_S1_IMMEDIATE_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_4_S1_INDIRECT_WITH_INDEX_4_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_4_S1_INDIRECT_WITH_OFFSET_4_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_4_S1_INDIRECT_4_DSP_SRC2_REG_ACC_REG_ADDSUB ++ , UBICOM32_INSN_DSP_MADD_4_S1_INDIRECT_WITH_POST_INCREMENT_4_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_4_S1_INDIRECT_WITH_PRE_INCREMENT_4_DSP_SRC2_REG_ACC_REG_ADDSUB, UBICOM32_INSN_DSP_MADD_4_S1_DIRECT_DSP_IMM_BIT5_ADDSUB, UBICOM32_INSN_DSP_MADD_4_S1_IMMEDIATE_DSP_IMM_BIT5_ADDSUB ++ , UBICOM32_INSN_DSP_MADD_4_S1_INDIRECT_WITH_INDEX_4_DSP_IMM_BIT5_ADDSUB, UBICOM32_INSN_DSP_MADD_4_S1_INDIRECT_WITH_OFFSET_4_DSP_IMM_BIT5_ADDSUB, UBICOM32_INSN_DSP_MADD_4_S1_INDIRECT_4_DSP_IMM_BIT5_ADDSUB, UBICOM32_INSN_DSP_MADD_4_S1_INDIRECT_WITH_POST_INCREMENT_4_DSP_IMM_BIT5_ADDSUB ++ , UBICOM32_INSN_DSP_MADD_4_S1_INDIRECT_WITH_PRE_INCREMENT_4_DSP_IMM_BIT5_ADDSUB, UBICOM32_INSN_DSP_MSUF_S1_DIRECT_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MSUF_S1_IMMEDIATE_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MSUF_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MSUF_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MSUF_S1_INDIRECT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MSUF_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MSUF_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MSUF_S1_DIRECT_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MSUF_S1_IMMEDIATE_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MSUF_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MSUF_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MSUF_S1_INDIRECT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MSUF_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MSUF_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MSUF_S1_DIRECT_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MSUF_S1_IMMEDIATE_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MSUF_S1_INDIRECT_WITH_INDEX_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MSUF_S1_INDIRECT_WITH_OFFSET_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MSUF_S1_INDIRECT_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MSUF_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MSUF_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACUS_S1_DIRECT_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACUS_S1_IMMEDIATE_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MACUS_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACUS_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACUS_S1_INDIRECT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACUS_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MACUS_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACUS_S1_DIRECT_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACUS_S1_IMMEDIATE_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACUS_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MACUS_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACUS_S1_INDIRECT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACUS_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACUS_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MACUS_S1_DIRECT_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACUS_S1_IMMEDIATE_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACUS_S1_INDIRECT_WITH_INDEX_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACUS_S1_INDIRECT_WITH_OFFSET_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MACUS_S1_INDIRECT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACUS_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACUS_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACF_S1_DIRECT_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MACF_S1_IMMEDIATE_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACF_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACF_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACF_S1_INDIRECT_2_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MACF_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACF_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACF_S1_DIRECT_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACF_S1_IMMEDIATE_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MACF_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACF_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACF_S1_INDIRECT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACF_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MACF_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACF_S1_DIRECT_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACF_S1_IMMEDIATE_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACF_S1_INDIRECT_WITH_INDEX_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MACF_S1_INDIRECT_WITH_OFFSET_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACF_S1_INDIRECT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACF_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACF_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MULF_S1_DIRECT_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULF_S1_IMMEDIATE_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULF_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULF_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MULF_S1_INDIRECT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULF_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULF_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULF_S1_DIRECT_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MULF_S1_IMMEDIATE_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULF_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULF_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULF_S1_INDIRECT_2_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MULF_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULF_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULF_S1_DIRECT_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULF_S1_IMMEDIATE_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MULF_S1_INDIRECT_WITH_INDEX_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULF_S1_INDIRECT_WITH_OFFSET_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULF_S1_INDIRECT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULF_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MULF_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACU_S1_DIRECT_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACU_S1_IMMEDIATE_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACU_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MACU_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACU_S1_INDIRECT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACU_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACU_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MACU_S1_DIRECT_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACU_S1_IMMEDIATE_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACU_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACU_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MACU_S1_INDIRECT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACU_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACU_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACU_S1_DIRECT_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MACU_S1_IMMEDIATE_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACU_S1_INDIRECT_WITH_INDEX_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACU_S1_INDIRECT_WITH_OFFSET_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACU_S1_INDIRECT_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MACU_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACU_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULU_4_S1_DIRECT_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULU_4_S1_IMMEDIATE_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MULU_4_S1_INDIRECT_WITH_INDEX_4_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULU_4_S1_INDIRECT_WITH_OFFSET_4_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULU_4_S1_INDIRECT_4_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULU_4_S1_INDIRECT_WITH_POST_INCREMENT_4_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MULU_4_S1_INDIRECT_WITH_PRE_INCREMENT_4_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULU_4_S1_DIRECT_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULU_4_S1_IMMEDIATE_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULU_4_S1_INDIRECT_WITH_INDEX_4_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MULU_4_S1_INDIRECT_WITH_OFFSET_4_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULU_4_S1_INDIRECT_4_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULU_4_S1_INDIRECT_WITH_POST_INCREMENT_4_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULU_4_S1_INDIRECT_WITH_PRE_INCREMENT_4_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MULU_4_S1_DIRECT_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULU_4_S1_IMMEDIATE_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULU_4_S1_INDIRECT_WITH_INDEX_4_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULU_4_S1_INDIRECT_WITH_OFFSET_4_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MULU_4_S1_INDIRECT_4_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULU_4_S1_INDIRECT_WITH_POST_INCREMENT_4_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULU_4_S1_INDIRECT_WITH_PRE_INCREMENT_4_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULU_S1_DIRECT_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MULU_S1_IMMEDIATE_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULU_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULU_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULU_S1_INDIRECT_2_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MULU_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULU_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULU_S1_DIRECT_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULU_S1_IMMEDIATE_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MULU_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULU_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULU_S1_INDIRECT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULU_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MULU_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULU_S1_DIRECT_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULU_S1_IMMEDIATE_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULU_S1_INDIRECT_WITH_INDEX_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MULU_S1_INDIRECT_WITH_OFFSET_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULU_S1_INDIRECT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULU_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULU_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MACS_S1_DIRECT_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACS_S1_IMMEDIATE_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACS_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACS_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MACS_S1_INDIRECT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACS_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACS_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MACS_S1_DIRECT_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MACS_S1_IMMEDIATE_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACS_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACS_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACS_S1_INDIRECT_2_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MACS_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACS_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MACS_S1_DIRECT_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACS_S1_IMMEDIATE_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MACS_S1_INDIRECT_WITH_INDEX_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACS_S1_INDIRECT_WITH_OFFSET_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACS_S1_INDIRECT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MACS_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MACS_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULS_4_S1_DIRECT_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULS_4_S1_IMMEDIATE_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULS_4_S1_INDIRECT_WITH_INDEX_4_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MULS_4_S1_INDIRECT_WITH_OFFSET_4_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULS_4_S1_INDIRECT_4_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULS_4_S1_INDIRECT_WITH_POST_INCREMENT_4_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULS_4_S1_INDIRECT_WITH_PRE_INCREMENT_4_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MULS_4_S1_DIRECT_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULS_4_S1_IMMEDIATE_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULS_4_S1_INDIRECT_WITH_INDEX_4_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULS_4_S1_INDIRECT_WITH_OFFSET_4_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MULS_4_S1_INDIRECT_4_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULS_4_S1_INDIRECT_WITH_POST_INCREMENT_4_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULS_4_S1_INDIRECT_WITH_PRE_INCREMENT_4_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULS_4_S1_DIRECT_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MULS_4_S1_IMMEDIATE_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULS_4_S1_INDIRECT_WITH_INDEX_4_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULS_4_S1_INDIRECT_WITH_OFFSET_4_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULS_4_S1_INDIRECT_4_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MULS_4_S1_INDIRECT_WITH_POST_INCREMENT_4_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULS_4_S1_INDIRECT_WITH_PRE_INCREMENT_4_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULS_S1_DIRECT_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULS_S1_IMMEDIATE_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MULS_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULS_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULS_S1_INDIRECT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULS_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_DSP_MULS_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_DSP_MULS_S1_DIRECT_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULS_S1_IMMEDIATE_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULS_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MULS_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULS_S1_INDIRECT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULS_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL, UBICOM32_INSN_DSP_MULS_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_REG_ACC_REG_MUL ++ , UBICOM32_INSN_DSP_MULS_S1_DIRECT_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULS_S1_IMMEDIATE_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULS_S1_INDIRECT_WITH_INDEX_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULS_S1_INDIRECT_WITH_OFFSET_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_DSP_MULS_S1_INDIRECT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULS_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_DSP_MULS_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_IERASE_D_PEA_INDIRECT_WITH_INDEX ++ , UBICOM32_INSN_IERASE_D_PEA_INDIRECT_WITH_OFFSET, UBICOM32_INSN_IERASE_D_PEA_INDIRECT, UBICOM32_INSN_IERASE_D_PEA_INDIRECT_WITH_POST_INCREMENT, UBICOM32_INSN_IERASE_D_PEA_INDIRECT_WITH_PRE_INCREMENT ++ , UBICOM32_INSN_IREAD_S1_EA_INDIRECT, UBICOM32_INSN_IREAD_S1_EA_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_IREAD_S1_EA_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_IREAD_S1_EA_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_IREAD_S1_EA_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_INDEX_S1_DIRECT, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_OFFSET_S1_DIRECT, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_S1_DIRECT ++ , UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_POST_INCREMENT_S1_DIRECT, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_PRE_INCREMENT_S1_DIRECT, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_INDEX_S1_IMMEDIATE, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_OFFSET_S1_IMMEDIATE ++ , UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_S1_IMMEDIATE, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_POST_INCREMENT_S1_IMMEDIATE, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_PRE_INCREMENT_S1_IMMEDIATE, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_INDEX_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_OFFSET_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_POST_INCREMENT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_PRE_INCREMENT_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_INDEX_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_OFFSET_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_POST_INCREMENT_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_PRE_INCREMENT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_INDEX_S1_INDIRECT_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_OFFSET_S1_INDIRECT_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_S1_INDIRECT_4 ++ , UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_POST_INCREMENT_S1_INDIRECT_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_PRE_INCREMENT_S1_INDIRECT_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_INDEX_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_OFFSET_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_POST_INCREMENT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_PRE_INCREMENT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_INDEX_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_OFFSET_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_POST_INCREMENT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_IWRITE_D_PEA_INDIRECT_WITH_PRE_INCREMENT_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_SETCSR_S1_DIRECT, UBICOM32_INSN_SETCSR_S1_IMMEDIATE, UBICOM32_INSN_SETCSR_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SETCSR_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_SETCSR_S1_INDIRECT_4, UBICOM32_INSN_SETCSR_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SETCSR_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_BKPT_S1_DIRECT ++ , UBICOM32_INSN_BKPT_S1_IMMEDIATE, UBICOM32_INSN_BKPT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_BKPT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_BKPT_S1_INDIRECT_4 ++ , UBICOM32_INSN_BKPT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_BKPT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_RET_S1_DIRECT, UBICOM32_INSN_RET_S1_IMMEDIATE ++ , UBICOM32_INSN_RET_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_RET_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_RET_S1_INDIRECT_4, UBICOM32_INSN_RET_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_RET_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_MOVEA_D_DIRECT_S1_DIRECT, UBICOM32_INSN_MOVEA_D_IMMEDIATE_4_S1_DIRECT, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_INDEX_4_S1_DIRECT ++ , UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT, UBICOM32_INSN_MOVEA_D_INDIRECT_4_S1_DIRECT, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT ++ , UBICOM32_INSN_MOVEA_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_MOVEA_D_IMMEDIATE_4_S1_IMMEDIATE, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE ++ , UBICOM32_INSN_MOVEA_D_INDIRECT_4_S1_IMMEDIATE, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_MOVEA_D_DIRECT_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_MOVEA_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_MOVEA_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_MOVEA_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_MOVEA_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_MOVEA_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_MOVEA_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_MOVEA_D_IMMEDIATE_4_S1_INDIRECT_4, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4, UBICOM32_INSN_MOVEA_D_INDIRECT_4_S1_INDIRECT_4, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_MOVEA_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_MOVEA_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_MOVEA_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_MOVEA_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_MOVEA_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_MOVEA_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_MOVEA_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_MOVE_4_D_DIRECT_S1_DIRECT, UBICOM32_INSN_MOVE_4_D_IMMEDIATE_4_S1_DIRECT ++ , UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_INDEX_4_S1_DIRECT, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT, UBICOM32_INSN_MOVE_4_D_INDIRECT_4_S1_DIRECT, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT ++ , UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_MOVE_4_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_MOVE_4_D_IMMEDIATE_4_S1_IMMEDIATE, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE ++ , UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE, UBICOM32_INSN_MOVE_4_D_INDIRECT_4_S1_IMMEDIATE, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE ++ , UBICOM32_INSN_MOVE_4_D_DIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_MOVE_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_MOVE_4_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_MOVE_4_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_MOVE_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_MOVE_4_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_MOVE_4_D_IMMEDIATE_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_4_S1_INDIRECT_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_MOVE_4_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_MOVE_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_MOVE_4_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_MOVE_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_MOVE_4_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_MOVE_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_COMPATIBILITY_IREAD_S1_EA_INDIRECT ++ , UBICOM32_INSN_COMPATIBILITY_IREAD_S1_EA_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_COMPATIBILITY_IREAD_S1_EA_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_COMPATIBILITY_IREAD_S1_EA_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_COMPATIBILITY_IREAD_S1_EA_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_INDEX_S1_DIRECT, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_OFFSET_S1_DIRECT, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_S1_DIRECT, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_POST_INCREMENT_S1_DIRECT ++ , UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_PRE_INCREMENT_S1_DIRECT, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_INDEX_S1_IMMEDIATE, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_OFFSET_S1_IMMEDIATE, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_S1_IMMEDIATE ++ , UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_POST_INCREMENT_S1_IMMEDIATE, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_PRE_INCREMENT_S1_IMMEDIATE, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_INDEX_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_OFFSET_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_POST_INCREMENT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_PRE_INCREMENT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_INDEX_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_OFFSET_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_POST_INCREMENT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_PRE_INCREMENT_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_INDEX_S1_INDIRECT_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_OFFSET_S1_INDIRECT_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_S1_INDIRECT_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_POST_INCREMENT_S1_INDIRECT_4 ++ , UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_PRE_INCREMENT_S1_INDIRECT_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_INDEX_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_OFFSET_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_POST_INCREMENT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_PRE_INCREMENT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_INDEX_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_OFFSET_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_POST_INCREMENT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_COMPATIBILITY_IWRITE_D_PEA_INDIRECT_WITH_PRE_INCREMENT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_MOVE_2_D_DIRECT_S1_DIRECT ++ , UBICOM32_INSN_MOVE_2_D_IMMEDIATE_2_S1_DIRECT, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_INDEX_2_S1_DIRECT, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_OFFSET_2_S1_DIRECT, UBICOM32_INSN_MOVE_2_D_INDIRECT_2_S1_DIRECT ++ , UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_MOVE_2_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_MOVE_2_D_IMMEDIATE_2_S1_IMMEDIATE ++ , UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_INDEX_2_S1_IMMEDIATE, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_OFFSET_2_S1_IMMEDIATE, UBICOM32_INSN_MOVE_2_D_INDIRECT_2_S1_IMMEDIATE, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_IMMEDIATE ++ , UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_MOVE_2_D_DIRECT_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_MOVE_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_MOVE_2_D_DIRECT_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_MOVE_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_MOVE_2_D_INDIRECT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_MOVE_2_D_DIRECT_S1_INDIRECT_2 ++ , UBICOM32_INSN_MOVE_2_D_IMMEDIATE_2_S1_INDIRECT_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_2_S1_INDIRECT_2 ++ , UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_2, UBICOM32_INSN_MOVE_2_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_MOVE_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_MOVE_2_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_MOVE_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_MOVE_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_MOVE_1_D_DIRECT_S1_DIRECT, UBICOM32_INSN_MOVE_1_D_IMMEDIATE_1_S1_DIRECT, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_INDEX_1_S1_DIRECT, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_OFFSET_1_S1_DIRECT ++ , UBICOM32_INSN_MOVE_1_D_INDIRECT_1_S1_DIRECT, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_DIRECT, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_DIRECT, UBICOM32_INSN_MOVE_1_D_DIRECT_S1_IMMEDIATE ++ , UBICOM32_INSN_MOVE_1_D_IMMEDIATE_1_S1_IMMEDIATE, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_INDEX_1_S1_IMMEDIATE, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_OFFSET_1_S1_IMMEDIATE, UBICOM32_INSN_MOVE_1_D_INDIRECT_1_S1_IMMEDIATE ++ , UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_IMMEDIATE, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_IMMEDIATE, UBICOM32_INSN_MOVE_1_D_DIRECT_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_MOVE_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_INDEX_1 ++ , UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_INDEX_1 ++ , UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_MOVE_1_D_DIRECT_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_MOVE_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_MOVE_1_D_DIRECT_S1_INDIRECT_1, UBICOM32_INSN_MOVE_1_D_IMMEDIATE_1_S1_INDIRECT_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_1 ++ , UBICOM32_INSN_MOVE_1_D_INDIRECT_1_S1_INDIRECT_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_1, UBICOM32_INSN_MOVE_1_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_MOVE_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_1_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_MOVE_1_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_MOVE_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_INSN_MOVE_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_EXT_2_D_DIRECT_S1_DIRECT, UBICOM32_INSN_EXT_2_D_IMMEDIATE_2_S1_DIRECT, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_INDEX_2_S1_DIRECT ++ , UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_OFFSET_2_S1_DIRECT, UBICOM32_INSN_EXT_2_D_INDIRECT_2_S1_DIRECT, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_DIRECT ++ , UBICOM32_INSN_EXT_2_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_EXT_2_D_IMMEDIATE_2_S1_IMMEDIATE, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_INDEX_2_S1_IMMEDIATE, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_OFFSET_2_S1_IMMEDIATE ++ , UBICOM32_INSN_EXT_2_D_INDIRECT_2_S1_IMMEDIATE, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_EXT_2_D_DIRECT_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_EXT_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_EXT_2_D_INDIRECT_2_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_EXT_2_D_DIRECT_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_EXT_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_EXT_2_D_INDIRECT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_EXT_2_D_DIRECT_S1_INDIRECT_2, UBICOM32_INSN_EXT_2_D_IMMEDIATE_2_S1_INDIRECT_2, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_2 ++ , UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_2, UBICOM32_INSN_EXT_2_D_INDIRECT_2_S1_INDIRECT_2, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_2, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_2 ++ , UBICOM32_INSN_EXT_2_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_EXT_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_EXT_2_D_INDIRECT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_EXT_2_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_EXT_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_EXT_2_D_INDIRECT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_EXT_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_EXT_1_D_DIRECT_S1_DIRECT, UBICOM32_INSN_EXT_1_D_IMMEDIATE_1_S1_DIRECT ++ , UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_INDEX_1_S1_DIRECT, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_OFFSET_1_S1_DIRECT, UBICOM32_INSN_EXT_1_D_INDIRECT_1_S1_DIRECT, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_DIRECT ++ , UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_DIRECT, UBICOM32_INSN_EXT_1_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_EXT_1_D_IMMEDIATE_1_S1_IMMEDIATE, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_INDEX_1_S1_IMMEDIATE ++ , UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_OFFSET_1_S1_IMMEDIATE, UBICOM32_INSN_EXT_1_D_INDIRECT_1_S1_IMMEDIATE, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_IMMEDIATE, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_IMMEDIATE ++ , UBICOM32_INSN_EXT_1_D_DIRECT_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_EXT_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_INDEX_1 ++ , UBICOM32_INSN_EXT_1_D_INDIRECT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_EXT_1_D_DIRECT_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_EXT_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_EXT_1_D_INDIRECT_1_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_EXT_1_D_DIRECT_S1_INDIRECT_1, UBICOM32_INSN_EXT_1_D_IMMEDIATE_1_S1_INDIRECT_1 ++ , UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_1, UBICOM32_INSN_EXT_1_D_INDIRECT_1_S1_INDIRECT_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_1 ++ , UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_1, UBICOM32_INSN_EXT_1_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_EXT_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_EXT_1_D_INDIRECT_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_EXT_1_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_EXT_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_INSN_EXT_1_D_INDIRECT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_EXT_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_MOVEI_D_DIRECT ++ , UBICOM32_INSN_MOVEI_D_IMMEDIATE_2, UBICOM32_INSN_MOVEI_D_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_MOVEI_D_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_MOVEI_D_INDIRECT_2 ++ , UBICOM32_INSN_MOVEI_D_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_MOVEI_D_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_BCLR_D_DIRECT_S1_DIRECT, UBICOM32_INSN_BCLR_D_IMMEDIATE_4_S1_DIRECT ++ , UBICOM32_INSN_BCLR_D_INDIRECT_WITH_INDEX_4_S1_DIRECT, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT, UBICOM32_INSN_BCLR_D_INDIRECT_4_S1_DIRECT, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT ++ , UBICOM32_INSN_BCLR_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_BCLR_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_BCLR_D_IMMEDIATE_4_S1_IMMEDIATE, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE ++ , UBICOM32_INSN_BCLR_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE, UBICOM32_INSN_BCLR_D_INDIRECT_4_S1_IMMEDIATE, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE ++ , UBICOM32_INSN_BCLR_D_DIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_BCLR_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_BCLR_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_BCLR_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_BCLR_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_BCLR_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_BCLR_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_BCLR_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_BCLR_D_IMMEDIATE_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_BCLR_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4, UBICOM32_INSN_BCLR_D_INDIRECT_4_S1_INDIRECT_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_BCLR_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_BCLR_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_BCLR_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_BCLR_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_BCLR_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_BCLR_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_BCLR_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_BCLR_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_BCLR_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_BSET_D_DIRECT_S1_DIRECT ++ , UBICOM32_INSN_BSET_D_IMMEDIATE_4_S1_DIRECT, UBICOM32_INSN_BSET_D_INDIRECT_WITH_INDEX_4_S1_DIRECT, UBICOM32_INSN_BSET_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT, UBICOM32_INSN_BSET_D_INDIRECT_4_S1_DIRECT ++ , UBICOM32_INSN_BSET_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_BSET_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_BSET_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_BSET_D_IMMEDIATE_4_S1_IMMEDIATE ++ , UBICOM32_INSN_BSET_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE, UBICOM32_INSN_BSET_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE, UBICOM32_INSN_BSET_D_INDIRECT_4_S1_IMMEDIATE, UBICOM32_INSN_BSET_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE ++ , UBICOM32_INSN_BSET_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_BSET_D_DIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_BSET_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_BSET_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_BSET_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_BSET_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_BSET_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_BSET_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_BSET_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_BSET_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_BSET_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_BSET_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_BSET_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_BSET_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_BSET_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_BSET_D_DIRECT_S1_INDIRECT_4 ++ , UBICOM32_INSN_BSET_D_IMMEDIATE_4_S1_INDIRECT_4, UBICOM32_INSN_BSET_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4, UBICOM32_INSN_BSET_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4, UBICOM32_INSN_BSET_D_INDIRECT_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_BSET_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_BSET_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_BSET_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_BSET_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_BSET_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_BSET_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_BSET_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_BSET_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_BSET_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_BSET_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_BSET_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_BSET_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_BSET_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_BSET_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_BSET_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_BSET_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_BTST_S1_DIRECT_IMM_BIT5, UBICOM32_INSN_BTST_S1_IMMEDIATE_IMM_BIT5, UBICOM32_INSN_BTST_S1_INDIRECT_WITH_INDEX_4_IMM_BIT5, UBICOM32_INSN_BTST_S1_INDIRECT_WITH_OFFSET_4_IMM_BIT5 ++ , UBICOM32_INSN_BTST_S1_INDIRECT_4_IMM_BIT5, UBICOM32_INSN_BTST_S1_INDIRECT_WITH_POST_INCREMENT_4_IMM_BIT5, UBICOM32_INSN_BTST_S1_INDIRECT_WITH_PRE_INCREMENT_4_IMM_BIT5, UBICOM32_INSN_BTST_S1_DIRECT_DYN_REG ++ , UBICOM32_INSN_BTST_S1_IMMEDIATE_DYN_REG, UBICOM32_INSN_BTST_S1_INDIRECT_WITH_INDEX_4_DYN_REG, UBICOM32_INSN_BTST_S1_INDIRECT_WITH_OFFSET_4_DYN_REG, UBICOM32_INSN_BTST_S1_INDIRECT_4_DYN_REG ++ , UBICOM32_INSN_BTST_S1_INDIRECT_WITH_POST_INCREMENT_4_DYN_REG, UBICOM32_INSN_BTST_S1_INDIRECT_WITH_PRE_INCREMENT_4_DYN_REG, UBICOM32_INSN_SHMRG_2_IMM_BIT5_S1_DIRECT, UBICOM32_INSN_SHMRG_2_DYN_REG_S1_DIRECT ++ , UBICOM32_INSN_SHMRG_2_IMM_BIT5_S1_IMMEDIATE, UBICOM32_INSN_SHMRG_2_DYN_REG_S1_IMMEDIATE, UBICOM32_INSN_SHMRG_2_IMM_BIT5_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_SHMRG_2_DYN_REG_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_SHMRG_2_IMM_BIT5_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_SHMRG_2_DYN_REG_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_SHMRG_2_IMM_BIT5_S1_INDIRECT_2, UBICOM32_INSN_SHMRG_2_DYN_REG_S1_INDIRECT_2 ++ , UBICOM32_INSN_SHMRG_2_IMM_BIT5_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_SHMRG_2_DYN_REG_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_SHMRG_2_IMM_BIT5_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_SHMRG_2_DYN_REG_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_SHMRG_1_IMM_BIT5_S1_DIRECT, UBICOM32_INSN_SHMRG_1_DYN_REG_S1_DIRECT, UBICOM32_INSN_SHMRG_1_IMM_BIT5_S1_IMMEDIATE, UBICOM32_INSN_SHMRG_1_DYN_REG_S1_IMMEDIATE ++ , UBICOM32_INSN_SHMRG_1_IMM_BIT5_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_SHMRG_1_DYN_REG_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_SHMRG_1_IMM_BIT5_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_SHMRG_1_DYN_REG_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_SHMRG_1_IMM_BIT5_S1_INDIRECT_1, UBICOM32_INSN_SHMRG_1_DYN_REG_S1_INDIRECT_1, UBICOM32_INSN_SHMRG_1_IMM_BIT5_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_SHMRG_1_DYN_REG_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_SHMRG_1_IMM_BIT5_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_SHMRG_1_DYN_REG_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_CRCGEN_S1_DIRECT_IMM_BIT5, UBICOM32_INSN_CRCGEN_S1_IMMEDIATE_IMM_BIT5 ++ , UBICOM32_INSN_CRCGEN_S1_INDIRECT_WITH_INDEX_1_IMM_BIT5, UBICOM32_INSN_CRCGEN_S1_INDIRECT_WITH_OFFSET_1_IMM_BIT5, UBICOM32_INSN_CRCGEN_S1_INDIRECT_1_IMM_BIT5, UBICOM32_INSN_CRCGEN_S1_INDIRECT_WITH_POST_INCREMENT_1_IMM_BIT5 ++ , UBICOM32_INSN_CRCGEN_S1_INDIRECT_WITH_PRE_INCREMENT_1_IMM_BIT5, UBICOM32_INSN_CRCGEN_S1_DIRECT_DYN_REG, UBICOM32_INSN_CRCGEN_S1_IMMEDIATE_DYN_REG, UBICOM32_INSN_CRCGEN_S1_INDIRECT_WITH_INDEX_1_DYN_REG ++ , UBICOM32_INSN_CRCGEN_S1_INDIRECT_WITH_OFFSET_1_DYN_REG, UBICOM32_INSN_CRCGEN_S1_INDIRECT_1_DYN_REG, UBICOM32_INSN_CRCGEN_S1_INDIRECT_WITH_POST_INCREMENT_1_DYN_REG, UBICOM32_INSN_CRCGEN_S1_INDIRECT_WITH_PRE_INCREMENT_1_DYN_REG ++ , UBICOM32_INSN_BFEXTU_S1_DIRECT_IMM_BIT5, UBICOM32_INSN_BFEXTU_S1_IMMEDIATE_IMM_BIT5, UBICOM32_INSN_BFEXTU_S1_INDIRECT_WITH_INDEX_4_IMM_BIT5, UBICOM32_INSN_BFEXTU_S1_INDIRECT_WITH_OFFSET_4_IMM_BIT5 ++ , UBICOM32_INSN_BFEXTU_S1_INDIRECT_4_IMM_BIT5, UBICOM32_INSN_BFEXTU_S1_INDIRECT_WITH_POST_INCREMENT_4_IMM_BIT5, UBICOM32_INSN_BFEXTU_S1_INDIRECT_WITH_PRE_INCREMENT_4_IMM_BIT5, UBICOM32_INSN_BFEXTU_S1_DIRECT_DYN_REG ++ , UBICOM32_INSN_BFEXTU_S1_IMMEDIATE_DYN_REG, UBICOM32_INSN_BFEXTU_S1_INDIRECT_WITH_INDEX_4_DYN_REG, UBICOM32_INSN_BFEXTU_S1_INDIRECT_WITH_OFFSET_4_DYN_REG, UBICOM32_INSN_BFEXTU_S1_INDIRECT_4_DYN_REG ++ , UBICOM32_INSN_BFEXTU_S1_INDIRECT_WITH_POST_INCREMENT_4_DYN_REG, UBICOM32_INSN_BFEXTU_S1_INDIRECT_WITH_PRE_INCREMENT_4_DYN_REG, UBICOM32_INSN_BFRVRS_S1_DIRECT_IMM_BIT5, UBICOM32_INSN_BFRVRS_S1_IMMEDIATE_IMM_BIT5 ++ , UBICOM32_INSN_BFRVRS_S1_INDIRECT_WITH_INDEX_4_IMM_BIT5, UBICOM32_INSN_BFRVRS_S1_INDIRECT_WITH_OFFSET_4_IMM_BIT5, UBICOM32_INSN_BFRVRS_S1_INDIRECT_4_IMM_BIT5, UBICOM32_INSN_BFRVRS_S1_INDIRECT_WITH_POST_INCREMENT_4_IMM_BIT5 ++ , UBICOM32_INSN_BFRVRS_S1_INDIRECT_WITH_PRE_INCREMENT_4_IMM_BIT5, UBICOM32_INSN_BFRVRS_S1_DIRECT_DYN_REG, UBICOM32_INSN_BFRVRS_S1_IMMEDIATE_DYN_REG, UBICOM32_INSN_BFRVRS_S1_INDIRECT_WITH_INDEX_4_DYN_REG ++ , UBICOM32_INSN_BFRVRS_S1_INDIRECT_WITH_OFFSET_4_DYN_REG, UBICOM32_INSN_BFRVRS_S1_INDIRECT_4_DYN_REG, UBICOM32_INSN_BFRVRS_S1_INDIRECT_WITH_POST_INCREMENT_4_DYN_REG, UBICOM32_INSN_BFRVRS_S1_INDIRECT_WITH_PRE_INCREMENT_4_DYN_REG ++ , UBICOM32_INSN_MERGE_S1_DIRECT_IMM_BIT5, UBICOM32_INSN_MERGE_S1_IMMEDIATE_IMM_BIT5, UBICOM32_INSN_MERGE_S1_INDIRECT_WITH_INDEX_4_IMM_BIT5, UBICOM32_INSN_MERGE_S1_INDIRECT_WITH_OFFSET_4_IMM_BIT5 ++ , UBICOM32_INSN_MERGE_S1_INDIRECT_4_IMM_BIT5, UBICOM32_INSN_MERGE_S1_INDIRECT_WITH_POST_INCREMENT_4_IMM_BIT5, UBICOM32_INSN_MERGE_S1_INDIRECT_WITH_PRE_INCREMENT_4_IMM_BIT5, UBICOM32_INSN_MERGE_S1_DIRECT_DYN_REG ++ , UBICOM32_INSN_MERGE_S1_IMMEDIATE_DYN_REG, UBICOM32_INSN_MERGE_S1_INDIRECT_WITH_INDEX_4_DYN_REG, UBICOM32_INSN_MERGE_S1_INDIRECT_WITH_OFFSET_4_DYN_REG, UBICOM32_INSN_MERGE_S1_INDIRECT_4_DYN_REG ++ , UBICOM32_INSN_MERGE_S1_INDIRECT_WITH_POST_INCREMENT_4_DYN_REG, UBICOM32_INSN_MERGE_S1_INDIRECT_WITH_PRE_INCREMENT_4_DYN_REG, UBICOM32_INSN_SHFTD_S1_DIRECT_IMM_BIT5, UBICOM32_INSN_SHFTD_S1_IMMEDIATE_IMM_BIT5 ++ , UBICOM32_INSN_SHFTD_S1_INDIRECT_WITH_INDEX_4_IMM_BIT5, UBICOM32_INSN_SHFTD_S1_INDIRECT_WITH_OFFSET_4_IMM_BIT5, UBICOM32_INSN_SHFTD_S1_INDIRECT_4_IMM_BIT5, UBICOM32_INSN_SHFTD_S1_INDIRECT_WITH_POST_INCREMENT_4_IMM_BIT5 ++ , UBICOM32_INSN_SHFTD_S1_INDIRECT_WITH_PRE_INCREMENT_4_IMM_BIT5, UBICOM32_INSN_SHFTD_S1_DIRECT_DYN_REG, UBICOM32_INSN_SHFTD_S1_IMMEDIATE_DYN_REG, UBICOM32_INSN_SHFTD_S1_INDIRECT_WITH_INDEX_4_DYN_REG ++ , UBICOM32_INSN_SHFTD_S1_INDIRECT_WITH_OFFSET_4_DYN_REG, UBICOM32_INSN_SHFTD_S1_INDIRECT_4_DYN_REG, UBICOM32_INSN_SHFTD_S1_INDIRECT_WITH_POST_INCREMENT_4_DYN_REG, UBICOM32_INSN_SHFTD_S1_INDIRECT_WITH_PRE_INCREMENT_4_DYN_REG ++ , UBICOM32_INSN_ASR_1_IMM_BIT5_S1_DIRECT, UBICOM32_INSN_ASR_1_DYN_REG_S1_DIRECT, UBICOM32_INSN_ASR_1_IMM_BIT5_S1_IMMEDIATE, UBICOM32_INSN_ASR_1_DYN_REG_S1_IMMEDIATE ++ , UBICOM32_INSN_ASR_1_IMM_BIT5_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_ASR_1_DYN_REG_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_ASR_1_IMM_BIT5_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_ASR_1_DYN_REG_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_ASR_1_IMM_BIT5_S1_INDIRECT_1, UBICOM32_INSN_ASR_1_DYN_REG_S1_INDIRECT_1, UBICOM32_INSN_ASR_1_IMM_BIT5_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_ASR_1_DYN_REG_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_ASR_1_IMM_BIT5_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_ASR_1_DYN_REG_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_LSL_1_IMM_BIT5_S1_DIRECT, UBICOM32_INSN_LSL_1_DYN_REG_S1_DIRECT ++ , UBICOM32_INSN_LSL_1_IMM_BIT5_S1_IMMEDIATE, UBICOM32_INSN_LSL_1_DYN_REG_S1_IMMEDIATE, UBICOM32_INSN_LSL_1_IMM_BIT5_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_LSL_1_DYN_REG_S1_INDIRECT_WITH_INDEX_1 ++ , UBICOM32_INSN_LSL_1_IMM_BIT5_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_LSL_1_DYN_REG_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_LSL_1_IMM_BIT5_S1_INDIRECT_1, UBICOM32_INSN_LSL_1_DYN_REG_S1_INDIRECT_1 ++ , UBICOM32_INSN_LSL_1_IMM_BIT5_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_LSL_1_DYN_REG_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_LSL_1_IMM_BIT5_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_LSL_1_DYN_REG_S1_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_INSN_LSR_1_IMM_BIT5_S1_DIRECT, UBICOM32_INSN_LSR_1_DYN_REG_S1_DIRECT, UBICOM32_INSN_LSR_1_IMM_BIT5_S1_IMMEDIATE, UBICOM32_INSN_LSR_1_DYN_REG_S1_IMMEDIATE ++ , UBICOM32_INSN_LSR_1_IMM_BIT5_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_LSR_1_DYN_REG_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_LSR_1_IMM_BIT5_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_LSR_1_DYN_REG_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_LSR_1_IMM_BIT5_S1_INDIRECT_1, UBICOM32_INSN_LSR_1_DYN_REG_S1_INDIRECT_1, UBICOM32_INSN_LSR_1_IMM_BIT5_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_LSR_1_DYN_REG_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_LSR_1_IMM_BIT5_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_LSR_1_DYN_REG_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_ASR_2_IMM_BIT5_S1_DIRECT, UBICOM32_INSN_ASR_2_DYN_REG_S1_DIRECT ++ , UBICOM32_INSN_ASR_2_IMM_BIT5_S1_IMMEDIATE, UBICOM32_INSN_ASR_2_DYN_REG_S1_IMMEDIATE, UBICOM32_INSN_ASR_2_IMM_BIT5_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_ASR_2_DYN_REG_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_ASR_2_IMM_BIT5_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_ASR_2_DYN_REG_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_ASR_2_IMM_BIT5_S1_INDIRECT_2, UBICOM32_INSN_ASR_2_DYN_REG_S1_INDIRECT_2 ++ , UBICOM32_INSN_ASR_2_IMM_BIT5_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_ASR_2_DYN_REG_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_ASR_2_IMM_BIT5_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_ASR_2_DYN_REG_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_LSL_2_IMM_BIT5_S1_DIRECT, UBICOM32_INSN_LSL_2_DYN_REG_S1_DIRECT, UBICOM32_INSN_LSL_2_IMM_BIT5_S1_IMMEDIATE, UBICOM32_INSN_LSL_2_DYN_REG_S1_IMMEDIATE ++ , UBICOM32_INSN_LSL_2_IMM_BIT5_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_LSL_2_DYN_REG_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_LSL_2_IMM_BIT5_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_LSL_2_DYN_REG_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_LSL_2_IMM_BIT5_S1_INDIRECT_2, UBICOM32_INSN_LSL_2_DYN_REG_S1_INDIRECT_2, UBICOM32_INSN_LSL_2_IMM_BIT5_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_LSL_2_DYN_REG_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_LSL_2_IMM_BIT5_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_LSL_2_DYN_REG_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_LSR_2_IMM_BIT5_S1_DIRECT, UBICOM32_INSN_LSR_2_DYN_REG_S1_DIRECT ++ , UBICOM32_INSN_LSR_2_IMM_BIT5_S1_IMMEDIATE, UBICOM32_INSN_LSR_2_DYN_REG_S1_IMMEDIATE, UBICOM32_INSN_LSR_2_IMM_BIT5_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_LSR_2_DYN_REG_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_LSR_2_IMM_BIT5_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_LSR_2_DYN_REG_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_LSR_2_IMM_BIT5_S1_INDIRECT_2, UBICOM32_INSN_LSR_2_DYN_REG_S1_INDIRECT_2 ++ , UBICOM32_INSN_LSR_2_IMM_BIT5_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_LSR_2_DYN_REG_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_LSR_2_IMM_BIT5_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_LSR_2_DYN_REG_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_ASR_4_IMM_BIT5_S1_DIRECT, UBICOM32_INSN_ASR_4_DYN_REG_S1_DIRECT, UBICOM32_INSN_ASR_4_IMM_BIT5_S1_IMMEDIATE, UBICOM32_INSN_ASR_4_DYN_REG_S1_IMMEDIATE ++ , UBICOM32_INSN_ASR_4_IMM_BIT5_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_ASR_4_DYN_REG_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_ASR_4_IMM_BIT5_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_ASR_4_DYN_REG_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_ASR_4_IMM_BIT5_S1_INDIRECT_4, UBICOM32_INSN_ASR_4_DYN_REG_S1_INDIRECT_4, UBICOM32_INSN_ASR_4_IMM_BIT5_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_ASR_4_DYN_REG_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_ASR_4_IMM_BIT5_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_ASR_4_DYN_REG_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_LSL_4_IMM_BIT5_S1_DIRECT, UBICOM32_INSN_LSL_4_DYN_REG_S1_DIRECT ++ , UBICOM32_INSN_LSL_4_IMM_BIT5_S1_IMMEDIATE, UBICOM32_INSN_LSL_4_DYN_REG_S1_IMMEDIATE, UBICOM32_INSN_LSL_4_IMM_BIT5_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_LSL_4_DYN_REG_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_LSL_4_IMM_BIT5_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_LSL_4_DYN_REG_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_LSL_4_IMM_BIT5_S1_INDIRECT_4, UBICOM32_INSN_LSL_4_DYN_REG_S1_INDIRECT_4 ++ , UBICOM32_INSN_LSL_4_IMM_BIT5_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_LSL_4_DYN_REG_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_LSL_4_IMM_BIT5_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_LSL_4_DYN_REG_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_LSR_4_IMM_BIT5_S1_DIRECT, UBICOM32_INSN_LSR_4_DYN_REG_S1_DIRECT, UBICOM32_INSN_LSR_4_IMM_BIT5_S1_IMMEDIATE, UBICOM32_INSN_LSR_4_DYN_REG_S1_IMMEDIATE ++ , UBICOM32_INSN_LSR_4_IMM_BIT5_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_LSR_4_DYN_REG_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_LSR_4_IMM_BIT5_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_LSR_4_DYN_REG_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_LSR_4_IMM_BIT5_S1_INDIRECT_4, UBICOM32_INSN_LSR_4_DYN_REG_S1_INDIRECT_4, UBICOM32_INSN_LSR_4_IMM_BIT5_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_LSR_4_DYN_REG_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_LSR_4_IMM_BIT5_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_LSR_4_DYN_REG_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_COMPATIBILITY_MAC_S1_DIRECT_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MAC_S1_IMMEDIATE_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_COMPATIBILITY_MAC_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MAC_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MAC_S1_INDIRECT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MAC_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_COMPATIBILITY_MAC_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MAC_S1_DIRECT_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MAC_S1_IMMEDIATE_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MAC_S1_INDIRECT_WITH_INDEX_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_COMPATIBILITY_MAC_S1_INDIRECT_WITH_OFFSET_2_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MAC_S1_INDIRECT_2_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MAC_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MAC_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_MAC_S1_DIRECT_IMM_BIT5, UBICOM32_INSN_MAC_S1_IMMEDIATE_IMM_BIT5, UBICOM32_INSN_MAC_S1_INDIRECT_WITH_INDEX_2_IMM_BIT5, UBICOM32_INSN_MAC_S1_INDIRECT_WITH_OFFSET_2_IMM_BIT5 ++ , UBICOM32_INSN_MAC_S1_INDIRECT_2_IMM_BIT5, UBICOM32_INSN_MAC_S1_INDIRECT_WITH_POST_INCREMENT_2_IMM_BIT5, UBICOM32_INSN_MAC_S1_INDIRECT_WITH_PRE_INCREMENT_2_IMM_BIT5, UBICOM32_INSN_MAC_S1_DIRECT_DYN_REG ++ , UBICOM32_INSN_MAC_S1_IMMEDIATE_DYN_REG, UBICOM32_INSN_MAC_S1_INDIRECT_WITH_INDEX_2_DYN_REG, UBICOM32_INSN_MAC_S1_INDIRECT_WITH_OFFSET_2_DYN_REG, UBICOM32_INSN_MAC_S1_INDIRECT_2_DYN_REG ++ , UBICOM32_INSN_MAC_S1_INDIRECT_WITH_POST_INCREMENT_2_DYN_REG, UBICOM32_INSN_MAC_S1_INDIRECT_WITH_PRE_INCREMENT_2_DYN_REG, UBICOM32_INSN_COMPATIBILITY_MULF_S1_DIRECT_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MULF_S1_IMMEDIATE_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_COMPATIBILITY_MULF_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MULF_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MULF_S1_INDIRECT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MULF_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_COMPATIBILITY_MULF_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MULF_S1_DIRECT_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MULF_S1_IMMEDIATE_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MULF_S1_INDIRECT_WITH_INDEX_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_COMPATIBILITY_MULF_S1_INDIRECT_WITH_OFFSET_2_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MULF_S1_INDIRECT_2_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MULF_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MULF_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_MULF_S1_DIRECT_IMM_BIT5, UBICOM32_INSN_MULF_S1_IMMEDIATE_IMM_BIT5, UBICOM32_INSN_MULF_S1_INDIRECT_WITH_INDEX_2_IMM_BIT5, UBICOM32_INSN_MULF_S1_INDIRECT_WITH_OFFSET_2_IMM_BIT5 ++ , UBICOM32_INSN_MULF_S1_INDIRECT_2_IMM_BIT5, UBICOM32_INSN_MULF_S1_INDIRECT_WITH_POST_INCREMENT_2_IMM_BIT5, UBICOM32_INSN_MULF_S1_INDIRECT_WITH_PRE_INCREMENT_2_IMM_BIT5, UBICOM32_INSN_MULF_S1_DIRECT_DYN_REG ++ , UBICOM32_INSN_MULF_S1_IMMEDIATE_DYN_REG, UBICOM32_INSN_MULF_S1_INDIRECT_WITH_INDEX_2_DYN_REG, UBICOM32_INSN_MULF_S1_INDIRECT_WITH_OFFSET_2_DYN_REG, UBICOM32_INSN_MULF_S1_INDIRECT_2_DYN_REG ++ , UBICOM32_INSN_MULF_S1_INDIRECT_WITH_POST_INCREMENT_2_DYN_REG, UBICOM32_INSN_MULF_S1_INDIRECT_WITH_PRE_INCREMENT_2_DYN_REG, UBICOM32_INSN_COMPATIBILITY_MULU_S1_DIRECT_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MULU_S1_IMMEDIATE_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_COMPATIBILITY_MULU_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MULU_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MULU_S1_INDIRECT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MULU_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_COMPATIBILITY_MULU_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MULU_S1_DIRECT_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MULU_S1_IMMEDIATE_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MULU_S1_INDIRECT_WITH_INDEX_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_COMPATIBILITY_MULU_S1_INDIRECT_WITH_OFFSET_2_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MULU_S1_INDIRECT_2_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MULU_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MULU_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_MULU_S1_DIRECT_IMM_BIT5, UBICOM32_INSN_MULU_S1_IMMEDIATE_IMM_BIT5, UBICOM32_INSN_MULU_S1_INDIRECT_WITH_INDEX_2_IMM_BIT5, UBICOM32_INSN_MULU_S1_INDIRECT_WITH_OFFSET_2_IMM_BIT5 ++ , UBICOM32_INSN_MULU_S1_INDIRECT_2_IMM_BIT5, UBICOM32_INSN_MULU_S1_INDIRECT_WITH_POST_INCREMENT_2_IMM_BIT5, UBICOM32_INSN_MULU_S1_INDIRECT_WITH_PRE_INCREMENT_2_IMM_BIT5, UBICOM32_INSN_MULU_S1_DIRECT_DYN_REG ++ , UBICOM32_INSN_MULU_S1_IMMEDIATE_DYN_REG, UBICOM32_INSN_MULU_S1_INDIRECT_WITH_INDEX_2_DYN_REG, UBICOM32_INSN_MULU_S1_INDIRECT_WITH_OFFSET_2_DYN_REG, UBICOM32_INSN_MULU_S1_INDIRECT_2_DYN_REG ++ , UBICOM32_INSN_MULU_S1_INDIRECT_WITH_POST_INCREMENT_2_DYN_REG, UBICOM32_INSN_MULU_S1_INDIRECT_WITH_PRE_INCREMENT_2_DYN_REG, UBICOM32_INSN_COMPATIBILITY_MULS_S1_DIRECT_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MULS_S1_IMMEDIATE_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_COMPATIBILITY_MULS_S1_INDIRECT_WITH_INDEX_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MULS_S1_INDIRECT_WITH_OFFSET_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MULS_S1_INDIRECT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MULS_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_SRC2_DATA_REG ++ , UBICOM32_INSN_COMPATIBILITY_MULS_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_SRC2_DATA_REG, UBICOM32_INSN_COMPATIBILITY_MULS_S1_DIRECT_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MULS_S1_IMMEDIATE_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MULS_S1_INDIRECT_WITH_INDEX_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_COMPATIBILITY_MULS_S1_INDIRECT_WITH_OFFSET_2_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MULS_S1_INDIRECT_2_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MULS_S1_INDIRECT_WITH_POST_INCREMENT_2_DSP_IMM_BIT5, UBICOM32_INSN_COMPATIBILITY_MULS_S1_INDIRECT_WITH_PRE_INCREMENT_2_DSP_IMM_BIT5 ++ , UBICOM32_INSN_MULS_S1_DIRECT_IMM_BIT5, UBICOM32_INSN_MULS_S1_IMMEDIATE_IMM_BIT5, UBICOM32_INSN_MULS_S1_INDIRECT_WITH_INDEX_2_IMM_BIT5, UBICOM32_INSN_MULS_S1_INDIRECT_WITH_OFFSET_2_IMM_BIT5 ++ , UBICOM32_INSN_MULS_S1_INDIRECT_2_IMM_BIT5, UBICOM32_INSN_MULS_S1_INDIRECT_WITH_POST_INCREMENT_2_IMM_BIT5, UBICOM32_INSN_MULS_S1_INDIRECT_WITH_PRE_INCREMENT_2_IMM_BIT5, UBICOM32_INSN_MULS_S1_DIRECT_DYN_REG ++ , UBICOM32_INSN_MULS_S1_IMMEDIATE_DYN_REG, UBICOM32_INSN_MULS_S1_INDIRECT_WITH_INDEX_2_DYN_REG, UBICOM32_INSN_MULS_S1_INDIRECT_WITH_OFFSET_2_DYN_REG, UBICOM32_INSN_MULS_S1_INDIRECT_2_DYN_REG ++ , UBICOM32_INSN_MULS_S1_INDIRECT_WITH_POST_INCREMENT_2_DYN_REG, UBICOM32_INSN_MULS_S1_INDIRECT_WITH_PRE_INCREMENT_2_DYN_REG, UBICOM32_INSN_SWAPB_4_D_DIRECT_S1_DIRECT, UBICOM32_INSN_SWAPB_4_D_IMMEDIATE_4_S1_DIRECT ++ , UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_INDEX_4_S1_DIRECT, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT, UBICOM32_INSN_SWAPB_4_D_INDIRECT_4_S1_DIRECT, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT ++ , UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_SWAPB_4_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_SWAPB_4_D_IMMEDIATE_4_S1_IMMEDIATE, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE ++ , UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE, UBICOM32_INSN_SWAPB_4_D_INDIRECT_4_S1_IMMEDIATE, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE ++ , UBICOM32_INSN_SWAPB_4_D_DIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SWAPB_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_SWAPB_4_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SWAPB_4_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_SWAPB_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_SWAPB_4_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_SWAPB_4_D_IMMEDIATE_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_4_S1_INDIRECT_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_SWAPB_4_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SWAPB_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_SWAPB_4_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SWAPB_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_SWAPB_4_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SWAPB_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SWAPB_2_D_DIRECT_S1_DIRECT ++ , UBICOM32_INSN_SWAPB_2_D_IMMEDIATE_2_S1_DIRECT, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_INDEX_2_S1_DIRECT, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_OFFSET_2_S1_DIRECT, UBICOM32_INSN_SWAPB_2_D_INDIRECT_2_S1_DIRECT ++ , UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_SWAPB_2_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_SWAPB_2_D_IMMEDIATE_2_S1_IMMEDIATE ++ , UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_INDEX_2_S1_IMMEDIATE, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_OFFSET_2_S1_IMMEDIATE, UBICOM32_INSN_SWAPB_2_D_INDIRECT_2_S1_IMMEDIATE, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_IMMEDIATE ++ , UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_SWAPB_2_D_DIRECT_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_SWAPB_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_SWAPB_2_D_DIRECT_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_SWAPB_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_SWAPB_2_D_INDIRECT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_SWAPB_2_D_DIRECT_S1_INDIRECT_2 ++ , UBICOM32_INSN_SWAPB_2_D_IMMEDIATE_2_S1_INDIRECT_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_2_S1_INDIRECT_2 ++ , UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_2, UBICOM32_INSN_SWAPB_2_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_SWAPB_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_SWAPB_2_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_SWAPB_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_SWAPB_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_PDEC_D_DIRECT_PDEC_S1_EA_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PDEC_D_IMMEDIATE_4_PDEC_S1_EA_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PDEC_D_INDIRECT_WITH_INDEX_4_PDEC_S1_EA_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PDEC_D_INDIRECT_WITH_OFFSET_4_PDEC_S1_EA_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PDEC_D_INDIRECT_4_PDEC_S1_EA_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PDEC_D_INDIRECT_WITH_POST_INCREMENT_4_PDEC_S1_EA_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PDEC_D_INDIRECT_WITH_PRE_INCREMENT_4_PDEC_S1_EA_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_LEA_4_D_DIRECT_S1_EA_INDIRECT ++ , UBICOM32_INSN_LEA_4_D_IMMEDIATE_4_S1_EA_INDIRECT, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_INDEX_4_S1_EA_INDIRECT, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_OFFSET_4_S1_EA_INDIRECT, UBICOM32_INSN_LEA_4_D_INDIRECT_4_S1_EA_INDIRECT ++ , UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_INDIRECT, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_INDIRECT, UBICOM32_INSN_LEA_4_D_DIRECT_S1_EA_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_LEA_4_D_IMMEDIATE_4_S1_EA_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_INDEX_4_S1_EA_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_OFFSET_4_S1_EA_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_LEA_4_D_INDIRECT_4_S1_EA_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_LEA_4_D_DIRECT_S1_EA_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_LEA_4_D_IMMEDIATE_4_S1_EA_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_INDEX_4_S1_EA_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_OFFSET_4_S1_EA_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_LEA_4_D_INDIRECT_4_S1_EA_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_LEA_4_D_DIRECT_S1_EA_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_LEA_4_D_IMMEDIATE_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_INDEX_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_OFFSET_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_LEA_4_D_INDIRECT_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_LEA_4_D_DIRECT_S1_EA_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_LEA_4_D_IMMEDIATE_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_INDEX_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_OFFSET_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_LEA_4_D_INDIRECT_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_LEA_4_D_DIRECT_S1_EA_IMMEDIATE, UBICOM32_INSN_LEA_4_D_IMMEDIATE_4_S1_EA_IMMEDIATE ++ , UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_INDEX_4_S1_EA_IMMEDIATE, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_OFFSET_4_S1_EA_IMMEDIATE, UBICOM32_INSN_LEA_4_D_INDIRECT_4_S1_EA_IMMEDIATE, UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_IMMEDIATE ++ , UBICOM32_INSN_LEA_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_IMMEDIATE, UBICOM32_INSN_LEA_2_D_DIRECT_S1_EA_INDIRECT, UBICOM32_INSN_LEA_2_D_IMMEDIATE_4_S1_EA_INDIRECT, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_INDEX_4_S1_EA_INDIRECT ++ , UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_OFFSET_4_S1_EA_INDIRECT, UBICOM32_INSN_LEA_2_D_INDIRECT_4_S1_EA_INDIRECT, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_INDIRECT, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_INDIRECT ++ , UBICOM32_INSN_LEA_2_D_DIRECT_S1_EA_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_LEA_2_D_IMMEDIATE_4_S1_EA_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_INDEX_4_S1_EA_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_OFFSET_4_S1_EA_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_LEA_2_D_INDIRECT_4_S1_EA_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_LEA_2_D_DIRECT_S1_EA_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_LEA_2_D_IMMEDIATE_4_S1_EA_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_INDEX_4_S1_EA_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_OFFSET_4_S1_EA_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_LEA_2_D_INDIRECT_4_S1_EA_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_LEA_2_D_DIRECT_S1_EA_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_LEA_2_D_IMMEDIATE_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_INDEX_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_OFFSET_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_LEA_2_D_INDIRECT_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_LEA_2_D_DIRECT_S1_EA_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_LEA_2_D_IMMEDIATE_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_INDEX_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_OFFSET_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_LEA_2_D_INDIRECT_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_LEA_2_D_DIRECT_S1_EA_IMMEDIATE, UBICOM32_INSN_LEA_2_D_IMMEDIATE_4_S1_EA_IMMEDIATE, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_INDEX_4_S1_EA_IMMEDIATE, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_OFFSET_4_S1_EA_IMMEDIATE ++ , UBICOM32_INSN_LEA_2_D_INDIRECT_4_S1_EA_IMMEDIATE, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_IMMEDIATE, UBICOM32_INSN_LEA_2_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_IMMEDIATE, UBICOM32_INSN_LEA_1_D_DIRECT_S1_EA_INDIRECT ++ , UBICOM32_INSN_LEA_1_D_IMMEDIATE_4_S1_EA_INDIRECT, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_INDEX_4_S1_EA_INDIRECT, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_OFFSET_4_S1_EA_INDIRECT, UBICOM32_INSN_LEA_1_D_INDIRECT_4_S1_EA_INDIRECT ++ , UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_INDIRECT, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_INDIRECT, UBICOM32_INSN_LEA_1_D_DIRECT_S1_EA_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_LEA_1_D_IMMEDIATE_4_S1_EA_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_INDEX_4_S1_EA_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_OFFSET_4_S1_EA_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_LEA_1_D_INDIRECT_4_S1_EA_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_LEA_1_D_DIRECT_S1_EA_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_LEA_1_D_IMMEDIATE_4_S1_EA_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_INDEX_4_S1_EA_INDIRECT_WITH_INDEX_1 ++ , UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_OFFSET_4_S1_EA_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_LEA_1_D_INDIRECT_4_S1_EA_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_INDIRECT_WITH_INDEX_1 ++ , UBICOM32_INSN_LEA_1_D_DIRECT_S1_EA_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_LEA_1_D_IMMEDIATE_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_INDEX_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_OFFSET_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_LEA_1_D_INDIRECT_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_LEA_1_D_DIRECT_S1_EA_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_INSN_LEA_1_D_IMMEDIATE_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_INDEX_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_OFFSET_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_LEA_1_D_INDIRECT_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_LEA_1_D_DIRECT_S1_EA_IMMEDIATE, UBICOM32_INSN_LEA_1_D_IMMEDIATE_4_S1_EA_IMMEDIATE ++ , UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_INDEX_4_S1_EA_IMMEDIATE, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_OFFSET_4_S1_EA_IMMEDIATE, UBICOM32_INSN_LEA_1_D_INDIRECT_4_S1_EA_IMMEDIATE, UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_POST_INCREMENT_4_S1_EA_IMMEDIATE ++ , UBICOM32_INSN_LEA_1_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_EA_IMMEDIATE, UBICOM32_INSN_CMPI_S1_DIRECT, UBICOM32_INSN_CMPI_S1_IMMEDIATE, UBICOM32_INSN_CMPI_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_CMPI_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_CMPI_S1_INDIRECT_2, UBICOM32_INSN_CMPI_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_CMPI_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_PXADDS_U_D_DIRECT_S1_DIRECT, UBICOM32_INSN_PXADDS_U_D_IMMEDIATE_2_S1_DIRECT, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_INDEX_2_S1_DIRECT, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_OFFSET_2_S1_DIRECT ++ , UBICOM32_INSN_PXADDS_U_D_INDIRECT_2_S1_DIRECT, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_POST_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_PXADDS_U_D_DIRECT_S1_IMMEDIATE ++ , UBICOM32_INSN_PXADDS_U_D_IMMEDIATE_2_S1_IMMEDIATE, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_INDEX_2_S1_IMMEDIATE, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_OFFSET_2_S1_IMMEDIATE, UBICOM32_INSN_PXADDS_U_D_INDIRECT_2_S1_IMMEDIATE ++ , UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_POST_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_PXADDS_U_D_DIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXADDS_U_D_IMMEDIATE_2_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXADDS_U_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXADDS_U_D_IMMEDIATE_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PXADDS_U_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_PXADDS_U_D_IMMEDIATE_2_S1_INDIRECT_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_4 ++ , UBICOM32_INSN_PXADDS_U_D_INDIRECT_2_S1_INDIRECT_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_4, UBICOM32_INSN_PXADDS_U_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_PXADDS_U_D_IMMEDIATE_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_2_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXADDS_U_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXADDS_U_D_IMMEDIATE_2_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXADDS_U_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXADDS_D_DIRECT_S1_DIRECT, UBICOM32_INSN_PXADDS_D_IMMEDIATE_2_S1_DIRECT, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_INDEX_2_S1_DIRECT ++ , UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_OFFSET_2_S1_DIRECT, UBICOM32_INSN_PXADDS_D_INDIRECT_2_S1_DIRECT, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_POST_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_DIRECT ++ , UBICOM32_INSN_PXADDS_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_PXADDS_D_IMMEDIATE_2_S1_IMMEDIATE, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_INDEX_2_S1_IMMEDIATE, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_OFFSET_2_S1_IMMEDIATE ++ , UBICOM32_INSN_PXADDS_D_INDIRECT_2_S1_IMMEDIATE, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_POST_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_PXADDS_D_DIRECT_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXADDS_D_IMMEDIATE_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXADDS_D_INDIRECT_2_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXADDS_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXADDS_D_IMMEDIATE_2_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXADDS_D_INDIRECT_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXADDS_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_PXADDS_D_IMMEDIATE_2_S1_INDIRECT_4, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_4 ++ , UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_4, UBICOM32_INSN_PXADDS_D_INDIRECT_2_S1_INDIRECT_4, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_4, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_4 ++ , UBICOM32_INSN_PXADDS_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXADDS_D_IMMEDIATE_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_PXADDS_D_INDIRECT_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXADDS_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXADDS_D_IMMEDIATE_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXADDS_D_INDIRECT_2_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXADDS_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXHI_S_S1_DIRECT, UBICOM32_INSN_PXHI_S_S1_IMMEDIATE ++ , UBICOM32_INSN_PXHI_S_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXHI_S_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXHI_S_S1_INDIRECT_4, UBICOM32_INSN_PXHI_S_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_PXHI_S_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXHI_S1_DIRECT, UBICOM32_INSN_PXHI_S1_IMMEDIATE, UBICOM32_INSN_PXHI_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXHI_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXHI_S1_INDIRECT_4, UBICOM32_INSN_PXHI_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXHI_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXVI_S_D_DIRECT_S1_DIRECT, UBICOM32_INSN_PXVI_S_D_IMMEDIATE_4_S1_DIRECT, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_INDEX_4_S1_DIRECT, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT ++ , UBICOM32_INSN_PXVI_S_D_INDIRECT_4_S1_DIRECT, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_PXVI_S_D_DIRECT_S1_IMMEDIATE ++ , UBICOM32_INSN_PXVI_S_D_IMMEDIATE_4_S1_IMMEDIATE, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE, UBICOM32_INSN_PXVI_S_D_INDIRECT_4_S1_IMMEDIATE ++ , UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_PXVI_S_D_DIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXVI_S_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXVI_S_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXVI_S_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PXVI_S_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_PXVI_S_D_IMMEDIATE_4_S1_INDIRECT_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_PXVI_S_D_INDIRECT_4_S1_INDIRECT_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_PXVI_S_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_PXVI_S_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXVI_S_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXVI_S_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXVI_S_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXVI_D_DIRECT_S1_DIRECT, UBICOM32_INSN_PXVI_D_IMMEDIATE_4_S1_DIRECT, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_INDEX_4_S1_DIRECT ++ , UBICOM32_INSN_PXVI_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT, UBICOM32_INSN_PXVI_D_INDIRECT_4_S1_DIRECT, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT ++ , UBICOM32_INSN_PXVI_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_PXVI_D_IMMEDIATE_4_S1_IMMEDIATE, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE ++ , UBICOM32_INSN_PXVI_D_INDIRECT_4_S1_IMMEDIATE, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_PXVI_D_DIRECT_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXVI_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXVI_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXVI_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXVI_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXVI_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PXVI_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXVI_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PXVI_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXVI_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_PXVI_D_IMMEDIATE_4_S1_INDIRECT_4, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_PXVI_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4, UBICOM32_INSN_PXVI_D_INDIRECT_4_S1_INDIRECT_4, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_PXVI_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXVI_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_PXVI_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXVI_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXVI_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXVI_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXVI_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXVI_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXBLEND_T_D_DIRECT_S1_DIRECT, UBICOM32_INSN_PXBLEND_T_D_IMMEDIATE_4_S1_DIRECT ++ , UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_INDEX_4_S1_DIRECT, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_4_S1_DIRECT, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT ++ , UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_PXBLEND_T_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_PXBLEND_T_D_IMMEDIATE_4_S1_IMMEDIATE, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE ++ , UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_4_S1_IMMEDIATE, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE ++ , UBICOM32_INSN_PXBLEND_T_D_DIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXBLEND_T_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXBLEND_T_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXBLEND_T_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PXBLEND_T_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXBLEND_T_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_PXBLEND_T_D_IMMEDIATE_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_4_S1_INDIRECT_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_PXBLEND_T_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXBLEND_T_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_PXBLEND_T_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXBLEND_T_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXBLEND_T_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXBLEND_T_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXBLEND_D_DIRECT_S1_DIRECT ++ , UBICOM32_INSN_PXBLEND_D_IMMEDIATE_4_S1_DIRECT, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_INDEX_4_S1_DIRECT, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT, UBICOM32_INSN_PXBLEND_D_INDIRECT_4_S1_DIRECT ++ , UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_PXBLEND_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_PXBLEND_D_IMMEDIATE_4_S1_IMMEDIATE ++ , UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE, UBICOM32_INSN_PXBLEND_D_INDIRECT_4_S1_IMMEDIATE, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE ++ , UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_PXBLEND_D_DIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXBLEND_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXBLEND_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXBLEND_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PXBLEND_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXBLEND_D_DIRECT_S1_INDIRECT_4 ++ , UBICOM32_INSN_PXBLEND_D_IMMEDIATE_4_S1_INDIRECT_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_PXBLEND_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXBLEND_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXBLEND_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXBLEND_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXBLEND_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXCNV_T_D_DIRECT_S1_DIRECT, UBICOM32_INSN_PXCNV_T_D_IMMEDIATE_2_S1_DIRECT, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_INDEX_2_S1_DIRECT, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_OFFSET_2_S1_DIRECT ++ , UBICOM32_INSN_PXCNV_T_D_INDIRECT_2_S1_DIRECT, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_POST_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_PXCNV_T_D_DIRECT_S1_IMMEDIATE ++ , UBICOM32_INSN_PXCNV_T_D_IMMEDIATE_2_S1_IMMEDIATE, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_INDEX_2_S1_IMMEDIATE, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_OFFSET_2_S1_IMMEDIATE, UBICOM32_INSN_PXCNV_T_D_INDIRECT_2_S1_IMMEDIATE ++ , UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_POST_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_PXCNV_T_D_DIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXCNV_T_D_IMMEDIATE_2_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXCNV_T_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXCNV_T_D_IMMEDIATE_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PXCNV_T_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_PXCNV_T_D_IMMEDIATE_2_S1_INDIRECT_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_4 ++ , UBICOM32_INSN_PXCNV_T_D_INDIRECT_2_S1_INDIRECT_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_4, UBICOM32_INSN_PXCNV_T_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_PXCNV_T_D_IMMEDIATE_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_2_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXCNV_T_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXCNV_T_D_IMMEDIATE_2_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXCNV_T_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXCNV_D_DIRECT_S1_DIRECT, UBICOM32_INSN_PXCNV_D_IMMEDIATE_2_S1_DIRECT, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_INDEX_2_S1_DIRECT ++ , UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_OFFSET_2_S1_DIRECT, UBICOM32_INSN_PXCNV_D_INDIRECT_2_S1_DIRECT, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_POST_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_DIRECT ++ , UBICOM32_INSN_PXCNV_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_PXCNV_D_IMMEDIATE_2_S1_IMMEDIATE, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_INDEX_2_S1_IMMEDIATE, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_OFFSET_2_S1_IMMEDIATE ++ , UBICOM32_INSN_PXCNV_D_INDIRECT_2_S1_IMMEDIATE, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_POST_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_PXCNV_D_DIRECT_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXCNV_D_IMMEDIATE_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXCNV_D_INDIRECT_2_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_PXCNV_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXCNV_D_IMMEDIATE_2_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXCNV_D_INDIRECT_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_PXCNV_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_PXCNV_D_IMMEDIATE_2_S1_INDIRECT_4, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_4 ++ , UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_4, UBICOM32_INSN_PXCNV_D_INDIRECT_2_S1_INDIRECT_4, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_4, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_4 ++ , UBICOM32_INSN_PXCNV_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXCNV_D_IMMEDIATE_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_PXCNV_D_INDIRECT_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_PXCNV_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXCNV_D_IMMEDIATE_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXCNV_D_INDIRECT_2_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_PXCNV_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SUBC_D_DIRECT_S1_DIRECT, UBICOM32_INSN_SUBC_D_IMMEDIATE_4_S1_DIRECT ++ , UBICOM32_INSN_SUBC_D_INDIRECT_WITH_INDEX_4_S1_DIRECT, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT, UBICOM32_INSN_SUBC_D_INDIRECT_4_S1_DIRECT, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT ++ , UBICOM32_INSN_SUBC_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_SUBC_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_SUBC_D_IMMEDIATE_4_S1_IMMEDIATE, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE ++ , UBICOM32_INSN_SUBC_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE, UBICOM32_INSN_SUBC_D_INDIRECT_4_S1_IMMEDIATE, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE ++ , UBICOM32_INSN_SUBC_D_DIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SUBC_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_SUBC_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SUBC_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_SUBC_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_SUBC_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_SUBC_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_SUBC_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_SUBC_D_IMMEDIATE_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_SUBC_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4, UBICOM32_INSN_SUBC_D_INDIRECT_4_S1_INDIRECT_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_SUBC_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_SUBC_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SUBC_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_SUBC_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SUBC_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_SUBC_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SUBC_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_SUBC_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SUBC_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_ADDC_D_DIRECT_S1_DIRECT ++ , UBICOM32_INSN_ADDC_D_IMMEDIATE_4_S1_DIRECT, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_INDEX_4_S1_DIRECT, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT, UBICOM32_INSN_ADDC_D_INDIRECT_4_S1_DIRECT ++ , UBICOM32_INSN_ADDC_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_ADDC_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_ADDC_D_IMMEDIATE_4_S1_IMMEDIATE ++ , UBICOM32_INSN_ADDC_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE, UBICOM32_INSN_ADDC_D_INDIRECT_4_S1_IMMEDIATE, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE ++ , UBICOM32_INSN_ADDC_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_ADDC_D_DIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_ADDC_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_ADDC_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_ADDC_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_ADDC_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_ADDC_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_ADDC_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_ADDC_D_DIRECT_S1_INDIRECT_4 ++ , UBICOM32_INSN_ADDC_D_IMMEDIATE_4_S1_INDIRECT_4, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4, UBICOM32_INSN_ADDC_D_INDIRECT_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_ADDC_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_ADDC_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_ADDC_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_ADDC_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_ADDC_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_ADDC_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_ADDC_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_ADDC_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_ADDC_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_ADDC_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_ADDC_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_SUB_1_D_DIRECT_S1_DIRECT, UBICOM32_INSN_SUB_1_D_IMMEDIATE_1_S1_DIRECT, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_INDEX_1_S1_DIRECT, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_OFFSET_1_S1_DIRECT ++ , UBICOM32_INSN_SUB_1_D_INDIRECT_1_S1_DIRECT, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_DIRECT, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_DIRECT, UBICOM32_INSN_SUB_1_D_DIRECT_S1_IMMEDIATE ++ , UBICOM32_INSN_SUB_1_D_IMMEDIATE_1_S1_IMMEDIATE, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_INDEX_1_S1_IMMEDIATE, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_OFFSET_1_S1_IMMEDIATE, UBICOM32_INSN_SUB_1_D_INDIRECT_1_S1_IMMEDIATE ++ , UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_IMMEDIATE, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_IMMEDIATE, UBICOM32_INSN_SUB_1_D_DIRECT_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_SUB_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_INDEX_1 ++ , UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_SUB_1_D_INDIRECT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_INDEX_1 ++ , UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_SUB_1_D_DIRECT_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_SUB_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_SUB_1_D_INDIRECT_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_SUB_1_D_DIRECT_S1_INDIRECT_1, UBICOM32_INSN_SUB_1_D_IMMEDIATE_1_S1_INDIRECT_1, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_1, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_1 ++ , UBICOM32_INSN_SUB_1_D_INDIRECT_1_S1_INDIRECT_1, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_1, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_1, UBICOM32_INSN_SUB_1_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_SUB_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_SUB_1_D_INDIRECT_1_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_SUB_1_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_SUB_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_SUB_1_D_INDIRECT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_INSN_SUB_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_SUB_4_D_DIRECT_S1_DIRECT, UBICOM32_INSN_SUB_4_D_IMMEDIATE_4_S1_DIRECT, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_INDEX_4_S1_DIRECT ++ , UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT, UBICOM32_INSN_SUB_4_D_INDIRECT_4_S1_DIRECT, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT ++ , UBICOM32_INSN_SUB_4_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_SUB_4_D_IMMEDIATE_4_S1_IMMEDIATE, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE ++ , UBICOM32_INSN_SUB_4_D_INDIRECT_4_S1_IMMEDIATE, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_SUB_4_D_DIRECT_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_SUB_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SUB_4_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_SUB_4_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_SUB_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_SUB_4_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_SUB_4_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_SUB_4_D_IMMEDIATE_4_S1_INDIRECT_4, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4, UBICOM32_INSN_SUB_4_D_INDIRECT_4_S1_INDIRECT_4, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_SUB_4_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SUB_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_SUB_4_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_SUB_4_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_SUB_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SUB_4_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SUB_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_SUB_2_D_DIRECT_S1_DIRECT, UBICOM32_INSN_SUB_2_D_IMMEDIATE_2_S1_DIRECT ++ , UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_INDEX_2_S1_DIRECT, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_OFFSET_2_S1_DIRECT, UBICOM32_INSN_SUB_2_D_INDIRECT_2_S1_DIRECT, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_DIRECT ++ , UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_SUB_2_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_SUB_2_D_IMMEDIATE_2_S1_IMMEDIATE, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_INDEX_2_S1_IMMEDIATE ++ , UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_OFFSET_2_S1_IMMEDIATE, UBICOM32_INSN_SUB_2_D_INDIRECT_2_S1_IMMEDIATE, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_IMMEDIATE ++ , UBICOM32_INSN_SUB_2_D_DIRECT_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_SUB_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_SUB_2_D_INDIRECT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_SUB_2_D_DIRECT_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_SUB_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_SUB_2_D_INDIRECT_2_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_SUB_2_D_DIRECT_S1_INDIRECT_2, UBICOM32_INSN_SUB_2_D_IMMEDIATE_2_S1_INDIRECT_2 ++ , UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_2, UBICOM32_INSN_SUB_2_D_INDIRECT_2_S1_INDIRECT_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_2 ++ , UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_2, UBICOM32_INSN_SUB_2_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_SUB_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_SUB_2_D_INDIRECT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_SUB_2_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_SUB_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_SUB_2_D_INDIRECT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_SUB_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_ADD_1_D_DIRECT_S1_DIRECT ++ , UBICOM32_INSN_ADD_1_D_IMMEDIATE_1_S1_DIRECT, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_INDEX_1_S1_DIRECT, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_OFFSET_1_S1_DIRECT, UBICOM32_INSN_ADD_1_D_INDIRECT_1_S1_DIRECT ++ , UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_DIRECT, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_DIRECT, UBICOM32_INSN_ADD_1_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_ADD_1_D_IMMEDIATE_1_S1_IMMEDIATE ++ , UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_INDEX_1_S1_IMMEDIATE, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_OFFSET_1_S1_IMMEDIATE, UBICOM32_INSN_ADD_1_D_INDIRECT_1_S1_IMMEDIATE, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_IMMEDIATE ++ , UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_IMMEDIATE, UBICOM32_INSN_ADD_1_D_DIRECT_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_ADD_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_INDEX_1 ++ , UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_ADD_1_D_INDIRECT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_INDEX_1 ++ , UBICOM32_INSN_ADD_1_D_DIRECT_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_ADD_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_ADD_1_D_INDIRECT_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_ADD_1_D_DIRECT_S1_INDIRECT_1 ++ , UBICOM32_INSN_ADD_1_D_IMMEDIATE_1_S1_INDIRECT_1, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_1, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_1, UBICOM32_INSN_ADD_1_D_INDIRECT_1_S1_INDIRECT_1 ++ , UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_1, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_1, UBICOM32_INSN_ADD_1_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_ADD_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_ADD_1_D_INDIRECT_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_ADD_1_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_ADD_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_ADD_1_D_INDIRECT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_ADD_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_INSN_ADD_4_D_DIRECT_S1_DIRECT, UBICOM32_INSN_ADD_4_D_IMMEDIATE_4_S1_DIRECT, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_INDEX_4_S1_DIRECT, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT ++ , UBICOM32_INSN_ADD_4_D_INDIRECT_4_S1_DIRECT, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_ADD_4_D_DIRECT_S1_IMMEDIATE ++ , UBICOM32_INSN_ADD_4_D_IMMEDIATE_4_S1_IMMEDIATE, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE, UBICOM32_INSN_ADD_4_D_INDIRECT_4_S1_IMMEDIATE ++ , UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_ADD_4_D_DIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_ADD_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_ADD_4_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_ADD_4_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_ADD_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_ADD_4_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_ADD_4_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_ADD_4_D_IMMEDIATE_4_S1_INDIRECT_4, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_ADD_4_D_INDIRECT_4_S1_INDIRECT_4, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_ADD_4_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_ADD_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_ADD_4_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_ADD_4_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_ADD_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_ADD_4_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_ADD_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_ADD_2_D_DIRECT_S1_DIRECT, UBICOM32_INSN_ADD_2_D_IMMEDIATE_2_S1_DIRECT, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_INDEX_2_S1_DIRECT ++ , UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_OFFSET_2_S1_DIRECT, UBICOM32_INSN_ADD_2_D_INDIRECT_2_S1_DIRECT, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_DIRECT ++ , UBICOM32_INSN_ADD_2_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_ADD_2_D_IMMEDIATE_2_S1_IMMEDIATE, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_INDEX_2_S1_IMMEDIATE, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_OFFSET_2_S1_IMMEDIATE ++ , UBICOM32_INSN_ADD_2_D_INDIRECT_2_S1_IMMEDIATE, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_ADD_2_D_DIRECT_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_ADD_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_ADD_2_D_INDIRECT_2_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_ADD_2_D_DIRECT_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_ADD_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_ADD_2_D_INDIRECT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_ADD_2_D_DIRECT_S1_INDIRECT_2, UBICOM32_INSN_ADD_2_D_IMMEDIATE_2_S1_INDIRECT_2, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_2 ++ , UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_2, UBICOM32_INSN_ADD_2_D_INDIRECT_2_S1_INDIRECT_2, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_2, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_2 ++ , UBICOM32_INSN_ADD_2_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_ADD_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_ADD_2_D_INDIRECT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_ADD_2_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_ADD_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_ADD_2_D_INDIRECT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_ADD_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_NOT_4_D_DIRECT_S1_DIRECT, UBICOM32_INSN_NOT_4_D_IMMEDIATE_4_S1_DIRECT ++ , UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_INDEX_4_S1_DIRECT, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT, UBICOM32_INSN_NOT_4_D_INDIRECT_4_S1_DIRECT, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT ++ , UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_NOT_4_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_NOT_4_D_IMMEDIATE_4_S1_IMMEDIATE, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE ++ , UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE, UBICOM32_INSN_NOT_4_D_INDIRECT_4_S1_IMMEDIATE, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE ++ , UBICOM32_INSN_NOT_4_D_DIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_NOT_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_NOT_4_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_NOT_4_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_NOT_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_NOT_4_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_NOT_4_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_NOT_4_D_IMMEDIATE_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4, UBICOM32_INSN_NOT_4_D_INDIRECT_4_S1_INDIRECT_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_NOT_4_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_NOT_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_NOT_4_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_NOT_4_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_NOT_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_NOT_4_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_NOT_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_NOT_2_D_DIRECT_S1_DIRECT ++ , UBICOM32_INSN_NOT_2_D_IMMEDIATE_2_S1_DIRECT, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_INDEX_2_S1_DIRECT, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_OFFSET_2_S1_DIRECT, UBICOM32_INSN_NOT_2_D_INDIRECT_2_S1_DIRECT ++ , UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_NOT_2_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_NOT_2_D_IMMEDIATE_2_S1_IMMEDIATE ++ , UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_INDEX_2_S1_IMMEDIATE, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_OFFSET_2_S1_IMMEDIATE, UBICOM32_INSN_NOT_2_D_INDIRECT_2_S1_IMMEDIATE, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_IMMEDIATE ++ , UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_NOT_2_D_DIRECT_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_NOT_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_NOT_2_D_INDIRECT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_NOT_2_D_DIRECT_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_NOT_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_NOT_2_D_INDIRECT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_NOT_2_D_DIRECT_S1_INDIRECT_2 ++ , UBICOM32_INSN_NOT_2_D_IMMEDIATE_2_S1_INDIRECT_2, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_2, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_2, UBICOM32_INSN_NOT_2_D_INDIRECT_2_S1_INDIRECT_2 ++ , UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_2, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_2, UBICOM32_INSN_NOT_2_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_NOT_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_NOT_2_D_INDIRECT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_NOT_2_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_NOT_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_NOT_2_D_INDIRECT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_NOT_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_XOR_1_D_DIRECT_S1_DIRECT, UBICOM32_INSN_XOR_1_D_IMMEDIATE_1_S1_DIRECT, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_INDEX_1_S1_DIRECT, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_OFFSET_1_S1_DIRECT ++ , UBICOM32_INSN_XOR_1_D_INDIRECT_1_S1_DIRECT, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_DIRECT, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_DIRECT, UBICOM32_INSN_XOR_1_D_DIRECT_S1_IMMEDIATE ++ , UBICOM32_INSN_XOR_1_D_IMMEDIATE_1_S1_IMMEDIATE, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_INDEX_1_S1_IMMEDIATE, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_OFFSET_1_S1_IMMEDIATE, UBICOM32_INSN_XOR_1_D_INDIRECT_1_S1_IMMEDIATE ++ , UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_IMMEDIATE, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_IMMEDIATE, UBICOM32_INSN_XOR_1_D_DIRECT_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_XOR_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_INDEX_1 ++ , UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_XOR_1_D_INDIRECT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_INDEX_1 ++ , UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_XOR_1_D_DIRECT_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_XOR_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_XOR_1_D_INDIRECT_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_XOR_1_D_DIRECT_S1_INDIRECT_1, UBICOM32_INSN_XOR_1_D_IMMEDIATE_1_S1_INDIRECT_1, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_1, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_1 ++ , UBICOM32_INSN_XOR_1_D_INDIRECT_1_S1_INDIRECT_1, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_1, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_1, UBICOM32_INSN_XOR_1_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_XOR_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_XOR_1_D_INDIRECT_1_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_XOR_1_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_XOR_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_XOR_1_D_INDIRECT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_INSN_XOR_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_OR_1_D_DIRECT_S1_DIRECT, UBICOM32_INSN_OR_1_D_IMMEDIATE_1_S1_DIRECT, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_INDEX_1_S1_DIRECT ++ , UBICOM32_INSN_OR_1_D_INDIRECT_WITH_OFFSET_1_S1_DIRECT, UBICOM32_INSN_OR_1_D_INDIRECT_1_S1_DIRECT, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_DIRECT, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_DIRECT ++ , UBICOM32_INSN_OR_1_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_OR_1_D_IMMEDIATE_1_S1_IMMEDIATE, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_INDEX_1_S1_IMMEDIATE, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_OFFSET_1_S1_IMMEDIATE ++ , UBICOM32_INSN_OR_1_D_INDIRECT_1_S1_IMMEDIATE, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_IMMEDIATE, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_IMMEDIATE, UBICOM32_INSN_OR_1_D_DIRECT_S1_INDIRECT_WITH_INDEX_1 ++ , UBICOM32_INSN_OR_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_OR_1_D_INDIRECT_1_S1_INDIRECT_WITH_INDEX_1 ++ , UBICOM32_INSN_OR_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_OR_1_D_DIRECT_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_OR_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_OR_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_OR_1_D_INDIRECT_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_OR_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_OR_1_D_DIRECT_S1_INDIRECT_1, UBICOM32_INSN_OR_1_D_IMMEDIATE_1_S1_INDIRECT_1, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_1 ++ , UBICOM32_INSN_OR_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_1, UBICOM32_INSN_OR_1_D_INDIRECT_1_S1_INDIRECT_1, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_1, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_1 ++ , UBICOM32_INSN_OR_1_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_OR_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_OR_1_D_INDIRECT_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_OR_1_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_INSN_OR_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_OR_1_D_INDIRECT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_INSN_OR_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_OR_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_AND_1_D_DIRECT_S1_DIRECT, UBICOM32_INSN_AND_1_D_IMMEDIATE_1_S1_DIRECT ++ , UBICOM32_INSN_AND_1_D_INDIRECT_WITH_INDEX_1_S1_DIRECT, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_OFFSET_1_S1_DIRECT, UBICOM32_INSN_AND_1_D_INDIRECT_1_S1_DIRECT, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_DIRECT ++ , UBICOM32_INSN_AND_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_DIRECT, UBICOM32_INSN_AND_1_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_AND_1_D_IMMEDIATE_1_S1_IMMEDIATE, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_INDEX_1_S1_IMMEDIATE ++ , UBICOM32_INSN_AND_1_D_INDIRECT_WITH_OFFSET_1_S1_IMMEDIATE, UBICOM32_INSN_AND_1_D_INDIRECT_1_S1_IMMEDIATE, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_IMMEDIATE, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_IMMEDIATE ++ , UBICOM32_INSN_AND_1_D_DIRECT_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_AND_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_INDEX_1 ++ , UBICOM32_INSN_AND_1_D_INDIRECT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_INDEX_1, UBICOM32_INSN_AND_1_D_DIRECT_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_AND_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_AND_1_D_INDIRECT_1_S1_INDIRECT_WITH_OFFSET_1 ++ , UBICOM32_INSN_AND_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_OFFSET_1, UBICOM32_INSN_AND_1_D_DIRECT_S1_INDIRECT_1, UBICOM32_INSN_AND_1_D_IMMEDIATE_1_S1_INDIRECT_1 ++ , UBICOM32_INSN_AND_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_1, UBICOM32_INSN_AND_1_D_INDIRECT_1_S1_INDIRECT_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_1 ++ , UBICOM32_INSN_AND_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_1, UBICOM32_INSN_AND_1_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_AND_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_AND_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_AND_1_D_INDIRECT_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_POST_INCREMENT_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_POST_INCREMENT_1 ++ , UBICOM32_INSN_AND_1_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_AND_1_D_IMMEDIATE_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_INDEX_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_OFFSET_1_S1_INDIRECT_WITH_PRE_INCREMENT_1 ++ , UBICOM32_INSN_AND_1_D_INDIRECT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_POST_INCREMENT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_AND_1_D_INDIRECT_WITH_PRE_INCREMENT_1_S1_INDIRECT_WITH_PRE_INCREMENT_1, UBICOM32_INSN_XOR_4_D_DIRECT_S1_DIRECT ++ , UBICOM32_INSN_XOR_4_D_IMMEDIATE_4_S1_DIRECT, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_INDEX_4_S1_DIRECT, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT, UBICOM32_INSN_XOR_4_D_INDIRECT_4_S1_DIRECT ++ , UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_XOR_4_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_XOR_4_D_IMMEDIATE_4_S1_IMMEDIATE ++ , UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE, UBICOM32_INSN_XOR_4_D_INDIRECT_4_S1_IMMEDIATE, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE ++ , UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_XOR_4_D_DIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_XOR_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_XOR_4_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_XOR_4_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_XOR_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_XOR_4_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_XOR_4_D_DIRECT_S1_INDIRECT_4 ++ , UBICOM32_INSN_XOR_4_D_IMMEDIATE_4_S1_INDIRECT_4, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4, UBICOM32_INSN_XOR_4_D_INDIRECT_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_XOR_4_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_XOR_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_XOR_4_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_XOR_4_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_XOR_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_XOR_4_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_XOR_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_XOR_2_D_DIRECT_S1_DIRECT, UBICOM32_INSN_XOR_2_D_IMMEDIATE_2_S1_DIRECT, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_INDEX_2_S1_DIRECT, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_OFFSET_2_S1_DIRECT ++ , UBICOM32_INSN_XOR_2_D_INDIRECT_2_S1_DIRECT, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_XOR_2_D_DIRECT_S1_IMMEDIATE ++ , UBICOM32_INSN_XOR_2_D_IMMEDIATE_2_S1_IMMEDIATE, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_INDEX_2_S1_IMMEDIATE, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_OFFSET_2_S1_IMMEDIATE, UBICOM32_INSN_XOR_2_D_INDIRECT_2_S1_IMMEDIATE ++ , UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_XOR_2_D_DIRECT_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_XOR_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_XOR_2_D_INDIRECT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_XOR_2_D_DIRECT_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_XOR_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_XOR_2_D_INDIRECT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_XOR_2_D_DIRECT_S1_INDIRECT_2, UBICOM32_INSN_XOR_2_D_IMMEDIATE_2_S1_INDIRECT_2, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_2, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_2 ++ , UBICOM32_INSN_XOR_2_D_INDIRECT_2_S1_INDIRECT_2, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_2, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_2, UBICOM32_INSN_XOR_2_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_XOR_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_XOR_2_D_INDIRECT_2_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_XOR_2_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_XOR_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_XOR_2_D_INDIRECT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_XOR_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_OR_4_D_DIRECT_S1_DIRECT, UBICOM32_INSN_OR_4_D_IMMEDIATE_4_S1_DIRECT, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_INDEX_4_S1_DIRECT ++ , UBICOM32_INSN_OR_4_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT, UBICOM32_INSN_OR_4_D_INDIRECT_4_S1_DIRECT, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT ++ , UBICOM32_INSN_OR_4_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_OR_4_D_IMMEDIATE_4_S1_IMMEDIATE, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE ++ , UBICOM32_INSN_OR_4_D_INDIRECT_4_S1_IMMEDIATE, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_OR_4_D_DIRECT_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_OR_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_OR_4_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_OR_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_OR_4_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_OR_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_OR_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_OR_4_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_OR_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_OR_4_D_DIRECT_S1_INDIRECT_4, UBICOM32_INSN_OR_4_D_IMMEDIATE_4_S1_INDIRECT_4, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_OR_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4, UBICOM32_INSN_OR_4_D_INDIRECT_4_S1_INDIRECT_4, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_OR_4_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_OR_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_OR_4_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_OR_4_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_OR_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_OR_4_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_OR_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_OR_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_OR_2_D_DIRECT_S1_DIRECT, UBICOM32_INSN_OR_2_D_IMMEDIATE_2_S1_DIRECT ++ , UBICOM32_INSN_OR_2_D_INDIRECT_WITH_INDEX_2_S1_DIRECT, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_OFFSET_2_S1_DIRECT, UBICOM32_INSN_OR_2_D_INDIRECT_2_S1_DIRECT, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_DIRECT ++ , UBICOM32_INSN_OR_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_OR_2_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_OR_2_D_IMMEDIATE_2_S1_IMMEDIATE, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_INDEX_2_S1_IMMEDIATE ++ , UBICOM32_INSN_OR_2_D_INDIRECT_WITH_OFFSET_2_S1_IMMEDIATE, UBICOM32_INSN_OR_2_D_INDIRECT_2_S1_IMMEDIATE, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_IMMEDIATE ++ , UBICOM32_INSN_OR_2_D_DIRECT_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_OR_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_OR_2_D_INDIRECT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_OR_2_D_DIRECT_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_OR_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_OR_2_D_INDIRECT_2_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_OR_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_OR_2_D_DIRECT_S1_INDIRECT_2, UBICOM32_INSN_OR_2_D_IMMEDIATE_2_S1_INDIRECT_2 ++ , UBICOM32_INSN_OR_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_2, UBICOM32_INSN_OR_2_D_INDIRECT_2_S1_INDIRECT_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_2 ++ , UBICOM32_INSN_OR_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_2, UBICOM32_INSN_OR_2_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_OR_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_OR_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_OR_2_D_INDIRECT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_OR_2_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_OR_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_OR_2_D_INDIRECT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_OR_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_AND_4_D_DIRECT_S1_DIRECT ++ , UBICOM32_INSN_AND_4_D_IMMEDIATE_4_S1_DIRECT, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_INDEX_4_S1_DIRECT, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_OFFSET_4_S1_DIRECT, UBICOM32_INSN_AND_4_D_INDIRECT_4_S1_DIRECT ++ , UBICOM32_INSN_AND_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_DIRECT, UBICOM32_INSN_AND_4_D_DIRECT_S1_IMMEDIATE, UBICOM32_INSN_AND_4_D_IMMEDIATE_4_S1_IMMEDIATE ++ , UBICOM32_INSN_AND_4_D_INDIRECT_WITH_INDEX_4_S1_IMMEDIATE, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_OFFSET_4_S1_IMMEDIATE, UBICOM32_INSN_AND_4_D_INDIRECT_4_S1_IMMEDIATE, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_IMMEDIATE ++ , UBICOM32_INSN_AND_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_IMMEDIATE, UBICOM32_INSN_AND_4_D_DIRECT_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_AND_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_AND_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_AND_4_D_INDIRECT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_INDEX_4 ++ , UBICOM32_INSN_AND_4_D_DIRECT_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_AND_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_OFFSET_4 ++ , UBICOM32_INSN_AND_4_D_INDIRECT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_OFFSET_4, UBICOM32_INSN_AND_4_D_DIRECT_S1_INDIRECT_4 ++ , UBICOM32_INSN_AND_4_D_IMMEDIATE_4_S1_INDIRECT_4, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_4, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_4, UBICOM32_INSN_AND_4_D_INDIRECT_4_S1_INDIRECT_4 ++ , UBICOM32_INSN_AND_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_4, UBICOM32_INSN_AND_4_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_AND_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_AND_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_AND_4_D_INDIRECT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4 ++ , UBICOM32_INSN_AND_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_POST_INCREMENT_4, UBICOM32_INSN_AND_4_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_AND_4_D_IMMEDIATE_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_INDEX_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_AND_4_D_INDIRECT_WITH_OFFSET_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_AND_4_D_INDIRECT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_POST_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4, UBICOM32_INSN_AND_4_D_INDIRECT_WITH_PRE_INCREMENT_4_S1_INDIRECT_WITH_PRE_INCREMENT_4 ++ , UBICOM32_INSN_AND_2_D_DIRECT_S1_DIRECT, UBICOM32_INSN_AND_2_D_IMMEDIATE_2_S1_DIRECT, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_INDEX_2_S1_DIRECT, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_OFFSET_2_S1_DIRECT ++ , UBICOM32_INSN_AND_2_D_INDIRECT_2_S1_DIRECT, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_DIRECT, UBICOM32_INSN_AND_2_D_DIRECT_S1_IMMEDIATE ++ , UBICOM32_INSN_AND_2_D_IMMEDIATE_2_S1_IMMEDIATE, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_INDEX_2_S1_IMMEDIATE, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_OFFSET_2_S1_IMMEDIATE, UBICOM32_INSN_AND_2_D_INDIRECT_2_S1_IMMEDIATE ++ , UBICOM32_INSN_AND_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_IMMEDIATE, UBICOM32_INSN_AND_2_D_DIRECT_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_AND_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_AND_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_AND_2_D_INDIRECT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2 ++ , UBICOM32_INSN_AND_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_INDEX_2, UBICOM32_INSN_AND_2_D_DIRECT_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_AND_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_AND_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_AND_2_D_INDIRECT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_OFFSET_2 ++ , UBICOM32_INSN_AND_2_D_DIRECT_S1_INDIRECT_2, UBICOM32_INSN_AND_2_D_IMMEDIATE_2_S1_INDIRECT_2, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_2, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_2 ++ , UBICOM32_INSN_AND_2_D_INDIRECT_2_S1_INDIRECT_2, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_2, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_2, UBICOM32_INSN_AND_2_D_DIRECT_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_AND_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_AND_2_D_INDIRECT_2_S1_INDIRECT_WITH_POST_INCREMENT_2 ++ , UBICOM32_INSN_AND_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_POST_INCREMENT_2, UBICOM32_INSN_AND_2_D_DIRECT_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_AND_2_D_IMMEDIATE_2_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_AND_2_D_INDIRECT_WITH_INDEX_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_OFFSET_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_AND_2_D_INDIRECT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_AND_2_D_INDIRECT_WITH_POST_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2 ++ , UBICOM32_INSN_AND_2_D_INDIRECT_WITH_PRE_INCREMENT_2_S1_INDIRECT_WITH_PRE_INCREMENT_2, UBICOM32_INSN_MOVEAI, UBICOM32_INSN_NOP_INSN, UBICOM32_INSN_JMPCC ++ , UBICOM32_INSN_CALL, UBICOM32_INSN_CALLI, UBICOM32_INSN_SUSPEND, UBICOM32_INSN_DSP_CLRACC ++ , UBICOM32_INSN_UNUSED_00_11, UBICOM32_INSN_UNUSED_00_13, UBICOM32_INSN_UNUSED_00_14, UBICOM32_INSN_UNUSED_00_16 ++ , UBICOM32_INSN_UNUSED_02_04, UBICOM32_INSN_UNUSED_02_07, UBICOM32_INSN_UNUSED_02_0D, UBICOM32_INSN_UNUSED_02_0E ++ , UBICOM32_INSN_UNUSED_02_0F, UBICOM32_INSN_UNUSED_02_17, UBICOM32_INSN_UNUSED_02_19, UBICOM32_INSN_UNUSED_02_1B ++ , UBICOM32_INSN_UNUSED_02_1D, UBICOM32_INSN_UNUSED_01, UBICOM32_INSN_UNUSED_03, UBICOM32_INSN_UNUSED_07 ++ , UBICOM32_INSN_UNUSED_17, UBICOM32_INSN_UNUSED_1D, UBICOM32_INSN_UNUSED_1F, UBICOM32_INSN_UNUSED_DSP_06 ++ , UBICOM32_INSN_UNUSED_DSP_0B, UBICOM32_INSN_UNUSED_DSP_0C, UBICOM32_INSN_UNUSED_DSP_0D, UBICOM32_INSN_UNUSED_DSP_0E ++ , UBICOM32_INSN_UNUSED_DSP_0F, UBICOM32_INSN_UNUSED_DSP_14, UBICOM32_INSN_UNUSED_DSP_15, UBICOM32_INSN_UNUSED_DSP_16 ++ , UBICOM32_INSN_UNUSED_DSP_17, UBICOM32_INSN_UNUSED_DSP_18, UBICOM32_INSN_UNUSED_DSP_19, UBICOM32_INSN_UNUSED_DSP_1A ++ , UBICOM32_INSN_UNUSED_DSP_1B, UBICOM32_INSN_UNUSED_DSP_1C, UBICOM32_INSN_UNUSED_DSP_1D, UBICOM32_INSN_UNUSED_DSP_1E ++ , UBICOM32_INSN_UNUSED_DSP_1F ++} CGEN_INSN_TYPE; ++ ++/* Index of `invalid' insn place holder. */ ++#define CGEN_INSN_INVALID UBICOM32_INSN_INVALID ++ ++/* Total number of insns in table. */ ++#define MAX_INSNS ((int) UBICOM32_INSN_UNUSED_DSP_1F + 1) ++ ++/* This struct records data prior to insertion or after extraction. */ ++struct cgen_fields ++{ ++ int length; ++ long f_nil; ++ long f_anyof; ++ long f_d; ++ long f_d_bit10; ++ long f_d_type; ++ long f_d_r; ++ long f_d_M; ++ long f_d_i4_1; ++ long f_d_i4_2; ++ long f_d_i4_4; ++ long f_d_An; ++ long f_d_direct; ++ long f_d_imm8; ++ long f_d_imm7_t; ++ long f_d_imm7_b; ++ long f_d_imm7_1; ++ long f_d_imm7_2; ++ long f_d_imm7_4; ++ long f_s1; ++ long f_s1_bit10; ++ long f_s1_type; ++ long f_s1_r; ++ long f_s1_M; ++ long f_s1_i4_1; ++ long f_s1_i4_2; ++ long f_s1_i4_4; ++ long f_s1_An; ++ long f_s1_direct; ++ long f_s1_imm8; ++ long f_s1_imm7_t; ++ long f_s1_imm7_b; ++ long f_s1_imm7_1; ++ long f_s1_imm7_2; ++ long f_s1_imm7_4; ++ long f_op1; ++ long f_op2; ++ long f_bit26; ++ long f_opext; ++ long f_cond; ++ long f_imm16_1; ++ long f_imm16_2; ++ long f_o21; ++ long f_o23_21; ++ long f_o20_0; ++ long f_o24; ++ long f_imm23_21; ++ long f_imm24; ++ long f_o15_13; ++ long f_o12_8; ++ long f_o7_5; ++ long f_o4_0; ++ long f_o16; ++ long f_An; ++ long f_Am; ++ long f_Dn; ++ long f_bit5; ++ long f_P; ++ long f_C; ++ long f_int; ++ long f_dsp_C; ++ long f_dsp_T; ++ long f_dsp_S2_sel; ++ long f_dsp_R; ++ long f_dsp_destA; ++ long f_dsp_b15; ++ long f_dsp_S2; ++ long f_dsp_J; ++ long f_s2; ++ long f_b15; ++}; ++ ++#define CGEN_INIT_PARSE(od) \ ++{\ ++} ++#define CGEN_INIT_INSERT(od) \ ++{\ ++} ++#define CGEN_INIT_EXTRACT(od) \ ++{\ ++} ++#define CGEN_INIT_PRINT(od) \ ++{\ ++} ++ ++ ++#endif /* UBICOM32_OPC_H */ +--- /dev/null ++++ b/ubicom32.exp +@@ -0,0 +1,45 @@ ++# Expect control file for DEJAGNU test system and ubicom32 ++# ++ ++# Needed for isnative. ++load_lib "framework.exp" ++ ++# Turn off plum-hall testing ++# ++set PLUMHALL no ++set PLUMHALL_99b no ++ ++# And Perennial too ++set PERENNIAL_C no ++set PERENNIAL_CLASSIC_C yes ++ ++set UNDERSCORES yes ++ ++if ![info exists tool] { ++ set run_multiple_targets 0; ++} elseif { $tool == "g++" || $tool == "gcc" || $tool == "gdb"} { ++ set run_multiple_targets 1; ++} else { ++ set run_multiple_targets 0; ++} ++ ++verbose "Global Config FIle: target_triplet is $target_triplet" 2 ++global target_list ++case "$target_triplet" in { ++ { "ubicom32-*" } { ++ set target_list "ubicom32-sid" ++ } ++ ++ { "ip3k-*" } { ++ set target_list "ip3k-sid" ++ } ++ ++ default { ++ set target_list { "unix" } ++ } ++} ++ ++if { ! $run_multiple_targets } { ++ set target_list [lindex $target_list 0]; ++} ++ diff --git a/toolchain/binutils/patches/2.19.1/700-avr32.patch b/toolchain/binutils/patches/2.19.1/700-avr32.patch new file mode 100644 index 000000000..e843a3f3c --- /dev/null +++ b/toolchain/binutils/patches/2.19.1/700-avr32.patch @@ -0,0 +1,30629 @@ +--- a/bfd/archures.c ++++ b/bfd/archures.c +@@ -357,6 +357,12 @@ DESCRIPTION + .#define bfd_mach_avr5 5 + .#define bfd_mach_avr51 51 + .#define bfd_mach_avr6 6 ++. bfd_arch_avr32, {* Atmel AVR32 *} ++.#define bfd_mach_avr32_ap 7000 ++.#define bfd_mach_avr32_uc 3000 ++.#define bfd_mach_avr32_ucr1 3001 ++.#define bfd_mach_avr32_ucr2 3002 ++.#define bfd_mach_avr32_ucr3 3003 + . bfd_arch_bfin, {* ADI Blackfin *} + .#define bfd_mach_bfin 1 + . bfd_arch_cr16, {* National Semiconductor CompactRISC (ie CR16). *} +@@ -454,6 +460,7 @@ extern const bfd_arch_info_type bfd_alph + extern const bfd_arch_info_type bfd_arc_arch; + extern const bfd_arch_info_type bfd_arm_arch; + extern const bfd_arch_info_type bfd_avr_arch; ++extern const bfd_arch_info_type bfd_avr32_arch; + extern const bfd_arch_info_type bfd_bfin_arch; + extern const bfd_arch_info_type bfd_cr16_arch; + extern const bfd_arch_info_type bfd_cr16c_arch; +@@ -526,6 +533,7 @@ static const bfd_arch_info_type * const + &bfd_arc_arch, + &bfd_arm_arch, + &bfd_avr_arch, ++ &bfd_avr32_arch, + &bfd_bfin_arch, + &bfd_cr16_arch, + &bfd_cr16c_arch, +--- a/bfd/bfd-in2.h ++++ b/bfd/bfd-in2.h +@@ -1979,6 +1979,12 @@ enum bfd_architecture + #define bfd_mach_avr5 5 + #define bfd_mach_avr51 51 + #define bfd_mach_avr6 6 ++ bfd_arch_avr32, /* Atmel AVR32 */ ++#define bfd_mach_avr32_ap 7000 ++#define bfd_mach_avr32_uc 3000 ++#define bfd_mach_avr32_ucr1 3001 ++#define bfd_mach_avr32_ucr2 3002 ++#define bfd_mach_avr32_ucr3 3003 + bfd_arch_bfin, /* ADI Blackfin */ + #define bfd_mach_bfin 1 + bfd_arch_cr16, /* National Semiconductor CompactRISC (ie CR16). */ +@@ -3748,6 +3754,88 @@ instructions */ + instructions */ + BFD_RELOC_AVR_6_ADIW, + ++/* Difference between two labels: L2 - L1. The value of L1 is encoded ++as sym + addend, while the initial difference after assembly is ++inserted into the object file by the assembler. */ ++ BFD_RELOC_AVR32_DIFF32, ++ BFD_RELOC_AVR32_DIFF16, ++ BFD_RELOC_AVR32_DIFF8, ++ ++/* Reference to a symbol through the Global Offset Table. The linker ++will allocate an entry for symbol in the GOT and insert the offset ++of this entry as the relocation value. */ ++ BFD_RELOC_AVR32_GOT32, ++ BFD_RELOC_AVR32_GOT16, ++ BFD_RELOC_AVR32_GOT8, ++ ++/* Normal (non-pc-relative) code relocations. Alignment and signedness ++is indicated by the suffixes. S means signed, U means unsigned. W ++means word-aligned, H means halfword-aligned, neither means ++byte-aligned (no alignment.) SUB5 is the same relocation as 16S. */ ++ BFD_RELOC_AVR32_21S, ++ BFD_RELOC_AVR32_16U, ++ BFD_RELOC_AVR32_16S, ++ BFD_RELOC_AVR32_SUB5, ++ BFD_RELOC_AVR32_8S_EXT, ++ BFD_RELOC_AVR32_8S, ++ BFD_RELOC_AVR32_15S, ++ ++/* PC-relative relocations are signed if neither 'U' nor 'S' is ++specified. However, we explicitly tack on a 'B' to indicate no ++alignment, to avoid confusion with data relocs. All of these resolve ++to sym + addend - offset, except the one with 'N' (negated) suffix. ++This particular one resolves to offset - sym - addend. */ ++ BFD_RELOC_AVR32_22H_PCREL, ++ BFD_RELOC_AVR32_18W_PCREL, ++ BFD_RELOC_AVR32_16B_PCREL, ++ BFD_RELOC_AVR32_16N_PCREL, ++ BFD_RELOC_AVR32_14UW_PCREL, ++ BFD_RELOC_AVR32_11H_PCREL, ++ BFD_RELOC_AVR32_10UW_PCREL, ++ BFD_RELOC_AVR32_9H_PCREL, ++ BFD_RELOC_AVR32_9UW_PCREL, ++ ++/* Subtract the link-time address of the GOT from (symbol + addend) ++and insert the result. */ ++ BFD_RELOC_AVR32_GOTPC, ++ ++/* Reference to a symbol through the GOT. The linker will allocate an ++entry for symbol in the GOT and insert the offset of this entry as ++the relocation value. addend must be zero. As usual, 'S' means ++signed, 'W' means word-aligned, etc. */ ++ BFD_RELOC_AVR32_GOTCALL, ++ BFD_RELOC_AVR32_LDA_GOT, ++ BFD_RELOC_AVR32_GOT21S, ++ BFD_RELOC_AVR32_GOT18SW, ++ BFD_RELOC_AVR32_GOT16S, ++ ++/* 32-bit constant pool entry. I don't think 8- and 16-bit entries make ++a whole lot of sense. */ ++ BFD_RELOC_AVR32_32_CPENT, ++ ++/* Constant pool references. Some of these relocations are signed, ++others are unsigned. It doesn't really matter, since the constant ++pool always comes after the code that references it. */ ++ BFD_RELOC_AVR32_CPCALL, ++ BFD_RELOC_AVR32_16_CP, ++ BFD_RELOC_AVR32_9W_CP, ++ ++/* sym must be the absolute symbol. The addend specifies the alignment ++order, e.g. if addend is 2, the linker must add padding so that the ++next address is aligned to a 4-byte boundary. */ ++ BFD_RELOC_AVR32_ALIGN, ++ ++/* Code relocations that will never make it to the output file. */ ++ BFD_RELOC_AVR32_14UW, ++ BFD_RELOC_AVR32_10UW, ++ BFD_RELOC_AVR32_10SW, ++ BFD_RELOC_AVR32_STHH_W, ++ BFD_RELOC_AVR32_7UW, ++ BFD_RELOC_AVR32_6S, ++ BFD_RELOC_AVR32_6UW, ++ BFD_RELOC_AVR32_4UH, ++ BFD_RELOC_AVR32_3U, ++ + /* Direct 12 bit. */ + BFD_RELOC_390_12, + +--- a/bfd/config.bfd ++++ b/bfd/config.bfd +@@ -336,6 +336,10 @@ case "${targ}" in + targ_underscore=yes + ;; + ++ avr32-*-*) ++ targ_defvec=bfd_elf32_avr32_vec ++ ;; ++ + c30-*-*aout* | tic30-*-*aout*) + targ_defvec=tic30_aout_vec + ;; +--- a/bfd/configure ++++ b/bfd/configure +@@ -19639,6 +19639,7 @@ do + bfd_efi_rtdrv_ia64_vec) tb="$tb efi-rtdrv-ia64.lo pepigen.lo cofflink.lo"; target_size=64 ;; + bfd_elf32_am33lin_vec) tb="$tb elf32-am33lin.lo elf32.lo $elf" ;; + bfd_elf32_avr_vec) tb="$tb elf32-avr.lo elf32.lo $elf" ;; ++ bfd_elf32_avr32_vec) tb="$tb elf32-avr32.lo elf32.lo $elf" ;; + bfd_elf32_bfin_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_bfinfdpic_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_big_generic_vec) tb="$tb elf32-gen.lo elf32.lo $elf" ;; +--- a/bfd/configure.in ++++ b/bfd/configure.in +@@ -632,6 +632,7 @@ do + bfd_efi_rtdrv_ia64_vec) tb="$tb efi-rtdrv-ia64.lo pepigen.lo cofflink.lo"; target_size=64 ;; + bfd_elf32_am33lin_vec) tb="$tb elf32-am33lin.lo elf32.lo $elf" ;; + bfd_elf32_avr_vec) tb="$tb elf32-avr.lo elf32.lo $elf" ;; ++ bfd_elf32_avr32_vec) tb="$tb elf32-avr32.lo elf32.lo $elf" ;; + bfd_elf32_bfin_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_bfinfdpic_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_big_generic_vec) tb="$tb elf32-gen.lo elf32.lo $elf" ;; +--- /dev/null ++++ b/bfd/cpu-avr32.c +@@ -0,0 +1,52 @@ ++/* BFD library support routines for AVR32. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2 of the License, or ++ (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, ++ but WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ GNU General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ ++ ++#include "bfd.h" ++#include "sysdep.h" ++#include "libbfd.h" ++ ++#define N(machine, print, default, next) \ ++ { \ ++ 32, /* 32 bits in a word */ \ ++ 32, /* 32 bits in an address */ \ ++ 8, /* 8 bits in a byte */ \ ++ bfd_arch_avr32, /* architecture */ \ ++ machine, /* machine */ \ ++ "avr32", /* arch name */ \ ++ print, /* printable name */ \ ++ 1, /* section align power */ \ ++ default, /* the default machine? */ \ ++ bfd_default_compatible, \ ++ bfd_default_scan, \ ++ next, \ ++ } ++ ++static const bfd_arch_info_type cpu_info[] = ++{ ++ N(bfd_mach_avr32_ap, "avr32:ap", FALSE, &cpu_info[1]), ++ N(bfd_mach_avr32_uc, "avr32:uc", FALSE, &cpu_info[2]), ++ N(bfd_mach_avr32_ucr1, "avr32:ucr1", FALSE, &cpu_info[3]), ++ N(bfd_mach_avr32_ucr2, "avr32:ucr2", FALSE, &cpu_info[4]), ++ N(bfd_mach_avr32_ucr3, "avr32:ucr3", FALSE, NULL), ++}; ++ ++const bfd_arch_info_type bfd_avr32_arch = ++ N(bfd_mach_avr32_ap, "avr32", TRUE, &cpu_info[0]); +--- /dev/null ++++ b/bfd/elf32-avr32.c +@@ -0,0 +1,3915 @@ ++/* AVR32-specific support for 32-bit ELF. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2 of the License, or ++ (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, ++ but WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ GNU General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ ++ ++#include "bfd.h" ++#include "sysdep.h" ++#include "bfdlink.h" ++#include "libbfd.h" ++#include "elf-bfd.h" ++#include "elf/avr32.h" ++#include "elf32-avr32.h" ++ ++#define xDEBUG ++#define xRELAX_DEBUG ++ ++#ifdef DEBUG ++# define pr_debug(fmt, args...) fprintf(stderr, fmt, ##args) ++#else ++# define pr_debug(fmt, args...) do { } while (0) ++#endif ++ ++#ifdef RELAX_DEBUG ++# define RDBG(fmt, args...) fprintf(stderr, fmt, ##args) ++#else ++# define RDBG(fmt, args...) do { } while (0) ++#endif ++ ++/* When things go wrong, we want it to blow up, damnit! */ ++#undef BFD_ASSERT ++#undef abort ++#define BFD_ASSERT(expr) \ ++ do \ ++ { \ ++ if (!(expr)) \ ++ { \ ++ bfd_assert(__FILE__, __LINE__); \ ++ abort(); \ ++ } \ ++ } \ ++ while (0) ++ ++/* The name of the dynamic interpreter. This is put in the .interp section. */ ++#define ELF_DYNAMIC_INTERPRETER "/lib/ld.so.1" ++ ++#define AVR32_GOT_HEADER_SIZE 8 ++#define AVR32_FUNCTION_STUB_SIZE 8 ++ ++#define ELF_R_INFO(x, y) ELF32_R_INFO(x, y) ++#define ELF_R_TYPE(x) ELF32_R_TYPE(x) ++#define ELF_R_SYM(x) ELF32_R_SYM(x) ++ ++#define NOP_OPCODE 0xd703 ++ ++ ++/* Mapping between BFD relocations and ELF relocations */ ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_type_lookup(bfd *abfd, bfd_reloc_code_real_type code); ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_name_lookup(bfd *abfd, const char *r_name); ++ ++static void ++avr32_info_to_howto (bfd *abfd, arelent *cache_ptr, Elf_Internal_Rela *dst); ++ ++/* Generic HOWTO */ ++#define GENH(name, align, size, bitsize, pcrel, bitpos, complain, mask) \ ++ HOWTO(name, align, size, bitsize, pcrel, bitpos, \ ++ complain_overflow_##complain, bfd_elf_generic_reloc, #name, \ ++ FALSE, 0, mask, pcrel) ++ ++static reloc_howto_type elf_avr32_howto_table[] = { ++ /* NAME ALN SZ BSZ PCREL BP COMPLAIN MASK */ ++ GENH(R_AVR32_NONE, 0, 0, 0, FALSE, 0, dont, 0x00000000), ++ ++ GENH(R_AVR32_32, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_16, 0, 1, 16, FALSE, 0, bitfield, 0x0000ffff), ++ GENH(R_AVR32_8, 0, 0, 8, FALSE, 0, bitfield, 0x000000ff), ++ GENH(R_AVR32_32_PCREL, 0, 2, 32, TRUE, 0, signed, 0xffffffff), ++ GENH(R_AVR32_16_PCREL, 0, 1, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_8_PCREL, 0, 0, 8, TRUE, 0, signed, 0x000000ff), ++ ++ /* Difference between two symbol (sym2 - sym1). The reloc encodes ++ the value of sym1. The field contains the difference before any ++ relaxing is done. */ ++ GENH(R_AVR32_DIFF32, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_DIFF16, 0, 1, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_DIFF8, 0, 0, 8, FALSE, 0, signed, 0x000000ff), ++ ++ GENH(R_AVR32_GOT32, 0, 2, 32, FALSE, 0, signed, 0xffffffff), ++ GENH(R_AVR32_GOT16, 0, 1, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_GOT8, 0, 0, 8, FALSE, 0, signed, 0x000000ff), ++ ++ GENH(R_AVR32_21S, 0, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_16U, 0, 2, 16, FALSE, 0, unsigned, 0x0000ffff), ++ GENH(R_AVR32_16S, 0, 2, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_8S, 0, 1, 8, FALSE, 4, signed, 0x00000ff0), ++ GENH(R_AVR32_8S_EXT, 0, 2, 8, FALSE, 0, signed, 0x000000ff), ++ ++ GENH(R_AVR32_22H_PCREL, 1, 2, 21, TRUE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_18W_PCREL, 2, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_16B_PCREL, 0, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_16N_PCREL, 0, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_14UW_PCREL, 2, 2, 12, TRUE, 0, unsigned, 0x0000f0ff), ++ GENH(R_AVR32_11H_PCREL, 1, 1, 10, TRUE, 4, signed, 0x00000ff3), ++ GENH(R_AVR32_10UW_PCREL, 2, 2, 8, TRUE, 0, unsigned, 0x000000ff), ++ GENH(R_AVR32_9H_PCREL, 1, 1, 8, TRUE, 4, signed, 0x00000ff0), ++ GENH(R_AVR32_9UW_PCREL, 2, 1, 7, TRUE, 4, unsigned, 0x000007f0), ++ ++ GENH(R_AVR32_HI16, 16, 2, 16, FALSE, 0, dont, 0x0000ffff), ++ GENH(R_AVR32_LO16, 0, 2, 16, FALSE, 0, dont, 0x0000ffff), ++ ++ GENH(R_AVR32_GOTPC, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_GOTCALL, 2, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_LDA_GOT, 2, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_GOT21S, 0, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_GOT18SW, 2, 2, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_GOT16S, 0, 2, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_GOT7UW, 2, 1, 5, FALSE, 4, unsigned, 0x000001f0), ++ ++ GENH(R_AVR32_32_CPENT, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_CPCALL, 2, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_16_CP, 0, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_9W_CP, 2, 1, 7, TRUE, 4, unsigned, 0x000007f0), ++ ++ GENH(R_AVR32_RELATIVE, 0, 2, 32, FALSE, 0, signed, 0xffffffff), ++ GENH(R_AVR32_GLOB_DAT, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_JMP_SLOT, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ ++ GENH(R_AVR32_ALIGN, 0, 1, 0, FALSE, 0, unsigned, 0x00000000), ++ ++ GENH(R_AVR32_15S, 2, 2, 15, FALSE, 0, signed, 0x00007fff), ++}; ++ ++struct elf_reloc_map ++{ ++ bfd_reloc_code_real_type bfd_reloc_val; ++ unsigned char elf_reloc_val; ++}; ++ ++static const struct elf_reloc_map avr32_reloc_map[] = ++{ ++ { BFD_RELOC_NONE, R_AVR32_NONE }, ++ ++ { BFD_RELOC_32, R_AVR32_32 }, ++ { BFD_RELOC_16, R_AVR32_16 }, ++ { BFD_RELOC_8, R_AVR32_8 }, ++ { BFD_RELOC_32_PCREL, R_AVR32_32_PCREL }, ++ { BFD_RELOC_16_PCREL, R_AVR32_16_PCREL }, ++ { BFD_RELOC_8_PCREL, R_AVR32_8_PCREL }, ++ { BFD_RELOC_AVR32_DIFF32, R_AVR32_DIFF32 }, ++ { BFD_RELOC_AVR32_DIFF16, R_AVR32_DIFF16 }, ++ { BFD_RELOC_AVR32_DIFF8, R_AVR32_DIFF8 }, ++ { BFD_RELOC_AVR32_GOT32, R_AVR32_GOT32 }, ++ { BFD_RELOC_AVR32_GOT16, R_AVR32_GOT16 }, ++ { BFD_RELOC_AVR32_GOT8, R_AVR32_GOT8 }, ++ ++ { BFD_RELOC_AVR32_21S, R_AVR32_21S }, ++ { BFD_RELOC_AVR32_16U, R_AVR32_16U }, ++ { BFD_RELOC_AVR32_16S, R_AVR32_16S }, ++ { BFD_RELOC_AVR32_SUB5, R_AVR32_16S }, ++ { BFD_RELOC_AVR32_8S_EXT, R_AVR32_8S_EXT }, ++ { BFD_RELOC_AVR32_8S, R_AVR32_8S }, ++ ++ { BFD_RELOC_AVR32_22H_PCREL, R_AVR32_22H_PCREL }, ++ { BFD_RELOC_AVR32_18W_PCREL, R_AVR32_18W_PCREL }, ++ { BFD_RELOC_AVR32_16B_PCREL, R_AVR32_16B_PCREL }, ++ { BFD_RELOC_AVR32_16N_PCREL, R_AVR32_16N_PCREL }, ++ { BFD_RELOC_AVR32_11H_PCREL, R_AVR32_11H_PCREL }, ++ { BFD_RELOC_AVR32_10UW_PCREL, R_AVR32_10UW_PCREL }, ++ { BFD_RELOC_AVR32_9H_PCREL, R_AVR32_9H_PCREL }, ++ { BFD_RELOC_AVR32_9UW_PCREL, R_AVR32_9UW_PCREL }, ++ ++ { BFD_RELOC_HI16, R_AVR32_HI16 }, ++ { BFD_RELOC_LO16, R_AVR32_LO16 }, ++ ++ { BFD_RELOC_AVR32_GOTPC, R_AVR32_GOTPC }, ++ { BFD_RELOC_AVR32_GOTCALL, R_AVR32_GOTCALL }, ++ { BFD_RELOC_AVR32_LDA_GOT, R_AVR32_LDA_GOT }, ++ { BFD_RELOC_AVR32_GOT21S, R_AVR32_GOT21S }, ++ { BFD_RELOC_AVR32_GOT18SW, R_AVR32_GOT18SW }, ++ { BFD_RELOC_AVR32_GOT16S, R_AVR32_GOT16S }, ++ /* GOT7UW should never be generated by the assembler */ ++ ++ { BFD_RELOC_AVR32_32_CPENT, R_AVR32_32_CPENT }, ++ { BFD_RELOC_AVR32_CPCALL, R_AVR32_CPCALL }, ++ { BFD_RELOC_AVR32_16_CP, R_AVR32_16_CP }, ++ { BFD_RELOC_AVR32_9W_CP, R_AVR32_9W_CP }, ++ ++ { BFD_RELOC_AVR32_ALIGN, R_AVR32_ALIGN }, ++ ++ { BFD_RELOC_AVR32_15S, R_AVR32_15S }, ++}; ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_type_lookup (bfd *abfd ATTRIBUTE_UNUSED, ++ bfd_reloc_code_real_type code) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < sizeof(avr32_reloc_map) / sizeof(struct elf_reloc_map); i++) ++ { ++ if (avr32_reloc_map[i].bfd_reloc_val == code) ++ return &elf_avr32_howto_table[avr32_reloc_map[i].elf_reloc_val]; ++ } ++ ++ return NULL; ++} ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_name_lookup (bfd *abfd ATTRIBUTE_UNUSED, ++ const char *r_name) ++{ ++ unsigned int i; ++ ++ for (i = 0; ++ i < sizeof (elf_avr32_howto_table) / sizeof (elf_avr32_howto_table[0]); ++ i++) ++ if (elf_avr32_howto_table[i].name != NULL ++ && strcasecmp (elf_avr32_howto_table[i].name, r_name) == 0) ++ return &elf_avr32_howto_table[i]; ++ ++ return NULL; ++} ++ ++/* Set the howto pointer for an AVR32 ELF reloc. */ ++static void ++avr32_info_to_howto (bfd *abfd ATTRIBUTE_UNUSED, ++ arelent *cache_ptr, ++ Elf_Internal_Rela *dst) ++{ ++ unsigned int r_type; ++ ++ r_type = ELF32_R_TYPE (dst->r_info); ++ BFD_ASSERT (r_type < (unsigned int) R_AVR32_max); ++ cache_ptr->howto = &elf_avr32_howto_table[r_type]; ++} ++ ++ ++/* AVR32 ELF linker hash table and associated hash entries. */ ++ ++static struct bfd_hash_entry * ++avr32_elf_link_hash_newfunc(struct bfd_hash_entry *entry, ++ struct bfd_hash_table *table, ++ const char *string); ++static void ++avr32_elf_copy_indirect_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *dir, ++ struct elf_link_hash_entry *ind); ++static struct bfd_link_hash_table * ++avr32_elf_link_hash_table_create(bfd *abfd); ++ ++/* ++ Try to limit memory usage to something reasonable when sorting the ++ GOT. If just a couple of entries end up getting more references ++ than this, it won't affect performance at all, but if there are many ++ of them, we could end up with the wrong symbols being assigned the ++ first GOT entries. ++*/ ++#define MAX_NR_GOT_HOLES 2048 ++ ++/* ++ AVR32 GOT entry. We need to keep track of refcounts and offsets ++ simultaneously, since we need the offsets during relaxation, and we ++ also want to be able to drop GOT entries during relaxation. In ++ addition to this, we want to keep the list of GOT entries sorted so ++ that we can keep the most-used entries at the lowest offsets. ++*/ ++struct got_entry ++{ ++ struct got_entry *next; ++ struct got_entry **pprev; ++ int refcount; ++ bfd_signed_vma offset; ++}; ++ ++struct elf_avr32_link_hash_entry ++{ ++ struct elf_link_hash_entry root; ++ ++ /* Number of runtime relocations against this symbol. */ ++ unsigned int possibly_dynamic_relocs; ++ ++ /* If there are anything but R_AVR32_GOT18 relocations against this ++ symbol, it means that someone may be taking the address of the ++ function, and we should therefore not create a stub. */ ++ bfd_boolean no_fn_stub; ++ ++ /* If there is a R_AVR32_32 relocation in a read-only section ++ against this symbol, we could be in trouble. If we're linking a ++ shared library or this symbol is defined in one, it means we must ++ emit a run-time reloc for it and that's not allowed in read-only ++ sections. */ ++ asection *readonly_reloc_sec; ++ bfd_vma readonly_reloc_offset; ++ ++ /* Record which frag (if any) contains the symbol. This is used ++ during relaxation in order to avoid having to update all symbols ++ whenever we move something. For local symbols, this information ++ is in the local_sym_frag member of struct elf_obj_tdata. */ ++ struct fragment *sym_frag; ++}; ++#define avr32_elf_hash_entry(ent) ((struct elf_avr32_link_hash_entry *)(ent)) ++ ++struct elf_avr32_link_hash_table ++{ ++ struct elf_link_hash_table root; ++ ++ /* Shortcuts to get to dynamic linker sections. */ ++ asection *sgot; ++ asection *srelgot; ++ asection *sstub; ++ ++ /* We use a variation of Pigeonhole Sort to sort the GOT. After the ++ initial refcounts have been determined, we initialize ++ nr_got_holes to the highest refcount ever seen and allocate an ++ array of nr_got_holes entries for got_hole. Each GOT entry is ++ then stored in this array at the index given by its refcount. ++ ++ When a GOT entry has its refcount decremented during relaxation, ++ it is moved to a lower index in the got_hole array. ++ */ ++ struct got_entry **got_hole; ++ int nr_got_holes; ++ ++ /* Dynamic relocations to local symbols. Only used when linking a ++ shared library and -Bsymbolic is not given. */ ++ unsigned int local_dynamic_relocs; ++ ++ bfd_boolean relocations_analyzed; ++ bfd_boolean symbols_adjusted; ++ bfd_boolean repeat_pass; ++ bfd_boolean direct_data_refs; ++ unsigned int relax_iteration; ++ unsigned int relax_pass; ++}; ++#define avr32_elf_hash_table(p) \ ++ ((struct elf_avr32_link_hash_table *)((p)->hash)) ++ ++static struct bfd_hash_entry * ++avr32_elf_link_hash_newfunc(struct bfd_hash_entry *entry, ++ struct bfd_hash_table *table, ++ const char *string) ++{ ++ struct elf_avr32_link_hash_entry *ret = avr32_elf_hash_entry(entry); ++ ++ /* Allocate the structure if it hasn't already been allocated by a ++ subclass */ ++ if (ret == NULL) ++ ret = (struct elf_avr32_link_hash_entry *) ++ bfd_hash_allocate(table, sizeof(struct elf_avr32_link_hash_entry)); ++ ++ if (ret == NULL) ++ return NULL; ++ ++ memset(ret, 0, sizeof(struct elf_avr32_link_hash_entry)); ++ ++ /* Give the superclass a chance */ ++ ret = (struct elf_avr32_link_hash_entry *) ++ _bfd_elf_link_hash_newfunc((struct bfd_hash_entry *)ret, table, string); ++ ++ return (struct bfd_hash_entry *)ret; ++} ++ ++/* Copy data from an indirect symbol to its direct symbol, hiding the ++ old indirect symbol. Process additional relocation information. ++ Also called for weakdefs, in which case we just let ++ _bfd_elf_link_hash_copy_indirect copy the flags for us. */ ++ ++static void ++avr32_elf_copy_indirect_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *dir, ++ struct elf_link_hash_entry *ind) ++{ ++ struct elf_avr32_link_hash_entry *edir, *eind; ++ ++ _bfd_elf_link_hash_copy_indirect (info, dir, ind); ++ ++ if (ind->root.type != bfd_link_hash_indirect) ++ return; ++ ++ edir = (struct elf_avr32_link_hash_entry *)dir; ++ eind = (struct elf_avr32_link_hash_entry *)ind; ++ ++ edir->possibly_dynamic_relocs += eind->possibly_dynamic_relocs; ++ edir->no_fn_stub = edir->no_fn_stub || eind->no_fn_stub; ++} ++ ++static struct bfd_link_hash_table * ++avr32_elf_link_hash_table_create(bfd *abfd) ++{ ++ struct elf_avr32_link_hash_table *ret; ++ ++ ret = bfd_zmalloc(sizeof(*ret)); ++ if (ret == NULL) ++ return NULL; ++ ++ if (! _bfd_elf_link_hash_table_init(&ret->root, abfd, ++ avr32_elf_link_hash_newfunc, ++ sizeof (struct elf_avr32_link_hash_entry))) ++ { ++ free(ret); ++ return NULL; ++ } ++ ++ /* Prevent the BFD core from creating bogus got_entry pointers */ ++ ret->root.init_got_refcount.glist = NULL; ++ ret->root.init_plt_refcount.glist = NULL; ++ ret->root.init_got_offset.glist = NULL; ++ ret->root.init_plt_offset.glist = NULL; ++ ++ return &ret->root.root; ++} ++ ++ ++/* Initial analysis and creation of dynamic sections and symbols */ ++ ++static asection * ++create_dynamic_section(bfd *dynobj, const char *name, flagword flags, ++ unsigned int align_power); ++static struct elf_link_hash_entry * ++create_dynamic_symbol(bfd *dynobj, struct bfd_link_info *info, ++ const char *name, asection *sec, ++ bfd_vma offset); ++static bfd_boolean ++avr32_elf_create_got_section (bfd *dynobj, struct bfd_link_info *info); ++static bfd_boolean ++avr32_elf_create_dynamic_sections (bfd *dynobj, struct bfd_link_info *info); ++static bfd_boolean ++avr32_check_relocs (bfd *abfd, struct bfd_link_info *info, asection *sec, ++ const Elf_Internal_Rela *relocs); ++static bfd_boolean ++avr32_elf_adjust_dynamic_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *h); ++ ++static asection * ++create_dynamic_section(bfd *dynobj, const char *name, flagword flags, ++ unsigned int align_power) ++{ ++ asection *sec; ++ ++ sec = bfd_make_section(dynobj, name); ++ if (!sec ++ || !bfd_set_section_flags(dynobj, sec, flags) ++ || !bfd_set_section_alignment(dynobj, sec, align_power)) ++ return NULL; ++ ++ return sec; ++} ++ ++static struct elf_link_hash_entry * ++create_dynamic_symbol(bfd *dynobj, struct bfd_link_info *info, ++ const char *name, asection *sec, ++ bfd_vma offset) ++{ ++ struct bfd_link_hash_entry *bh = NULL; ++ struct elf_link_hash_entry *h; ++ const struct elf_backend_data *bed = get_elf_backend_data (dynobj); ++ ++ if (!(_bfd_generic_link_add_one_symbol ++ (info, dynobj, name, BSF_GLOBAL, sec, offset, NULL, FALSE, ++ bed->collect, &bh))) ++ return NULL; ++ ++ h = (struct elf_link_hash_entry *)bh; ++ h->def_regular = 1; ++ h->type = STT_OBJECT; ++ h->other = STV_HIDDEN; ++ ++ return h; ++} ++ ++static bfd_boolean ++avr32_elf_create_got_section (bfd *dynobj, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ flagword flags; ++ const struct elf_backend_data *bed = get_elf_backend_data (dynobj); ++ ++ htab = avr32_elf_hash_table(info); ++ flags = bed->dynamic_sec_flags; ++ ++ if (htab->sgot) ++ return TRUE; ++ ++ htab->sgot = create_dynamic_section(dynobj, ".got", flags, 2); ++ if (!htab->srelgot) ++ htab->srelgot = create_dynamic_section(dynobj, ".rela.got", ++ flags | SEC_READONLY, 2); ++ ++ if (!htab->sgot || !htab->srelgot) ++ return FALSE; ++ ++ htab->root.hgot = create_dynamic_symbol(dynobj, info, "_GLOBAL_OFFSET_TABLE_", ++ htab->sgot, 0); ++ if (!htab->root.hgot) ++ return FALSE; ++ ++ /* Make room for the GOT header */ ++ htab->sgot->size += bed->got_header_size; ++ ++ return TRUE; ++} ++ ++/* (1) Create all dynamic (i.e. linker generated) sections that we may ++ need during the link */ ++ ++static bfd_boolean ++avr32_elf_create_dynamic_sections (bfd *dynobj, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ flagword flags; ++ const struct elf_backend_data *bed = get_elf_backend_data (dynobj); ++ ++ pr_debug("(1) create dynamic sections\n"); ++ ++ htab = avr32_elf_hash_table(info); ++ flags = bed->dynamic_sec_flags; ++ ++ if (!avr32_elf_create_got_section (dynobj, info)) ++ return FALSE; ++ ++ if (!htab->sstub) ++ htab->sstub = create_dynamic_section(dynobj, ".stub", ++ flags | SEC_READONLY | SEC_CODE, 2); ++ ++ if (!htab->sstub) ++ return FALSE; ++ ++ return TRUE; ++} ++ ++/* (2) Go through all the relocs and count any potential GOT- or ++ PLT-references to each symbol */ ++ ++static bfd_boolean ++avr32_check_relocs (bfd *abfd, struct bfd_link_info *info, asection *sec, ++ const Elf_Internal_Rela *relocs) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ struct elf_avr32_link_hash_table *htab; ++ struct elf_link_hash_entry **sym_hashes; ++ const Elf_Internal_Rela *rel, *rel_end; ++ struct got_entry **local_got_ents; ++ struct got_entry *got; ++ const struct elf_backend_data *bed = get_elf_backend_data (abfd); ++ asection *sgot; ++ bfd *dynobj; ++ ++ pr_debug("(2) check relocs for %s:<%s> (size 0x%lx)\n", ++ abfd->filename, sec->name, sec->size); ++ ++ if (info->relocatable) ++ return TRUE; ++ ++ dynobj = elf_hash_table(info)->dynobj; ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ sym_hashes = elf_sym_hashes(abfd); ++ htab = avr32_elf_hash_table(info); ++ local_got_ents = elf_local_got_ents(abfd); ++ sgot = htab->sgot; ++ ++ rel_end = relocs + sec->reloc_count; ++ for (rel = relocs; rel < rel_end; rel++) ++ { ++ unsigned long r_symndx, r_type; ++ struct elf_avr32_link_hash_entry *h; ++ ++ r_symndx = ELF32_R_SYM(rel->r_info); ++ r_type = ELF32_R_TYPE(rel->r_info); ++ ++ /* Local symbols use local_got_ents, while others store the same ++ information in the hash entry */ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ pr_debug(" (2a) processing local symbol %lu\n", r_symndx); ++ h = NULL; ++ } ++ else ++ { ++ h = (struct elf_avr32_link_hash_entry *) ++ sym_hashes[r_symndx - symtab_hdr->sh_info]; ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_avr32_link_hash_entry *)h->root.root.u.i.link; ++ pr_debug(" (2a) processing symbol %s\n", h->root.root.root.string); ++ } ++ ++ /* Some relocs require special sections to be created. */ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ if (rel->r_addend) ++ { ++ if (info->callbacks->reloc_dangerous ++ (info, _("Non-zero addend on GOT-relative relocation"), ++ abfd, sec, rel->r_offset) == FALSE) ++ return FALSE; ++ } ++ /* fall through */ ++ case R_AVR32_GOTPC: ++ if (dynobj == NULL) ++ elf_hash_table(info)->dynobj = dynobj = abfd; ++ if (sgot == NULL && !avr32_elf_create_got_section(dynobj, info)) ++ return FALSE; ++ break; ++ case R_AVR32_32: ++ /* We may need to create .rela.dyn later on. */ ++ if (dynobj == NULL ++ && (info->shared || h != NULL) ++ && (sec->flags & SEC_ALLOC)) ++ elf_hash_table(info)->dynobj = dynobj = abfd; ++ break; ++ } ++ ++ if (h != NULL && r_type != R_AVR32_GOT18SW) ++ h->no_fn_stub = TRUE; ++ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ if (h != NULL) ++ { ++ got = h->root.got.glist; ++ if (!got) ++ { ++ got = bfd_zalloc(abfd, sizeof(struct got_entry)); ++ if (!got) ++ return FALSE; ++ h->root.got.glist = got; ++ } ++ } ++ else ++ { ++ if (!local_got_ents) ++ { ++ bfd_size_type size; ++ bfd_size_type i; ++ struct got_entry *tmp_entry; ++ ++ size = symtab_hdr->sh_info; ++ size *= sizeof(struct got_entry *) + sizeof(struct got_entry); ++ local_got_ents = bfd_zalloc(abfd, size); ++ if (!local_got_ents) ++ return FALSE; ++ ++ elf_local_got_ents(abfd) = local_got_ents; ++ ++ tmp_entry = (struct got_entry *)(local_got_ents ++ + symtab_hdr->sh_info); ++ for (i = 0; i < symtab_hdr->sh_info; i++) ++ local_got_ents[i] = &tmp_entry[i]; ++ } ++ ++ got = local_got_ents[r_symndx]; ++ } ++ ++ got->refcount++; ++ if (got->refcount > htab->nr_got_holes) ++ htab->nr_got_holes = got->refcount; ++ break; ++ ++ case R_AVR32_32: ++ if ((info->shared || h != NULL) ++ && (sec->flags & SEC_ALLOC)) ++ { ++ if (htab->srelgot == NULL) ++ { ++ htab->srelgot = create_dynamic_section(dynobj, ".rela.got", ++ bed->dynamic_sec_flags ++ | SEC_READONLY, 2); ++ if (htab->srelgot == NULL) ++ return FALSE; ++ } ++ ++ if (sec->flags & SEC_READONLY ++ && !h->readonly_reloc_sec) ++ { ++ h->readonly_reloc_sec = sec; ++ h->readonly_reloc_offset = rel->r_offset; ++ } ++ ++ if (h != NULL) ++ { ++ pr_debug("Non-GOT reference to symbol %s\n", ++ h->root.root.root.string); ++ h->possibly_dynamic_relocs++; ++ } ++ else ++ { ++ pr_debug("Non-GOT reference to local symbol %lu\n", ++ r_symndx); ++ htab->local_dynamic_relocs++; ++ } ++ } ++ ++ break; ++ ++ /* TODO: GNU_VTINHERIT and GNU_VTENTRY */ ++ } ++ } ++ ++ return TRUE; ++} ++ ++/* (3) Adjust a symbol defined by a dynamic object and referenced by a ++ regular object. The current definition is in some section of the ++ dynamic object, but we're not including those sections. We have to ++ change the definition to something the rest of the link can ++ understand. */ ++ ++static bfd_boolean ++avr32_elf_adjust_dynamic_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *h) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct elf_avr32_link_hash_entry *havr; ++ bfd *dynobj; ++ ++ pr_debug("(3) adjust dynamic symbol %s\n", h->root.root.string); ++ ++ htab = avr32_elf_hash_table(info); ++ havr = (struct elf_avr32_link_hash_entry *)h; ++ dynobj = elf_hash_table(info)->dynobj; ++ ++ /* Make sure we know what is going on here. */ ++ BFD_ASSERT (dynobj != NULL ++ && (h->u.weakdef != NULL ++ || (h->def_dynamic ++ && h->ref_regular ++ && !h->def_regular))); ++ ++ /* We don't want dynamic relocations in read-only sections. */ ++ if (havr->readonly_reloc_sec) ++ { ++ if (info->callbacks->reloc_dangerous ++ (info, _("dynamic relocation in read-only section"), ++ havr->readonly_reloc_sec->owner, havr->readonly_reloc_sec, ++ havr->readonly_reloc_offset) == FALSE) ++ return FALSE; ++ } ++ ++ /* If this is a function, create a stub if possible and set the ++ symbol to the stub location. */ ++ if (0 && !havr->no_fn_stub) ++ { ++ if (!h->def_regular) ++ { ++ asection *s = htab->sstub; ++ ++ BFD_ASSERT(s != NULL); ++ ++ h->root.u.def.section = s; ++ h->root.u.def.value = s->size; ++ h->plt.offset = s->size; ++ s->size += AVR32_FUNCTION_STUB_SIZE; ++ ++ return TRUE; ++ } ++ } ++ else if (h->type == STT_FUNC) ++ { ++ /* This will set the entry for this symbol in the GOT to 0, and ++ the dynamic linker will take care of this. */ ++ h->root.u.def.value = 0; ++ return TRUE; ++ } ++ ++ /* If this is a weak symbol, and there is a real definition, the ++ processor independent code will have arranged for us to see the ++ real definition first, and we can just use the same value. */ ++ if (h->u.weakdef != NULL) ++ { ++ BFD_ASSERT(h->u.weakdef->root.type == bfd_link_hash_defined ++ || h->u.weakdef->root.type == bfd_link_hash_defweak); ++ h->root.u.def.section = h->u.weakdef->root.u.def.section; ++ h->root.u.def.value = h->u.weakdef->root.u.def.value; ++ return TRUE; ++ } ++ ++ /* This is a reference to a symbol defined by a dynamic object which ++ is not a function. */ ++ ++ return TRUE; ++} ++ ++ ++/* Garbage-collection of unused sections */ ++ ++static asection * ++avr32_elf_gc_mark_hook(asection *sec, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED, ++ Elf_Internal_Rela *rel, ++ struct elf_link_hash_entry *h, ++ Elf_Internal_Sym *sym) ++{ ++ if (h) ++ { ++ switch (ELF32_R_TYPE(rel->r_info)) ++ { ++ /* TODO: VTINHERIT/VTENTRY */ ++ default: ++ switch (h->root.type) ++ { ++ case bfd_link_hash_defined: ++ case bfd_link_hash_defweak: ++ return h->root.u.def.section; ++ ++ case bfd_link_hash_common: ++ return h->root.u.c.p->section; ++ ++ default: ++ break; ++ } ++ } ++ } ++ else ++ return bfd_section_from_elf_index(sec->owner, sym->st_shndx); ++ ++ return NULL; ++} ++ ++/* Update the GOT entry reference counts for the section being removed. */ ++static bfd_boolean ++avr32_elf_gc_sweep_hook(bfd *abfd, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED, ++ asection *sec, ++ const Elf_Internal_Rela *relocs) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ struct elf_avr32_link_hash_entry **sym_hashes; ++ struct got_entry **local_got_ents; ++ const Elf_Internal_Rela *rel, *relend; ++ ++ if (!(sec->flags & SEC_ALLOC)) ++ return TRUE; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ sym_hashes = (struct elf_avr32_link_hash_entry **)elf_sym_hashes(abfd); ++ local_got_ents = elf_local_got_ents(abfd); ++ ++ relend = relocs + sec->reloc_count; ++ for (rel = relocs; rel < relend; rel++) ++ { ++ unsigned long r_symndx; ++ unsigned int r_type; ++ struct elf_avr32_link_hash_entry *h = NULL; ++ ++ r_symndx = ELF32_R_SYM(rel->r_info); ++ if (r_symndx >= symtab_hdr->sh_info) ++ { ++ h = sym_hashes[r_symndx - symtab_hdr->sh_info]; ++ while (h->root.root.type == bfd_link_hash_indirect ++ || h->root.root.type == bfd_link_hash_warning) ++ h = (struct elf_avr32_link_hash_entry *)h->root.root.u.i.link; ++ } ++ ++ r_type = ELF32_R_TYPE(rel->r_info); ++ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ if (h) ++ h->root.got.glist->refcount--; ++ else ++ local_got_ents[r_symndx]->refcount--; ++ break; ++ ++ case R_AVR32_32: ++ if (info->shared || h) ++ { ++ if (h) ++ h->possibly_dynamic_relocs--; ++ else ++ avr32_elf_hash_table(info)->local_dynamic_relocs--; ++ } ++ ++ default: ++ break; ++ } ++ } ++ ++ return TRUE; ++} ++ ++/* Sizing and refcounting of dynamic sections */ ++ ++static void ++insert_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got); ++static void ++unref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got); ++static void ++ref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got); ++static bfd_boolean ++assign_got_offsets(struct elf_avr32_link_hash_table *htab); ++static bfd_boolean ++allocate_dynrelocs(struct elf_link_hash_entry *h, void *_info); ++static bfd_boolean ++avr32_elf_size_dynamic_sections (bfd *output_bfd, ++ struct bfd_link_info *info); ++ ++static void ++insert_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got) ++{ ++ /* Any entries with got_refcount > htab->nr_got_holes end up in the ++ * last pigeonhole without any sorting. We expect the number of such ++ * entries to be small, so it is very unlikely to affect ++ * performance. */ ++ int entry = got->refcount; ++ ++ if (entry > htab->nr_got_holes) ++ entry = htab->nr_got_holes; ++ ++ got->pprev = &htab->got_hole[entry]; ++ got->next = htab->got_hole[entry]; ++ ++ if (got->next) ++ got->next->pprev = &got->next; ++ ++ htab->got_hole[entry] = got; ++} ++ ++/* Decrement the refcount of a GOT entry and update its position in ++ the pigeonhole array. */ ++static void ++unref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got) ++{ ++ BFD_ASSERT(got->refcount > 0); ++ ++ if (got->next) ++ got->next->pprev = got->pprev; ++ ++ *(got->pprev) = got->next; ++ got->refcount--; ++ insert_got_entry(htab, got); ++} ++ ++static void ++ref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got) ++{ ++ if (got->next) ++ got->next->pprev = got->pprev; ++ ++ *(got->pprev) = got->next; ++ got->refcount++; ++ insert_got_entry(htab, got); ++ ++ BFD_ASSERT(got->refcount > 0); ++} ++ ++/* Assign offsets to all GOT entries we intend to keep. The entries ++ that are referenced most often are placed at low offsets so that we ++ can use compact instructions as much as possible. ++ ++ Returns TRUE if any offsets or the total size of the GOT changed. */ ++ ++static bfd_boolean ++assign_got_offsets(struct elf_avr32_link_hash_table *htab) ++{ ++ struct got_entry *got; ++ bfd_size_type got_size = 0; ++ bfd_boolean changed = FALSE; ++ bfd_signed_vma offset; ++ int i; ++ ++ /* The GOT header provides the address of the DYNAMIC segment, so ++ we need that even if the GOT is otherwise empty. */ ++ if (htab->root.dynamic_sections_created) ++ got_size = AVR32_GOT_HEADER_SIZE; ++ ++ for (i = htab->nr_got_holes; i > 0; i--) ++ { ++ got = htab->got_hole[i]; ++ while (got) ++ { ++ if (got->refcount > 0) ++ { ++ offset = got_size; ++ if (got->offset != offset) ++ { ++ RDBG("GOT offset changed: %ld -> %ld\n", ++ got->offset, offset); ++ changed = TRUE; ++ } ++ got->offset = offset; ++ got_size += 4; ++ } ++ got = got->next; ++ } ++ } ++ ++ if (htab->sgot->size != got_size) ++ { ++ RDBG("GOT size changed: %lu -> %lu\n", htab->sgot->size, ++ got_size); ++ changed = TRUE; ++ } ++ htab->sgot->size = got_size; ++ ++ RDBG("assign_got_offsets: total size %lu (%s)\n", ++ got_size, changed ? "changed" : "no change"); ++ ++ return changed; ++} ++ ++static bfd_boolean ++allocate_dynrelocs(struct elf_link_hash_entry *h, void *_info) ++{ ++ struct bfd_link_info *info = _info; ++ struct elf_avr32_link_hash_table *htab; ++ struct elf_avr32_link_hash_entry *havr; ++ struct got_entry *got; ++ ++ pr_debug(" (4b) allocate_dynrelocs: %s\n", h->root.root.string); ++ ++ if (h->root.type == bfd_link_hash_indirect) ++ return TRUE; ++ ++ if (h->root.type == bfd_link_hash_warning) ++ /* When warning symbols are created, they **replace** the "real" ++ entry in the hash table, thus we never get to see the real ++ symbol in a hash traversal. So look at it now. */ ++ h = (struct elf_link_hash_entry *) h->root.u.i.link; ++ ++ htab = avr32_elf_hash_table(info); ++ havr = (struct elf_avr32_link_hash_entry *)h; ++ ++ got = h->got.glist; ++ ++ /* If got is NULL, the symbol is never referenced through the GOT */ ++ if (got && got->refcount > 0) ++ { ++ insert_got_entry(htab, got); ++ ++ /* Shared libraries need relocs for all GOT entries unless the ++ symbol is forced local or -Bsymbolic is used. Others need ++ relocs for everything that is not guaranteed to be defined in ++ a regular object. */ ++ if ((info->shared ++ && !info->symbolic ++ && h->dynindx != -1) ++ || (htab->root.dynamic_sections_created ++ && h->def_dynamic ++ && !h->def_regular)) ++ htab->srelgot->size += sizeof(Elf32_External_Rela); ++ } ++ ++ if (havr->possibly_dynamic_relocs ++ && (info->shared ++ || (elf_hash_table(info)->dynamic_sections_created ++ && h->def_dynamic ++ && !h->def_regular))) ++ { ++ pr_debug("Allocating %d dynamic reloc against symbol %s...\n", ++ havr->possibly_dynamic_relocs, h->root.root.string); ++ htab->srelgot->size += (havr->possibly_dynamic_relocs ++ * sizeof(Elf32_External_Rela)); ++ } ++ ++ return TRUE; ++} ++ ++/* (4) Calculate the sizes of the linker-generated sections and ++ allocate memory for them. */ ++ ++static bfd_boolean ++avr32_elf_size_dynamic_sections (bfd *output_bfd, ++ struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ bfd *dynobj; ++ asection *s; ++ bfd *ibfd; ++ bfd_boolean relocs; ++ ++ pr_debug("(4) size dynamic sections\n"); ++ ++ htab = avr32_elf_hash_table(info); ++ dynobj = htab->root.dynobj; ++ BFD_ASSERT(dynobj != NULL); ++ ++ if (htab->root.dynamic_sections_created) ++ { ++ /* Initialize the contents of the .interp section to the name of ++ the dynamic loader */ ++ if (info->executable) ++ { ++ s = bfd_get_section_by_name(dynobj, ".interp"); ++ BFD_ASSERT(s != NULL); ++ s->size = sizeof(ELF_DYNAMIC_INTERPRETER); ++ s->contents = (unsigned char *)ELF_DYNAMIC_INTERPRETER; ++ } ++ } ++ ++ if (htab->nr_got_holes > 0) ++ { ++ /* Allocate holes for the pigeonhole sort algorithm */ ++ pr_debug("Highest GOT refcount: %d\n", htab->nr_got_holes); ++ ++ /* Limit the memory usage by clipping the number of pigeonholes ++ * at a predefined maximum. All entries with a higher refcount ++ * will end up in the last pigeonhole. */ ++ if (htab->nr_got_holes >= MAX_NR_GOT_HOLES) ++ { ++ htab->nr_got_holes = MAX_NR_GOT_HOLES - 1; ++ ++ pr_debug("Limiting maximum number of GOT pigeonholes to %u\n", ++ htab->nr_got_holes); ++ } ++ htab->got_hole = bfd_zalloc(output_bfd, ++ sizeof(struct got_entry *) ++ * (htab->nr_got_holes + 1)); ++ if (!htab->got_hole) ++ return FALSE; ++ ++ /* Set up .got offsets for local syms. */ ++ for (ibfd = info->input_bfds; ibfd != NULL; ibfd = ibfd->link_next) ++ { ++ struct got_entry **local_got; ++ struct got_entry **end_local_got; ++ Elf_Internal_Shdr *symtab_hdr; ++ bfd_size_type locsymcount; ++ ++ pr_debug(" (4a) processing file %s...\n", ibfd->filename); ++ ++ BFD_ASSERT(bfd_get_flavour(ibfd) == bfd_target_elf_flavour); ++ ++ local_got = elf_local_got_ents(ibfd); ++ if (!local_got) ++ continue; ++ ++ symtab_hdr = &elf_tdata(ibfd)->symtab_hdr; ++ locsymcount = symtab_hdr->sh_info; ++ end_local_got = local_got + locsymcount; ++ ++ for (; local_got < end_local_got; ++local_got) ++ insert_got_entry(htab, *local_got); ++ } ++ } ++ ++ /* Allocate global sym .got entries and space for global sym ++ dynamic relocs */ ++ elf_link_hash_traverse(&htab->root, allocate_dynrelocs, info); ++ ++ /* Now that we have sorted the GOT entries, we are ready to ++ assign offsets and determine the initial size of the GOT. */ ++ if (htab->sgot) ++ assign_got_offsets(htab); ++ ++ /* Allocate space for local sym dynamic relocs */ ++ BFD_ASSERT(htab->local_dynamic_relocs == 0 || info->shared); ++ if (htab->local_dynamic_relocs) ++ htab->srelgot->size += (htab->local_dynamic_relocs ++ * sizeof(Elf32_External_Rela)); ++ ++ /* We now have determined the sizes of the various dynamic ++ sections. Allocate memory for them. */ ++ relocs = FALSE; ++ for (s = dynobj->sections; s; s = s->next) ++ { ++ if ((s->flags & SEC_LINKER_CREATED) == 0) ++ continue; ++ ++ if (s == htab->sgot ++ || s == htab->sstub) ++ { ++ /* Strip this section if we don't need it */ ++ } ++ else if (strncmp (bfd_get_section_name(dynobj, s), ".rela", 5) == 0) ++ { ++ if (s->size != 0) ++ relocs = TRUE; ++ ++ s->reloc_count = 0; ++ } ++ else ++ { ++ /* It's not one of our sections */ ++ continue; ++ } ++ ++ if (s->size == 0) ++ { ++ /* Strip unneeded sections */ ++ pr_debug("Stripping section %s from output...\n", s->name); ++ /* deleted function in 2.17 ++ _bfd_strip_section_from_output(info, s); ++ */ ++ continue; ++ } ++ ++ s->contents = bfd_zalloc(dynobj, s->size); ++ if (s->contents == NULL) ++ return FALSE; ++ } ++ ++ if (htab->root.dynamic_sections_created) ++ { ++ /* Add some entries to the .dynamic section. We fill in the ++ values later, in sh_elf_finish_dynamic_sections, but we ++ must add the entries now so that we get the correct size for ++ the .dynamic section. The DT_DEBUG entry is filled in by the ++ dynamic linker and used by the debugger. */ ++#define add_dynamic_entry(TAG, VAL) _bfd_elf_add_dynamic_entry(info, TAG, VAL) ++ ++ if (!add_dynamic_entry(DT_PLTGOT, 0)) ++ return FALSE; ++ if (!add_dynamic_entry(DT_AVR32_GOTSZ, 0)) ++ return FALSE; ++ ++ if (info->executable) ++ { ++ if (!add_dynamic_entry(DT_DEBUG, 0)) ++ return FALSE; ++ } ++ if (relocs) ++ { ++ if (!add_dynamic_entry(DT_RELA, 0) ++ || !add_dynamic_entry(DT_RELASZ, 0) ++ || !add_dynamic_entry(DT_RELAENT, ++ sizeof(Elf32_External_Rela))) ++ return FALSE; ++ } ++ } ++#undef add_dynamic_entry ++ ++ return TRUE; ++} ++ ++ ++/* Access to internal relocations, section contents and symbols. ++ (stolen from the xtensa port) */ ++ ++static Elf_Internal_Rela * ++retrieve_internal_relocs (bfd *abfd, asection *sec, bfd_boolean keep_memory); ++static void ++pin_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs); ++static void ++release_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs); ++static bfd_byte * ++retrieve_contents (bfd *abfd, asection *sec, bfd_boolean keep_memory); ++/* ++static void ++pin_contents (asection *sec, bfd_byte *contents); ++*/ ++static void ++release_contents (asection *sec, bfd_byte *contents); ++static Elf_Internal_Sym * ++retrieve_local_syms (bfd *input_bfd, bfd_boolean keep_memory); ++/* ++static void ++pin_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf); ++*/ ++static void ++release_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf); ++ ++/* During relaxation, we need to modify relocations, section contents, ++ and symbol definitions, and we need to keep the original values from ++ being reloaded from the input files, i.e., we need to "pin" the ++ modified values in memory. We also want to continue to observe the ++ setting of the "keep-memory" flag. The following functions wrap the ++ standard BFD functions to take care of this for us. */ ++ ++static Elf_Internal_Rela * ++retrieve_internal_relocs (bfd *abfd, asection *sec, bfd_boolean keep_memory) ++{ ++ /* _bfd_elf_link_read_relocs knows about caching, so no need for us ++ to be clever here. */ ++ return _bfd_elf_link_read_relocs(abfd, sec, NULL, NULL, keep_memory); ++} ++ ++static void ++pin_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs) ++{ ++ elf_section_data (sec)->relocs = internal_relocs; ++} ++ ++static void ++release_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs) ++{ ++ if (internal_relocs ++ && elf_section_data (sec)->relocs != internal_relocs) ++ free (internal_relocs); ++} ++ ++static bfd_byte * ++retrieve_contents (bfd *abfd, asection *sec, bfd_boolean keep_memory) ++{ ++ bfd_byte *contents; ++ bfd_size_type sec_size; ++ ++ sec_size = bfd_get_section_limit (abfd, sec); ++ contents = elf_section_data (sec)->this_hdr.contents; ++ ++ if (contents == NULL && sec_size != 0) ++ { ++ if (!bfd_malloc_and_get_section (abfd, sec, &contents)) ++ { ++ if (contents) ++ free (contents); ++ return NULL; ++ } ++ if (keep_memory) ++ elf_section_data (sec)->this_hdr.contents = contents; ++ } ++ return contents; ++} ++ ++/* ++static void ++pin_contents (asection *sec, bfd_byte *contents) ++{ ++ elf_section_data (sec)->this_hdr.contents = contents; ++} ++*/ ++static void ++release_contents (asection *sec, bfd_byte *contents) ++{ ++ if (contents && elf_section_data (sec)->this_hdr.contents != contents) ++ free (contents); ++} ++ ++static Elf_Internal_Sym * ++retrieve_local_syms (bfd *input_bfd, bfd_boolean keep_memory) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Sym *isymbuf; ++ size_t locsymcount; ++ ++ symtab_hdr = &elf_tdata (input_bfd)->symtab_hdr; ++ locsymcount = symtab_hdr->sh_info; ++ ++ isymbuf = (Elf_Internal_Sym *) symtab_hdr->contents; ++ if (isymbuf == NULL && locsymcount != 0) ++ { ++ isymbuf = bfd_elf_get_elf_syms (input_bfd, symtab_hdr, locsymcount, 0, ++ NULL, NULL, NULL); ++ if (isymbuf && keep_memory) ++ symtab_hdr->contents = (unsigned char *) isymbuf; ++ } ++ ++ return isymbuf; ++} ++ ++/* ++static void ++pin_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf) ++{ ++ elf_tdata (input_bfd)->symtab_hdr.contents = (unsigned char *)isymbuf; ++} ++ ++*/ ++static void ++release_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf) ++{ ++ if (isymbuf && (elf_tdata (input_bfd)->symtab_hdr.contents ++ != (unsigned char *)isymbuf)) ++ free (isymbuf); ++} ++ ++ /* Data structures used during relaxation. */ ++ ++enum relax_state_id { ++ RS_ERROR = -1, ++ RS_NONE = 0, ++ RS_ALIGN, ++ RS_CPENT, ++ RS_PIC_CALL, ++ RS_PIC_MCALL, ++ RS_PIC_RCALL2, ++ RS_PIC_RCALL1, ++ RS_PIC_LDA, ++ RS_PIC_LDW4, ++ RS_PIC_LDW3, ++ RS_PIC_SUB5, ++ RS_NOPIC_MCALL, ++ RS_NOPIC_RCALL2, ++ RS_NOPIC_RCALL1, ++ RS_NOPIC_LDW4, ++ RS_NOPIC_LDDPC, ++ RS_NOPIC_SUB5, ++ RS_NOPIC_MOV2, ++ RS_NOPIC_MOV1, ++ RS_RCALL2, ++ RS_RCALL1, ++ RS_BRC2, ++ RS_BRC1, ++ RS_BRAL, ++ RS_RJMP, ++ RS_MAX, ++}; ++ ++enum reference_type { ++ REF_ABSOLUTE, ++ REF_PCREL, ++ REF_CPOOL, ++ REF_GOT, ++}; ++ ++struct relax_state ++{ ++ const char *name; ++ enum relax_state_id id; ++ enum relax_state_id direct; ++ enum relax_state_id next; ++ enum relax_state_id prev; ++ ++ enum reference_type reftype; ++ ++ unsigned int r_type; ++ ++ bfd_vma opcode; ++ bfd_vma opcode_mask; ++ ++ bfd_signed_vma range_min; ++ bfd_signed_vma range_max; ++ ++ bfd_size_type size; ++}; ++ ++/* ++ * This is for relocs that ++ * a) has an addend or is of type R_AVR32_DIFF32, and ++ * b) references a different section than it's in, and ++ * c) references a section that is relaxable ++ * ++ * as well as relocs that references the constant pool, in which case ++ * the add_frag member points to the frag containing the constant pool ++ * entry. ++ * ++ * Such relocs must be fixed up whenever we delete any code. Sections ++ * that don't have any relocs with all of the above properties don't ++ * have any additional reloc data, but sections that do will have ++ * additional data for all its relocs. ++ */ ++struct avr32_reloc_data ++{ ++ struct fragment *add_frag; ++ struct fragment *sub_frag; ++}; ++ ++/* ++ * A 'fragment' is a relaxable entity, that is, code may be added or ++ * deleted at the end of a fragment. When this happens, all subsequent ++ * fragments in the list will have their offsets updated. ++ */ ++struct fragment ++{ ++ enum relax_state_id state; ++ enum relax_state_id initial_state; ++ ++ Elf_Internal_Rela *rela; ++ bfd_size_type size; ++ bfd_vma offset; ++ int size_adjust; ++ int offset_adjust; ++ bfd_boolean has_grown; ++ ++ /* Only used by constant pool entries. When this drops to zero, the ++ frag is discarded (i.e. size_adjust is set to -4.) */ ++ int refcount; ++}; ++ ++struct avr32_relax_data ++{ ++ unsigned int frag_count; ++ struct fragment *frag; ++ struct avr32_reloc_data *reloc_data; ++ ++ /* TRUE if this section has one or more relaxable relocations */ ++ bfd_boolean is_relaxable; ++ unsigned int iteration; ++}; ++ ++struct avr32_section_data ++{ ++ struct bfd_elf_section_data elf; ++ struct avr32_relax_data relax_data; ++}; ++ ++ /* Relax state definitions */ ++ ++#define PIC_MOV2_OPCODE 0xe0600000 ++#define PIC_MOV2_MASK 0xe1e00000 ++#define PIC_MOV2_RANGE_MIN (-1048576 * 4) ++#define PIC_MOV2_RANGE_MAX (1048575 * 4) ++#define PIC_MCALL_OPCODE 0xf0160000 ++#define PIC_MCALL_MASK 0xffff0000 ++#define PIC_MCALL_RANGE_MIN (-131072) ++#define PIC_MCALL_RANGE_MAX (131068) ++#define RCALL2_OPCODE 0xe0a00000 ++#define RCALL2_MASK 0xe1ef0000 ++#define RCALL2_RANGE_MIN (-2097152) ++#define RCALL2_RANGE_MAX (2097150) ++#define RCALL1_OPCODE 0xc00c0000 ++#define RCALL1_MASK 0xf00c0000 ++#define RCALL1_RANGE_MIN (-1024) ++#define RCALL1_RANGE_MAX (1022) ++#define PIC_LDW4_OPCODE 0xecf00000 ++#define PIC_LDW4_MASK 0xfff00000 ++#define PIC_LDW4_RANGE_MIN (-32768) ++#define PIC_LDW4_RANGE_MAX (32767) ++#define PIC_LDW3_OPCODE 0x6c000000 ++#define PIC_LDW3_MASK 0xfe000000 ++#define PIC_LDW3_RANGE_MIN (0) ++#define PIC_LDW3_RANGE_MAX (124) ++#define SUB5_PC_OPCODE 0xfec00000 ++#define SUB5_PC_MASK 0xfff00000 ++#define SUB5_PC_RANGE_MIN (-32768) ++#define SUB5_PC_RANGE_MAX (32767) ++#define NOPIC_MCALL_OPCODE 0xf01f0000 ++#define NOPIC_MCALL_MASK 0xffff0000 ++#define NOPIC_MCALL_RANGE_MIN PIC_MCALL_RANGE_MIN ++#define NOPIC_MCALL_RANGE_MAX PIC_MCALL_RANGE_MAX ++#define NOPIC_LDW4_OPCODE 0xfef00000 ++#define NOPIC_LDW4_MASK 0xfff00000 ++#define NOPIC_LDW4_RANGE_MIN PIC_LDW4_RANGE_MIN ++#define NOPIC_LDW4_RANGE_MAX PIC_LDW4_RANGE_MAX ++#define LDDPC_OPCODE 0x48000000 ++#define LDDPC_MASK 0xf8000000 ++#define LDDPC_RANGE_MIN 0 ++#define LDDPC_RANGE_MAX 508 ++ ++#define NOPIC_MOV2_OPCODE 0xe0600000 ++#define NOPIC_MOV2_MASK 0xe1e00000 ++#define NOPIC_MOV2_RANGE_MIN (-1048576) ++#define NOPIC_MOV2_RANGE_MAX (1048575) ++#define NOPIC_MOV1_OPCODE 0x30000000 ++#define NOPIC_MOV1_MASK 0xf0000000 ++#define NOPIC_MOV1_RANGE_MIN (-128) ++#define NOPIC_MOV1_RANGE_MAX (127) ++ ++/* Only brc2 variants with cond[3] == 0 is considered, since the ++ others are not relaxable. bral is a special case and is handled ++ separately. */ ++#define BRC2_OPCODE 0xe0800000 ++#define BRC2_MASK 0xe1e80000 ++#define BRC2_RANGE_MIN (-2097152) ++#define BRC2_RANGE_MAX (2097150) ++#define BRC1_OPCODE 0xc0000000 ++#define BRC1_MASK 0xf0080000 ++#define BRC1_RANGE_MIN (-256) ++#define BRC1_RANGE_MAX (254) ++#define BRAL_OPCODE 0xe08f0000 ++#define BRAL_MASK 0xe1ef0000 ++#define BRAL_RANGE_MIN BRC2_RANGE_MIN ++#define BRAL_RANGE_MAX BRC2_RANGE_MAX ++#define RJMP_OPCODE 0xc0080000 ++#define RJMP_MASK 0xf00c0000 ++#define RJMP_RANGE_MIN (-1024) ++#define RJMP_RANGE_MAX (1022) ++ ++/* Define a relax state using the GOT */ ++#define RG(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_GOT, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++/* Define a relax state using the Constant Pool */ ++#define RC(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_CPOOL, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++ ++/* Define a relax state using pc-relative direct reference */ ++#define RP(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_PCREL, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++ ++/* Define a relax state using non-pc-relative direct reference */ ++#define RD(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_ABSOLUTE, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++ ++/* Define a relax state that will be handled specially */ ++#define RS(id, r_type, size) \ ++ { "RS_"#id, RS_##id, RS_NONE, RS_NONE, RS_NONE, REF_ABSOLUTE, \ ++ R_AVR32_##r_type, 0, 0, 0, 0, size } ++ ++const struct relax_state relax_state[RS_MAX] = { ++ RS(NONE, NONE, 0), ++ RS(ALIGN, ALIGN, 0), ++ RS(CPENT, 32_CPENT, 4), ++ ++ RG(PIC_CALL, PIC_RCALL1, PIC_MCALL, NONE, GOTCALL, PIC_MOV2, 10), ++ RG(PIC_MCALL, PIC_RCALL1, NONE, PIC_CALL, GOT18SW, PIC_MCALL, 4), ++ RP(PIC_RCALL2, NONE, PIC_RCALL1, PIC_MCALL, 22H_PCREL, RCALL2, 4), ++ RP(PIC_RCALL1, NONE, NONE, PIC_RCALL2, 11H_PCREL, RCALL1, 2), ++ ++ RG(PIC_LDA, PIC_SUB5, PIC_LDW4, NONE, LDA_GOT, PIC_MOV2, 8), ++ RG(PIC_LDW4, PIC_SUB5, PIC_LDW3, PIC_LDA, GOT16S, PIC_LDW4, 4), ++ RG(PIC_LDW3, PIC_SUB5, NONE, PIC_LDW4, GOT7UW, PIC_LDW3, 2), ++ RP(PIC_SUB5, NONE, NONE, PIC_LDW3, 16N_PCREL, SUB5_PC, 4), ++ ++ RC(NOPIC_MCALL, NOPIC_RCALL1, NONE, NONE, CPCALL, NOPIC_MCALL, 4), ++ RP(NOPIC_RCALL2, NONE, NOPIC_RCALL1, NOPIC_MCALL, 22H_PCREL, RCALL2, 4), ++ RP(NOPIC_RCALL1, NONE, NONE, NOPIC_RCALL2, 11H_PCREL, RCALL1, 2), ++ ++ RC(NOPIC_LDW4, NOPIC_MOV1, NOPIC_LDDPC, NONE, 16_CP, NOPIC_LDW4, 4), ++ RC(NOPIC_LDDPC, NOPIC_MOV1, NONE, NOPIC_LDW4, 9W_CP, LDDPC, 2), ++ RP(NOPIC_SUB5, NOPIC_MOV1, NONE, NOPIC_LDDPC, 16N_PCREL, SUB5_PC, 4), ++ RD(NOPIC_MOV2, NONE, NOPIC_MOV1, NOPIC_SUB5, 21S, NOPIC_MOV2, 4), ++ RD(NOPIC_MOV1, NONE, NONE, NOPIC_MOV2, 8S, NOPIC_MOV1, 2), ++ ++ RP(RCALL2, NONE, RCALL1, NONE, 22H_PCREL, RCALL2, 4), ++ RP(RCALL1, NONE, NONE, RCALL2, 11H_PCREL, RCALL1, 2), ++ RP(BRC2, NONE, BRC1, NONE, 22H_PCREL, BRC2, 4), ++ RP(BRC1, NONE, NONE, BRC2, 9H_PCREL, BRC1, 2), ++ RP(BRAL, NONE, RJMP, NONE, 22H_PCREL, BRAL, 4), ++ RP(RJMP, NONE, NONE, BRAL, 11H_PCREL, RJMP, 2), ++}; ++ ++static bfd_boolean ++avr32_elf_new_section_hook(bfd *abfd, asection *sec) ++{ ++ struct avr32_section_data *sdata; ++ ++ sdata = bfd_zalloc(abfd, sizeof(struct avr32_section_data)); ++ if (!sdata) ++ return FALSE; ++ ++ sec->used_by_bfd = sdata; ++ return _bfd_elf_new_section_hook(abfd, sec); ++} ++ ++static struct avr32_relax_data * ++avr32_relax_data(asection *sec) ++{ ++ struct avr32_section_data *sdata; ++ ++ BFD_ASSERT(sec->used_by_bfd); ++ ++ sdata = (struct avr32_section_data *)elf_section_data(sec); ++ return &sdata->relax_data; ++} ++ ++ /* Link-time relaxation */ ++ ++static bfd_boolean ++avr32_elf_relax_section(bfd *abfd, asection *sec, ++ struct bfd_link_info *info, bfd_boolean *again); ++ ++enum relax_pass_id { ++ RELAX_PASS_SIZE_FRAGS, ++ RELAX_PASS_MOVE_DATA, ++}; ++ ++/* Stolen from the xtensa port */ ++static int ++internal_reloc_compare (const void *ap, const void *bp) ++{ ++ const Elf_Internal_Rela *a = (const Elf_Internal_Rela *) ap; ++ const Elf_Internal_Rela *b = (const Elf_Internal_Rela *) bp; ++ ++ if (a->r_offset != b->r_offset) ++ return (a->r_offset - b->r_offset); ++ ++ /* We don't need to sort on these criteria for correctness, ++ but enforcing a more strict ordering prevents unstable qsort ++ from behaving differently with different implementations. ++ Without the code below we get correct but different results ++ on Solaris 2.7 and 2.8. We would like to always produce the ++ same results no matter the host. */ ++ ++ if (a->r_info != b->r_info) ++ return (a->r_info - b->r_info); ++ ++ return (a->r_addend - b->r_addend); ++} ++ ++static enum relax_state_id ++get_pcrel22_relax_state(bfd *abfd, asection *sec, struct bfd_link_info *info, ++ const Elf_Internal_Rela *rela) ++{ ++ bfd_byte *contents; ++ bfd_vma insn; ++ enum relax_state_id rs = RS_NONE; ++ ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ return RS_ERROR; ++ ++ insn = bfd_get_32(abfd, contents + rela->r_offset); ++ if ((insn & RCALL2_MASK) == RCALL2_OPCODE) ++ rs = RS_RCALL2; ++ else if ((insn & BRAL_MASK) == BRAL_OPCODE) ++ /* Optimizing bral -> rjmp gets us into all kinds of ++ trouble with jump tables. Better not do it. */ ++ rs = RS_NONE; ++ else if ((insn & BRC2_MASK) == BRC2_OPCODE) ++ rs = RS_BRC2; ++ ++ release_contents(sec, contents); ++ ++ return rs; ++} ++ ++static enum relax_state_id ++get_initial_relax_state(bfd *abfd, asection *sec, struct bfd_link_info *info, ++ const Elf_Internal_Rela *rela) ++{ ++ switch (ELF_R_TYPE(rela->r_info)) ++ { ++ case R_AVR32_GOTCALL: ++ return RS_PIC_CALL; ++ case R_AVR32_GOT18SW: ++ return RS_PIC_MCALL; ++ case R_AVR32_LDA_GOT: ++ return RS_PIC_LDA; ++ case R_AVR32_GOT16S: ++ return RS_PIC_LDW4; ++ case R_AVR32_CPCALL: ++ return RS_NOPIC_MCALL; ++ case R_AVR32_16_CP: ++ return RS_NOPIC_LDW4; ++ case R_AVR32_9W_CP: ++ return RS_NOPIC_LDDPC; ++ case R_AVR32_ALIGN: ++ return RS_ALIGN; ++ case R_AVR32_32_CPENT: ++ return RS_CPENT; ++ case R_AVR32_22H_PCREL: ++ return get_pcrel22_relax_state(abfd, sec, info, rela); ++ case R_AVR32_9H_PCREL: ++ return RS_BRC1; ++ default: ++ return RS_NONE; ++ } ++} ++ ++static bfd_boolean ++reloc_is_cpool_ref(const Elf_Internal_Rela *rela) ++{ ++ switch (ELF_R_TYPE(rela->r_info)) ++ { ++ case R_AVR32_CPCALL: ++ case R_AVR32_16_CP: ++ case R_AVR32_9W_CP: ++ return TRUE; ++ default: ++ return FALSE; ++ } ++} ++ ++static struct fragment * ++new_frag(bfd *abfd ATTRIBUTE_UNUSED, asection *sec, ++ struct avr32_relax_data *rd, enum relax_state_id state, ++ Elf_Internal_Rela *rela) ++{ ++ struct fragment *frag; ++ bfd_size_type r_size; ++ bfd_vma r_offset; ++ unsigned int i = rd->frag_count; ++ ++ BFD_ASSERT(state >= RS_NONE && state < RS_MAX); ++ ++ rd->frag_count++; ++ frag = bfd_realloc(rd->frag, sizeof(struct fragment) * rd->frag_count); ++ if (!frag) ++ return NULL; ++ rd->frag = frag; ++ ++ frag += i; ++ memset(frag, 0, sizeof(struct fragment)); ++ ++ if (state == RS_ALIGN) ++ r_size = (((rela->r_offset + (1 << rela->r_addend) - 1) ++ & ~((1 << rela->r_addend) - 1)) - rela->r_offset); ++ else ++ r_size = relax_state[state].size; ++ ++ if (rela) ++ r_offset = rela->r_offset; ++ else ++ r_offset = sec->size; ++ ++ if (i == 0) ++ { ++ frag->offset = 0; ++ frag->size = r_offset + r_size; ++ } ++ else ++ { ++ frag->offset = rd->frag[i - 1].offset + rd->frag[i - 1].size; ++ frag->size = r_offset + r_size - frag->offset; ++ } ++ ++ if (state != RS_CPENT) ++ /* Make sure we don't discard this frag */ ++ frag->refcount = 1; ++ ++ frag->initial_state = frag->state = state; ++ frag->rela = rela; ++ ++ return frag; ++} ++ ++static struct fragment * ++find_frag(asection *sec, bfd_vma offset) ++{ ++ struct fragment *first, *last; ++ struct avr32_relax_data *rd = avr32_relax_data(sec); ++ ++ if (rd->frag_count == 0) ++ return NULL; ++ ++ first = &rd->frag[0]; ++ last = &rd->frag[rd->frag_count - 1]; ++ ++ /* This may be a reloc referencing the end of a section. The last ++ frag will never have a reloc associated with it, so its size will ++ never change, thus the offset adjustment of the last frag will ++ always be the same as the offset adjustment of the end of the ++ section. */ ++ if (offset == sec->size) ++ { ++ BFD_ASSERT(last->offset + last->size == sec->size); ++ BFD_ASSERT(!last->rela); ++ return last; ++ } ++ ++ while (first <= last) ++ { ++ struct fragment *mid; ++ ++ mid = (last - first) / 2 + first; ++ if ((mid->offset + mid->size) <= offset) ++ first = mid + 1; ++ else if (mid->offset > offset) ++ last = mid - 1; ++ else ++ return mid; ++ } ++ ++ return NULL; ++} ++ ++/* Look through all relocs in a section and determine if any relocs ++ may be affected by relaxation in other sections. If so, allocate ++ an array of additional relocation data which links the affected ++ relocations to the frag(s) where the relaxation may occur. ++ ++ This function also links cpool references to cpool entries and ++ increments the refcount of the latter when this happens. */ ++ ++static bfd_boolean ++allocate_reloc_data(bfd *abfd, asection *sec, Elf_Internal_Rela *relocs, ++ struct bfd_link_info *info) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Sym *isymbuf = NULL; ++ struct avr32_relax_data *rd; ++ unsigned int i; ++ bfd_boolean ret = FALSE; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ rd = avr32_relax_data(sec); ++ ++ RDBG("%s<%s>: allocate_reloc_data\n", abfd->filename, sec->name); ++ ++ for (i = 0; i < sec->reloc_count; i++) ++ { ++ Elf_Internal_Rela *rel = &relocs[i]; ++ asection *sym_sec; ++ unsigned long r_symndx; ++ bfd_vma sym_value; ++ ++ if (!rel->r_addend && ELF_R_TYPE(rel->r_info) != R_AVR32_DIFF32 ++ && !reloc_is_cpool_ref(rel)) ++ continue; ++ ++ r_symndx = ELF_R_SYM(rel->r_info); ++ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ Elf_Internal_Sym *isym; ++ ++ if (!isymbuf) ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ return FALSE; ++ ++ isym = &isymbuf[r_symndx]; ++ sym_sec = bfd_section_from_elf_index(abfd, isym->st_shndx); ++ sym_value = isym->st_value; ++ } ++ else ++ { ++ struct elf_link_hash_entry *h; ++ ++ h = elf_sym_hashes(abfd)[r_symndx - symtab_hdr->sh_info]; ++ ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ if (h->root.type != bfd_link_hash_defined ++ && h->root.type != bfd_link_hash_defweak) ++ continue; ++ ++ sym_sec = h->root.u.def.section; ++ sym_value = h->root.u.def.value; ++ } ++ ++ if (sym_sec && avr32_relax_data(sym_sec)->is_relaxable) ++ { ++ bfd_size_type size; ++ struct fragment *frag; ++ ++ if (!rd->reloc_data) ++ { ++ size = sizeof(struct avr32_reloc_data) * sec->reloc_count; ++ rd->reloc_data = bfd_zalloc(abfd, size); ++ if (!rd->reloc_data) ++ goto out; ++ } ++ ++ RDBG("[%3d] 0x%04lx: target: 0x%lx + 0x%lx", ++ i, rel->r_offset, sym_value, rel->r_addend); ++ ++ frag = find_frag(sym_sec, sym_value + rel->r_addend); ++ BFD_ASSERT(frag); ++ rd->reloc_data[i].add_frag = frag; ++ ++ RDBG(" -> %s<%s>:%04lx\n", sym_sec->owner->filename, sym_sec->name, ++ frag->rela ? frag->rela->r_offset : sym_sec->size); ++ ++ if (reloc_is_cpool_ref(rel)) ++ { ++ BFD_ASSERT(ELF_R_TYPE(frag->rela->r_info) == R_AVR32_32_CPENT); ++ frag->refcount++; ++ } ++ ++ if (ELF_R_TYPE(rel->r_info) == R_AVR32_DIFF32) ++ { ++ bfd_byte *contents; ++ bfd_signed_vma diff; ++ ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ goto out; ++ ++ diff = bfd_get_signed_32(abfd, contents + rel->r_offset); ++ frag = find_frag(sym_sec, sym_value + rel->r_addend + diff); ++ BFD_ASSERT(frag); ++ rd->reloc_data[i].sub_frag = frag; ++ ++ release_contents(sec, contents); ++ } ++ } ++ } ++ ++ ret = TRUE; ++ ++ out: ++ release_local_syms(abfd, isymbuf); ++ return ret; ++} ++ ++static bfd_boolean ++global_sym_set_frag(struct elf_avr32_link_hash_entry *havr, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED) ++{ ++ struct fragment *frag; ++ asection *sec; ++ ++ if (havr->root.root.type != bfd_link_hash_defined ++ && havr->root.root.type != bfd_link_hash_defweak) ++ return TRUE; ++ ++ sec = havr->root.root.u.def.section; ++ if (bfd_is_const_section(sec) ++ || !avr32_relax_data(sec)->is_relaxable) ++ return TRUE; ++ ++ frag = find_frag(sec, havr->root.root.u.def.value); ++ if (!frag) ++ { ++ unsigned int i; ++ struct avr32_relax_data *rd = avr32_relax_data(sec); ++ ++ RDBG("In %s: No frag for %s <%s+%lu> (limit %lu)\n", ++ sec->owner->filename, havr->root.root.root.string, ++ sec->name, havr->root.root.u.def.value, sec->size); ++ for (i = 0; i < rd->frag_count; i++) ++ RDBG(" %8lu - %8lu\n", rd->frag[i].offset, ++ rd->frag[i].offset + rd->frag[i].size); ++ } ++ BFD_ASSERT(frag); ++ ++ havr->sym_frag = frag; ++ return TRUE; ++} ++ ++static bfd_boolean ++analyze_relocations(struct bfd_link_info *info) ++{ ++ bfd *abfd; ++ asection *sec; ++ ++ /* Divide all relaxable sections into fragments */ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ { ++ if (!(elf_elfheader(abfd)->e_flags & EF_AVR32_LINKRELAX)) ++ { ++ if (!(*info->callbacks->warning) ++ (info, _("input is not relaxable"), NULL, abfd, NULL, 0)) ++ return FALSE; ++ continue; ++ } ++ ++ for (sec = abfd->sections; sec; sec = sec->next) ++ { ++ struct avr32_relax_data *rd; ++ struct fragment *frag; ++ Elf_Internal_Rela *relocs; ++ unsigned int i; ++ bfd_boolean ret = TRUE; ++ ++ if (!(sec->flags & SEC_RELOC) || sec->reloc_count == 0) ++ continue; ++ ++ rd = avr32_relax_data(sec); ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ return FALSE; ++ ++ qsort(relocs, sec->reloc_count, sizeof(Elf_Internal_Rela), ++ internal_reloc_compare); ++ ++ for (i = 0; i < sec->reloc_count; i++) ++ { ++ enum relax_state_id state; ++ ++ ret = FALSE; ++ state = get_initial_relax_state(abfd, sec, info, &relocs[i]); ++ if (state == RS_ERROR) ++ break; ++ ++ if (state) ++ { ++ frag = new_frag(abfd, sec, rd, state, &relocs[i]); ++ if (!frag) ++ break; ++ ++ pin_internal_relocs(sec, relocs); ++ rd->is_relaxable = TRUE; ++ } ++ ++ ret = TRUE; ++ } ++ ++ release_internal_relocs(sec, relocs); ++ if (!ret) ++ return ret; ++ ++ if (rd->is_relaxable) ++ { ++ frag = new_frag(abfd, sec, rd, RS_NONE, NULL); ++ if (!frag) ++ return FALSE; ++ } ++ } ++ } ++ ++ /* Link each global symbol to the fragment where it's defined. */ ++ elf_link_hash_traverse(elf_hash_table(info), global_sym_set_frag, info); ++ ++ /* Do the same for local symbols. */ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ { ++ Elf_Internal_Sym *isymbuf, *isym; ++ struct fragment **local_sym_frag; ++ unsigned int i, sym_count; ++ ++ sym_count = elf_tdata(abfd)->symtab_hdr.sh_info; ++ if (sym_count == 0) ++ continue; ++ ++ local_sym_frag = bfd_zalloc(abfd, sym_count * sizeof(struct fragment *)); ++ if (!local_sym_frag) ++ return FALSE; ++ elf_tdata(abfd)->local_sym_frag = local_sym_frag; ++ ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ return FALSE; ++ ++ for (i = 0; i < sym_count; i++) ++ { ++ struct avr32_relax_data *rd; ++ struct fragment *frag; ++ asection *sec; ++ ++ isym = &isymbuf[i]; ++ ++ sec = bfd_section_from_elf_index(abfd, isym->st_shndx); ++ if (!sec) ++ continue; ++ ++ rd = avr32_relax_data(sec); ++ if (!rd->is_relaxable) ++ continue; ++ ++ frag = find_frag(sec, isym->st_value); ++ BFD_ASSERT(frag); ++ ++ local_sym_frag[i] = frag; ++ } ++ ++ release_local_syms(abfd, isymbuf); ++ } ++ ++ /* And again for relocs with addends and constant pool references */ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ for (sec = abfd->sections; sec; sec = sec->next) ++ { ++ Elf_Internal_Rela *relocs; ++ bfd_boolean ret; ++ ++ if (!(sec->flags & SEC_RELOC) || sec->reloc_count == 0) ++ continue; ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ return FALSE; ++ ++ ret = allocate_reloc_data(abfd, sec, relocs, info); ++ ++ release_internal_relocs(sec, relocs); ++ if (ret == FALSE) ++ return ret; ++ } ++ ++ return TRUE; ++} ++ ++static bfd_boolean ++rs_is_good_enough(const struct relax_state *rs, struct fragment *frag, ++ bfd_vma symval, bfd_vma addr, struct got_entry *got, ++ struct avr32_reloc_data *ind_data, ++ bfd_signed_vma offset_adjust) ++{ ++ bfd_signed_vma target = 0; ++ ++ switch (rs->reftype) ++ { ++ case REF_ABSOLUTE: ++ target = symval; ++ break; ++ case REF_PCREL: ++ target = symval - addr; ++ break; ++ case REF_CPOOL: ++ /* cpool frags are always in the same section and always after ++ all frags referring to it. So it's always correct to add in ++ offset_adjust here. */ ++ target = (ind_data->add_frag->offset + ind_data->add_frag->offset_adjust ++ + offset_adjust - frag->offset - frag->offset_adjust); ++ break; ++ case REF_GOT: ++ target = got->offset; ++ break; ++ default: ++ abort(); ++ } ++ ++ if (target >= rs->range_min && target <= rs->range_max) ++ return TRUE; ++ else ++ return FALSE; ++} ++ ++static bfd_boolean ++avr32_size_frags(bfd *abfd, asection *sec, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct avr32_relax_data *rd; ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Rela *relocs = NULL; ++ Elf_Internal_Sym *isymbuf = NULL; ++ struct got_entry **local_got_ents; ++ struct fragment **local_sym_frag; ++ bfd_boolean ret = FALSE; ++ bfd_signed_vma delta = 0; ++ unsigned int i; ++ ++ htab = avr32_elf_hash_table(info); ++ rd = avr32_relax_data(sec); ++ ++ if (sec == htab->sgot) ++ { ++ RDBG("Relaxing GOT section (vma: 0x%lx)\n", ++ sec->output_section->vma + sec->output_offset); ++ if (assign_got_offsets(htab)) ++ htab->repeat_pass = TRUE; ++ return TRUE; ++ } ++ ++ if (!rd->is_relaxable) ++ return TRUE; ++ ++ if (!sec->rawsize) ++ sec->rawsize = sec->size; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ goto out; ++ ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ goto out; ++ ++ local_got_ents = elf_local_got_ents(abfd); ++ local_sym_frag = elf_tdata(abfd)->local_sym_frag; ++ ++ RDBG("size_frags: %s<%s>\n vma: 0x%08lx, size: 0x%08lx\n", ++ abfd->filename, sec->name, ++ sec->output_section->vma + sec->output_offset, sec->size); ++ ++ for (i = 0; i < rd->frag_count; i++) ++ { ++ struct fragment *frag = &rd->frag[i]; ++ struct avr32_reloc_data *r_data = NULL, *ind_data = NULL; ++ const struct relax_state *state, *next_state; ++ struct fragment *target_frag = NULL; ++ asection *sym_sec = NULL; ++ Elf_Internal_Rela *rela; ++ struct got_entry *got; ++ bfd_vma symval, r_offset, addend, addr; ++ bfd_signed_vma size_adjust = 0, distance; ++ unsigned long r_symndx; ++ bfd_boolean defined = TRUE, dynamic = FALSE; ++ unsigned char sym_type; ++ ++ frag->offset_adjust += delta; ++ state = next_state = &relax_state[frag->state]; ++ rela = frag->rela; ++ ++ BFD_ASSERT(state->id == frag->state); ++ ++ RDBG(" 0x%04lx%c%d: %s [size %ld]", rela ? rela->r_offset : sec->rawsize, ++ (frag->offset_adjust < 0)?'-':'+', ++ abs(frag->offset_adjust), state->name, state->size); ++ ++ if (!rela) ++ { ++ RDBG(": no reloc, ignoring\n"); ++ continue; ++ } ++ ++ BFD_ASSERT((unsigned int)(rela - relocs) < sec->reloc_count); ++ BFD_ASSERT(state != RS_NONE); ++ ++ r_offset = rela->r_offset + frag->offset_adjust; ++ addr = sec->output_section->vma + sec->output_offset + r_offset; ++ ++ switch (frag->state) ++ { ++ case RS_ALIGN: ++ size_adjust = ((addr + (1 << rela->r_addend) - 1) ++ & ~((1 << rela->r_addend) - 1)); ++ size_adjust -= (sec->output_section->vma + sec->output_offset ++ + frag->offset + frag->offset_adjust ++ + frag->size + frag->size_adjust); ++ ++ RDBG(": adjusting size %lu -> %lu\n", frag->size + frag->size_adjust, ++ frag->size + frag->size_adjust + size_adjust); ++ break; ++ ++ case RS_CPENT: ++ if (frag->refcount == 0 && frag->size_adjust == 0) ++ { ++ RDBG(": discarding frag\n"); ++ size_adjust = -4; ++ } ++ else if (frag->refcount > 0 && frag->size_adjust < 0) ++ { ++ RDBG(": un-discarding frag\n"); ++ size_adjust = 4; ++ } ++ break; ++ ++ default: ++ if (rd->reloc_data) ++ r_data = &rd->reloc_data[frag->rela - relocs]; ++ ++ /* If this is a cpool reference, we want the symbol that the ++ cpool entry refers to, not the symbol for the cpool entry ++ itself, as we already know what frag it's in. */ ++ if (relax_state[frag->initial_state].reftype == REF_CPOOL) ++ { ++ Elf_Internal_Rela *irela = r_data->add_frag->rela; ++ ++ r_symndx = ELF_R_SYM(irela->r_info); ++ addend = irela->r_addend; ++ ++ /* The constant pool must be in the same section as the ++ reloc referring to it. */ ++ BFD_ASSERT((unsigned long)(irela - relocs) < sec->reloc_count); ++ ++ ind_data = r_data; ++ r_data = &rd->reloc_data[irela - relocs]; ++ } ++ else ++ { ++ r_symndx = ELF_R_SYM(rela->r_info); ++ addend = rela->r_addend; ++ } ++ ++ /* Get the value of the symbol referred to by the reloc. */ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ Elf_Internal_Sym *isym; ++ ++ isym = isymbuf + r_symndx; ++ symval = 0; ++ ++ RDBG(" local sym %lu: ", r_symndx); ++ ++ if (isym->st_shndx == SHN_UNDEF) ++ defined = FALSE; ++ else if (isym->st_shndx == SHN_ABS) ++ sym_sec = bfd_abs_section_ptr; ++ else if (isym->st_shndx == SHN_COMMON) ++ sym_sec = bfd_com_section_ptr; ++ else ++ sym_sec = bfd_section_from_elf_index(abfd, isym->st_shndx); ++ ++ symval = isym->st_value; ++ sym_type = ELF_ST_TYPE(isym->st_info); ++ target_frag = local_sym_frag[r_symndx]; ++ ++ if (local_got_ents) ++ got = local_got_ents[r_symndx]; ++ else ++ got = NULL; ++ } ++ else ++ { ++ /* Global symbol */ ++ unsigned long index; ++ struct elf_link_hash_entry *h; ++ struct elf_avr32_link_hash_entry *havr; ++ ++ index = r_symndx - symtab_hdr->sh_info; ++ h = elf_sym_hashes(abfd)[index]; ++ BFD_ASSERT(h != NULL); ++ ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ havr = (struct elf_avr32_link_hash_entry *)h; ++ got = h->got.glist; ++ ++ symval = 0; ++ ++ RDBG(" %s: ", h->root.root.string); ++ ++ if (h->root.type != bfd_link_hash_defined ++ && h->root.type != bfd_link_hash_defweak) ++ { ++ RDBG("(undef)"); ++ defined = FALSE; ++ } ++ else if ((info->shared && !info->symbolic && h->dynindx != -1) ++ || (htab->root.dynamic_sections_created ++ && h->def_dynamic && !h->def_regular)) ++ { ++ RDBG("(dynamic)"); ++ dynamic = TRUE; ++ sym_sec = h->root.u.def.section; ++ } ++ else ++ { ++ sym_sec = h->root.u.def.section; ++ symval = h->root.u.def.value; ++ target_frag = havr->sym_frag; ++ } ++ ++ sym_type = h->type; ++ } ++ ++ /* Thanks to elf32-ppc for this one. */ ++ if (sym_sec && sym_sec->sec_info_type == ELF_INFO_TYPE_MERGE) ++ { ++ /* At this stage in linking, no SEC_MERGE symbol has been ++ adjusted, so all references to such symbols need to be ++ passed through _bfd_merged_section_offset. (Later, in ++ relocate_section, all SEC_MERGE symbols *except* for ++ section symbols have been adjusted.) ++ ++ SEC_MERGE sections are not relaxed by us, as they ++ shouldn't contain any code. */ ++ ++ BFD_ASSERT(!target_frag && !(r_data && r_data->add_frag)); ++ ++ /* gas may reduce relocations against symbols in SEC_MERGE ++ sections to a relocation against the section symbol when ++ the original addend was zero. When the reloc is against ++ a section symbol we should include the addend in the ++ offset passed to _bfd_merged_section_offset, since the ++ location of interest is the original symbol. On the ++ other hand, an access to "sym+addend" where "sym" is not ++ a section symbol should not include the addend; Such an ++ access is presumed to be an offset from "sym"; The ++ location of interest is just "sym". */ ++ RDBG("\n MERGE: %s: 0x%lx+0x%lx+0x%lx -> ", ++ (sym_type == STT_SECTION)?"section":"not section", ++ sym_sec->output_section->vma + sym_sec->output_offset, ++ symval, addend); ++ ++ if (sym_type == STT_SECTION) ++ symval += addend; ++ ++ symval = (_bfd_merged_section_offset ++ (abfd, &sym_sec, ++ elf_section_data(sym_sec)->sec_info, symval)); ++ ++ if (sym_type != STT_SECTION) ++ symval += addend; ++ } ++ else ++ symval += addend; ++ ++ if (defined && !dynamic) ++ { ++ RDBG("0x%lx+0x%lx", ++ sym_sec->output_section->vma + sym_sec->output_offset, ++ symval); ++ symval += sym_sec->output_section->vma + sym_sec->output_offset; ++ } ++ ++ if (r_data && r_data->add_frag) ++ /* If the add_frag pointer is set, it means that this reloc ++ has an addend that may be affected by relaxation. */ ++ target_frag = r_data->add_frag; ++ ++ if (target_frag) ++ { ++ symval += target_frag->offset_adjust; ++ ++ /* If target_frag comes after this frag in the same ++ section, we should assume that it will be moved by ++ the same amount we are. */ ++ if ((target_frag - rd->frag) < (int)rd->frag_count ++ && target_frag > frag) ++ symval += delta; ++ } ++ ++ distance = symval - addr; ++ ++ /* First, try to make a direct reference. If the symbol is ++ dynamic or undefined, we must take care not to change its ++ reference type, that is, we can't make it direct. ++ ++ Also, it seems like some sections may actually be resized ++ after the relaxation code is done, so we can't really ++ trust that our "distance" is correct. There's really no ++ easy solution to this problem, so we'll just disallow ++ direct references to SEC_DATA sections. ++ ++ Oh, and .bss isn't actually SEC_DATA, so we disallow ++ !SEC_HAS_CONTENTS as well. */ ++ if (!dynamic && defined ++ && (htab->direct_data_refs ++ || (!(sym_sec->flags & SEC_DATA) ++ && (sym_sec->flags & SEC_HAS_CONTENTS))) ++ && next_state->direct) ++ { ++ next_state = &relax_state[next_state->direct]; ++ RDBG(" D-> %s", next_state->name); ++ } ++ ++ /* Iterate backwards until we find a state that fits. */ ++ while (next_state->prev ++ && !rs_is_good_enough(next_state, frag, symval, addr, ++ got, ind_data, delta)) ++ { ++ next_state = &relax_state[next_state->prev]; ++ RDBG(" P-> %s", next_state->name); ++ } ++ ++ /* Then try to find the best possible state. */ ++ while (next_state->next) ++ { ++ const struct relax_state *candidate; ++ ++ candidate = &relax_state[next_state->next]; ++ if (!rs_is_good_enough(candidate, frag, symval, addr, got, ++ ind_data, delta)) ++ break; ++ ++ next_state = candidate; ++ RDBG(" N-> %s", next_state->name); ++ } ++ ++ RDBG(" [size %ld]\n", next_state->size); ++ ++ BFD_ASSERT(next_state->id); ++ BFD_ASSERT(!dynamic || next_state->reftype == REF_GOT); ++ ++ size_adjust = next_state->size - state->size; ++ ++ /* There's a theoretical possibility that shrinking one frag ++ may cause another to grow, which may cause the first one to ++ grow as well, and we're back where we started. Avoid this ++ scenario by disallowing a frag that has grown to ever ++ shrink again. */ ++ if (state->reftype == REF_GOT && next_state->reftype != REF_GOT) ++ { ++ if (frag->has_grown) ++ next_state = state; ++ else ++ unref_got_entry(htab, got); ++ } ++ else if (state->reftype != REF_GOT && next_state->reftype == REF_GOT) ++ { ++ ref_got_entry(htab, got); ++ frag->has_grown = TRUE; ++ } ++ else if (state->reftype == REF_CPOOL ++ && next_state->reftype != REF_CPOOL) ++ { ++ if (frag->has_grown) ++ next_state = state; ++ else ++ ind_data->add_frag->refcount--; ++ } ++ else if (state->reftype != REF_CPOOL ++ && next_state->reftype == REF_CPOOL) ++ { ++ ind_data->add_frag->refcount++; ++ frag->has_grown = TRUE; ++ } ++ else ++ { ++ if (frag->has_grown && size_adjust < 0) ++ next_state = state; ++ else if (size_adjust > 0) ++ frag->has_grown = TRUE; ++ } ++ ++ size_adjust = next_state->size - state->size; ++ frag->state = next_state->id; ++ ++ break; ++ } ++ ++ if (size_adjust) ++ htab->repeat_pass = TRUE; ++ ++ frag->size_adjust += size_adjust; ++ sec->size += size_adjust; ++ delta += size_adjust; ++ ++ BFD_ASSERT((frag->offset + frag->offset_adjust ++ + frag->size + frag->size_adjust) ++ == (frag[1].offset + frag[1].offset_adjust + delta)); ++ } ++ ++ ret = TRUE; ++ ++ out: ++ release_local_syms(abfd, isymbuf); ++ release_internal_relocs(sec, relocs); ++ return ret; ++} ++ ++static bfd_boolean ++adjust_global_symbol(struct elf_avr32_link_hash_entry *havr, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED) ++{ ++ struct elf_link_hash_entry *h = &havr->root; ++ ++ if (havr->sym_frag && (h->root.type == bfd_link_hash_defined ++ || h->root.type == bfd_link_hash_defweak)) ++ { ++ RDBG("adjust_global_symbol: %s 0x%08lx -> 0x%08lx\n", ++ h->root.root.string, h->root.u.def.value, ++ h->root.u.def.value + havr->sym_frag->offset_adjust); ++ h->root.u.def.value += havr->sym_frag->offset_adjust; ++ } ++ return TRUE; ++} ++ ++static bfd_boolean ++adjust_syms(struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ bfd *abfd; ++ ++ htab = avr32_elf_hash_table(info); ++ elf_link_hash_traverse(&htab->root, adjust_global_symbol, info); ++ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ { ++ Elf_Internal_Sym *isymbuf; ++ struct fragment **local_sym_frag, *frag; ++ unsigned int i, sym_count; ++ ++ sym_count = elf_tdata(abfd)->symtab_hdr.sh_info; ++ if (sym_count == 0) ++ continue; ++ ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ return FALSE; ++ ++ local_sym_frag = elf_tdata(abfd)->local_sym_frag; ++ ++ for (i = 0; i < sym_count; i++) ++ { ++ frag = local_sym_frag[i]; ++ if (frag) ++ { ++ RDBG("adjust_local_symbol: %s[%u] 0x%08lx -> 0x%08lx\n", ++ abfd->filename, i, isymbuf[i].st_value, ++ isymbuf[i].st_value + frag->offset_adjust); ++ isymbuf[i].st_value += frag->offset_adjust; ++ } ++ } ++ ++ release_local_syms(abfd, isymbuf); ++ } ++ ++ htab->symbols_adjusted = TRUE; ++ return TRUE; ++} ++ ++static bfd_boolean ++adjust_relocs(bfd *abfd, asection *sec, struct bfd_link_info *info) ++{ ++ struct avr32_relax_data *rd; ++ Elf_Internal_Rela *relocs; ++ Elf_Internal_Shdr *symtab_hdr; ++ unsigned int i; ++ bfd_boolean ret = FALSE; ++ ++ rd = avr32_relax_data(sec); ++ if (!rd->reloc_data) ++ return TRUE; ++ ++ RDBG("adjust_relocs: %s<%s> (count: %u)\n", abfd->filename, sec->name, ++ sec->reloc_count); ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ return FALSE; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ ++ for (i = 0; i < sec->reloc_count; i++) ++ { ++ Elf_Internal_Rela *rela = &relocs[i]; ++ struct avr32_reloc_data *r_data = &rd->reloc_data[i]; ++ struct fragment *sym_frag; ++ unsigned long r_symndx; ++ ++ if (r_data->add_frag) ++ { ++ r_symndx = ELF_R_SYM(rela->r_info); ++ ++ if (r_symndx < symtab_hdr->sh_info) ++ sym_frag = elf_tdata(abfd)->local_sym_frag[r_symndx]; ++ else ++ { ++ struct elf_link_hash_entry *h; ++ ++ h = elf_sym_hashes(abfd)[r_symndx - symtab_hdr->sh_info]; ++ ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ BFD_ASSERT(h->root.type == bfd_link_hash_defined ++ || h->root.type == bfd_link_hash_defweak); ++ ++ sym_frag = ((struct elf_avr32_link_hash_entry *)h)->sym_frag; ++ } ++ ++ RDBG(" addend: 0x%08lx -> 0x%08lx\n", ++ rela->r_addend, ++ rela->r_addend + r_data->add_frag->offset_adjust ++ - (sym_frag ? sym_frag->offset_adjust : 0)); ++ ++ /* If this is against a section symbol, we won't find any ++ sym_frag, so we'll just adjust the addend. */ ++ rela->r_addend += r_data->add_frag->offset_adjust; ++ if (sym_frag) ++ rela->r_addend -= sym_frag->offset_adjust; ++ ++ if (r_data->sub_frag) ++ { ++ bfd_byte *contents; ++ bfd_signed_vma diff; ++ ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ goto out; ++ ++ /* I realize now that sub_frag is misnamed. It's ++ actually add_frag which is subtracted in this ++ case... */ ++ diff = bfd_get_signed_32(abfd, contents + rela->r_offset); ++ diff += (r_data->sub_frag->offset_adjust ++ - r_data->add_frag->offset_adjust); ++ bfd_put_32(abfd, diff, contents + rela->r_offset); ++ ++ RDBG(" 0x%lx: DIFF32 updated: 0x%lx\n", rela->r_offset, diff); ++ ++ release_contents(sec, contents); ++ } ++ } ++ else ++ BFD_ASSERT(!r_data->sub_frag); ++ } ++ ++ ret = TRUE; ++ ++ out: ++ release_internal_relocs(sec, relocs); ++ return ret; ++} ++ ++static bfd_boolean ++avr32_move_data(bfd *abfd, asection *sec, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct avr32_relax_data *rd; ++ struct fragment *frag, *fragend; ++ Elf_Internal_Rela *relocs = NULL; ++ bfd_byte *contents = NULL; ++ unsigned int i; ++ bfd_boolean ret = FALSE; ++ ++ htab = avr32_elf_hash_table(info); ++ rd = avr32_relax_data(sec); ++ ++ if (!htab->symbols_adjusted) ++ if (!adjust_syms(info)) ++ return FALSE; ++ ++ if (rd->is_relaxable) ++ { ++ /* Resize the section first, so that we can be sure that enough ++ memory is allocated in case the section has grown. */ ++ if (sec->size > sec->rawsize ++ && elf_section_data(sec)->this_hdr.contents) ++ { ++ /* We must not use cached data if the section has grown. */ ++ free(elf_section_data(sec)->this_hdr.contents); ++ elf_section_data(sec)->this_hdr.contents = NULL; ++ } ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ goto out; ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ goto out; ++ ++ fragend = rd->frag + rd->frag_count; ++ ++ RDBG("move_data: %s<%s>: relocs=%p, contents=%p\n", ++ abfd->filename, sec->name, relocs, contents); ++ ++ /* First, move the data into place. We must take care to move ++ frags in the right order so that we don't accidentally ++ overwrite parts of the next frag. */ ++ for (frag = rd->frag; frag < fragend; frag++) ++ { ++ RDBG(" 0x%08lx%c0x%x: size 0x%lx%c0x%x\n", ++ frag->offset, frag->offset_adjust >= 0 ? '+' : '-', ++ abs(frag->offset_adjust), ++ frag->size, frag->size_adjust >= 0 ? '+' : '-', ++ abs(frag->size_adjust)); ++ if (frag->offset_adjust > 0) ++ { ++ struct fragment *prev = frag - 1; ++ struct fragment *last; ++ ++ for (last = frag; last < fragend && last->offset_adjust > 0; ++ last++) ; ++ ++ if (last == fragend) ++ last--; ++ ++ for (frag = last; frag != prev; frag--) ++ { ++ if (frag->offset_adjust ++ && frag->size + frag->size_adjust > 0) ++ { ++ RDBG("memmove 0x%lx -> 0x%lx (size %lu)\n", ++ frag->offset, frag->offset + frag->offset_adjust, ++ frag->size + frag->size_adjust); ++ memmove(contents + frag->offset + frag->offset_adjust, ++ contents + frag->offset, ++ frag->size + frag->size_adjust); ++ } ++ } ++ frag = last; ++ } ++ else if (frag->offset_adjust && frag->size + frag->size_adjust > 0) ++ { ++ RDBG("memmove 0x%lx -> 0x%lx (size %lu)\n", ++ frag->offset, frag->offset + frag->offset_adjust, ++ frag->size + frag->size_adjust); ++ memmove(contents + frag->offset + frag->offset_adjust, ++ contents + frag->offset, ++ frag->size + frag->size_adjust); ++ } ++ } ++ ++ i = 0; ++ ++ for (frag = rd->frag; frag < fragend; frag++) ++ { ++ const struct relax_state *state, *istate; ++ struct avr32_reloc_data *r_data = NULL; ++ ++ istate = &relax_state[frag->initial_state]; ++ state = &relax_state[frag->state]; ++ ++ if (rd->reloc_data) ++ r_data = &rd->reloc_data[frag->rela - relocs]; ++ ++ BFD_ASSERT((long)(frag->size + frag->size_adjust) >= 0); ++ BFD_ASSERT(state->reftype != REF_CPOOL ++ || r_data->add_frag->refcount > 0); ++ ++ if (istate->reftype == REF_CPOOL && state->reftype != REF_CPOOL) ++ { ++ struct fragment *ifrag; ++ ++ /* An indirect reference through the cpool has been ++ converted to a direct reference. We must update the ++ reloc to point to the symbol itself instead of the ++ constant pool entry. The reloc type will be updated ++ later. */ ++ ifrag = r_data->add_frag; ++ frag->rela->r_info = ifrag->rela->r_info; ++ frag->rela->r_addend = ifrag->rela->r_addend; ++ ++ /* Copy the reloc data so the addend will be adjusted ++ correctly later. */ ++ *r_data = rd->reloc_data[ifrag->rela - relocs]; ++ } ++ ++ /* Move all relocs covered by this frag. */ ++ if (frag->rela) ++ BFD_ASSERT(&relocs[i] <= frag->rela); ++ else ++ BFD_ASSERT((frag + 1) == fragend && frag->state == RS_NONE); ++ ++ if (frag == rd->frag) ++ BFD_ASSERT(i == 0); ++ else ++ BFD_ASSERT(&relocs[i] > frag[-1].rela); ++ ++ /* If non-null, frag->rela is the last relocation in the ++ fragment. frag->rela can only be null in the last ++ fragment, so in that case, we'll just do the rest. */ ++ for (; (i < sec->reloc_count ++ && (!frag->rela || &relocs[i] <= frag->rela)); i++) ++ { ++ RDBG("[%4u] r_offset 0x%08lx -> 0x%08lx\n", i, relocs[i].r_offset, ++ relocs[i].r_offset + frag->offset_adjust); ++ relocs[i].r_offset += frag->offset_adjust; ++ } ++ ++ if (frag->refcount == 0) ++ { ++ /* If this frag is to be discarded, make sure we won't ++ relocate it later on. */ ++ BFD_ASSERT(frag->state == RS_CPENT); ++ frag->rela->r_info = ELF_R_INFO(ELF_R_SYM(frag->rela->r_info), ++ R_AVR32_NONE); ++ } ++ else if (frag->state == RS_ALIGN) ++ { ++ bfd_vma addr, addr_end; ++ ++ addr = frag->rela->r_offset; ++ addr_end = (frag->offset + frag->offset_adjust ++ + frag->size + frag->size_adjust); ++ ++ /* If the section is executable, insert NOPs. ++ Otherwise, insert zeroes. */ ++ if (sec->flags & SEC_CODE) ++ { ++ if (addr & 1) ++ { ++ bfd_put_8(abfd, 0, contents + addr); ++ addr++; ++ } ++ ++ BFD_ASSERT(!((addr_end - addr) & 1)); ++ ++ while (addr < addr_end) ++ { ++ bfd_put_16(abfd, NOP_OPCODE, contents + addr); ++ addr += 2; ++ } ++ } ++ else ++ memset(contents + addr, 0, addr_end - addr); ++ } ++ else if (state->opcode_mask) ++ { ++ bfd_vma insn; ++ ++ /* Update the opcode and the relocation type unless it's a ++ "special" relax state (i.e. RS_NONE, RS_ALIGN or ++ RS_CPENT.), in which case the opcode mask is zero. */ ++ insn = bfd_get_32(abfd, contents + frag->rela->r_offset); ++ insn &= ~state->opcode_mask; ++ insn |= state->opcode; ++ RDBG(" 0x%lx: inserting insn %08lx\n", ++ frag->rela->r_offset, insn); ++ bfd_put_32(abfd, insn, contents + frag->rela->r_offset); ++ ++ frag->rela->r_info = ELF_R_INFO(ELF_R_SYM(frag->rela->r_info), ++ state->r_type); ++ } ++ ++ if ((frag + 1) == fragend) ++ BFD_ASSERT((frag->offset + frag->size + frag->offset_adjust ++ + frag->size_adjust) == sec->size); ++ else ++ BFD_ASSERT((frag->offset + frag->size + frag->offset_adjust ++ + frag->size_adjust) ++ == (frag[1].offset + frag[1].offset_adjust)); ++ } ++ } ++ ++ /* Adjust reloc addends and DIFF32 differences */ ++ if (!adjust_relocs(abfd, sec, info)) ++ return FALSE; ++ ++ ret = TRUE; ++ ++ out: ++ release_contents(sec, contents); ++ release_internal_relocs(sec, relocs); ++ return ret; ++} ++ ++static bfd_boolean ++avr32_elf_relax_section(bfd *abfd, asection *sec, ++ struct bfd_link_info *info, bfd_boolean *again) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct avr32_relax_data *rd; ++ ++ *again = FALSE; ++ if (info->relocatable) ++ return TRUE; ++ ++ htab = avr32_elf_hash_table(info); ++ if ((!(sec->flags & SEC_RELOC) || sec->reloc_count == 0) ++ && sec != htab->sgot) ++ return TRUE; ++ ++ if (!htab->relocations_analyzed) ++ { ++ if (!analyze_relocations(info)) ++ return FALSE; ++ htab->relocations_analyzed = TRUE; ++ } ++ ++ rd = avr32_relax_data(sec); ++ ++ if (rd->iteration != htab->relax_iteration) ++ { ++ if (!htab->repeat_pass) ++ htab->relax_pass++; ++ htab->relax_iteration++; ++ htab->repeat_pass = FALSE; ++ } ++ ++ rd->iteration++; ++ ++ switch (htab->relax_pass) ++ { ++ case RELAX_PASS_SIZE_FRAGS: ++ if (!avr32_size_frags(abfd, sec, info)) ++ return FALSE; ++ *again = TRUE; ++ break; ++ case RELAX_PASS_MOVE_DATA: ++ if (!avr32_move_data(abfd, sec, info)) ++ return FALSE; ++ break; ++ } ++ ++ return TRUE; ++} ++ ++ ++/* Relocation */ ++ ++static bfd_reloc_status_type ++avr32_check_reloc_value(asection *sec, Elf_Internal_Rela *rela, ++ bfd_signed_vma relocation, reloc_howto_type *howto); ++static bfd_reloc_status_type ++avr32_final_link_relocate(reloc_howto_type *howto, bfd *input_bfd, ++ asection *input_section, bfd_byte *contents, ++ Elf_Internal_Rela *rel, bfd_vma value); ++static bfd_boolean ++avr32_elf_relocate_section(bfd *output_bfd, struct bfd_link_info *info, ++ bfd *input_bfd, asection *input_section, ++ bfd_byte *contents, Elf_Internal_Rela *relocs, ++ Elf_Internal_Sym *local_syms, ++ asection **local_sections); ++ ++ ++#define symbol_address(symbol) \ ++ symbol->value + symbol->section->output_section->vma \ ++ + symbol->section->output_offset ++ ++#define avr32_elf_insert_field(size, field, abfd, reloc_entry, data) \ ++ do \ ++ { \ ++ unsigned long x; \ ++ x = bfd_get_##size (abfd, data + reloc_entry->address); \ ++ x &= ~reloc_entry->howto->dst_mask; \ ++ x |= field & reloc_entry->howto->dst_mask; \ ++ bfd_put_##size (abfd, (bfd_vma) x, data + reloc_entry->address); \ ++ } \ ++ while(0) ++ ++static bfd_reloc_status_type ++avr32_check_reloc_value(asection *sec ATTRIBUTE_UNUSED, ++ Elf_Internal_Rela *rela ATTRIBUTE_UNUSED, ++ bfd_signed_vma relocation, ++ reloc_howto_type *howto) ++{ ++ bfd_vma reloc_u; ++ ++ /* We take "complain_overflow_dont" to mean "don't complain on ++ alignment either". This way, we don't have to special-case ++ R_AVR32_HI16 */ ++ if (howto->complain_on_overflow == complain_overflow_dont) ++ return bfd_reloc_ok; ++ ++ /* Check if the value is correctly aligned */ ++ if (relocation & ((1 << howto->rightshift) - 1)) ++ { ++ RDBG("misaligned: %s<%s+%lx>: %s: 0x%lx (align %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, relocation, howto->rightshift); ++ return bfd_reloc_overflow; ++ } ++ ++ /* Now, get rid of the unnecessary bits */ ++ relocation >>= howto->rightshift; ++ reloc_u = (bfd_vma)relocation; ++ ++ switch (howto->complain_on_overflow) ++ { ++ case complain_overflow_unsigned: ++ case complain_overflow_bitfield: ++ if (reloc_u > (unsigned long)((1 << howto->bitsize) - 1)) ++ { ++ RDBG("unsigned overflow: %s<%s+%lx>: %s: 0x%lx (size %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, reloc_u, howto->bitsize); ++ RDBG("reloc vma: 0x%lx\n", ++ sec->output_section->vma + sec->output_offset + rela->r_offset); ++ ++ return bfd_reloc_overflow; ++ } ++ break; ++ case complain_overflow_signed: ++ if (relocation > (1 << (howto->bitsize - 1)) - 1) ++ { ++ RDBG("signed overflow: %s<%s+%lx>: %s: 0x%lx (size %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, reloc_u, howto->bitsize); ++ RDBG("reloc vma: 0x%lx\n", ++ sec->output_section->vma + sec->output_offset + rela->r_offset); ++ ++ return bfd_reloc_overflow; ++ } ++ if (relocation < -(1 << (howto->bitsize - 1))) ++ { ++ RDBG("signed overflow: %s<%s+%lx>: %s: -0x%lx (size %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, -relocation, howto->bitsize); ++ RDBG("reloc vma: 0x%lx\n", ++ sec->output_section->vma + sec->output_offset + rela->r_offset); ++ ++ return bfd_reloc_overflow; ++ } ++ break; ++ default: ++ abort(); ++ } ++ ++ return bfd_reloc_ok; ++} ++ ++ ++static bfd_reloc_status_type ++avr32_final_link_relocate(reloc_howto_type *howto, ++ bfd *input_bfd, ++ asection *input_section, ++ bfd_byte *contents, ++ Elf_Internal_Rela *rel, ++ bfd_vma value) ++{ ++ bfd_vma field; ++ bfd_vma relocation; ++ bfd_reloc_status_type status; ++ bfd_byte *p = contents + rel->r_offset; ++ unsigned long x; ++ ++ pr_debug(" (6b) final link relocate\n"); ++ ++ /* Sanity check the address */ ++ if (rel->r_offset > input_section->size) ++ { ++ (*_bfd_error_handler) ++ ("%B: %A+0x%lx: offset out of range (section size: 0x%lx)", ++ input_bfd, input_section, rel->r_offset, input_section->size); ++ return bfd_reloc_outofrange; ++ } ++ ++ relocation = value + rel->r_addend; ++ ++ if (howto->pc_relative) ++ { ++ bfd_vma addr; ++ ++ addr = input_section->output_section->vma ++ + input_section->output_offset + rel->r_offset; ++ addr &= ~0UL << howto->rightshift; ++ relocation -= addr; ++ } ++ ++ switch (ELF32_R_TYPE(rel->r_info)) ++ { ++ case R_AVR32_16N_PCREL: ++ /* sub reg, pc, . - (sym + addend) */ ++ relocation = -relocation; ++ break; ++ } ++ ++ status = avr32_check_reloc_value(input_section, rel, relocation, howto); ++ ++ relocation >>= howto->rightshift; ++ if (howto->bitsize == 21) ++ field = (relocation & 0xffff) ++ | ((relocation & 0x10000) << 4) ++ | ((relocation & 0x1e0000) << 8); ++ else if (howto->bitsize == 12) ++ field = (relocation & 0xff) | ((relocation & 0xf00) << 4); ++ else if (howto->bitsize == 10) ++ field = ((relocation & 0xff) << 4) ++ | ((relocation & 0x300) >> 8); ++ else ++ field = relocation << howto->bitpos; ++ ++ switch (howto->size) ++ { ++ case 0: ++ x = bfd_get_8 (input_bfd, p); ++ x &= ~howto->dst_mask; ++ x |= field & howto->dst_mask; ++ bfd_put_8 (input_bfd, (bfd_vma) x, p); ++ break; ++ case 1: ++ x = bfd_get_16 (input_bfd, p); ++ x &= ~howto->dst_mask; ++ x |= field & howto->dst_mask; ++ bfd_put_16 (input_bfd, (bfd_vma) x, p); ++ break; ++ case 2: ++ x = bfd_get_32 (input_bfd, p); ++ x &= ~howto->dst_mask; ++ x |= field & howto->dst_mask; ++ bfd_put_32 (input_bfd, (bfd_vma) x, p); ++ break; ++ default: ++ abort(); ++ } ++ ++ return status; ++} ++ ++/* (6) Apply relocations to the normal (non-dynamic) sections */ ++ ++static bfd_boolean ++avr32_elf_relocate_section(bfd *output_bfd, struct bfd_link_info *info, ++ bfd *input_bfd, asection *input_section, ++ bfd_byte *contents, Elf_Internal_Rela *relocs, ++ Elf_Internal_Sym *local_syms, ++ asection **local_sections) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Rela *rel, *relend; ++ struct elf_link_hash_entry **sym_hashes; ++ struct got_entry **local_got_ents; ++ asection *sgot; ++ asection *srelgot; ++ ++ pr_debug("(6) relocate section %s:<%s> (size 0x%lx)\n", ++ input_bfd->filename, input_section->name, input_section->size); ++ ++ /* If we're doing a partial link, we don't have to do anything since ++ we're using RELA relocations */ ++ if (info->relocatable) ++ return TRUE; ++ ++ htab = avr32_elf_hash_table(info); ++ symtab_hdr = &elf_tdata(input_bfd)->symtab_hdr; ++ sym_hashes = elf_sym_hashes(input_bfd); ++ local_got_ents = elf_local_got_ents(input_bfd); ++ sgot = htab->sgot; ++ srelgot = htab->srelgot; ++ ++ relend = relocs + input_section->reloc_count; ++ for (rel = relocs; rel < relend; rel++) ++ { ++ unsigned long r_type, r_symndx; ++ reloc_howto_type *howto; ++ Elf_Internal_Sym *sym = NULL; ++ struct elf_link_hash_entry *h = NULL; ++ asection *sec = NULL; ++ bfd_vma value; ++ bfd_vma offset; ++ bfd_reloc_status_type status; ++ ++ r_type = ELF32_R_TYPE(rel->r_info); ++ r_symndx = ELF32_R_SYM(rel->r_info); ++ ++ if (r_type == R_AVR32_NONE ++ || r_type == R_AVR32_ALIGN ++ || r_type == R_AVR32_DIFF32 ++ || r_type == R_AVR32_DIFF16 ++ || r_type == R_AVR32_DIFF8) ++ continue; ++ ++ /* Sanity check */ ++ if (r_type > R_AVR32_max) ++ { ++ bfd_set_error(bfd_error_bad_value); ++ return FALSE; ++ } ++ ++ howto = &elf_avr32_howto_table[r_type]; ++ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ sym = local_syms + r_symndx; ++ sec = local_sections[r_symndx]; ++ ++ pr_debug(" (6a) processing %s against local symbol %lu\n", ++ howto->name, r_symndx); ++ ++ /* The following function changes rel->r_addend behind our back. */ ++ value = _bfd_elf_rela_local_sym(output_bfd, sym, &sec, rel); ++ pr_debug(" => value: %lx, addend: %lx\n", value, rel->r_addend); ++ } ++ else ++ { ++ if (sym_hashes == NULL) ++ return FALSE; ++ ++ h = sym_hashes[r_symndx - symtab_hdr->sh_info]; ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ pr_debug(" (6a) processing %s against symbol %s\n", ++ howto->name, h->root.root.string); ++ ++ if (h->root.type == bfd_link_hash_defined ++ || h->root.type == bfd_link_hash_defweak) ++ { ++ bfd_boolean dyn; ++ ++ dyn = htab->root.dynamic_sections_created; ++ sec = h->root.u.def.section; ++ ++ if (sec->output_section) ++ value = (h->root.u.def.value ++ + sec->output_section->vma ++ + sec->output_offset); ++ else ++ value = h->root.u.def.value; ++ } ++ else if (h->root.type == bfd_link_hash_undefweak) ++ value = 0; ++ else if (info->unresolved_syms_in_objects == RM_IGNORE ++ && ELF_ST_VISIBILITY(h->other) == STV_DEFAULT) ++ value = 0; ++ else ++ { ++ bfd_boolean err; ++ err = (info->unresolved_syms_in_objects == RM_GENERATE_ERROR ++ || ELF_ST_VISIBILITY(h->other) != STV_DEFAULT); ++ if (!info->callbacks->undefined_symbol ++ (info, h->root.root.string, input_bfd, ++ input_section, rel->r_offset, err)) ++ return FALSE; ++ value = 0; ++ } ++ ++ pr_debug(" => value: %lx, addend: %lx\n", value, rel->r_addend); ++ } ++ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ BFD_ASSERT(sgot != NULL); ++ ++ if (h != NULL) ++ { ++ BFD_ASSERT(h->got.glist->refcount > 0); ++ offset = h->got.glist->offset; ++ ++ BFD_ASSERT(offset < sgot->size); ++ if (!elf_hash_table(info)->dynamic_sections_created ++ || (h->def_regular ++ && (!info->shared ++ || info->symbolic ++ || h->dynindx == -1))) ++ { ++ /* This is actually a static link, or it is a ++ -Bsymbolic link and the symbol is defined ++ locally, or the symbol was forced to be local. */ ++ bfd_put_32(output_bfd, value, sgot->contents + offset); ++ } ++ } ++ else ++ { ++ BFD_ASSERT(local_got_ents && ++ local_got_ents[r_symndx]->refcount > 0); ++ offset = local_got_ents[r_symndx]->offset; ++ ++ /* Local GOT entries don't have relocs. If this is a ++ shared library, the dynamic linker will add the load ++ address to the initial value at startup. */ ++ BFD_ASSERT(offset < sgot->size); ++ pr_debug("Initializing GOT entry at offset %lu: 0x%lx\n", ++ offset, value); ++ bfd_put_32 (output_bfd, value, sgot->contents + offset); ++ } ++ ++ value = sgot->output_offset + offset; ++ pr_debug("GOT reference: New value %lx\n", value); ++ break; ++ ++ case R_AVR32_GOTPC: ++ /* This relocation type is for constant pool entries used in ++ the calculation "Rd = PC - (PC - GOT)", where the ++ constant pool supplies the constant (PC - GOT) ++ offset. The symbol value + addend indicates where the ++ value of PC is taken. */ ++ value -= sgot->output_section->vma; ++ break; ++ ++ case R_AVR32_32_PCREL: ++ /* We must adjust r_offset to account for discarded data in ++ the .eh_frame section. This is probably not the right ++ way to do this, since AFAICS all other architectures do ++ it some other way. I just can't figure out how... */ ++ { ++ bfd_vma r_offset; ++ ++ r_offset = _bfd_elf_section_offset(output_bfd, info, ++ input_section, ++ rel->r_offset); ++ if (r_offset == (bfd_vma)-1 ++ || r_offset == (bfd_vma)-2) ++ continue; ++ rel->r_offset = r_offset; ++ } ++ break; ++ ++ case R_AVR32_32: ++ /* We need to emit a run-time relocation in the following cases: ++ - we're creating a shared library ++ - the symbol is not defined in any regular objects ++ ++ Of course, sections that aren't going to be part of the ++ run-time image will not get any relocs, and undefined ++ symbols won't have any either (only weak undefined ++ symbols should get this far). */ ++ if ((info->shared ++ || (elf_hash_table(info)->dynamic_sections_created ++ && h != NULL ++ && h->def_dynamic ++ && !h->def_regular)) ++ && r_symndx != 0 ++ && (input_section->flags & SEC_ALLOC)) ++ { ++ Elf_Internal_Rela outrel; ++ bfd_byte *loc; ++ bfd_boolean skip, relocate; ++ struct elf_avr32_link_hash_entry *avrh; ++ ++ pr_debug("Going to generate dynamic reloc...\n"); ++ ++ skip = FALSE; ++ relocate = FALSE; ++ ++ outrel.r_offset = _bfd_elf_section_offset(output_bfd, info, ++ input_section, ++ rel->r_offset); ++ if (outrel.r_offset == (bfd_vma)-1) ++ skip = TRUE; ++ else if (outrel.r_offset == (bfd_vma)-2) ++ skip = TRUE, relocate = TRUE; ++ ++ outrel.r_offset += (input_section->output_section->vma ++ + input_section->output_offset); ++ ++ pr_debug(" ... offset %lx, dynindx %ld\n", ++ outrel.r_offset, h ? h->dynindx : -1); ++ ++ if (skip) ++ memset(&outrel, 0, sizeof(outrel)); ++ else ++ { ++ avrh = (struct elf_avr32_link_hash_entry *)h; ++ /* h->dynindx may be -1 if this symbol was marked to ++ become local. */ ++ if (h == NULL ++ || ((info->symbolic || h->dynindx == -1) ++ && h->def_regular)) ++ { ++ relocate = TRUE; ++ outrel.r_info = ELF32_R_INFO(0, R_AVR32_RELATIVE); ++ outrel.r_addend = value + rel->r_addend; ++ pr_debug(" ... R_AVR32_RELATIVE\n"); ++ } ++ else ++ { ++ BFD_ASSERT(h->dynindx != -1); ++ relocate = TRUE; ++ outrel.r_info = ELF32_R_INFO(h->dynindx, R_AVR32_GLOB_DAT); ++ outrel.r_addend = rel->r_addend; ++ pr_debug(" ... R_AVR32_GLOB_DAT\n"); ++ } ++ } ++ ++ pr_debug("srelgot reloc_count: %d, size %lu\n", ++ srelgot->reloc_count, srelgot->size); ++ ++ loc = srelgot->contents; ++ loc += srelgot->reloc_count++ * sizeof(Elf32_External_Rela); ++ bfd_elf32_swap_reloca_out(output_bfd, &outrel, loc); ++ ++ BFD_ASSERT(srelgot->reloc_count * sizeof(Elf32_External_Rela) ++ <= srelgot->size); ++ ++ if (!relocate) ++ continue; ++ } ++ break; ++ } ++ ++ status = avr32_final_link_relocate(howto, input_bfd, input_section, ++ contents, rel, value); ++ ++ switch (status) ++ { ++ case bfd_reloc_ok: ++ break; ++ ++ case bfd_reloc_overflow: ++ { ++ const char *name; ++ ++ if (h != NULL) ++ name = h->root.root.string; ++ else ++ { ++ name = bfd_elf_string_from_elf_section(input_bfd, ++ symtab_hdr->sh_link, ++ sym->st_name); ++ if (name == NULL) ++ return FALSE; ++ if (*name == '\0') ++ name = bfd_section_name(input_bfd, sec); ++ } ++ if (!((*info->callbacks->reloc_overflow) ++ (info, (h ? &h->root : NULL), name, howto->name, ++ rel->r_addend, input_bfd, input_section, rel->r_offset))) ++ return FALSE; ++ } ++ break; ++ ++ case bfd_reloc_outofrange: ++ default: ++ abort(); ++ } ++ } ++ ++ return TRUE; ++} ++ ++ ++/* Additional processing of dynamic sections after relocation */ ++ ++static bfd_boolean ++avr32_elf_finish_dynamic_symbol(bfd *output_bfd, struct bfd_link_info *info, ++ struct elf_link_hash_entry *h, ++ Elf_Internal_Sym *sym); ++static bfd_boolean ++avr32_elf_finish_dynamic_sections(bfd *output_bfd, struct bfd_link_info *info); ++ ++ ++/* (7) Initialize the contents of a dynamic symbol and/or emit ++ relocations for it */ ++ ++static bfd_boolean ++avr32_elf_finish_dynamic_symbol(bfd *output_bfd, struct bfd_link_info *info, ++ struct elf_link_hash_entry *h, ++ Elf_Internal_Sym *sym) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct got_entry *got; ++ ++ pr_debug("(7) finish dynamic symbol: %s\n", h->root.root.string); ++ ++ htab = avr32_elf_hash_table(info); ++ got = h->got.glist; ++ ++ if (got && got->refcount > 0) ++ { ++ asection *sgot; ++ asection *srelgot; ++ Elf_Internal_Rela rel; ++ bfd_byte *loc; ++ ++ /* This symbol has an entry in the GOT. Set it up. */ ++ sgot = htab->sgot; ++ srelgot = htab->srelgot; ++ BFD_ASSERT(sgot && srelgot); ++ ++ rel.r_offset = (sgot->output_section->vma ++ + sgot->output_offset ++ + got->offset); ++ ++ /* If this is a static link, or it is a -Bsymbolic link and the ++ symbol is defined locally or was forced to be local because ++ of a version file, we just want to emit a RELATIVE reloc. The ++ entry in the global offset table will already have been ++ initialized in the relocate_section function. */ ++ if ((info->shared ++ && !info->symbolic ++ && h->dynindx != -1) ++ || (htab->root.dynamic_sections_created ++ && h->def_dynamic ++ && !h->def_regular)) ++ { ++ bfd_put_32(output_bfd, 0, sgot->contents + got->offset); ++ rel.r_info = ELF32_R_INFO(h->dynindx, R_AVR32_GLOB_DAT); ++ rel.r_addend = 0; ++ ++ pr_debug("GOT reloc R_AVR32_GLOB_DAT, dynindx: %ld\n", h->dynindx); ++ pr_debug(" srelgot reloc_count: %d, size: %lu\n", ++ srelgot->reloc_count, srelgot->size); ++ ++ loc = (srelgot->contents ++ + srelgot->reloc_count++ * sizeof(Elf32_External_Rela)); ++ bfd_elf32_swap_reloca_out(output_bfd, &rel, loc); ++ ++ BFD_ASSERT(srelgot->reloc_count * sizeof(Elf32_External_Rela) ++ <= srelgot->size); ++ } ++ } ++ ++ /* Mark _DYNAMIC and _GLOBAL_OFFSET_TABLE_ as absolute */ ++ if (strcmp(h->root.root.string, "_DYNAMIC") == 0 ++ || strcmp(h->root.root.string, "_GLOBAL_OFFSET_TABLE_") == 0) ++ sym->st_shndx = SHN_ABS; ++ ++ return TRUE; ++} ++ ++/* (8) Do any remaining initialization of the dynamic sections */ ++ ++static bfd_boolean ++avr32_elf_finish_dynamic_sections(bfd *output_bfd, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ asection *sgot, *sdyn; ++ ++ pr_debug("(8) finish dynamic sections\n"); ++ ++ htab = avr32_elf_hash_table(info); ++ sgot = htab->sgot; ++ sdyn = bfd_get_section_by_name(htab->root.dynobj, ".dynamic"); ++ ++ if (htab->root.dynamic_sections_created) ++ { ++ Elf32_External_Dyn *dyncon, *dynconend; ++ ++ BFD_ASSERT(sdyn && sgot && sgot->size >= AVR32_GOT_HEADER_SIZE); ++ ++ dyncon = (Elf32_External_Dyn *)sdyn->contents; ++ dynconend = (Elf32_External_Dyn *)(sdyn->contents + sdyn->size); ++ for (; dyncon < dynconend; dyncon++) ++ { ++ Elf_Internal_Dyn dyn; ++ asection *s; ++ ++ bfd_elf32_swap_dyn_in(htab->root.dynobj, dyncon, &dyn); ++ ++ switch (dyn.d_tag) ++ { ++ default: ++ break; ++ ++ case DT_PLTGOT: ++ s = sgot->output_section; ++ BFD_ASSERT(s != NULL); ++ dyn.d_un.d_ptr = s->vma; ++ bfd_elf32_swap_dyn_out(output_bfd, &dyn, dyncon); ++ break; ++ ++ case DT_AVR32_GOTSZ: ++ s = sgot->output_section; ++ BFD_ASSERT(s != NULL); ++ dyn.d_un.d_val = s->size; ++ bfd_elf32_swap_dyn_out(output_bfd, &dyn, dyncon); ++ break; ++ } ++ } ++ ++ /* Fill in the first two entries in the global offset table */ ++ bfd_put_32(output_bfd, ++ sdyn->output_section->vma + sdyn->output_offset, ++ sgot->contents); ++ ++ /* The runtime linker will fill this one in with the address of ++ the run-time link map */ ++ bfd_put_32(output_bfd, 0, sgot->contents + 4); ++ } ++ ++ if (sgot) ++ elf_section_data(sgot->output_section)->this_hdr.sh_entsize = 4; ++ ++ return TRUE; ++} ++ ++ ++/* AVR32-specific private ELF data */ ++ ++static bfd_boolean ++avr32_elf_set_private_flags(bfd *abfd, flagword flags); ++static bfd_boolean ++avr32_elf_copy_private_bfd_data(bfd *ibfd, bfd *obfd); ++static bfd_boolean ++avr32_elf_merge_private_bfd_data(bfd *ibfd, bfd *obfd); ++static bfd_boolean ++avr32_elf_print_private_bfd_data(bfd *abfd, void *ptr); ++ ++static bfd_boolean ++avr32_elf_set_private_flags(bfd *abfd, flagword flags) ++{ ++ elf_elfheader(abfd)->e_flags = flags; ++ elf_flags_init(abfd) = TRUE; ++ ++ return TRUE; ++} ++ ++/* Copy backend specific data from one object module to another. */ ++ ++static bfd_boolean ++avr32_elf_copy_private_bfd_data(bfd *ibfd, bfd *obfd) ++{ ++ elf_elfheader(obfd)->e_flags = elf_elfheader(ibfd)->e_flags; ++ return TRUE; ++} ++ ++/* Merge backend specific data from an object file to the output ++ object file when linking. */ ++ ++static bfd_boolean ++avr32_elf_merge_private_bfd_data(bfd *ibfd, bfd *obfd) ++{ ++ flagword out_flags, in_flags; ++ ++ pr_debug("(0) merge_private_bfd_data: %s -> %s\n", ++ ibfd->filename, obfd->filename); ++ ++ in_flags = elf_elfheader(ibfd)->e_flags; ++ out_flags = elf_elfheader(obfd)->e_flags; ++ ++ if (elf_flags_init(obfd)) ++ { ++ /* If one of the inputs are non-PIC, the output must be ++ considered non-PIC. The same applies to linkrelax. */ ++ if (!(in_flags & EF_AVR32_PIC)) ++ out_flags &= ~EF_AVR32_PIC; ++ if (!(in_flags & EF_AVR32_LINKRELAX)) ++ out_flags &= ~EF_AVR32_LINKRELAX; ++ } ++ else ++ { ++ elf_flags_init(obfd) = TRUE; ++ out_flags = in_flags; ++ } ++ ++ elf_elfheader(obfd)->e_flags = out_flags; ++ ++ return TRUE; ++} ++ ++static bfd_boolean ++avr32_elf_print_private_bfd_data(bfd *abfd, void *ptr) ++{ ++ FILE *file = (FILE *)ptr; ++ unsigned long flags; ++ ++ BFD_ASSERT(abfd != NULL && ptr != NULL); ++ ++ _bfd_elf_print_private_bfd_data(abfd, ptr); ++ ++ flags = elf_elfheader(abfd)->e_flags; ++ ++ fprintf(file, _("private flags = %lx:"), elf_elfheader(abfd)->e_flags); ++ ++ if (flags & EF_AVR32_PIC) ++ fprintf(file, " [PIC]"); ++ if (flags & EF_AVR32_LINKRELAX) ++ fprintf(file, " [linker relaxable]"); ++ ++ flags &= ~(EF_AVR32_PIC | EF_AVR32_LINKRELAX); ++ ++ if (flags) ++ fprintf(file, _("")); ++ ++ fputc('\n', file); ++ ++ return TRUE; ++} ++ ++/* Set avr32-specific linker options. */ ++void bfd_elf32_avr32_set_options(struct bfd_link_info *info, ++ int direct_data_refs) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ ++ htab = avr32_elf_hash_table (info); ++ htab->direct_data_refs = !!direct_data_refs; ++} ++ ++ ++ ++/* Understanding core dumps */ ++ ++static bfd_boolean ++avr32_elf_grok_prstatus(bfd *abfd, Elf_Internal_Note *note); ++static bfd_boolean ++avr32_elf_grok_psinfo(bfd *abfd, Elf_Internal_Note *note); ++ ++static bfd_boolean ++avr32_elf_grok_prstatus(bfd *abfd, Elf_Internal_Note *note) ++{ ++ /* Linux/AVR32B elf_prstatus */ ++ if (note->descsz != 148) ++ return FALSE; ++ ++ /* pr_cursig */ ++ elf_tdata(abfd)->core_signal = bfd_get_16(abfd, note->descdata + 12); ++ ++ /* pr_pid */ ++ elf_tdata(abfd)->core_pid = bfd_get_32(abfd, note->descdata + 24); ++ ++ /* Make a ".reg/999" section for pr_reg. The size is for 16 ++ general-purpose registers, SR and r12_orig (18 * 4 = 72). */ ++ return _bfd_elfcore_make_pseudosection(abfd, ".reg", 72, ++ note->descpos + 72); ++} ++ ++static bfd_boolean ++avr32_elf_grok_psinfo(bfd *abfd, Elf_Internal_Note *note) ++{ ++ /* Linux/AVR32B elf_prpsinfo */ ++ if (note->descsz != 128) ++ return FALSE; ++ ++ elf_tdata(abfd)->core_program ++ = _bfd_elfcore_strndup(abfd, note->descdata + 32, 16); ++ elf_tdata(abfd)->core_command ++ = _bfd_elfcore_strndup(abfd, note->descdata + 48, 80); ++ ++ /* Note that for some reason, a spurious space is tacked ++ onto the end of the args in some (at least one anyway) ++ implementations, so strip it off if it exists. */ ++ ++ { ++ char *command = elf_tdata (abfd)->core_command; ++ int n = strlen (command); ++ ++ if (0 < n && command[n - 1] == ' ') ++ command[n - 1] = '\0'; ++ } ++ ++ return TRUE; ++} ++ ++ ++#define ELF_ARCH bfd_arch_avr32 ++#define ELF_MACHINE_CODE EM_AVR32 ++#define ELF_MAXPAGESIZE 1024 ++ ++#define TARGET_BIG_SYM bfd_elf32_avr32_vec ++#define TARGET_BIG_NAME "elf32-avr32" ++ ++#define elf_backend_grok_prstatus avr32_elf_grok_prstatus ++#define elf_backend_grok_psinfo avr32_elf_grok_psinfo ++ ++/* Only RELA relocations are used */ ++#define elf_backend_may_use_rel_p 0 ++#define elf_backend_may_use_rela_p 1 ++#define elf_backend_default_use_rela_p 1 ++#define elf_backend_rela_normal 1 ++#define elf_info_to_howto_rel NULL ++#define elf_info_to_howto avr32_info_to_howto ++ ++#define bfd_elf32_bfd_copy_private_bfd_data avr32_elf_copy_private_bfd_data ++#define bfd_elf32_bfd_merge_private_bfd_data avr32_elf_merge_private_bfd_data ++#define bfd_elf32_bfd_set_private_flags avr32_elf_set_private_flags ++#define bfd_elf32_bfd_print_private_bfd_data avr32_elf_print_private_bfd_data ++#define bfd_elf32_new_section_hook avr32_elf_new_section_hook ++ ++#define elf_backend_gc_mark_hook avr32_elf_gc_mark_hook ++#define elf_backend_gc_sweep_hook avr32_elf_gc_sweep_hook ++#define elf_backend_relocate_section avr32_elf_relocate_section ++#define elf_backend_copy_indirect_symbol avr32_elf_copy_indirect_symbol ++#define elf_backend_create_dynamic_sections avr32_elf_create_dynamic_sections ++#define bfd_elf32_bfd_link_hash_table_create avr32_elf_link_hash_table_create ++#define elf_backend_adjust_dynamic_symbol avr32_elf_adjust_dynamic_symbol ++#define elf_backend_size_dynamic_sections avr32_elf_size_dynamic_sections ++#define elf_backend_finish_dynamic_symbol avr32_elf_finish_dynamic_symbol ++#define elf_backend_finish_dynamic_sections avr32_elf_finish_dynamic_sections ++ ++#define bfd_elf32_bfd_relax_section avr32_elf_relax_section ++ ++/* Find out which symbols need an entry in .got. */ ++#define elf_backend_check_relocs avr32_check_relocs ++#define elf_backend_can_refcount 1 ++#define elf_backend_can_gc_sections 1 ++#define elf_backend_plt_readonly 1 ++#define elf_backend_plt_not_loaded 1 ++#define elf_backend_want_plt_sym 0 ++#define elf_backend_plt_alignment 2 ++#define elf_backend_want_dynbss 0 ++#define elf_backend_want_got_plt 0 ++#define elf_backend_want_got_sym 1 ++#define elf_backend_got_header_size AVR32_GOT_HEADER_SIZE ++ ++#include "elf32-target.h" +--- /dev/null ++++ b/bfd/elf32-avr32.h +@@ -0,0 +1,23 @@ ++/* AVR32-specific support for 32-bit ELF. ++ Copyright 2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2 of the License, or ++ (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, ++ but WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ GNU General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ ++ ++void bfd_elf32_avr32_set_options(struct bfd_link_info *info, ++ int direct_data_refs); +--- a/bfd/elf-bfd.h ++++ b/bfd/elf-bfd.h +@@ -1498,6 +1498,10 @@ struct elf_obj_tdata + find_nearest_line. */ + struct mips_elf_find_line *find_line_info; + ++ /* Used by AVR32 ELF relaxation code. Contains an array of pointers ++ for each local symbol to the fragment where it is defined. */ ++ struct fragment **local_sym_frag; ++ + /* A place to stash dwarf1 info for this bfd. */ + struct dwarf1_debug *dwarf1_find_line_info; + +--- a/bfd/libbfd.h ++++ b/bfd/libbfd.h +@@ -1614,6 +1614,48 @@ static const char *const bfd_reloc_code_ + "BFD_RELOC_AVR_LDI", + "BFD_RELOC_AVR_6", + "BFD_RELOC_AVR_6_ADIW", ++ "BFD_RELOC_AVR32_DIFF32", ++ "BFD_RELOC_AVR32_DIFF16", ++ "BFD_RELOC_AVR32_DIFF8", ++ "BFD_RELOC_AVR32_GOT32", ++ "BFD_RELOC_AVR32_GOT16", ++ "BFD_RELOC_AVR32_GOT8", ++ "BFD_RELOC_AVR32_21S", ++ "BFD_RELOC_AVR32_16U", ++ "BFD_RELOC_AVR32_16S", ++ "BFD_RELOC_AVR32_SUB5", ++ "BFD_RELOC_AVR32_8S_EXT", ++ "BFD_RELOC_AVR32_8S", ++ "BFD_RELOC_AVR32_15S", ++ "BFD_RELOC_AVR32_22H_PCREL", ++ "BFD_RELOC_AVR32_18W_PCREL", ++ "BFD_RELOC_AVR32_16B_PCREL", ++ "BFD_RELOC_AVR32_16N_PCREL", ++ "BFD_RELOC_AVR32_14UW_PCREL", ++ "BFD_RELOC_AVR32_11H_PCREL", ++ "BFD_RELOC_AVR32_10UW_PCREL", ++ "BFD_RELOC_AVR32_9H_PCREL", ++ "BFD_RELOC_AVR32_9UW_PCREL", ++ "BFD_RELOC_AVR32_GOTPC", ++ "BFD_RELOC_AVR32_GOTCALL", ++ "BFD_RELOC_AVR32_LDA_GOT", ++ "BFD_RELOC_AVR32_GOT21S", ++ "BFD_RELOC_AVR32_GOT18SW", ++ "BFD_RELOC_AVR32_GOT16S", ++ "BFD_RELOC_AVR32_32_CPENT", ++ "BFD_RELOC_AVR32_CPCALL", ++ "BFD_RELOC_AVR32_16_CP", ++ "BFD_RELOC_AVR32_9W_CP", ++ "BFD_RELOC_AVR32_ALIGN", ++ "BFD_RELOC_AVR32_14UW", ++ "BFD_RELOC_AVR32_10UW", ++ "BFD_RELOC_AVR32_10SW", ++ "BFD_RELOC_AVR32_STHH_W", ++ "BFD_RELOC_AVR32_7UW", ++ "BFD_RELOC_AVR32_6S", ++ "BFD_RELOC_AVR32_6UW", ++ "BFD_RELOC_AVR32_4UH", ++ "BFD_RELOC_AVR32_3U", + "BFD_RELOC_390_12", + "BFD_RELOC_390_GOT12", + "BFD_RELOC_390_PLT32", +--- a/bfd/Makefile.am ++++ b/bfd/Makefile.am +@@ -63,6 +63,7 @@ ALL_MACHINES = \ + cpu-arc.lo \ + cpu-arm.lo \ + cpu-avr.lo \ ++ cpu-avr32.lo \ + cpu-bfin.lo \ + cpu-cr16.lo \ + cpu-cr16c.lo \ +@@ -247,6 +248,7 @@ BFD32_BACKENDS = \ + elf32-arc.lo \ + elf32-arm.lo \ + elf32-avr.lo \ ++ elf32-avr32.lo \ + elf32-bfin.lo \ + elf32-cr16.lo \ + elf32-cr16c.lo \ +@@ -1355,6 +1357,10 @@ elf32-cr16.lo: elf32-cr16.c $(INCDIR)/fi + $(INCDIR)/hashtab.h $(INCDIR)/libiberty.h elf-bfd.h \ + $(INCDIR)/elf/common.h $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/elf/cr16.h $(INCDIR)/elf/reloc-macros.h elf32-target.h ++elf32-avr32.lo: elf32-avr32.c $(INCDIR)/filenames.h elf-bfd.h \ ++ $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h $(INCDIR)/elf/external.h \ ++ $(INCDIR)/bfdlink.h $(INCDIR)/elf/avr32.h $(INCDIR)/elf/reloc-macros.h \ ++ elf32-target.h + elf32-cr16c.lo: elf32-cr16c.c $(INCDIR)/filenames.h \ + $(INCDIR)/hashtab.h $(INCDIR)/bfdlink.h $(INCDIR)/elf/cr16c.h \ + $(INCDIR)/elf/reloc-macros.h elf-bfd.h $(INCDIR)/elf/common.h \ +--- a/bfd/Makefile.in ++++ b/bfd/Makefile.in +@@ -316,6 +316,7 @@ ALL_MACHINES = \ + cpu-arc.lo \ + cpu-arm.lo \ + cpu-avr.lo \ ++ cpu-avr32.lo \ + cpu-bfin.lo \ + cpu-cr16.lo \ + cpu-cr16c.lo \ +@@ -501,6 +502,7 @@ BFD32_BACKENDS = \ + elf32-arc.lo \ + elf32-arm.lo \ + elf32-avr.lo \ ++ elf32-avr32.lo \ + elf32-bfin.lo \ + elf32-cr16.lo \ + elf32-cr16c.lo \ +@@ -1939,6 +1941,10 @@ elf32-cr16.lo: elf32-cr16.c $(INCDIR)/fi + $(INCDIR)/hashtab.h $(INCDIR)/libiberty.h elf-bfd.h \ + $(INCDIR)/elf/common.h $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/elf/cr16.h $(INCDIR)/elf/reloc-macros.h elf32-target.h ++elf32-avr32.lo: elf32-avr32.c $(INCDIR)/filenames.h elf-bfd.h \ ++ $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h $(INCDIR)/elf/external.h \ ++ $(INCDIR)/bfdlink.h $(INCDIR)/elf/avr32.h $(INCDIR)/elf/reloc-macros.h \ ++ elf32-target.h + elf32-cr16c.lo: elf32-cr16c.c $(INCDIR)/filenames.h \ + $(INCDIR)/hashtab.h $(INCDIR)/bfdlink.h $(INCDIR)/elf/cr16c.h \ + $(INCDIR)/elf/reloc-macros.h elf-bfd.h $(INCDIR)/elf/common.h \ +--- a/bfd/reloc.c ++++ b/bfd/reloc.c +@@ -3982,6 +3982,131 @@ ENUMDOC + instructions + + ENUM ++ BFD_RELOC_AVR32_DIFF32 ++ENUMX ++ BFD_RELOC_AVR32_DIFF16 ++ENUMX ++ BFD_RELOC_AVR32_DIFF8 ++ENUMDOC ++ Difference between two labels: L2 - L1. The value of L1 is encoded ++ as sym + addend, while the initial difference after assembly is ++ inserted into the object file by the assembler. ++ENUM ++ BFD_RELOC_AVR32_GOT32 ++ENUMX ++ BFD_RELOC_AVR32_GOT16 ++ENUMX ++ BFD_RELOC_AVR32_GOT8 ++ENUMDOC ++ Reference to a symbol through the Global Offset Table. The linker ++ will allocate an entry for symbol in the GOT and insert the offset ++ of this entry as the relocation value. ++ENUM ++ BFD_RELOC_AVR32_21S ++ENUMX ++ BFD_RELOC_AVR32_16U ++ENUMX ++ BFD_RELOC_AVR32_16S ++ENUMX ++ BFD_RELOC_AVR32_SUB5 ++ENUMX ++ BFD_RELOC_AVR32_8S_EXT ++ENUMX ++ BFD_RELOC_AVR32_8S ++ENUMX ++ BFD_RELOC_AVR32_15S ++ENUMDOC ++ Normal (non-pc-relative) code relocations. Alignment and signedness ++ is indicated by the suffixes. S means signed, U means unsigned. W ++ means word-aligned, H means halfword-aligned, neither means ++ byte-aligned (no alignment.) SUB5 is the same relocation as 16S. ++ENUM ++ BFD_RELOC_AVR32_22H_PCREL ++ENUMX ++ BFD_RELOC_AVR32_18W_PCREL ++ENUMX ++ BFD_RELOC_AVR32_16B_PCREL ++ENUMX ++ BFD_RELOC_AVR32_16N_PCREL ++ENUMX ++ BFD_RELOC_AVR32_14UW_PCREL ++ENUMX ++ BFD_RELOC_AVR32_11H_PCREL ++ENUMX ++ BFD_RELOC_AVR32_10UW_PCREL ++ENUMX ++ BFD_RELOC_AVR32_9H_PCREL ++ENUMX ++ BFD_RELOC_AVR32_9UW_PCREL ++ENUMDOC ++ PC-relative relocations are signed if neither 'U' nor 'S' is ++ specified. However, we explicitly tack on a 'B' to indicate no ++ alignment, to avoid confusion with data relocs. All of these resolve ++ to sym + addend - offset, except the one with 'N' (negated) suffix. ++ This particular one resolves to offset - sym - addend. ++ENUM ++ BFD_RELOC_AVR32_GOTPC ++ENUMDOC ++ Subtract the link-time address of the GOT from (symbol + addend) ++ and insert the result. ++ENUM ++ BFD_RELOC_AVR32_GOTCALL ++ENUMX ++ BFD_RELOC_AVR32_LDA_GOT ++ENUMX ++ BFD_RELOC_AVR32_GOT21S ++ENUMX ++ BFD_RELOC_AVR32_GOT18SW ++ENUMX ++ BFD_RELOC_AVR32_GOT16S ++ENUMDOC ++ Reference to a symbol through the GOT. The linker will allocate an ++ entry for symbol in the GOT and insert the offset of this entry as ++ the relocation value. addend must be zero. As usual, 'S' means ++ signed, 'W' means word-aligned, etc. ++ENUM ++ BFD_RELOC_AVR32_32_CPENT ++ENUMDOC ++ 32-bit constant pool entry. I don't think 8- and 16-bit entries make ++ a whole lot of sense. ++ENUM ++ BFD_RELOC_AVR32_CPCALL ++ENUMX ++ BFD_RELOC_AVR32_16_CP ++ENUMX ++ BFD_RELOC_AVR32_9W_CP ++ENUMDOC ++ Constant pool references. Some of these relocations are signed, ++ others are unsigned. It doesn't really matter, since the constant ++ pool always comes after the code that references it. ++ENUM ++ BFD_RELOC_AVR32_ALIGN ++ENUMDOC ++ sym must be the absolute symbol. The addend specifies the alignment ++ order, e.g. if addend is 2, the linker must add padding so that the ++ next address is aligned to a 4-byte boundary. ++ENUM ++ BFD_RELOC_AVR32_14UW ++ENUMX ++ BFD_RELOC_AVR32_10UW ++ENUMX ++ BFD_RELOC_AVR32_10SW ++ENUMX ++ BFD_RELOC_AVR32_STHH_W ++ENUMX ++ BFD_RELOC_AVR32_7UW ++ENUMX ++ BFD_RELOC_AVR32_6S ++ENUMX ++ BFD_RELOC_AVR32_6UW ++ENUMX ++ BFD_RELOC_AVR32_4UH ++ENUMX ++ BFD_RELOC_AVR32_3U ++ENUMDOC ++ Code relocations that will never make it to the output file. ++ ++ENUM + BFD_RELOC_390_12 + ENUMDOC + Direct 12 bit. +--- a/bfd/targets.c ++++ b/bfd/targets.c +@@ -570,6 +570,7 @@ extern const bfd_target bfd_efi_app_ia64 + extern const bfd_target bfd_efi_bsdrv_ia64_vec; + extern const bfd_target bfd_efi_rtdrv_ia64_vec; + extern const bfd_target bfd_elf32_avr_vec; ++extern const bfd_target bfd_elf32_avr32_vec; + extern const bfd_target bfd_elf32_bfin_vec; + extern const bfd_target bfd_elf32_bfinfdpic_vec; + extern const bfd_target bfd_elf32_big_generic_vec; +@@ -898,6 +899,7 @@ static const bfd_target * const _bfd_tar + &bfd_efi_rtdrv_ia64_vec, + #endif + &bfd_elf32_avr_vec, ++ &bfd_elf32_avr32_vec, + &bfd_elf32_bfin_vec, + &bfd_elf32_bfinfdpic_vec, + +--- a/gas/as.c ++++ b/gas/as.c +@@ -445,10 +445,10 @@ parse_args (int * pargc, char *** pargv) + the end of the preceeding line so that it is simpler to + selectively add and remove lines from this list. */ + {"alternate", no_argument, NULL, OPTION_ALTERNATE} +- /* The entry for "a" is here to prevent getopt_long_only() from +- considering that -a is an abbreviation for --alternate. This is +- necessary because -a= is a valid switch but getopt would +- normally reject it since --alternate does not take an argument. */ ++ /* The next two entries are here to prevent getopt_long_only() from ++ considering that -a or -al is an abbreviation for --alternate. ++ This is necessary because -a= is a valid switch but getopt ++ would normally reject it since --alternate does not take an argument. */ + ,{"a", optional_argument, NULL, 'a'} + /* Handle -al=. */ + ,{"al", optional_argument, NULL, OPTION_AL} +@@ -810,8 +810,15 @@ This program has absolutely no warranty. + case 'a': + if (optarg) + { +- if (optarg != old_argv[optind] && optarg[-1] == '=') ++ /* If optarg is part of the -a switch and not a separate argument ++ in its own right, then scan backwards to the just after the -a. ++ This means skipping over both '=' and 'l' which might have been ++ taken to be part of the -a switch itself. */ ++ if (optarg != old_argv[optind]) ++ { ++ while (optarg[-1] == '=' || optarg[-1] == 'l') + --optarg; ++ } + + if (md_parse_option (optc, optarg) != 0) + break; +@@ -1248,7 +1255,7 @@ main (int argc, char ** argv) + keep_it = 0; + + if (!keep_it) +- unlink_if_ordinary (out_file_name); ++ unlink (out_file_name); + + input_scrub_end (); + +--- /dev/null ++++ b/gas/config/tc-avr32.c +@@ -0,0 +1,4829 @@ ++/* Assembler implementation for AVR32. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of GAS, the GNU Assembler. ++ ++ GAS is free software; you can redistribute it and/or modify it ++ under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2, or (at your option) ++ any later version. ++ ++ GAS is distributed in the hope that it will be useful, but WITHOUT ++ ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ++ or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public ++ License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with GAS; see the file COPYING. If not, write to the Free ++ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include ++#include "as.h" ++#include "safe-ctype.h" ++#include "subsegs.h" ++#include "symcat.h" ++#include "opcodes/avr32-opc.h" ++#include "opcodes/avr32-asm.h" ++#include "elf/avr32.h" ++#include "dwarf2dbg.h" ++ ++#define xDEBUG ++#define xOPC_CONSISTENCY_CHECK ++ ++#ifdef DEBUG ++# define pr_debug(fmt, args...) fprintf(stderr, fmt, ##args) ++#else ++# define pr_debug(fmt, args...) ++#endif ++ ++/* 3 MSB of instruction word indicate group. Group 7 -> extended */ ++#define AVR32_COMPACT_P(opcode) ((opcode[0] & 0xe0) != 0xe0) ++ ++#define streq(a, b) (strcmp(a, b) == 0) ++#define skip_whitespace(str) do { while(*(str) == ' ') ++(str); } while(0) ++ ++/* Flags given on the command line */ ++static int avr32_pic = FALSE; ++int linkrelax = FALSE; ++int avr32_iarcompat = FALSE; ++ ++/* This array holds the chars that always start a comment. */ ++const char comment_chars[] = "#"; ++ ++/* This array holds the chars that only start a comment at the ++ beginning of a line. We must include '#' here because the compiler ++ may produce #APP and #NO_APP in its output. */ ++const char line_comment_chars[] = "#"; ++ ++/* These may be used instead of newline (same as ';' in C). */ ++const char line_separator_chars[] = ";"; ++ ++/* Chars that can be used to separate mantissa from exponent in ++ floating point numbers. */ ++const char EXP_CHARS[] = "eE"; ++ ++/* Chars that mean this number is a floating point constant. */ ++const char FLT_CHARS[] = "dD"; ++ ++/* Pre-defined "_GLOBAL_OFFSET_TABLE_" */ ++symbolS *GOT_symbol; ++ ++static struct hash_control *avr32_mnemonic_htab; ++ ++struct avr32_ifield_data ++{ ++ bfd_vma value; ++ /* FIXME: Get rid of align_order and complain. complain is never ++ used, align_order is used in one place. Try to use the relax ++ table instead. */ ++ unsigned int align_order; ++}; ++ ++struct avr32_insn ++{ ++ const struct avr32_syntax *syntax; ++ expressionS immediate; ++ int pcrel; ++ int force_extended; ++ unsigned int next_slot; ++ bfd_reloc_code_real_type r_type; ++ struct avr32_ifield_data field_value[AVR32_MAX_FIELDS]; ++}; ++ ++static struct avr32_insn current_insn; ++ ++/* The target specific pseudo-ops we support. */ ++static void s_rseg (int); ++static void s_cpool(int); ++ ++const pseudo_typeS md_pseudo_table[] = ++{ ++ /* Make sure that .word is 32 bits */ ++ { "word", cons, 4 }, ++ { "file", (void (*) PARAMS ((int))) dwarf2_directive_file, 0 }, ++ { "loc", dwarf2_directive_loc, 0 }, ++ ++ /* .lcomm requires an explicit alignment parameter */ ++ { "lcomm", s_lcomm, 1 }, ++ ++ /* AVR32-specific pseudo-ops */ ++ { "cpool", s_cpool, 0}, ++ ++ /* IAR compatible pseudo-ops */ ++ { "program", s_ignore, 0 }, ++ { "public", s_globl, 0 }, ++ { "extern", s_ignore, 0 }, ++ { "module", s_ignore, 0 }, ++ { "rseg", s_rseg, 0 }, ++ { "dc8", cons, 1 }, ++ { "dc16", cons, 2 }, ++ { "dc32", cons, 4 }, ++ ++ { NULL, NULL, 0 } ++}; ++ ++/* Questionable stuff starts here */ ++ ++enum avr32_opinfo { ++ AVR32_OPINFO_NONE = BFD_RELOC_NONE, ++ AVR32_OPINFO_GOT, ++ AVR32_OPINFO_TLSGD, ++ AVR32_OPINFO_HI, ++ AVR32_OPINFO_LO, ++}; ++ ++enum avr32_arch { ++ ARCH_TYPE_AP, ++ ARCH_TYPE_UCR1, ++ ARCH_TYPE_UCR2, ++ ARCH_TYPE_UCR3, ++}; ++ ++struct arch_type_s ++{ ++ /* Architecture name */ ++ char *name; ++ /* Instruction Set Architecture Flags */ ++ unsigned long isa_flags; ++}; ++ ++struct part_type_s ++{ ++ /* Part name */ ++ char *name; ++ /* Architecture type */ ++ unsigned int arch; ++}; ++ ++static struct arch_type_s arch_types[] = ++{ ++ {"ap", AVR32_V1 | AVR32_SIMD | AVR32_DSP | AVR32_PICO}, ++ {"ucr1", AVR32_V1 | AVR32_DSP | AVR32_RMW}, ++ {"ucr2", AVR32_V1 | AVR32_V2 | AVR32_DSP | AVR32_RMW}, ++ {"ucr3", AVR32_V1 | AVR32_V2 | AVR32_V3 | AVR32_DSP | AVR32_RMW}, ++ {"all-insn", AVR32_V1 | AVR32_V2 | AVR32_V3 | AVR32_SIMD | AVR32_DSP | AVR32_RMW | AVR32_FP | AVR32_PICO}, ++ {NULL, 0} ++}; ++ ++static struct part_type_s part_types[] = ++{ ++ {"ap7000", ARCH_TYPE_AP}, ++ {"ap7001", ARCH_TYPE_AP}, ++ {"ap7002", ARCH_TYPE_AP}, ++ {"ap7200", ARCH_TYPE_AP}, ++ {"uc3a0128", ARCH_TYPE_UCR2}, ++ {"uc3a0256", ARCH_TYPE_UCR2}, ++ {"uc3a0512es", ARCH_TYPE_UCR1}, ++ {"uc3a0512", ARCH_TYPE_UCR2}, ++ {"uc3a1128", ARCH_TYPE_UCR2}, ++ {"uc3a1256es", ARCH_TYPE_UCR1}, ++ {"uc3a1256", ARCH_TYPE_UCR2}, ++ {"uc3a1512es", ARCH_TYPE_UCR1}, ++ {"uc3a1512", ARCH_TYPE_UCR2}, ++ {"uc3a364", ARCH_TYPE_UCR2}, ++ {"uc3a364s", ARCH_TYPE_UCR2}, ++ {"uc3a3128", ARCH_TYPE_UCR2}, ++ {"uc3a3128s", ARCH_TYPE_UCR2}, ++ {"uc3a3256", ARCH_TYPE_UCR2}, ++ {"uc3a3256s", ARCH_TYPE_UCR2}, ++ {"uc3b064", ARCH_TYPE_UCR1}, ++ {"uc3b0128", ARCH_TYPE_UCR1}, ++ {"uc3b0256es", ARCH_TYPE_UCR1}, ++ {"uc3b0256", ARCH_TYPE_UCR1}, ++ {"uc3b0512", ARCH_TYPE_UCR2}, ++ {"uc3b0512revc", ARCH_TYPE_UCR2}, ++ {"uc3b164", ARCH_TYPE_UCR1}, ++ {"uc3b1128", ARCH_TYPE_UCR1}, ++ {"uc3b1256", ARCH_TYPE_UCR1}, ++ {"uc3b1256es", ARCH_TYPE_UCR1}, ++ {"uc3b1512", ARCH_TYPE_UCR2}, ++ {"uc3b1512revc", ARCH_TYPE_UCR2}, ++ {"uc3c064c", ARCH_TYPE_UCR3}, ++ {"uc3c0128c", ARCH_TYPE_UCR3}, ++ {"uc3c0256c", ARCH_TYPE_UCR3}, ++ {"uc3c0512crevc", ARCH_TYPE_UCR3}, ++ {"uc3c164c", ARCH_TYPE_UCR3}, ++ {"uc3c1128c", ARCH_TYPE_UCR3}, ++ {"uc3c1256c", ARCH_TYPE_UCR3}, ++ {"uc3c1512crevc", ARCH_TYPE_UCR3}, ++ {"uc3c264c", ARCH_TYPE_UCR3}, ++ {"uc3c2128c", ARCH_TYPE_UCR3}, ++ {"uc3c2256c", ARCH_TYPE_UCR3}, ++ {"uc3c2512crevc", ARCH_TYPE_UCR3}, ++ {"uc3l064", ARCH_TYPE_UCR3}, ++ {"uc3l032", ARCH_TYPE_UCR3}, ++ {"uc3l016", ARCH_TYPE_UCR3}, ++ {"uc3l064revb", ARCH_TYPE_UCR3}, ++ {NULL, 0} ++}; ++ ++/* Current architecture type. */ ++static struct arch_type_s default_arch = {"all-insn", AVR32_V1 | AVR32_V2 | AVR32_V3 | AVR32_SIMD | AVR32_DSP | AVR32_RMW | AVR32_FP | AVR32_PICO }; ++static struct arch_type_s *avr32_arch = &default_arch; ++ ++/* Display nicely formatted list of known part- and architecture names. */ ++ ++static void ++show_arch_list (FILE *stream) ++{ ++ int i, x; ++ ++ fprintf (stream, _("Known architecture names:")); ++ x = 1000; ++ ++ for (i = 0; arch_types[i].name; i++) ++ { ++ int len = strlen (arch_types[i].name); ++ ++ x += len + 1; ++ ++ if (x < 75) ++ fprintf (stream, " %s", arch_types[i].name); ++ else ++ { ++ fprintf (stream, "\n %s", arch_types[i].name); ++ x = len + 2; ++ } ++ } ++ ++ fprintf (stream, "\n"); ++} ++ ++static void ++show_part_list (FILE *stream) ++{ ++ int i, x; ++ ++ fprintf (stream, _("Known part names:")); ++ x = 1000; ++ ++ for (i = 0; part_types[i].name; i++) ++ { ++ int len = strlen(part_types[i].name); ++ ++ x += len + 1; ++ ++ if (x < 75) ++ fprintf (stream, " %s", part_types[i].name); ++ else ++ { ++ fprintf(stream, "\n %s", part_types[i].name); ++ x = len + 2; ++ } ++ } ++ ++ fprintf (stream, "\n"); ++} ++ ++const char *md_shortopts = ""; ++struct option md_longopts[] = ++{ ++#define OPTION_ARCH (OPTION_MD_BASE) ++#define OPTION_PART (OPTION_ARCH + 1) ++#define OPTION_IAR (OPTION_PART + 1) ++#define OPTION_PIC (OPTION_IAR + 1) ++#define OPTION_NOPIC (OPTION_PIC + 1) ++#define OPTION_LINKRELAX (OPTION_NOPIC + 1) ++#define OPTION_NOLINKRELAX (OPTION_LINKRELAX + 1) ++#define OPTION_DIRECT_DATA_REFS (OPTION_NOLINKRELAX + 1) ++ {"march", required_argument, NULL, OPTION_ARCH}, ++ {"mpart", required_argument, NULL, OPTION_PART}, ++ {"iar", no_argument, NULL, OPTION_IAR}, ++ {"pic", no_argument, NULL, OPTION_PIC}, ++ {"no-pic", no_argument, NULL, OPTION_NOPIC}, ++ {"linkrelax", no_argument, NULL, OPTION_LINKRELAX}, ++ {"no-linkrelax", no_argument, NULL, OPTION_NOLINKRELAX}, ++ /* deprecated alias for -mpart=xxx */ ++ {"mcpu", required_argument, NULL, OPTION_PART}, ++ {NULL, no_argument, NULL, 0} ++}; ++ ++size_t md_longopts_size = sizeof (md_longopts); ++ ++void ++md_show_usage (FILE *stream) ++{ ++ fprintf (stream, _("\ ++AVR32 options:\n\ ++ -march=[arch-name] Select cpu architecture. [Default `all-insn']\n\ ++ -mpart=[part-name] Select specific part. [Default `none']\n\ ++ --pic Produce Position-Independent Code\n\ ++ --no-pic Don't produce Position-Independent Code\n\ ++ --linkrelax Produce output suitable for linker relaxing\n\ ++ --no-linkrelax Don't produce output suitable for linker relaxing\n")); ++ show_arch_list(stream); ++} ++ ++int ++md_parse_option (int c, char *arg ATTRIBUTE_UNUSED) ++{ ++ switch (c) ++ { ++ case OPTION_ARCH: ++ { ++ int i; ++ char *s = alloca (strlen (arg) + 1); ++ ++ { ++ char *t = s; ++ char *arg1 = arg; ++ ++ do ++ *t = TOLOWER (*arg1++); ++ while (*t++); ++ } ++ ++ /* Add backward compability */ ++ if (strcmp ("uc", s)== 0) ++ { ++ as_warn("Deprecated arch `%s' specified. " ++ "Please use '-march=ucr1' instead. " ++ "Converting to arch 'ucr1'\n", ++ s); ++ s="ucr1"; ++ } ++ ++ for (i = 0; arch_types[i].name; ++i) ++ if (strcmp (arch_types[i].name, s) == 0) ++ break; ++ ++ if (!arch_types[i].name) ++ { ++ show_arch_list (stderr); ++ as_fatal (_("unknown architecture: %s\n"), arg); ++ } ++ ++ avr32_arch = &arch_types[i]; ++ break; ++ } ++ case OPTION_PART: ++ { ++ int i; ++ char *s = alloca (strlen (arg) + 1); ++ char *t = s; ++ char *p = arg; ++ ++ /* If arch type has already been set, don't bother. ++ -march= always overrides -mpart= */ ++ if (avr32_arch != &default_arch) ++ break; ++ ++ do ++ *t = TOLOWER (*p++); ++ while (*t++); ++ ++ for (i = 0; part_types[i].name; ++i) ++ if (strcmp (part_types[i].name, s) == 0) ++ break; ++ ++ if (!part_types[i].name) ++ { ++ show_part_list (stderr); ++ as_fatal (_("unknown part: %s\n"), arg); ++ } ++ ++ avr32_arch = &arch_types[part_types[i].arch]; ++ break; ++ } ++ case OPTION_IAR: ++ avr32_iarcompat = 1; ++ break; ++ case OPTION_PIC: ++ avr32_pic = 1; ++ break; ++ case OPTION_NOPIC: ++ avr32_pic = 0; ++ break; ++ case OPTION_LINKRELAX: ++ linkrelax = 1; ++ break; ++ case OPTION_NOLINKRELAX: ++ linkrelax = 0; ++ break; ++ default: ++ return 0; ++ } ++ return 1; ++} ++ ++/* Can't use symbol_new here, so have to create a symbol and then at ++ a later date assign it a value. Thats what these functions do. ++ ++ Shamelessly stolen from ARM. */ ++ ++static void ++symbol_locate (symbolS * symbolP, ++ const char * name, /* It is copied, the caller can modify. */ ++ segT segment, /* Segment identifier (SEG_). */ ++ valueT valu, /* Symbol value. */ ++ fragS * frag) /* Associated fragment. */ ++{ ++ unsigned int name_length; ++ char * preserved_copy_of_name; ++ ++ name_length = strlen (name) + 1; /* +1 for \0. */ ++ obstack_grow (¬es, name, name_length); ++ preserved_copy_of_name = obstack_finish (¬es); ++#ifdef STRIP_UNDERSCORE ++ if (preserved_copy_of_name[0] == '_') ++ preserved_copy_of_name++; ++#endif ++ ++#ifdef tc_canonicalize_symbol_name ++ preserved_copy_of_name = ++ tc_canonicalize_symbol_name (preserved_copy_of_name); ++#endif ++ ++ S_SET_NAME (symbolP, preserved_copy_of_name); ++ ++ S_SET_SEGMENT (symbolP, segment); ++ S_SET_VALUE (symbolP, valu); ++ symbol_clear_list_pointers (symbolP); ++ ++ symbol_set_frag (symbolP, frag); ++ ++ /* Link to end of symbol chain. */ ++ { ++ extern int symbol_table_frozen; ++ ++ if (symbol_table_frozen) ++ abort (); ++ } ++ ++ symbol_append (symbolP, symbol_lastP, & symbol_rootP, & symbol_lastP); ++ ++ obj_symbol_new_hook (symbolP); ++ ++#ifdef tc_symbol_new_hook ++ tc_symbol_new_hook (symbolP); ++#endif ++ ++#ifdef DEBUG_SYMS ++ verify_symbol_chain (symbol_rootP, symbol_lastP); ++#endif /* DEBUG_SYMS */ ++} ++ ++struct cpool_entry ++{ ++ int refcount; ++ offsetT offset; ++ expressionS exp; ++}; ++ ++struct cpool ++{ ++ struct cpool *next; ++ int used; ++ struct cpool_entry *literals; ++ unsigned int padding; ++ unsigned int next_free_entry; ++ unsigned int id; ++ symbolS *symbol; ++ segT section; ++ subsegT sub_section; ++}; ++ ++struct cpool *cpool_list = NULL; ++ ++static struct cpool * ++find_cpool(segT section, subsegT sub_section) ++{ ++ struct cpool *pool; ++ ++ for (pool = cpool_list; pool != NULL; pool = pool->next) ++ { ++ if (!pool->used ++ && pool->section == section ++ && pool->sub_section == sub_section) ++ break; ++ } ++ ++ return pool; ++} ++ ++static struct cpool * ++find_or_make_cpool(segT section, subsegT sub_section) ++{ ++ static unsigned int next_cpool_id = 0; ++ struct cpool *pool; ++ ++ pool = find_cpool(section, sub_section); ++ ++ if (!pool) ++ { ++ pool = xmalloc(sizeof(*pool)); ++ if (!pool) ++ return NULL; ++ ++ pool->used = 0; ++ pool->literals = NULL; ++ pool->padding = 0; ++ pool->next_free_entry = 0; ++ pool->section = section; ++ pool->sub_section = sub_section; ++ pool->next = cpool_list; ++ pool->symbol = NULL; ++ ++ cpool_list = pool; ++ } ++ ++ /* NULL symbol means that the pool is new or has just been emptied. */ ++ if (!pool->symbol) ++ { ++ pool->symbol = symbol_create(FAKE_LABEL_NAME, undefined_section, ++ 0, &zero_address_frag); ++ pool->id = next_cpool_id++; ++ } ++ ++ return pool; ++} ++ ++static struct cpool * ++add_to_cpool(expressionS *exp, unsigned int *index, int ref) ++{ ++ struct cpool *pool; ++ unsigned int entry; ++ ++ pool = find_or_make_cpool(now_seg, now_subseg); ++ ++ /* Check if this constant is already in the pool. */ ++ for (entry = 0; entry < pool->next_free_entry; entry++) ++ { ++ if ((pool->literals[entry].exp.X_op == exp->X_op) ++ && (exp->X_op == O_constant) ++ && (pool->literals[entry].exp.X_add_number ++ == exp->X_add_number) ++ && (pool->literals[entry].exp.X_unsigned ++ == exp->X_unsigned)) ++ break; ++ ++ if ((pool->literals[entry].exp.X_op == exp->X_op) ++ && (exp->X_op == O_symbol) ++ && (pool->literals[entry].exp.X_add_number ++ == exp->X_add_number) ++ && (pool->literals[entry].exp.X_add_symbol ++ == exp->X_add_symbol) ++ && (pool->literals[entry].exp.X_op_symbol ++ == exp->X_op_symbol)) ++ break; ++ } ++ ++ /* Create an entry if we didn't find a match */ ++ if (entry == pool->next_free_entry) ++ { ++ pool->literals = xrealloc(pool->literals, ++ sizeof(struct cpool_entry) * (entry + 1)); ++ pool->literals[entry].exp = *exp; ++ pool->literals[entry].refcount = 0; ++ pool->next_free_entry++; ++ } ++ ++ if (index) ++ *index = entry; ++ if (ref) ++ pool->literals[entry].refcount++; ++ ++ return pool; ++} ++ ++struct avr32_operand ++{ ++ int id; ++ int is_signed; ++ int is_pcrel; ++ int align_order; ++ int (*match)(char *str); ++ void (*parse)(const struct avr32_operand *op, char *str, int opindex); ++}; ++ ++static int ++match_anything(char *str ATTRIBUTE_UNUSED) ++{ ++ return 1; ++} ++ ++static int ++match_intreg(char *str) ++{ ++ int regid, ret = 1; ++ ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ pr_debug("match_intreg: `%s': %d\n", str, ret); ++ ++ return ret; ++} ++ ++static int ++match_intreg_predec(char *str) ++{ ++ int regid; ++ ++ if (str[0] != '-' || str[1] != '-') ++ return 0; ++ ++ regid = avr32_parse_intreg(str + 2); ++ if (regid < 0) ++ return 0; ++ ++ return 1; ++} ++ ++static int ++match_intreg_postinc(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '+') ++ break; ++ ++ if (p[0] != '+' || p[1] != '+') ++ return 0; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_intreg_lsl(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '<') ++ break; ++ ++ if (p[0] && p[1] != '<') ++ return 0; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_intreg_lsr(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '>') ++ break; ++ ++ if (p[0] && p[1] != '>') ++ return 0; ++ ++ c = *p, *p = 0; ++ ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_intreg_part(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == ':') ++ break; ++ ++ if (p[0] != ':' || !ISPRINT(p[1]) || p[2] != '\0') ++ return 0; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ ++ return ret; ++} ++ ++#define match_intreg_disp match_anything ++ ++static int ++match_intreg_index(char *str) ++{ ++ int regid, ret = 1; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* don't allow empty displacement here (it makes no sense) */ ++ if (p[0] != '[') ++ return 0; ++ ++ for (end = p + 1; *end; end++) ; ++ if (*(--end) != ']') ++ return 0; ++ ++ c = *end, *end = 0; ++ if (!match_intreg_lsl(p + 1)) ++ ret = 0; ++ *end = c; ++ ++ if (ret) ++ { ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ *p = c; ++ } ++ ++ return ret; ++} ++ ++static int ++match_intreg_xindex(char *str) ++{ ++ int regid, ret = 1; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* empty displacement makes no sense here either */ ++ if (p[0] != '[') ++ return 0; ++ ++ for (end = p + 1; *end; end++) ++ if (*end == '<') ++ break; ++ ++ if (!streq(end, "<<2]")) ++ return 0; ++ ++ c = *end, *end = 0; ++ if (!match_intreg_part(p + 1)) ++ ret = 0; ++ *end = c; ++ ++ if (ret) ++ { ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ *p = c; ++ } ++ ++ return ret; ++} ++ ++/* The PC_UDISP_W operator may show up as a label or as a pc[disp] ++ expression. So there's no point in attempting to match this... */ ++#define match_pc_disp match_anything ++ ++static int ++match_sp(char *str) ++{ ++ /* SP in any form will do */ ++ return avr32_parse_intreg(str) == AVR32_REG_SP; ++} ++ ++static int ++match_sp_disp(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* allow empty displacement, meaning zero */ ++ if (p[0] == '[') ++ { ++ char *end; ++ for (end = p + 1; *end; end++) ; ++ if (end[-1] != ']') ++ return 0; ++ } ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid != AVR32_REG_SP) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_cpno(char *str) ++{ ++ if (strncasecmp(str, "cp", 2) != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_cpreg(char *str) ++{ ++ if (strncasecmp(str, "cr", 2) != 0) ++ return 0; ++ return 1; ++} ++ ++/* We allow complex expressions, and register names may show up as ++ symbols. Just make sure immediate expressions are always matched ++ last. */ ++#define match_const match_anything ++#define match_jmplabel match_anything ++#define match_number match_anything ++ ++/* Mnemonics that take reglists never accept anything else */ ++#define match_reglist8 match_anything ++#define match_reglist9 match_anything ++#define match_reglist16 match_anything ++#define match_reglist_ldm match_anything ++#define match_reglist_cp8 match_anything ++#define match_reglist_cpd8 match_anything ++ ++/* Ditto for retval, jospinc and mcall */ ++#define match_retval match_anything ++#define match_jospinc match_anything ++#define match_mcall match_anything ++ ++/* COH is used to select between two different syntaxes */ ++static int ++match_coh(char *str) ++{ ++ return strcasecmp(str, "coh") == 0; ++} ++ ++static int ++match_fpreg(char *str) ++{ ++ unsigned long regid; ++ char *endptr; ++ ++ if ((str[0] != 'f' && str[0] != 'F') ++ || (str[1] != 'r' && str[1] != 'R')) ++ return 0; ++ ++ str += 2; ++ regid = strtoul(str, &endptr, 10); ++ if (!*str || *endptr) ++ return 0; ++ ++ return 1; ++} ++ ++static int ++match_picoreg(char *str) ++{ ++ int regid; ++ ++ regid = avr32_parse_picoreg(str); ++ if (regid < 0) ++ return 0; ++ return 1; ++} ++ ++#define match_pico_reglist_w match_anything ++#define match_pico_reglist_d match_anything ++ ++static int ++match_pico_in(char *str) ++{ ++ unsigned long regid; ++ char *end; ++ ++ if (strncasecmp(str, "in", 2) != 0) ++ return 0; ++ ++ str += 2; ++ regid = strtoul(str, &end, 10); ++ if (!*str || *end) ++ return 0; ++ ++ return 1; ++} ++ ++static int ++match_pico_out0(char *str) ++{ ++ if (strcasecmp(str, "out0") != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_pico_out1(char *str) ++{ ++ if (strcasecmp(str, "out1") != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_pico_out2(char *str) ++{ ++ if (strcasecmp(str, "out2") != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_pico_out3(char *str) ++{ ++ if (strcasecmp(str, "out3") != 0) ++ return 0; ++ return 1; ++} ++ ++static void parse_nothing(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str ATTRIBUTE_UNUSED, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ /* Do nothing (this is used for "match-only" operands like COH) */ ++} ++ ++static void ++parse_const(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ expressionS *sym_exp; ++ int slot; ++ char *save; ++ ++ pr_debug("parse_const: `%s' (signed: %d, pcrel: %d, align: %d)\n", ++ str, op->is_signed, op->is_pcrel, op->align_order); ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ ++ expression(exp); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ current_insn.pcrel = op->is_pcrel; ++ ++ switch (exp->X_op) ++ { ++ case O_illegal: ++ as_bad(_("illegal operand")); ++ break; ++ case O_absent: ++ as_bad(_("missing operand")); ++ break; ++ case O_constant: ++ pr_debug(" -> constant: %ld\n", (long)exp->X_add_number); ++ current_insn.field_value[slot].value = exp->X_add_number; ++ break; ++ case O_uminus: ++ pr_debug(" -> uminus\n"); ++ sym_exp = symbol_get_value_expression(exp->X_add_symbol); ++ switch (sym_exp->X_op) { ++ case O_subtract: ++ pr_debug(" -> subtract: switching operands\n"); ++ exp->X_op_symbol = sym_exp->X_add_symbol; ++ exp->X_add_symbol = sym_exp->X_op_symbol; ++ exp->X_op = O_subtract; ++ /* TODO: Remove the old X_add_symbol */ ++ break; ++ default: ++ as_bad(_("Expression too complex\n")); ++ break; ++ } ++ break; ++#if 0 ++ case O_subtract: ++ /* Any expression subtracting a symbol from the current section ++ can be made PC-relative by adding the right offset. */ ++ if (S_GET_SEGMENT(exp->X_op_symbol) == now_seg) ++ current_insn.pcrel = TRUE; ++ pr_debug(" -> subtract: pcrel? %s\n", ++ current_insn.pcrel ? "yes" : "no"); ++ /* fall through */ ++#endif ++ default: ++ pr_debug(" -> (%p <%d> %p + %d)\n", ++ exp->X_add_symbol, exp->X_op, exp->X_op_symbol, ++ exp->X_add_number); ++ current_insn.field_value[slot].value = 0; ++ break; ++ } ++ ++ input_line_pointer = save; ++} ++ ++static void ++parse_jmplabel(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ int slot; ++ char *save; ++ ++ pr_debug("parse_jmplabel: `%s' (signed: %d, pcrel: %d, align: %d)\n", ++ str, op->is_signed, op->is_pcrel, op->align_order); ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ ++ expression(exp); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ current_insn.pcrel = TRUE; ++ ++ switch (exp->X_op) ++ { ++ case O_illegal: ++ as_bad(_("illegal operand")); ++ break; ++ case O_absent: ++ as_bad(_("missing operand")); ++ break; ++ case O_constant: ++ pr_debug(" -> constant: %ld\n", (long)exp->X_add_number); ++ current_insn.field_value[slot].value = exp->X_add_number; ++ current_insn.pcrel = 0; ++ break; ++ default: ++ pr_debug(" -> (%p <%d> %p + %d)\n", ++ exp->X_add_symbol, exp->X_op, exp->X_op_symbol, ++ exp->X_add_number); ++ current_insn.field_value[slot].value = 0; ++ break; ++ } ++ ++ input_line_pointer = save; ++} ++ ++static void ++parse_intreg(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int regid, slot; ++ ++ pr_debug("parse_intreg: `%s'\n", str); ++ ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = op->align_order; ++} ++ ++static void ++parse_intreg_predec(const struct avr32_operand *op, char *str, int opindex) ++{ ++ parse_intreg(op, str + 2, opindex); ++} ++ ++static void ++parse_intreg_postinc(const struct avr32_operand *op, char *str, int opindex) ++{ ++ char *p, c; ++ ++ pr_debug("parse_intreg_postinc: `%s'\n", str); ++ ++ for (p = str; *p != '+'; p++) ; ++ ++ c = *p, *p = 0; ++ parse_intreg(op, str, opindex); ++ *p = c; ++} ++ ++static void ++parse_intreg_shift(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int regid, slot, shift = 0; ++ char *p, c; ++ char shiftop; ++ ++ pr_debug("parse Ry<') ++ break; ++ ++ shiftop = *p; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ if (c) ++ { ++ if (p[0] != shiftop || p[1] != shiftop) ++ as_bad(_("expected shift operator in `%s'"), p); ++ else ++ { ++ expressionS exp; ++ char *saved; ++ ++ saved = input_line_pointer; ++ input_line_pointer = p + 2; ++ expression(&exp); ++ input_line_pointer = saved; ++ ++ if (exp.X_op != O_constant) ++ as_bad(_("shift amount must be a numeric constant")); ++ else ++ shift = exp.X_add_number; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = shift; ++} ++ ++/* The match() function selected the right opcode, so it doesn't ++ matter which way we shift any more. */ ++#define parse_intreg_lsl parse_intreg_shift ++#define parse_intreg_lsr parse_intreg_shift ++ ++static void ++parse_intreg_part(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ static const char bparts[] = { 'b', 'l', 'u', 't' }; ++ static const char hparts[] = { 'b', 't' }; ++ unsigned int slot, sel; ++ int regid; ++ char *p, c; ++ ++ pr_debug("parse reg:part `%s'\n", str); ++ ++ for (p = str; *p; p++) ++ if (*p == ':') ++ break; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ assert(c == ':'); ++ ++ if (op->align_order) ++ { ++ for (sel = 0; sel < sizeof(hparts); sel++) ++ if (TOLOWER(p[1]) == hparts[sel]) ++ break; ++ ++ if (sel >= sizeof(hparts)) ++ { ++ as_bad(_("invalid halfword selector `%c' (must be either b or t)"), ++ p[1]); ++ sel = 0; ++ } ++ } ++ else ++ { ++ for (sel = 0; sel < sizeof(bparts); sel++) ++ if (TOLOWER(p[1]) == bparts[sel]) ++ break; ++ ++ if (sel >= sizeof(bparts)) ++ { ++ as_bad(_("invalid byte selector `%c' (must be one of b,l,u,t)"), ++ p[1]); ++ sel = 0; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = sel; ++} ++ ++/* This is the parser for "Rp[displacement]" expressions. In addition ++ to the "official" syntax, we accept a label as a replacement for ++ the register expression. This syntax implies Rp=PC and the ++ displacement is the pc-relative distance to the label. */ ++static void ++parse_intreg_disp(const struct avr32_operand *op, char *str, int opindex) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ int slot, regid; ++ char *save, *p, c; ++ ++ pr_debug("parse_intreg_disp: `%s' (signed: %d, pcrel: %d, align: %d)\n", ++ str, op->is_signed, op->is_pcrel, op->align_order); ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ slot = current_insn.next_slot++; ++ ++ /* First, check if we have a valid register either before '[' or as ++ the sole expression. If so, we use the Rp[disp] syntax. */ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ *p = c; ++ ++ if (regid >= 0) ++ { ++ current_insn.field_value[slot].value = regid; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ ++ if (c == '[') ++ { ++ save = input_line_pointer; ++ input_line_pointer = p + 1; ++ ++ expression(exp); ++ ++ if (*input_line_pointer != ']') ++ as_bad(_("junk after displacement expression")); ++ ++ input_line_pointer = save; ++ ++ switch (exp->X_op) ++ { ++ case O_illegal: ++ as_bad(_("illegal displacement expression")); ++ break; ++ case O_absent: ++ as_bad(_("missing displacement expression")); ++ break; ++ case O_constant: ++ pr_debug(" -> constant: %ld\n", exp->X_add_number); ++ current_insn.field_value[slot].value = exp->X_add_number; ++ break; ++#if 0 ++ case O_subtract: ++ if (S_GET_SEGMENT(exp->X_op_symbol) == now_seg) ++ current_insn.pcrel = TRUE; ++ pr_debug(" -> subtract: pcrel? %s\n", ++ current_insn.pcrel ? "yes" : "no"); ++ /* fall through */ ++#endif ++ default: ++ pr_debug(" -> (%p <%d> %p + %d)\n", ++ exp->X_add_symbol, exp->X_op, exp->X_op_symbol, ++ exp->X_add_number); ++ current_insn.field_value[slot].value = 0; ++ } ++ } ++ else ++ { ++ exp->X_op = O_constant; ++ exp->X_add_number = 0; ++ current_insn.field_value[slot].value = 0; ++ } ++ } ++ else ++ { ++ /* Didn't find a valid register. Try parsing it as a label. */ ++ current_insn.field_value[slot].value = AVR32_REG_PC; ++ parse_jmplabel(op, str, opindex); ++ } ++} ++ ++static void ++parse_intreg_index(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int slot, regid; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ assert(*p); ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ ++ p++; ++ for (end = p; *end; end++) ++ if (*end == ']' || *end == '<') ++ break; ++ ++ assert(*end); ++ ++ c = *end, *end = 0; ++ regid = avr32_parse_intreg(p); ++ assert(regid >= 0); ++ *end = c; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = 0; ++ ++ if (*end == '<') ++ { ++ expressionS exp; ++ char *save; ++ ++ p = end + 2; ++ for (end = p; *end; end++) ++ if (*end == ']') ++ break; ++ ++ assert(*end == ']'); ++ ++ c = *end, *end = 0; ++ save = input_line_pointer; ++ input_line_pointer = p; ++ expression(&exp); ++ ++ if (*input_line_pointer) ++ as_bad(_("junk after shift expression")); ++ ++ *end = c; ++ input_line_pointer = save; ++ ++ if (exp.X_op == O_constant) ++ current_insn.field_value[slot].value = exp.X_add_number; ++ else ++ as_bad(_("shift expression too complex")); ++ } ++} ++ ++static void ++parse_intreg_xindex(const struct avr32_operand *op, char *str, int opindex) ++{ ++ int slot, regid; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ assert(*p); ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ ++ p++; ++ for (end = p; *end; end++) ++ if (*end == '<') ++ break; ++ ++ assert(*end); ++ ++ c = *end, *end = 0; ++ parse_intreg_part(op, p, opindex); ++ *end = c; ++} ++ ++static void ++parse_pc_disp(const struct avr32_operand *op, char *str, int opindex) ++{ ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* The lddpc instruction comes in two different syntax variants: ++ lddpc reg, expression ++ lddpc reg, pc[disp] ++ If the operand contains a '[', we use the second form. */ ++ if (*p) ++ { ++ int regid; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ *p = c; ++ if (regid == AVR32_REG_PC) ++ { ++ char *end; ++ ++ for (end = ++p; *end; end++) ; ++ if (*(--end) != ']') ++ as_bad(_("unrecognized form of instruction: `%s'"), str); ++ else ++ { ++ c = *end, *end = 0; ++ parse_const(op, p, opindex); ++ *end = c; ++ current_insn.pcrel = 0; ++ } ++ } ++ else ++ as_bad(_("unrecognized form of instruction: `%s'"), str); ++ } ++ else ++ { ++ parse_jmplabel(op, str, opindex); ++ } ++} ++ ++static void parse_sp(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str ATTRIBUTE_UNUSED, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ int slot; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = AVR32_REG_SP; ++} ++ ++static void ++parse_sp_disp(const struct avr32_operand *op, char *str, int opindex) ++{ ++ char *p, c; ++ ++ for (; *str; str++) ++ if (*str == '[') ++ break; ++ ++ assert(*str); ++ ++ for (p = ++str; *p; p++) ++ if (*p == ']') ++ break; ++ ++ c = *p, *p = 0; ++ parse_const(op, str, opindex); ++ *p = c; ++} ++ ++static void ++parse_cpno(const struct avr32_operand *op ATTRIBUTE_UNUSED, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ int slot; ++ ++ str += 2; ++ if (*str == '#') ++ str++; ++ if (*str < '0' || *str > '7' || str[1]) ++ as_bad(_("invalid coprocessor `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = *str - '0'; ++} ++ ++static void ++parse_cpreg(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned int crid; ++ int slot; ++ char *endptr; ++ ++ str += 2; ++ crid = strtoul(str, &endptr, 10); ++ if (*endptr || crid > 15 || crid & ((1 << op->align_order) - 1)) ++ as_bad(_("invalid coprocessor register `%s'"), str); ++ ++ crid >>= op->align_order; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = crid; ++} ++ ++static void ++parse_number(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS exp; ++ int slot; ++ char *save; ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ ++ if (exp.X_op == O_constant) ++ current_insn.field_value[slot].value = exp.X_add_number; ++ else ++ as_bad(_("invalid numeric expression `%s'"), str); ++} ++ ++static void ++parse_reglist8(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ unsigned long value = 0; ++ int slot; ++ char *tail; ++ ++ regmask = avr32_parse_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("invalid register list `%s'"), str); ++ else ++ { ++ if (avr32_make_regmask8(regmask, &value)) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = value; ++} ++ ++static int ++parse_reglist_tail(char *str, unsigned long regmask) ++{ ++ expressionS exp; ++ char *save, *p, c; ++ int regid; ++ ++ for (p = str + 1; *p; p++) ++ if (*p == '=') ++ break; ++ ++ if (!*p) ++ { ++ as_bad(_("invalid register list `%s'"), str); ++ return -2; ++ } ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ *p = c; ++ ++ if (regid != 12) ++ { ++ as_bad(_("invalid register list `%s'"), str); ++ return -2; ++ } ++ ++ /* If we have an assignment, we must pop PC and we must _not_ ++ pop LR or R12 */ ++ if (!(regmask & (1 << AVR32_REG_PC))) ++ { ++ as_bad(_("return value specified for non-return instruction")); ++ return -2; ++ } ++ else if (regmask & ((1 << AVR32_REG_R12) | (1 << AVR32_REG_LR))) ++ { ++ as_bad(_("can't pop LR or R12 when specifying return value")); ++ return -2; ++ } ++ ++ save = input_line_pointer; ++ input_line_pointer = p + 1; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ if (exp.X_op != O_constant ++ || exp.X_add_number < -1 ++ || exp.X_add_number > 1) ++ { ++ as_bad(_("invalid return value `%s'"), str); ++ return -2; ++ } ++ ++ return exp.X_add_number; ++} ++ ++static void ++parse_reglist9(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ unsigned long value = 0, kbit = 0; ++ int slot; ++ char *tail; ++ ++ regmask = avr32_parse_reglist(str, &tail); ++ /* printf("parsed reglist16: %04lx, tail: `%s'\n", regmask, tail); */ ++ if (*tail) ++ { ++ int retval; ++ ++ retval = parse_reglist_tail(tail, regmask); ++ ++ switch (retval) ++ { ++ case -1: ++ regmask |= 1 << AVR32_REG_LR; ++ break; ++ case 0: ++ break; ++ case 1: ++ regmask |= 1 << AVR32_REG_R12; ++ break; ++ default: ++ break; ++ } ++ ++ kbit = 1; ++ } ++ ++ if (avr32_make_regmask8(regmask, &value)) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = (value << 1) | kbit; ++} ++ ++static void ++parse_reglist16(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot; ++ char *tail; ++ ++ regmask = avr32_parse_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("invalid register list `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++} ++ ++static void ++parse_reglist_ldm(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot, rp, w_bit = 0; ++ char *tail, *p, c; ++ ++ for (p = str; *p && *p != ','; p++) ++ if (*p == '+') ++ break; ++ ++ c = *p, *p = 0; ++ rp = avr32_parse_intreg(str); ++ *p = c; ++ if (rp < 0) ++ { ++ as_bad(_("invalid destination register in `%s'"), str); ++ return; ++ } ++ ++ if (p[0] == '+' && p[1] == '+') ++ { ++ w_bit = 1; ++ p += 2; ++ } ++ ++ if (*p != ',') ++ { ++ as_bad(_("expected `,' after destination register in `%s'"), str); ++ return; ++ } ++ ++ str = p + 1; ++ regmask = avr32_parse_reglist(str, &tail); ++ if (*tail) ++ { ++ int retval; ++ ++ if (rp != AVR32_REG_SP) ++ { ++ as_bad(_("junk at end of line: `%s'"), tail); ++ return; ++ } ++ ++ rp = AVR32_REG_PC; ++ ++ retval = parse_reglist_tail(tail, regmask); ++ ++ switch (retval) ++ { ++ case -1: ++ regmask |= 1 << AVR32_REG_LR; ++ break; ++ case 0: ++ break; ++ case 1: ++ regmask |= 1 << AVR32_REG_R12; ++ break; ++ default: ++ return; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = rp; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = w_bit; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++} ++ ++static void ++parse_reglist_cp8(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot, h_bit = 0; ++ char *tail; ++ ++ regmask = avr32_parse_cpreglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ else if (regmask & 0xffUL) ++ { ++ if (regmask & 0xff00UL) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ regmask &= 0xff; ++ } ++ else if (regmask & 0xff00UL) ++ { ++ regmask >>= 8; ++ h_bit = 1; ++ } ++ else ++ as_warn(_("register list is empty")); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = h_bit; ++} ++ ++static void ++parse_reglist_cpd8(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask, regmask_d = 0; ++ int slot, i; ++ char *tail; ++ ++ regmask = avr32_parse_cpreglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ ++ for (i = 0; i < 8; i++) ++ { ++ if (regmask & 1) ++ { ++ if (!(regmask & 2)) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ regmask_d |= 1 << i; ++ } ++ else if (regmask & 2) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ ++ regmask >>= 2; ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask_d; ++} ++ ++static void ++parse_retval(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int regid, slot; ++ ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ { ++ expressionS exp; ++ char *save; ++ ++ regid = 0; ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ if (exp.X_op != O_constant) ++ as_bad(_("invalid return value `%s'"), str); ++ else ++ switch (exp.X_add_number) ++ { ++ case -1: ++ regid = AVR32_REG_LR; ++ break; ++ case 0: ++ regid = AVR32_REG_SP; ++ break; ++ case 1: ++ regid = AVR32_REG_PC; ++ break; ++ default: ++ as_bad(_("invalid return value `%s'"), str); ++ break; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++} ++ ++#define parse_mcall parse_intreg_disp ++ ++static void ++parse_jospinc(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS exp; ++ int slot; ++ char *save; ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ slot = current_insn.next_slot++; ++ ++ if (exp.X_op == O_constant) ++ { ++ if (exp.X_add_number > 0) ++ exp.X_add_number--; ++ current_insn.field_value[slot].value = exp.X_add_number; ++ } ++ else ++ as_bad(_("invalid numeric expression `%s'"), str); ++} ++ ++#define parse_coh parse_nothing ++ ++static void ++parse_fpreg(const struct avr32_operand *op, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regid; ++ int slot; ++ ++ regid = strtoul(str + 2, NULL, 10); ++ ++ if ((regid >= 16) || (regid & ((1 << op->align_order) - 1))) ++ as_bad(_("invalid floating-point register `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = op->align_order; ++} ++ ++static void ++parse_picoreg(const struct avr32_operand *op, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regid; ++ int slot; ++ ++ regid = avr32_parse_picoreg(str); ++ if (regid & ((1 << op->align_order) - 1)) ++ as_bad(_("invalid double-word PiCo register `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = op->align_order; ++} ++ ++static void ++parse_pico_reglist_w(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot, h_bit = 0; ++ char *tail; ++ ++ regmask = avr32_parse_pico_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ ++ if (regmask & 0x00ffUL) ++ { ++ if (regmask & 0xff00UL) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ regmask &= 0x00ffUL; ++ } ++ else if (regmask & 0xff00UL) ++ { ++ regmask >>= 8; ++ h_bit = 1; ++ } ++ else ++ as_warn(_("register list is empty")); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = h_bit; ++} ++ ++static void ++parse_pico_reglist_d(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask, regmask_d = 0; ++ int slot, i; ++ char *tail; ++ ++ regmask = avr32_parse_pico_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ ++ for (i = 0; i < 8; i++) ++ { ++ if (regmask & 1) ++ { ++ if (!(regmask & 2)) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ regmask_d |= 1 << i; ++ } ++ else if (regmask & 2) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ ++ regmask >>= 2; ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask_d; ++} ++ ++static void ++parse_pico_in(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regid; ++ int slot; ++ ++ regid = strtoul(str + 2, NULL, 10); ++ ++ if (regid >= 12) ++ as_bad(_("invalid PiCo IN register `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = 0; ++} ++ ++#define parse_pico_out0 parse_nothing ++#define parse_pico_out1 parse_nothing ++#define parse_pico_out2 parse_nothing ++#define parse_pico_out3 parse_nothing ++ ++#define OP(name, sgn, pcrel, align, func) \ ++ { AVR32_OPERAND_##name, sgn, pcrel, align, match_##func, parse_##func } ++ ++struct avr32_operand avr32_operand_table[] = { ++ OP(INTREG, 0, 0, 0, intreg), ++ OP(INTREG_PREDEC, 0, 0, 0, intreg_predec), ++ OP(INTREG_POSTINC, 0, 0, 0, intreg_postinc), ++ OP(INTREG_LSL, 0, 0, 0, intreg_lsl), ++ OP(INTREG_LSR, 0, 0, 0, intreg_lsr), ++ OP(INTREG_BSEL, 0, 0, 0, intreg_part), ++ OP(INTREG_HSEL, 0, 0, 1, intreg_part), ++ OP(INTREG_SDISP, 1, 0, 0, intreg_disp), ++ OP(INTREG_SDISP_H, 1, 0, 1, intreg_disp), ++ OP(INTREG_SDISP_W, 1, 0, 2, intreg_disp), ++ OP(INTREG_UDISP, 0, 0, 0, intreg_disp), ++ OP(INTREG_UDISP_H, 0, 0, 1, intreg_disp), ++ OP(INTREG_UDISP_W, 0, 0, 2, intreg_disp), ++ OP(INTREG_INDEX, 0, 0, 0, intreg_index), ++ OP(INTREG_XINDEX, 0, 0, 0, intreg_xindex), ++ OP(DWREG, 0, 0, 1, intreg), ++ OP(PC_UDISP_W, 0, 1, 2, pc_disp), ++ OP(SP, 0, 0, 0, sp), ++ OP(SP_UDISP_W, 0, 0, 2, sp_disp), ++ OP(CPNO, 0, 0, 0, cpno), ++ OP(CPREG, 0, 0, 0, cpreg), ++ OP(CPREG_D, 0, 0, 1, cpreg), ++ OP(UNSIGNED_CONST, 0, 0, 0, const), ++ OP(UNSIGNED_CONST_W, 0, 0, 2, const), ++ OP(SIGNED_CONST, 1, 0, 0, const), ++ OP(SIGNED_CONST_W, 1, 0, 2, const), ++ OP(JMPLABEL, 1, 1, 1, jmplabel), ++ OP(UNSIGNED_NUMBER, 0, 0, 0, number), ++ OP(UNSIGNED_NUMBER_W, 0, 0, 2, number), ++ OP(REGLIST8, 0, 0, 0, reglist8), ++ OP(REGLIST9, 0, 0, 0, reglist9), ++ OP(REGLIST16, 0, 0, 0, reglist16), ++ OP(REGLIST_LDM, 0, 0, 0, reglist_ldm), ++ OP(REGLIST_CP8, 0, 0, 0, reglist_cp8), ++ OP(REGLIST_CPD8, 0, 0, 0, reglist_cpd8), ++ OP(RETVAL, 0, 0, 0, retval), ++ OP(MCALL, 1, 0, 2, mcall), ++ OP(JOSPINC, 0, 0, 0, jospinc), ++ OP(COH, 0, 0, 0, coh), ++ OP(FPREG_S, 0, 0, 0, fpreg), ++ OP(FPREG_D, 0, 0, 1, fpreg), ++ OP(PICO_REG_W, 0, 0, 0, picoreg), ++ OP(PICO_REG_D, 0, 0, 1, picoreg), ++ OP(PICO_REGLIST_W, 0, 0, 0, pico_reglist_w), ++ OP(PICO_REGLIST_D, 0, 0, 0, pico_reglist_d), ++ OP(PICO_IN, 0, 0, 0, pico_in), ++ OP(PICO_OUT0, 0, 0, 0, pico_out0), ++ OP(PICO_OUT1, 0, 0, 0, pico_out1), ++ OP(PICO_OUT2, 0, 0, 0, pico_out2), ++ OP(PICO_OUT3, 0, 0, 0, pico_out3), ++}; ++ ++symbolS * ++md_undefined_symbol (char *name ATTRIBUTE_UNUSED) ++{ ++ pr_debug("md_undefined_symbol: %s\n", name); ++ return 0; ++} ++ ++struct avr32_relax_type ++{ ++ long lower_bound; ++ long upper_bound; ++ unsigned char align; ++ unsigned char length; ++ signed short next; ++}; ++ ++#define EMPTY { 0, 0, 0, 0, -1 } ++#define C(lower, upper, align, next) \ ++ { (lower), (upper), (align), 2, AVR32_OPC_##next } ++#define E(lower, upper, align) \ ++ { (lower), (upper), (align), 4, -1 } ++ ++static const struct avr32_relax_type avr32_relax_table[] = ++ { ++ /* 0 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ E(0, 65535, 0), E(0, 65535, 0), E(0, 65535, 0), E(0, 65535, 0), ++ EMPTY, ++ /* 16 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(-256, 254, 1, BREQ2), C(-256, 254, 1, BRNE2), ++ C(-256, 254, 1, BRCC2), C(-256, 254, 1, BRCS2), ++ C(-256, 254, 1, BRGE2), C(-256, 254, 1, BRLT2), ++ C(-256, 254, 1, BRMI2), C(-256, 254, 1, BRPL2), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ /* 32 */ ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 48 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ ++ C(-32, 31, 0, CP_W3), E(-1048576, 1048575, 0), ++ ++ EMPTY, EMPTY, EMPTY, ++ /* 64: csrfcz */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(0, 65535, 0), E(0, 65535, 0), ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(-32768, 32767, 0), ++ /* 80: LD_SB2 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(0, 7, 0, LD_UB4), E(-32768, 32767, 0), ++ ++ EMPTY, ++ EMPTY, EMPTY, ++ ++ C(0, 14, 1, LD_SH4), E(-32768, 32767, 0), ++ ++ EMPTY, EMPTY, EMPTY, ++ ++ C(0, 14, 1, LD_UH4), ++ ++ /* 96: LD_UH4 */ ++ E(-32768, 32767, 0), ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(0, 124, 2, LD_W4), E(-32768, 32767, 0), ++ ++ E(0, 1020, 2), /* LDC_D1 */ ++ EMPTY, EMPTY, ++ E(0, 1020, 2), /* LDC_W1 */ ++ EMPTY, EMPTY, ++ E(0, 16380, 2), /* LDC0_D */ ++ E(0, 16380, 2), /* LDC0_W */ ++ EMPTY, ++ ++ /* 112: LDCM_D_PU */ ++ EMPTY, EMPTY, EMPTY, ++ ++ C(0, 508, 2, LDDPC_EXT), E(-32768, 32767, 0), ++ ++ EMPTY,EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 134: MACHH_W */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(-131072, 131068, 2), /* MCALL */ ++ E(0, 1020, 2), /* MFDR */ ++ E(0, 1020, 2), /* MFSR */ ++ EMPTY, EMPTY, ++ ++ C(-128, 127, 0, MOV2), E(-1048576, 1048575, 0), ++ ++ EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ E(-128, 127, 0), /* MOVEQ2 */ ++ E(-128, 127, 0), /* MOVNE2 */ ++ E(-128, 127, 0), /* MOVCC2 */ ++ E(-128, 127, 0), /* 166: MOVCS2 */ ++ E(-128, 127, 0), /* MOVGE2 */ ++ E(-128, 127, 0), /* MOVLT2 */ ++ E(-128, 127, 0), /* MOVMI2 */ ++ E(-128, 127, 0), /* MOVPL2 */ ++ E(-128, 127, 0), /* MOVLS2 */ ++ E(-128, 127, 0), /* MOVGT2 */ ++ E(-128, 127, 0), /* MOVLE2 */ ++ E(-128, 127, 0), /* MOVHI2 */ ++ E(-128, 127, 0), /* MOVVS2 */ ++ E(-128, 127, 0), /* MOVVC2 */ ++ E(-128, 127, 0), /* MOVQS2 */ ++ E(-128, 127, 0), /* MOVAL2 */ ++ ++ E(0, 1020, 2), /* MTDR */ ++ E(0, 1020, 2), /* MTSR */ ++ EMPTY, ++ EMPTY, ++ E(-128, 127, 0), /* MUL3 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 198: MVCR_W */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(0, 65535, 0), E(0, 65535, 0), ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 230: PASR_H */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 262: PUNPCKSB_H */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(-1024, 1022, 1, RCALL2), E(-2097152, 2097150, 1), ++ ++ EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ ++ C(-1024, 1022, 1, BRAL), ++ ++ EMPTY, EMPTY, EMPTY, ++ E(-128, 127, 0), /* RSUB2 */ ++ /* 294: SATADD_H */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(0, 255, 0), /* SLEEP */ ++ EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 326: ST_B2 */ ++ EMPTY, EMPTY, ++ C(0, 7, 0, ST_B4), E(-32768, 32767, 0), ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ E(-32768, 32767, 0), ++ EMPTY, EMPTY, EMPTY, ++ C(0, 14, 1, ST_H4), E(-32768, 32767, 0), ++ EMPTY, EMPTY, ++ EMPTY, ++ C(0, 60, 2, ST_W4), E(-32768, 32767, 0), ++ E(0, 1020, 2), /* STC_D1 */ ++ EMPTY, EMPTY, ++ E(0, 1020, 2), /* STC_W1 */ ++ EMPTY, EMPTY, ++ E(0, 16380, 2), /* STC0_D */ ++ E(0, 16380, 2), /* STC0_W */ ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 358: STDSP */ ++ EMPTY, EMPTY, ++ E(0, 1020, 2), /* STHH_W1 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ E(-32768, 32767, 0), ++ C(-512, 508, 2, SUB4), ++ C(-128, 127, 0, SUB4), E(-1048576, 1048576, 0), ++ /* SUB{cond} */ ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ /* SUBF{cond} */ ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ EMPTY, ++ ++ /* 406: SWAP_B */ ++ EMPTY, EMPTY, EMPTY, ++ E(0, 255, 0), /* SYNC */ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 414: TST */ ++ EMPTY, EMPTY, E(-65536, 65535, 2), E(-65536, 65535, 2), E(-65536, 65535, 2), EMPTY, EMPTY, EMPTY, ++ /* 422: RSUB{cond} */ ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ /* 436: ADD{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 454: SUB{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 472: AND{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 486: OR{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 502: EOR{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 518: LD.w{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 534: LD.sh{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 550: LD.uh{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 566: LD.sb{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 582: LD.ub{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 596: ST.w{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 614: ST.h{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 630: ST.b{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 646: movh */ ++ E(0, 65535, 0), EMPTY, EMPTY, ++ }; ++ ++#undef E ++#undef C ++#undef EMPTY ++ ++#define AVR32_RS_NONE (-1) ++ ++#define avr32_rs_size(state) (avr32_relax_table[(state)].length) ++#define avr32_rs_align(state) (avr32_relax_table[(state)].align) ++#define relax_more(state) (avr32_relax_table[(state)].next) ++ ++#define opc_initial_substate(opc) ((opc)->id) ++ ++static int need_relax(int subtype, offsetT distance) ++{ ++ offsetT upper_bound, lower_bound; ++ ++ upper_bound = avr32_relax_table[subtype].upper_bound; ++ lower_bound = avr32_relax_table[subtype].lower_bound; ++ ++ if (distance & ((1 << avr32_rs_align(subtype)) - 1)) ++ return 1; ++ if ((distance > upper_bound) || (distance < lower_bound)) ++ return 1; ++ ++ return 0; ++} ++ ++enum { ++ LDA_SUBTYPE_MOV1, ++ LDA_SUBTYPE_MOV2, ++ LDA_SUBTYPE_SUB, ++ LDA_SUBTYPE_LDDPC, ++ LDA_SUBTYPE_LDW, ++ LDA_SUBTYPE_GOTLOAD, ++ LDA_SUBTYPE_GOTLOAD_LARGE, ++}; ++ ++enum { ++ CALL_SUBTYPE_RCALL1, ++ CALL_SUBTYPE_RCALL2, ++ CALL_SUBTYPE_MCALL_CP, ++ CALL_SUBTYPE_MCALL_GOT, ++ CALL_SUBTYPE_MCALL_LARGE, ++}; ++ ++#define LDA_INITIAL_SIZE (avr32_pic ? 4 : 2) ++#define CALL_INITIAL_SIZE 2 ++ ++#define need_reloc(sym, seg, pcrel) \ ++ (!(S_IS_DEFINED(sym) \ ++ && ((pcrel && S_GET_SEGMENT(sym) == seg) \ ++ || (!pcrel && S_GET_SEGMENT(sym) == absolute_section))) \ ++ || S_FORCE_RELOC(sym, 1)) ++ ++/* Return an initial guess of the length by which a fragment must grow to ++ hold a branch to reach its destination. ++ Also updates fr_type/fr_subtype as necessary. ++ ++ Called just before doing relaxation. ++ Any symbol that is now undefined will not become defined. ++ The guess for fr_var is ACTUALLY the growth beyond fr_fix. ++ Whatever we do to grow fr_fix or fr_var contributes to our returned value. ++ Although it may not be explicit in the frag, pretend fr_var starts with a ++ 0 value. */ ++ ++static int ++avr32_default_estimate_size_before_relax (fragS *fragP, segT segment) ++{ ++ int growth = 0; ++ ++ assert(fragP); ++ assert(fragP->fr_symbol); ++ ++ if (fragP->tc_frag_data.force_extended ++ || need_reloc(fragP->fr_symbol, segment, fragP->tc_frag_data.pcrel)) ++ { ++ int largest_state = fragP->fr_subtype; ++ while (relax_more(largest_state) != AVR32_RS_NONE) ++ largest_state = relax_more(largest_state); ++ growth = avr32_rs_size(largest_state) - fragP->fr_var; ++ } ++ else ++ { ++ growth = avr32_rs_size(fragP->fr_subtype) - fragP->fr_var; ++ } ++ ++ pr_debug("%s:%d: md_estimate_size_before_relax: %d\n", ++ fragP->fr_file, fragP->fr_line, growth); ++ ++ return growth; ++} ++ ++static int ++avr32_lda_estimate_size_before_relax(fragS *fragP, segT segment ATTRIBUTE_UNUSED) ++{ ++ return fragP->fr_var - LDA_INITIAL_SIZE; ++} ++ ++static int ++avr32_call_estimate_size_before_relax(fragS *fragP, segT segment ATTRIBUTE_UNUSED) ++{ ++ return fragP->fr_var - CALL_INITIAL_SIZE; ++} ++ ++static int ++avr32_cpool_estimate_size_before_relax(fragS *fragP, ++ segT segment ATTRIBUTE_UNUSED) ++{ ++ return fragP->fr_var; ++} ++ ++/* This macro may be defined to relax a frag. GAS will call this with the ++ * segment, the frag, and the change in size of all previous frags; ++ * md_relax_frag should return the change in size of the frag. */ ++static long ++avr32_default_relax_frag (segT segment, fragS *fragP, long stretch) ++{ ++ int state, next_state; ++ symbolS *symbolP; /* The target symbol */ ++ long growth = 0; ++ ++ state = next_state = fragP->fr_subtype; ++ ++ symbolP = fragP->fr_symbol; ++ ++ if (fragP->tc_frag_data.force_extended ++ || need_reloc(symbolP, segment, fragP->tc_frag_data.pcrel)) ++ { ++ /* Symbol must be resolved by the linker. Emit the largest ++ possible opcode. */ ++ while (relax_more(next_state) != AVR32_RS_NONE) ++ next_state = relax_more(next_state); ++ } ++ else ++ { ++ addressT address; /* The address of fragP */ ++ addressT target; /* The address of the target symbol */ ++ offsetT distance; /* The distance between the insn and the symbol */ ++ fragS *sym_frag; ++ ++ address = fragP->fr_address; ++ target = fragP->fr_offset; ++ symbolP = fragP->fr_symbol; ++ sym_frag = symbol_get_frag(symbolP); ++ ++ address += fragP->fr_fix - fragP->fr_var; ++ target += S_GET_VALUE(symbolP); ++ ++ if (stretch != 0 ++ && sym_frag->relax_marker != fragP->relax_marker ++ && S_GET_SEGMENT(symbolP) == segment) ++ /* if it was correctly aligned before, make sure it stays aligned */ ++ target += stretch & (~0UL << avr32_rs_align(state)); ++ ++ if (fragP->tc_frag_data.pcrel) ++ distance = target - (address & (~0UL << avr32_rs_align(state))); ++ else ++ distance = target; ++ ++ pr_debug("%s:%d: relax more? 0x%x - 0x%x = 0x%x (%d), align %d\n", ++ fragP->fr_file, fragP->fr_line, target, address, ++ distance, distance, avr32_rs_align(state)); ++ ++ if (need_relax(state, distance)) ++ { ++ if (relax_more(state) != AVR32_RS_NONE) ++ next_state = relax_more(state); ++ pr_debug("%s:%d: relax more %d -> %d (%d - %d, align %d)\n", ++ fragP->fr_file, fragP->fr_line, state, next_state, ++ target, address, avr32_rs_align(state)); ++ } ++ } ++ ++ growth = avr32_rs_size(next_state) - avr32_rs_size(state); ++ fragP->fr_subtype = next_state; ++ ++ pr_debug("%s:%d: md_relax_frag: growth=%d, subtype=%d, opc=0x%08lx\n", ++ fragP->fr_file, fragP->fr_line, growth, fragP->fr_subtype, ++ avr32_opc_table[next_state].value); ++ ++ return growth; ++} ++ ++static long ++avr32_lda_relax_frag(segT segment, fragS *fragP, long stretch) ++{ ++ struct cpool *pool= NULL; ++ unsigned int entry = 0; ++ addressT address, target; ++ offsetT distance; ++ symbolS *symbolP; ++ fragS *sym_frag; ++ long old_size, new_size; ++ ++ symbolP = fragP->fr_symbol; ++ old_size = fragP->fr_var; ++ if (!avr32_pic) ++ { ++ pool = fragP->tc_frag_data.pool; ++ entry = fragP->tc_frag_data.pool_entry; ++ } ++ ++ address = fragP->fr_address; ++ address += fragP->fr_fix - LDA_INITIAL_SIZE; ++ ++ if (!S_IS_DEFINED(symbolP) || S_FORCE_RELOC(symbolP, 1)) ++ goto relax_max; ++ ++ target = fragP->fr_offset; ++ sym_frag = symbol_get_frag(symbolP); ++ target += S_GET_VALUE(symbolP); ++ ++ if (sym_frag->relax_marker != fragP->relax_marker ++ && S_GET_SEGMENT(symbolP) == segment) ++ target += stretch; ++ ++ distance = target - address; ++ ++ pr_debug("lda_relax_frag: target: %d, address: %d, var: %d\n", ++ target, address, fragP->fr_var); ++ ++ if (!avr32_pic && S_GET_SEGMENT(symbolP) == absolute_section ++ && target <= 127 && (offsetT)target >= -128) ++ { ++ if (fragP->fr_subtype == LDA_SUBTYPE_LDDPC ++ || fragP->fr_subtype == LDA_SUBTYPE_LDW) ++ pool->literals[entry].refcount--; ++ new_size = 2; ++ fragP->fr_subtype = LDA_SUBTYPE_MOV1; ++ } ++ else if (!avr32_pic && S_GET_SEGMENT(symbolP) == absolute_section ++ && target <= 1048575 && (offsetT)target >= -1048576) ++ { ++ if (fragP->fr_subtype == LDA_SUBTYPE_LDDPC ++ || fragP->fr_subtype == LDA_SUBTYPE_LDW) ++ pool->literals[entry].refcount--; ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_MOV2; ++ } ++ else if (!linkrelax && S_GET_SEGMENT(symbolP) == segment ++ /* the field will be negated, so this is really -(-32768) ++ and -(32767) */ ++ && distance <= 32768 && distance >= -32767) ++ { ++ if (!avr32_pic ++ && (fragP->fr_subtype == LDA_SUBTYPE_LDDPC ++ || fragP->fr_subtype == LDA_SUBTYPE_LDW)) ++ pool->literals[entry].refcount--; ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_SUB; ++ } ++ else ++ { ++ relax_max: ++ if (avr32_pic) ++ { ++ if (linkrelax) ++ { ++ new_size = 8; ++ fragP->fr_subtype = LDA_SUBTYPE_GOTLOAD_LARGE; ++ } ++ else ++ { ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_GOTLOAD; ++ } ++ } ++ else ++ { ++ if (fragP->fr_subtype != LDA_SUBTYPE_LDDPC ++ && fragP->fr_subtype != LDA_SUBTYPE_LDW) ++ pool->literals[entry].refcount++; ++ ++ sym_frag = symbol_get_frag(pool->symbol); ++ target = (sym_frag->fr_address + sym_frag->fr_fix ++ + pool->padding + pool->literals[entry].offset); ++ ++ pr_debug("cpool sym address: 0x%lx\n", ++ sym_frag->fr_address + sym_frag->fr_fix); ++ ++ know(pool->section == segment); ++ ++ if (sym_frag->relax_marker != fragP->relax_marker) ++ target += stretch; ++ ++ distance = target - address; ++ if (distance <= 508 && distance >= 0) ++ { ++ new_size = 2; ++ fragP->fr_subtype = LDA_SUBTYPE_LDDPC; ++ } ++ else ++ { ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_LDW; ++ } ++ ++ pr_debug("lda_relax_frag (cpool): target=0x%lx, address=0x%lx, refcount=%d\n", ++ target, address, pool->literals[entry].refcount); ++ } ++ } ++ ++ fragP->fr_var = new_size; ++ ++ pr_debug("%s:%d: lda: relax pass done. subtype: %d, growth: %ld\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_subtype, new_size - old_size); ++ ++ return new_size - old_size; ++} ++ ++static long ++avr32_call_relax_frag(segT segment, fragS *fragP, long stretch) ++{ ++ struct cpool *pool = NULL; ++ unsigned int entry = 0; ++ addressT address, target; ++ offsetT distance; ++ symbolS *symbolP; ++ fragS *sym_frag; ++ long old_size, new_size; ++ ++ symbolP = fragP->fr_symbol; ++ old_size = fragP->fr_var; ++ if (!avr32_pic) ++ { ++ pool = fragP->tc_frag_data.pool; ++ entry = fragP->tc_frag_data.pool_entry; ++ } ++ ++ address = fragP->fr_address; ++ address += fragP->fr_fix - CALL_INITIAL_SIZE; ++ ++ if (need_reloc(symbolP, segment, 1)) ++ { ++ pr_debug("call: must emit reloc\n"); ++ goto relax_max; ++ } ++ ++ target = fragP->fr_offset; ++ sym_frag = symbol_get_frag(symbolP); ++ target += S_GET_VALUE(symbolP); ++ ++ if (sym_frag->relax_marker != fragP->relax_marker ++ && S_GET_SEGMENT(symbolP) == segment) ++ target += stretch; ++ ++ distance = target - address; ++ ++ if (distance <= 1022 && distance >= -1024) ++ { ++ pr_debug("call: distance is %d, emitting short rcall\n", distance); ++ if (!avr32_pic && fragP->fr_subtype == CALL_SUBTYPE_MCALL_CP) ++ pool->literals[entry].refcount--; ++ new_size = 2; ++ fragP->fr_subtype = CALL_SUBTYPE_RCALL1; ++ } ++ else if (distance <= 2097150 && distance >= -2097152) ++ { ++ pr_debug("call: distance is %d, emitting long rcall\n", distance); ++ if (!avr32_pic && fragP->fr_subtype == CALL_SUBTYPE_MCALL_CP) ++ pool->literals[entry].refcount--; ++ new_size = 4; ++ fragP->fr_subtype = CALL_SUBTYPE_RCALL2; ++ } ++ else ++ { ++ pr_debug("call: distance %d too far, emitting something big\n", distance); ++ ++ relax_max: ++ if (avr32_pic) ++ { ++ if (linkrelax) ++ { ++ new_size = 10; ++ fragP->fr_subtype = CALL_SUBTYPE_MCALL_LARGE; ++ } ++ else ++ { ++ new_size = 4; ++ fragP->fr_subtype = CALL_SUBTYPE_MCALL_GOT; ++ } ++ } ++ else ++ { ++ if (fragP->fr_subtype != CALL_SUBTYPE_MCALL_CP) ++ pool->literals[entry].refcount++; ++ ++ new_size = 4; ++ fragP->fr_subtype = CALL_SUBTYPE_MCALL_CP; ++ } ++ } ++ ++ fragP->fr_var = new_size; ++ ++ pr_debug("%s:%d: call: relax pass done, growth: %d, fr_var: %d\n", ++ fragP->fr_file, fragP->fr_line, ++ new_size - old_size, fragP->fr_var); ++ ++ return new_size - old_size; ++} ++ ++static long ++avr32_cpool_relax_frag(segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP, ++ long stretch ATTRIBUTE_UNUSED) ++{ ++ struct cpool *pool; ++ addressT address; ++ long old_size, new_size; ++ unsigned int entry; ++ ++ pool = fragP->tc_frag_data.pool; ++ address = fragP->fr_address + fragP->fr_fix; ++ old_size = fragP->fr_var; ++ new_size = 0; ++ ++ for (entry = 0; entry < pool->next_free_entry; entry++) ++ { ++ if (pool->literals[entry].refcount > 0) ++ { ++ pool->literals[entry].offset = new_size; ++ new_size += 4; ++ } ++ } ++ ++ fragP->fr_var = new_size; ++ ++ return new_size - old_size; ++} ++ ++/* *fragP has been relaxed to its final size, and now needs to have ++ the bytes inside it modified to conform to the new size. ++ ++ Called after relaxation is finished. ++ fragP->fr_type == rs_machine_dependent. ++ fragP->fr_subtype is the subtype of what the address relaxed to. */ ++ ++static void ++avr32_default_convert_frag (bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ const struct avr32_opcode *opc; ++ const struct avr32_ifield *ifield; ++ bfd_reloc_code_real_type r_type; ++ symbolS *symbolP; ++ fixS *fixP; ++ bfd_vma value; ++ int subtype; ++ ++ opc = &avr32_opc_table[fragP->fr_subtype]; ++ ifield = opc->fields[opc->var_field]; ++ symbolP = fragP->fr_symbol; ++ subtype = fragP->fr_subtype; ++ r_type = opc->reloc_type; ++ ++ /* Clear the opcode bits and the bits belonging to the relaxed ++ field. We assume all other fields stay the same. */ ++ value = bfd_getb32(fragP->fr_opcode); ++ value &= ~(opc->mask | ifield->mask); ++ ++ /* Insert the new opcode */ ++ value |= opc->value; ++ bfd_putb32(value, fragP->fr_opcode); ++ ++ fragP->fr_fix += opc->size - fragP->fr_var; ++ ++ if (fragP->tc_frag_data.reloc_info != AVR32_OPINFO_NONE) ++ { ++ switch (fragP->tc_frag_data.reloc_info) ++ { ++ case AVR32_OPINFO_HI: ++ r_type = BFD_RELOC_HI16; ++ break; ++ case AVR32_OPINFO_LO: ++ r_type = BFD_RELOC_LO16; ++ break; ++ case AVR32_OPINFO_GOT: ++ switch (r_type) ++ { ++ case BFD_RELOC_AVR32_18W_PCREL: ++ r_type = BFD_RELOC_AVR32_GOT18SW; ++ break; ++ case BFD_RELOC_AVR32_16S: ++ r_type = BFD_RELOC_AVR32_GOT16S; ++ break; ++ default: ++ BAD_CASE(r_type); ++ break; ++ } ++ break; ++ default: ++ BAD_CASE(fragP->tc_frag_data.reloc_info); ++ break; ++ } ++ } ++ ++ pr_debug("%s:%d: convert_frag: new %s fixup\n", ++ fragP->fr_file, fragP->fr_line, ++ bfd_get_reloc_code_name(r_type)); ++ ++#if 1 ++ fixP = fix_new_exp(fragP, fragP->fr_fix - opc->size, opc->size, ++ &fragP->tc_frag_data.exp, ++ fragP->tc_frag_data.pcrel, r_type); ++#else ++ fixP = fix_new(fragP, fragP->fr_fix - opc->size, opc->size, symbolP, ++ fragP->fr_offset, fragP->tc_frag_data.pcrel, r_type); ++#endif ++ ++ /* Revert fix_new brain damage. "dot_value" is the value of PC at ++ the point of the fixup, relative to the frag address. fix_new() ++ and friends think they are only being called during the assembly ++ pass, not during relaxation or similar, so fx_dot_value, fx_file ++ and fx_line are all initialized to the wrong value. But we don't ++ know the size of the fixup until now, so we really can't live up ++ to the assumptions these functions make about the target. What ++ do these functions think the "where" and "frag" argument mean ++ anyway? */ ++ fixP->fx_dot_value = fragP->fr_fix - opc->size; ++ fixP->fx_file = fragP->fr_file; ++ fixP->fx_line = fragP->fr_line; ++ ++ fixP->tc_fix_data.ifield = ifield; ++ fixP->tc_fix_data.align = avr32_rs_align(subtype); ++ fixP->tc_fix_data.min = avr32_relax_table[subtype].lower_bound; ++ fixP->tc_fix_data.max = avr32_relax_table[subtype].upper_bound; ++} ++ ++static void ++avr32_lda_convert_frag(bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ const struct avr32_opcode *opc; ++ const struct avr32_ifield *ifield; ++ bfd_reloc_code_real_type r_type; ++ expressionS exp; ++ struct cpool *pool; ++ fixS *fixP; ++ bfd_vma value; ++ int regid, pcrel = 0, align = 0; ++ char *p; ++ ++ r_type = BFD_RELOC_NONE; ++ regid = fragP->tc_frag_data.reloc_info; ++ p = fragP->fr_opcode; ++ exp.X_add_symbol = fragP->fr_symbol; ++ exp.X_add_number = fragP->fr_offset; ++ exp.X_op = O_symbol; ++ ++ pr_debug("%s:%d: lda_convert_frag, subtype: %d, fix: %d, var: %d, regid: %d\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_subtype, fragP->fr_fix, fragP->fr_var, regid); ++ ++ switch (fragP->fr_subtype) ++ { ++ case LDA_SUBTYPE_MOV1: ++ opc = &avr32_opc_table[AVR32_OPC_MOV1]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ r_type = opc->reloc_type; ++ break; ++ case LDA_SUBTYPE_MOV2: ++ opc = &avr32_opc_table[AVR32_OPC_MOV2]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ r_type = opc->reloc_type; ++ break; ++ case LDA_SUBTYPE_SUB: ++ opc = &avr32_opc_table[AVR32_OPC_SUB5]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ opc->fields[1]->insert(opc->fields[1], p, AVR32_REG_PC); ++ ifield = opc->fields[2]; ++ r_type = BFD_RELOC_AVR32_16N_PCREL; ++ ++ /* Pretend that SUB5 isn't a "negated" pcrel expression for now. ++ We'll have to fix it up later when we know whether to ++ generate a reloc for it (in which case the linker will negate ++ it, so we shouldn't). */ ++ pcrel = 1; ++ break; ++ case LDA_SUBTYPE_LDDPC: ++ opc = &avr32_opc_table[AVR32_OPC_LDDPC]; ++ align = 2; ++ r_type = BFD_RELOC_AVR32_9W_CP; ++ goto cpool_common; ++ case LDA_SUBTYPE_LDW: ++ opc = &avr32_opc_table[AVR32_OPC_LDDPC_EXT]; ++ r_type = BFD_RELOC_AVR32_16_CP; ++ cpool_common: ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ pool = fragP->tc_frag_data.pool; ++ exp.X_add_symbol = pool->symbol; ++ exp.X_add_number = pool->literals[fragP->tc_frag_data.pool_entry].offset; ++ pcrel = 1; ++ break; ++ case LDA_SUBTYPE_GOTLOAD_LARGE: ++ /* ld.w Rd, r6[Rd << 2] (last) */ ++ opc = &avr32_opc_table[AVR32_OPC_LD_W5]; ++ bfd_putb32(opc->value, p + 4); ++ opc->fields[0]->insert(opc->fields[0], p + 4, regid); ++ opc->fields[1]->insert(opc->fields[1], p + 4, 6); ++ opc->fields[2]->insert(opc->fields[2], p + 4, regid); ++ opc->fields[3]->insert(opc->fields[3], p + 4, 2); ++ ++ /* mov Rd, (got_offset / 4) */ ++ opc = &avr32_opc_table[AVR32_OPC_MOV2]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_LDA_GOT; ++ break; ++ case LDA_SUBTYPE_GOTLOAD: ++ opc = &avr32_opc_table[AVR32_OPC_LD_W4]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ opc->fields[1]->insert(opc->fields[1], p, 6); ++ ifield = opc->fields[2]; ++ if (r_type == BFD_RELOC_NONE) ++ r_type = BFD_RELOC_AVR32_GOT16S; ++ break; ++ default: ++ BAD_CASE(fragP->fr_subtype); ++ } ++ ++ value = bfd_getb32(p); ++ value &= ~(opc->mask | ifield->mask); ++ value |= opc->value; ++ bfd_putb32(value, p); ++ ++ fragP->fr_fix += fragP->fr_var - LDA_INITIAL_SIZE; ++ ++ if (fragP->fr_next ++ && ((offsetT)(fragP->fr_next->fr_address - fragP->fr_address) ++ != fragP->fr_fix)) ++ { ++ fprintf(stderr, "LDA frag: fr_fix is wrong! fragP->fr_var = %ld, r_type = %s\n", ++ fragP->fr_var, bfd_get_reloc_code_name(r_type)); ++ abort(); ++ } ++ ++ fixP = fix_new_exp(fragP, fragP->fr_fix - fragP->fr_var, fragP->fr_var, ++ &exp, pcrel, r_type); ++ ++ /* Revert fix_new brain damage. "dot_value" is the value of PC at ++ the point of the fixup, relative to the frag address. fix_new() ++ and friends think they are only being called during the assembly ++ pass, not during relaxation or similar, so fx_dot_value, fx_file ++ and fx_line are all initialized to the wrong value. But we don't ++ know the size of the fixup until now, so we really can't live up ++ to the assumptions these functions make about the target. What ++ do these functions think the "where" and "frag" argument mean ++ anyway? */ ++ fixP->fx_dot_value = fragP->fr_fix - opc->size; ++ fixP->fx_file = fragP->fr_file; ++ fixP->fx_line = fragP->fr_line; ++ ++ fixP->tc_fix_data.ifield = ifield; ++ fixP->tc_fix_data.align = align; ++ /* these are only used if the fixup can actually be resolved */ ++ fixP->tc_fix_data.min = -32768; ++ fixP->tc_fix_data.max = 32767; ++} ++ ++static void ++avr32_call_convert_frag(bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ const struct avr32_opcode *opc = NULL; ++ const struct avr32_ifield *ifield; ++ bfd_reloc_code_real_type r_type; ++ symbolS *symbol; ++ offsetT offset; ++ fixS *fixP; ++ bfd_vma value; ++ int pcrel = 0, align = 0; ++ char *p; ++ ++ symbol = fragP->fr_symbol; ++ offset = fragP->fr_offset; ++ r_type = BFD_RELOC_NONE; ++ p = fragP->fr_opcode; ++ ++ pr_debug("%s:%d: call_convert_frag, subtype: %d, fix: %d, var: %d\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_subtype, fragP->fr_fix, fragP->fr_var); ++ ++ switch (fragP->fr_subtype) ++ { ++ case CALL_SUBTYPE_RCALL1: ++ opc = &avr32_opc_table[AVR32_OPC_RCALL1]; ++ /* fall through */ ++ case CALL_SUBTYPE_RCALL2: ++ if (!opc) ++ opc = &avr32_opc_table[AVR32_OPC_RCALL2]; ++ ifield = opc->fields[0]; ++ r_type = opc->reloc_type; ++ pcrel = 1; ++ align = 1; ++ break; ++ case CALL_SUBTYPE_MCALL_CP: ++ opc = &avr32_opc_table[AVR32_OPC_MCALL]; ++ opc->fields[0]->insert(opc->fields[0], p, AVR32_REG_PC); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_CPCALL; ++ symbol = fragP->tc_frag_data.pool->symbol; ++ offset = fragP->tc_frag_data.pool->literals[fragP->tc_frag_data.pool_entry].offset; ++ assert(fragP->tc_frag_data.pool->literals[fragP->tc_frag_data.pool_entry].refcount > 0); ++ pcrel = 1; ++ align = 2; ++ break; ++ case CALL_SUBTYPE_MCALL_GOT: ++ opc = &avr32_opc_table[AVR32_OPC_MCALL]; ++ opc->fields[0]->insert(opc->fields[0], p, 6); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_GOT18SW; ++ break; ++ case CALL_SUBTYPE_MCALL_LARGE: ++ assert(fragP->fr_var == 10); ++ /* ld.w lr, r6[lr << 2] */ ++ opc = &avr32_opc_table[AVR32_OPC_LD_W5]; ++ bfd_putb32(opc->value, p + 4); ++ opc->fields[0]->insert(opc->fields[0], p + 4, AVR32_REG_LR); ++ opc->fields[1]->insert(opc->fields[1], p + 4, 6); ++ opc->fields[2]->insert(opc->fields[2], p + 4, AVR32_REG_LR); ++ opc->fields[3]->insert(opc->fields[3], p + 4, 2); ++ ++ /* icall lr */ ++ opc = &avr32_opc_table[AVR32_OPC_ICALL]; ++ bfd_putb16(opc->value >> 16, p + 8); ++ opc->fields[0]->insert(opc->fields[0], p + 8, AVR32_REG_LR); ++ ++ /* mov lr, (got_offset / 4) */ ++ opc = &avr32_opc_table[AVR32_OPC_MOV2]; ++ opc->fields[0]->insert(opc->fields[0], p, AVR32_REG_LR); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_GOTCALL; ++ break; ++ default: ++ BAD_CASE(fragP->fr_subtype); ++ } ++ ++ /* Insert the opcode and clear the variable ifield */ ++ value = bfd_getb32(p); ++ value &= ~(opc->mask | ifield->mask); ++ value |= opc->value; ++ bfd_putb32(value, p); ++ ++ fragP->fr_fix += fragP->fr_var - CALL_INITIAL_SIZE; ++ ++ if (fragP->fr_next ++ && ((offsetT)(fragP->fr_next->fr_address - fragP->fr_address) ++ != fragP->fr_fix)) ++ { ++ fprintf(stderr, "%s:%d: fr_fix %lu is wrong! fr_var=%lu, r_type=%s\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_fix, fragP->fr_var, bfd_get_reloc_code_name(r_type)); ++ fprintf(stderr, "fr_fix should be %ld. next frag is %s:%d\n", ++ (offsetT)(fragP->fr_next->fr_address - fragP->fr_address), ++ fragP->fr_next->fr_file, fragP->fr_next->fr_line); ++ } ++ ++ fixP = fix_new(fragP, fragP->fr_fix - fragP->fr_var, fragP->fr_var, ++ symbol, offset, pcrel, r_type); ++ ++ /* Revert fix_new brain damage. "dot_value" is the value of PC at ++ the point of the fixup, relative to the frag address. fix_new() ++ and friends think they are only being called during the assembly ++ pass, not during relaxation or similar, so fx_dot_value, fx_file ++ and fx_line are all initialized to the wrong value. But we don't ++ know the size of the fixup until now, so we really can't live up ++ to the assumptions these functions make about the target. What ++ do these functions think the "where" and "frag" argument mean ++ anyway? */ ++ fixP->fx_dot_value = fragP->fr_fix - opc->size; ++ fixP->fx_file = fragP->fr_file; ++ fixP->fx_line = fragP->fr_line; ++ ++ fixP->tc_fix_data.ifield = ifield; ++ fixP->tc_fix_data.align = align; ++ /* these are only used if the fixup can actually be resolved */ ++ fixP->tc_fix_data.min = -2097152; ++ fixP->tc_fix_data.max = 2097150; ++} ++ ++static void ++avr32_cpool_convert_frag(bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ struct cpool *pool; ++ addressT address; ++ unsigned int entry; ++ char *p; ++ char sym_name[20]; ++ ++ /* Did we get rid of the frag altogether? */ ++ if (!fragP->fr_var) ++ return; ++ ++ pool = fragP->tc_frag_data.pool; ++ address = fragP->fr_address + fragP->fr_fix; ++ p = fragP->fr_literal + fragP->fr_fix; ++ ++ sprintf(sym_name, "$$cp_\002%x", pool->id); ++ symbol_locate(pool->symbol, sym_name, pool->section, fragP->fr_fix, fragP); ++ symbol_table_insert(pool->symbol); ++ ++ for (entry = 0; entry < pool->next_free_entry; entry++) ++ { ++ if (pool->literals[entry].refcount > 0) ++ { ++ fix_new_exp(fragP, fragP->fr_fix, 4, &pool->literals[entry].exp, ++ FALSE, BFD_RELOC_AVR32_32_CPENT); ++ fragP->fr_fix += 4; ++ } ++ } ++} ++ ++static struct avr32_relaxer avr32_default_relaxer = { ++ .estimate_size = avr32_default_estimate_size_before_relax, ++ .relax_frag = avr32_default_relax_frag, ++ .convert_frag = avr32_default_convert_frag, ++}; ++static struct avr32_relaxer avr32_lda_relaxer = { ++ .estimate_size = avr32_lda_estimate_size_before_relax, ++ .relax_frag = avr32_lda_relax_frag, ++ .convert_frag = avr32_lda_convert_frag, ++}; ++static struct avr32_relaxer avr32_call_relaxer = { ++ .estimate_size = avr32_call_estimate_size_before_relax, ++ .relax_frag = avr32_call_relax_frag, ++ .convert_frag = avr32_call_convert_frag, ++}; ++static struct avr32_relaxer avr32_cpool_relaxer = { ++ .estimate_size = avr32_cpool_estimate_size_before_relax, ++ .relax_frag = avr32_cpool_relax_frag, ++ .convert_frag = avr32_cpool_convert_frag, ++}; ++ ++static void s_cpool(int arg ATTRIBUTE_UNUSED) ++{ ++ struct cpool *pool; ++ unsigned int max_size; ++ char *buf; ++ ++ pool = find_cpool(now_seg, now_subseg); ++ if (!pool || !pool->symbol || pool->next_free_entry == 0) ++ return; ++ ++ /* Make sure the constant pool is properly aligned */ ++ frag_align_code(2, 0); ++ if (bfd_get_section_alignment(stdoutput, pool->section) < 2) ++ bfd_set_section_alignment(stdoutput, pool->section, 2); ++ ++ /* Assume none of the entries are discarded, and that we need the ++ maximum amount of alignment. But we're not going to allocate ++ anything up front. */ ++ max_size = pool->next_free_entry * 4 + 2; ++ frag_grow(max_size); ++ buf = frag_more(0); ++ ++ frag_now->tc_frag_data.relaxer = &avr32_cpool_relaxer; ++ frag_now->tc_frag_data.pool = pool; ++ ++ symbol_set_frag(pool->symbol, frag_now); ++ ++ /* Assume zero initial size, allowing other relaxers to be ++ optimistic about things. */ ++ frag_var(rs_machine_dependent, max_size, 0, ++ 0, pool->symbol, 0, NULL); ++ ++ /* Mark the pool as empty. */ ++ pool->used = 1; ++} ++ ++/* The location from which a PC relative jump should be calculated, ++ given a PC relative reloc. */ ++ ++long ++md_pcrel_from_section (fixS *fixP, segT sec) ++{ ++ pr_debug("pcrel_from_section, fx_offset = %d\n", fixP->fx_offset); ++ ++ if (fixP->fx_addsy != NULL ++ && (! S_IS_DEFINED (fixP->fx_addsy) ++ || S_GET_SEGMENT (fixP->fx_addsy) != sec ++ || S_FORCE_RELOC(fixP->fx_addsy, 1))) ++ { ++ pr_debug("Unknown pcrel symbol: %s\n", S_GET_NAME(fixP->fx_addsy)); ++ ++ /* The symbol is undefined (or is defined but not in this section). ++ Let the linker figure it out. */ ++ return 0; ++ } ++ ++ pr_debug("pcrel from %x + %x, symbol: %s (%x)\n", ++ fixP->fx_frag->fr_address, fixP->fx_where, ++ fixP->fx_addsy?S_GET_NAME(fixP->fx_addsy):"(null)", ++ fixP->fx_addsy?S_GET_VALUE(fixP->fx_addsy):0); ++ ++ return ((fixP->fx_frag->fr_address + fixP->fx_where) ++ & (~0UL << fixP->tc_fix_data.align)); ++} ++ ++valueT ++md_section_align (segT segment, valueT size) ++{ ++ int align = bfd_get_section_alignment (stdoutput, segment); ++ return ((size + (1 << align) - 1) & (-1 << align)); ++} ++ ++static int syntax_matches(const struct avr32_syntax *syntax, ++ char *str) ++{ ++ int i; ++ ++ pr_debug("syntax %d matches `%s'?\n", syntax->id, str); ++ ++ if (syntax->nr_operands < 0) ++ { ++ struct avr32_operand *op; ++ int optype; ++ ++ for (i = 0; i < (-syntax->nr_operands - 1); i++) ++ { ++ char *p; ++ char c; ++ ++ optype = syntax->operand[i]; ++ assert(optype < AVR32_NR_OPERANDS); ++ op = &avr32_operand_table[optype]; ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ if (p == str) ++ return 0; ++ ++ c = *p; ++ *p = 0; ++ ++ if (!op->match(str)) ++ { ++ *p = c; ++ return 0; ++ } ++ ++ str = p; ++ *p = c; ++ if (c) ++ str++; ++ } ++ ++ optype = syntax->operand[i]; ++ assert(optype < AVR32_NR_OPERANDS); ++ op = &avr32_operand_table[optype]; ++ ++ if (!op->match(str)) ++ return 0; ++ return 1; ++ } ++ ++ for (i = 0; i < syntax->nr_operands; i++) ++ { ++ struct avr32_operand *op; ++ int optype = syntax->operand[i]; ++ char *p; ++ char c; ++ ++ assert(optype < AVR32_NR_OPERANDS); ++ op = &avr32_operand_table[optype]; ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ if (p == str) ++ return 0; ++ ++ c = *p; ++ *p = 0; ++ ++ if (!op->match(str)) ++ { ++ *p = c; ++ return 0; ++ } ++ ++ str = p; ++ *p = c; ++ if (c) ++ str++; ++ } ++ ++ if (*str == '\0') ++ return 1; ++ ++ if ((*str == 'e' || *str == 'E') && !str[1]) ++ return 1; ++ ++ return 0; ++} ++ ++static int parse_operands(char *str) ++{ ++ int i; ++ ++ if (current_insn.syntax->nr_operands < 0) ++ { ++ int optype; ++ struct avr32_operand *op; ++ ++ for (i = 0; i < (-current_insn.syntax->nr_operands - 1); i++) ++ { ++ char *p; ++ char c; ++ ++ optype = current_insn.syntax->operand[i]; ++ op = &avr32_operand_table[optype]; ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ assert(p != str); ++ ++ c = *p, *p = 0; ++ op->parse(op, str, i); ++ *p = c; ++ ++ str = p; ++ if (c) str++; ++ } ++ ++ /* give the rest of the line to the last operand */ ++ optype = current_insn.syntax->operand[i]; ++ op = &avr32_operand_table[optype]; ++ op->parse(op, str, i); ++ } ++ else ++ { ++ for (i = 0; i < current_insn.syntax->nr_operands; i++) ++ { ++ int optype = current_insn.syntax->operand[i]; ++ struct avr32_operand *op = &avr32_operand_table[optype]; ++ char *p; ++ char c; ++ ++ skip_whitespace(str); ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ assert(p != str); ++ ++ c = *p, *p = 0; ++ op->parse(op, str, i); ++ *p = c; ++ ++ str = p; ++ if (c) str++; ++ } ++ ++ if (*str == 'E' || *str == 'e') ++ current_insn.force_extended = 1; ++ } ++ ++ return 0; ++} ++ ++static const char * ++finish_insn(const struct avr32_opcode *opc) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ unsigned int i; ++ int will_relax = 0; ++ char *buf; ++ ++ assert(current_insn.next_slot == opc->nr_fields); ++ ++ pr_debug("%s:%d: finish_insn: trying opcode %d\n", ++ frag_now->fr_file, frag_now->fr_line, opc->id); ++ ++ /* Go through the relaxation stage for all instructions that can ++ possibly take a symbolic immediate. The relax code will take ++ care of range checking and alignment. */ ++ if (opc->var_field != -1) ++ { ++ int substate, largest_substate; ++ symbolS *sym; ++ offsetT off; ++ ++ will_relax = 1; ++ substate = largest_substate = opc_initial_substate(opc); ++ ++ while (relax_more(largest_substate) != AVR32_RS_NONE) ++ largest_substate = relax_more(largest_substate); ++ ++ pr_debug("will relax. initial substate: %d (size %d), largest substate: %d (size %d)\n", ++ substate, avr32_rs_size(substate), ++ largest_substate, avr32_rs_size(largest_substate)); ++ ++ /* make sure we have enough room for the largest possible opcode */ ++ frag_grow(avr32_rs_size(largest_substate)); ++ buf = frag_more(opc->size); ++ ++ dwarf2_emit_insn(opc->size); ++ ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_NONE; ++ frag_now->tc_frag_data.pcrel = current_insn.pcrel; ++ frag_now->tc_frag_data.force_extended = current_insn.force_extended; ++ frag_now->tc_frag_data.relaxer = &avr32_default_relaxer; ++ ++ if (exp->X_op == O_hi) ++ { ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_HI; ++ exp->X_op = exp->X_md; ++ } ++ else if (exp->X_op == O_lo) ++ { ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_LO; ++ exp->X_op = exp->X_md; ++ } ++ else if (exp->X_op == O_got) ++ { ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_GOT; ++ exp->X_op = O_symbol; ++ } ++ ++#if 0 ++ if ((opc->reloc_type == BFD_RELOC_AVR32_SUB5) ++ && exp->X_op == O_subtract) ++ { ++ symbolS *tmp; ++ tmp = exp->X_add_symbol; ++ exp->X_add_symbol = exp->X_op_symbol; ++ exp->X_op_symbol = tmp; ++ } ++#endif ++ ++ frag_now->tc_frag_data.exp = current_insn.immediate; ++ ++ sym = exp->X_add_symbol; ++ off = exp->X_add_number; ++ if (exp->X_op != O_symbol) ++ { ++ sym = make_expr_symbol(exp); ++ off = 0; ++ } ++ ++ frag_var(rs_machine_dependent, ++ avr32_rs_size(largest_substate) - opc->size, ++ opc->size, ++ substate, sym, off, buf); ++ } ++ else ++ { ++ assert(avr32_rs_size(opc_initial_substate(opc)) == 0); ++ ++ /* Make sure we always have room for another whole word, as the ifield ++ inserters can only write words. */ ++ frag_grow(4); ++ buf = frag_more(opc->size); ++ dwarf2_emit_insn(opc->size); ++ } ++ ++ assert(!(opc->value & ~opc->mask)); ++ ++ pr_debug("inserting opcode: 0x%lx\n", opc->value); ++ bfd_putb32(opc->value, buf); ++ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ const struct avr32_ifield *f = opc->fields[i]; ++ const struct avr32_ifield_data *fd = ¤t_insn.field_value[i]; ++ ++ pr_debug("inserting field: 0x%lx & 0x%lx\n", ++ fd->value >> fd->align_order, f->mask); ++ ++ f->insert(f, buf, fd->value >> fd->align_order); ++ } ++ ++ assert(will_relax || !current_insn.immediate.X_add_symbol); ++ return NULL; ++} ++ ++static const char * ++finish_alias(const struct avr32_alias *alias) ++{ ++ const struct avr32_opcode *opc; ++ struct { ++ unsigned long value; ++ unsigned long align; ++ } mapped_operand[AVR32_MAX_OPERANDS]; ++ unsigned int i; ++ ++ opc = alias->opc; ++ ++ /* Remap the operands from the alias to the real opcode */ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ if (alias->operand_map[i].is_opindex) ++ { ++ struct avr32_ifield_data *fd; ++ fd = ¤t_insn.field_value[alias->operand_map[i].value]; ++ mapped_operand[i].value = fd->value; ++ mapped_operand[i].align = fd->align_order; ++ } ++ else ++ { ++ mapped_operand[i].value = alias->operand_map[i].value; ++ mapped_operand[i].align = 0; ++ } ++ } ++ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ current_insn.field_value[i].value = mapped_operand[i].value; ++ if (opc->id == AVR32_OPC_COP) ++ current_insn.field_value[i].align_order = 0; ++ else ++ current_insn.field_value[i].align_order ++ = mapped_operand[i].align; ++ } ++ ++ current_insn.next_slot = opc->nr_fields; ++ ++ return finish_insn(opc); ++} ++ ++static const char * ++finish_lda(const struct avr32_syntax *syntax ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ relax_substateT initial_subtype; ++ symbolS *sym; ++ offsetT off; ++ int initial_size, max_size; ++ char *buf; ++ ++ initial_size = LDA_INITIAL_SIZE; ++ ++ if (avr32_pic) ++ { ++ initial_subtype = LDA_SUBTYPE_SUB; ++ if (linkrelax) ++ max_size = 8; ++ else ++ max_size = 4; ++ } ++ else ++ { ++ initial_subtype = LDA_SUBTYPE_MOV1; ++ max_size = 4; ++ } ++ ++ frag_grow(max_size); ++ buf = frag_more(initial_size); ++ dwarf2_emit_insn(initial_size); ++ ++ if (exp->X_op == O_symbol) ++ { ++ sym = exp->X_add_symbol; ++ off = exp->X_add_number; ++ } ++ else ++ { ++ sym = make_expr_symbol(exp); ++ off = 0; ++ } ++ ++ frag_now->tc_frag_data.reloc_info = current_insn.field_value[0].value; ++ frag_now->tc_frag_data.relaxer = &avr32_lda_relaxer; ++ ++ if (!avr32_pic) ++ { ++ /* The relaxer will bump the refcount if necessary */ ++ frag_now->tc_frag_data.pool ++ = add_to_cpool(exp, &frag_now->tc_frag_data.pool_entry, 0); ++ } ++ ++ frag_var(rs_machine_dependent, max_size - initial_size, ++ initial_size, initial_subtype, sym, off, buf); ++ ++ return NULL; ++} ++ ++static const char * ++finish_call(const struct avr32_syntax *syntax ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ symbolS *sym; ++ offsetT off; ++ int initial_size, max_size; ++ char *buf; ++ ++ initial_size = CALL_INITIAL_SIZE; ++ ++ if (avr32_pic) ++ { ++ if (linkrelax) ++ max_size = 10; ++ else ++ max_size = 4; ++ } ++ else ++ max_size = 4; ++ ++ frag_grow(max_size); ++ buf = frag_more(initial_size); ++ dwarf2_emit_insn(initial_size); ++ ++ frag_now->tc_frag_data.relaxer = &avr32_call_relaxer; ++ ++ if (exp->X_op == O_symbol) ++ { ++ sym = exp->X_add_symbol; ++ off = exp->X_add_number; ++ } ++ else ++ { ++ sym = make_expr_symbol(exp); ++ off = 0; ++ } ++ ++ if (!avr32_pic) ++ { ++ /* The relaxer will bump the refcount if necessary */ ++ frag_now->tc_frag_data.pool ++ = add_to_cpool(exp, &frag_now->tc_frag_data.pool_entry, 0); ++ } ++ ++ frag_var(rs_machine_dependent, max_size - initial_size, ++ initial_size, CALL_SUBTYPE_RCALL1, sym, off, buf); ++ ++ return NULL; ++} ++ ++void ++md_begin (void) ++{ ++ unsigned long flags = 0; ++ int i; ++ ++ avr32_mnemonic_htab = hash_new(); ++ ++ if (!avr32_mnemonic_htab) ++ as_fatal(_("virtual memory exhausted")); ++ ++ for (i = 0; i < AVR32_NR_MNEMONICS; i++) ++ { ++ hash_insert(avr32_mnemonic_htab, avr32_mnemonic_table[i].name, ++ (void *)&avr32_mnemonic_table[i]); ++ } ++ ++ if (linkrelax) ++ flags |= EF_AVR32_LINKRELAX; ++ if (avr32_pic) ++ flags |= EF_AVR32_PIC; ++ ++ bfd_set_private_flags(stdoutput, flags); ++ ++#ifdef OPC_CONSISTENCY_CHECK ++ if (sizeof(avr32_operand_table)/sizeof(avr32_operand_table[0]) ++ < AVR32_NR_OPERANDS) ++ as_fatal(_("operand table is incomplete")); ++ ++ for (i = 0; i < AVR32_NR_OPERANDS; i++) ++ if (avr32_operand_table[i].id != i) ++ as_fatal(_("operand table inconsistency found at index %d\n"), i); ++ pr_debug("%d operands verified\n", AVR32_NR_OPERANDS); ++ ++ for (i = 0; i < AVR32_NR_IFIELDS; i++) ++ if (avr32_ifield_table[i].id != i) ++ as_fatal(_("ifield table inconsistency found at index %d\n"), i); ++ pr_debug("%d instruction fields verified\n", AVR32_NR_IFIELDS); ++ ++ for (i = 0; i < AVR32_NR_OPCODES; i++) ++ { ++ if (avr32_opc_table[i].id != i) ++ as_fatal(_("opcode table inconsistency found at index %d\n"), i); ++ if ((avr32_opc_table[i].var_field == -1 ++ && avr32_relax_table[i].length != 0) ++ || (avr32_opc_table[i].var_field != -1 ++ && avr32_relax_table[i].length == 0)) ++ as_fatal(_("relax table inconsistency found at index %d\n"), i); ++ } ++ pr_debug("%d opcodes verified\n", AVR32_NR_OPCODES); ++ ++ for (i = 0; i < AVR32_NR_SYNTAX; i++) ++ if (avr32_syntax_table[i].id != i) ++ as_fatal(_("syntax table inconsistency found at index %d\n"), i); ++ pr_debug("%d syntax variants verified\n", AVR32_NR_SYNTAX); ++ ++ for (i = 0; i < AVR32_NR_ALIAS; i++) ++ if (avr32_alias_table[i].id != i) ++ as_fatal(_("alias table inconsistency found at index %d\n"), i); ++ pr_debug("%d aliases verified\n", AVR32_NR_ALIAS); ++ ++ for (i = 0; i < AVR32_NR_MNEMONICS; i++) ++ if (avr32_mnemonic_table[i].id != i) ++ as_fatal(_("mnemonic table inconsistency found at index %d\n"), i); ++ pr_debug("%d mnemonics verified\n", AVR32_NR_MNEMONICS); ++#endif ++} ++ ++void ++md_assemble (char *str) ++{ ++ struct avr32_mnemonic *mnemonic; ++ char *p, c; ++ ++ memset(¤t_insn, 0, sizeof(current_insn)); ++ current_insn.immediate.X_op = O_constant; ++ ++ skip_whitespace(str); ++ for (p = str; *p; p++) ++ if (*p == ' ') ++ break; ++ c = *p; ++ *p = 0; ++ ++ mnemonic = hash_find(avr32_mnemonic_htab, str); ++ *p = c; ++ if (c) p++; ++ ++ if (mnemonic) ++ { ++ const struct avr32_syntax *syntax; ++ ++ for (syntax = mnemonic->syntax; syntax; syntax = syntax->next) ++ { ++ const char *errmsg = NULL; ++ ++ if (syntax_matches(syntax, p)) ++ { ++ if (!(syntax->isa_flags & avr32_arch->isa_flags)) ++ { ++ as_bad(_("Selected architecture `%s' does not support `%s'"), ++ avr32_arch->name, str); ++ return; ++ } ++ ++ current_insn.syntax = syntax; ++ parse_operands(p); ++ ++ switch (syntax->type) ++ { ++ case AVR32_PARSER_NORMAL: ++ errmsg = finish_insn(syntax->u.opc); ++ break; ++ case AVR32_PARSER_ALIAS: ++ errmsg = finish_alias(syntax->u.alias); ++ break; ++ case AVR32_PARSER_LDA: ++ errmsg = finish_lda(syntax); ++ break; ++ case AVR32_PARSER_CALL: ++ errmsg = finish_call(syntax); ++ break; ++ default: ++ BAD_CASE(syntax->type); ++ break; ++ } ++ ++ if (errmsg) ++ as_bad("%s in `%s'", errmsg, str); ++ ++ return; ++ } ++ } ++ ++ as_bad(_("unrecognized form of instruction: `%s'"), str); ++ } ++ else ++ as_bad(_("unrecognized instruction `%s'"), str); ++} ++ ++void avr32_cleanup(void) ++{ ++ struct cpool *pool; ++ ++ /* Emit any constant pools that haven't been explicitly flushed with ++ a .cpool directive. */ ++ for (pool = cpool_list; pool; pool = pool->next) ++ { ++ subseg_set(pool->section, pool->sub_section); ++ s_cpool(0); ++ } ++} ++ ++/* Handle any PIC-related operands in data allocation pseudo-ops */ ++void ++avr32_cons_fix_new (fragS *frag, int off, int size, expressionS *exp) ++{ ++ bfd_reloc_code_real_type r_type = BFD_RELOC_UNUSED; ++ int pcrel = 0; ++ ++ pr_debug("%s:%u: cons_fix_new, add_sym: %s, op_sym: %s, op: %d, add_num: %d\n", ++ frag->fr_file, frag->fr_line, ++ exp->X_add_symbol?S_GET_NAME(exp->X_add_symbol):"(none)", ++ exp->X_op_symbol?S_GET_NAME(exp->X_op_symbol):"(none)", ++ exp->X_op, exp->X_add_number); ++ ++ if (exp->X_op == O_subtract && exp->X_op_symbol) ++ { ++ if (exp->X_op_symbol == GOT_symbol) ++ { ++ if (size != 4) ++ goto bad_size; ++ r_type = BFD_RELOC_AVR32_GOTPC; ++ exp->X_op = O_symbol; ++ exp->X_op_symbol = NULL; ++ } ++ } ++ else if (exp->X_op == O_got) ++ { ++ switch (size) ++ { ++ case 1: ++ r_type = BFD_RELOC_AVR32_GOT8; ++ break; ++ case 2: ++ r_type = BFD_RELOC_AVR32_GOT16; ++ break; ++ case 4: ++ r_type = BFD_RELOC_AVR32_GOT32; ++ break; ++ default: ++ goto bad_size; ++ } ++ ++ exp->X_op = O_symbol; ++ } ++ ++ if (r_type == BFD_RELOC_UNUSED) ++ switch (size) ++ { ++ case 1: ++ r_type = BFD_RELOC_8; ++ break; ++ case 2: ++ r_type = BFD_RELOC_16; ++ break; ++ case 4: ++ r_type = BFD_RELOC_32; ++ break; ++ default: ++ goto bad_size; ++ } ++ else if (size != 4) ++ { ++ bad_size: ++ as_bad(_("unsupported BFD relocation size %u"), size); ++ r_type = BFD_RELOC_UNUSED; ++ } ++ ++ fix_new_exp (frag, off, size, exp, pcrel, r_type); ++} ++ ++static void ++avr32_frob_section(bfd *abfd ATTRIBUTE_UNUSED, segT sec, ++ void *ignore ATTRIBUTE_UNUSED) ++{ ++ segment_info_type *seginfo; ++ fixS *fix; ++ ++ seginfo = seg_info(sec); ++ if (!seginfo) ++ return; ++ ++ for (fix = seginfo->fix_root; fix; fix = fix->fx_next) ++ { ++ if (fix->fx_done) ++ continue; ++ ++ if (fix->fx_r_type == BFD_RELOC_AVR32_SUB5 ++ && fix->fx_addsy && fix->fx_subsy) ++ { ++ if (S_GET_SEGMENT(fix->fx_addsy) != S_GET_SEGMENT(fix->fx_subsy) ++ || linkrelax) ++ { ++ symbolS *tmp; ++#ifdef DEBUG ++ fprintf(stderr, "Swapping symbols in fixup:\n"); ++ print_fixup(fix); ++#endif ++ tmp = fix->fx_addsy; ++ fix->fx_addsy = fix->fx_subsy; ++ fix->fx_subsy = tmp; ++ fix->fx_offset = -fix->fx_offset; ++ } ++ } ++ } ++} ++ ++/* We need to look for SUB5 instructions with expressions that will be ++ made PC-relative and switch fx_addsy with fx_subsy. This has to be ++ done before adjustment or the wrong symbol might be adjusted. ++ ++ This applies to fixups that are a result of expressions like -(sym ++ - .) and that will make it all the way to md_apply_fix3(). LDA ++ does the right thing in convert_frag, so we must not convert ++ those. */ ++void ++avr32_frob_file(void) ++{ ++ /* if (1 || !linkrelax) ++ return; */ ++ ++ bfd_map_over_sections(stdoutput, avr32_frob_section, NULL); ++} ++ ++static bfd_boolean ++convert_to_diff_reloc(fixS *fixP) ++{ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF32; ++ break; ++ case BFD_RELOC_16: ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF16; ++ break; ++ case BFD_RELOC_8: ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF8; ++ break; ++ default: ++ return FALSE; ++ } ++ ++ return TRUE; ++} ++ ++/* Simplify a fixup. If possible, the fixup is reduced to a single ++ constant which is written to the output file. Otherwise, a ++ relocation is generated so that the linker can take care of the ++ rest. ++ ++ ELF relocations have certain constraints: They can only take a ++ single symbol and a single addend. This means that for difference ++ expressions, we _must_ get rid of the fx_subsy symbol somehow. ++ ++ The difference between two labels in the same section can be ++ calculated directly unless 'linkrelax' is set, or a relocation is ++ forced. If so, we must emit a R_AVR32_DIFFxx relocation. If there ++ are addends involved at this point, we must be especially careful ++ as the relocation must point exactly to the symbol being ++ subtracted. ++ ++ When subtracting a symbol defined in the same section as the fixup, ++ we might be able to convert it to a PC-relative expression, unless ++ linkrelax is set. If this is the case, there's no way we can make ++ sure that the difference between the fixup and fx_subsy stays ++ constant. So for now, we're just going to disallow that. ++ */ ++void ++avr32_process_fixup(fixS *fixP, segT this_segment) ++{ ++ segT add_symbol_segment = absolute_section; ++ segT sub_symbol_segment = absolute_section; ++ symbolS *fx_addsy, *fx_subsy; ++ offsetT value = 0, fx_offset; ++ bfd_boolean apply = FALSE; ++ ++ assert(this_segment != absolute_section); ++ ++ if (fixP->fx_r_type >= BFD_RELOC_UNUSED) ++ { ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("Bad relocation type %d\n"), fixP->fx_r_type); ++ return; ++ } ++ ++ /* BFD_RELOC_AVR32_SUB5 fixups have been swapped by avr32_frob_section() */ ++ fx_addsy = fixP->fx_addsy; ++ fx_subsy = fixP->fx_subsy; ++ fx_offset = fixP->fx_offset; ++ ++ if (fx_addsy) ++ add_symbol_segment = S_GET_SEGMENT(fx_addsy); ++ ++ if (fx_subsy) ++ { ++ resolve_symbol_value(fx_subsy); ++ sub_symbol_segment = S_GET_SEGMENT(fx_subsy); ++ ++ if (sub_symbol_segment == this_segment ++ && (!linkrelax ++ || S_GET_VALUE(fx_subsy) == (fixP->fx_frag->fr_address ++ + fixP->fx_where))) ++ { ++ fixP->fx_pcrel = TRUE; ++ fx_offset += (fixP->fx_frag->fr_address + fixP->fx_where ++ - S_GET_VALUE(fx_subsy)); ++ fx_subsy = NULL; ++ } ++ else if (sub_symbol_segment == absolute_section) ++ { ++ /* The symbol is really a constant. */ ++ fx_offset -= S_GET_VALUE(fx_subsy); ++ fx_subsy = NULL; ++ } ++ else if (SEG_NORMAL(add_symbol_segment) ++ && sub_symbol_segment == add_symbol_segment ++ && (!linkrelax || convert_to_diff_reloc(fixP))) ++ { ++ /* Difference between two labels in the same section. */ ++ if (linkrelax) ++ { ++ /* convert_to_diff() has ensured that the reloc type is ++ either DIFF32, DIFF16 or DIFF8. */ ++ value = (S_GET_VALUE(fx_addsy) + fixP->fx_offset ++ - S_GET_VALUE(fx_subsy)); ++ ++ /* Try to convert it to a section symbol if possible */ ++ if (!S_FORCE_RELOC(fx_addsy, 1) ++ && !(sub_symbol_segment->flags & SEC_THREAD_LOCAL)) ++ { ++ fx_offset = S_GET_VALUE(fx_subsy); ++ fx_addsy = section_symbol(sub_symbol_segment); ++ } ++ else ++ { ++ fx_addsy = fx_subsy; ++ fx_offset = 0; ++ } ++ ++ fx_subsy = NULL; ++ apply = TRUE; ++ } ++ else ++ { ++ fx_offset += S_GET_VALUE(fx_addsy); ++ fx_offset -= S_GET_VALUE(fx_subsy); ++ fx_addsy = NULL; ++ fx_subsy = NULL; ++ } ++ } ++ else ++ { ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("can't resolve `%s' {%s section} - `%s' {%s section}"), ++ fx_addsy ? S_GET_NAME (fx_addsy) : "0", ++ segment_name (add_symbol_segment), ++ S_GET_NAME (fx_subsy), ++ segment_name (sub_symbol_segment)); ++ return; ++ } ++ } ++ ++ if (fx_addsy && !TC_FORCE_RELOCATION(fixP)) ++ { ++ if (add_symbol_segment == this_segment ++ && fixP->fx_pcrel) ++ { ++ value += S_GET_VALUE(fx_addsy); ++ value -= md_pcrel_from_section(fixP, this_segment); ++ fx_addsy = NULL; ++ fixP->fx_pcrel = FALSE; ++ } ++ else if (add_symbol_segment == absolute_section) ++ { ++ fx_offset += S_GET_VALUE(fixP->fx_addsy); ++ fx_addsy = NULL; ++ } ++ } ++ ++ if (!fx_addsy) ++ fixP->fx_done = TRUE; ++ ++ if (fixP->fx_pcrel) ++ { ++ if (fx_addsy != NULL ++ && S_IS_DEFINED(fx_addsy) ++ && S_GET_SEGMENT(fx_addsy) != this_segment) ++ value += md_pcrel_from_section(fixP, this_segment); ++ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ fixP->fx_r_type = BFD_RELOC_32_PCREL; ++ break; ++ case BFD_RELOC_16: ++ fixP->fx_r_type = BFD_RELOC_16_PCREL; ++ break; ++ case BFD_RELOC_8: ++ fixP->fx_r_type = BFD_RELOC_8_PCREL; ++ break; ++ case BFD_RELOC_AVR32_SUB5: ++ fixP->fx_r_type = BFD_RELOC_AVR32_16N_PCREL; ++ break; ++ case BFD_RELOC_AVR32_16S: ++ fixP->fx_r_type = BFD_RELOC_AVR32_16B_PCREL; ++ break; ++ case BFD_RELOC_AVR32_14UW: ++ fixP->fx_r_type = BFD_RELOC_AVR32_14UW_PCREL; ++ break; ++ case BFD_RELOC_AVR32_10UW: ++ fixP->fx_r_type = BFD_RELOC_AVR32_10UW_PCREL; ++ break; ++ default: ++ /* Should have been taken care of already */ ++ break; ++ } ++ } ++ ++ if (fixP->fx_done || apply) ++ { ++ const struct avr32_ifield *ifield; ++ char *buf = fixP->fx_where + fixP->fx_frag->fr_literal; ++ ++ if (fixP->fx_done) ++ value += fx_offset; ++ ++ /* For hosts with longs bigger than 32-bits make sure that the top ++ bits of a 32-bit negative value read in by the parser are set, ++ so that the correct comparisons are made. */ ++ if (value & 0x80000000) ++ value |= (-1L << 31); ++ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ case BFD_RELOC_16: ++ case BFD_RELOC_8: ++ case BFD_RELOC_AVR32_DIFF32: ++ case BFD_RELOC_AVR32_DIFF16: ++ case BFD_RELOC_AVR32_DIFF8: ++ md_number_to_chars(buf, value, fixP->fx_size); ++ break; ++ case BFD_RELOC_HI16: ++ value >>= 16; ++ case BFD_RELOC_LO16: ++ value &= 0xffff; ++ md_number_to_chars(buf + 2, value, 2); ++ break; ++ case BFD_RELOC_AVR32_16N_PCREL: ++ value = -value; ++ /* fall through */ ++ case BFD_RELOC_AVR32_22H_PCREL: ++ case BFD_RELOC_AVR32_18W_PCREL: ++ case BFD_RELOC_AVR32_16B_PCREL: ++ case BFD_RELOC_AVR32_11H_PCREL: ++ case BFD_RELOC_AVR32_9H_PCREL: ++ case BFD_RELOC_AVR32_9UW_PCREL: ++ case BFD_RELOC_AVR32_3U: ++ case BFD_RELOC_AVR32_4UH: ++ case BFD_RELOC_AVR32_6UW: ++ case BFD_RELOC_AVR32_6S: ++ case BFD_RELOC_AVR32_7UW: ++ case BFD_RELOC_AVR32_8S_EXT: ++ case BFD_RELOC_AVR32_8S: ++ case BFD_RELOC_AVR32_10UW: ++ case BFD_RELOC_AVR32_10SW: ++ case BFD_RELOC_AVR32_STHH_W: ++ case BFD_RELOC_AVR32_14UW: ++ case BFD_RELOC_AVR32_16S: ++ case BFD_RELOC_AVR32_16U: ++ case BFD_RELOC_AVR32_21S: ++ case BFD_RELOC_AVR32_SUB5: ++ case BFD_RELOC_AVR32_CPCALL: ++ case BFD_RELOC_AVR32_16_CP: ++ case BFD_RELOC_AVR32_9W_CP: ++ case BFD_RELOC_AVR32_15S: ++ ifield = fixP->tc_fix_data.ifield; ++ pr_debug("insert field: %ld <= %ld <= %ld (align %u)\n", ++ fixP->tc_fix_data.min, value, fixP->tc_fix_data.max, ++ fixP->tc_fix_data.align); ++ if (value < fixP->tc_fix_data.min || value > fixP->tc_fix_data.max) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("operand out of range (%ld not between %ld and %ld)"), ++ value, fixP->tc_fix_data.min, fixP->tc_fix_data.max); ++ if (value & ((1 << fixP->tc_fix_data.align) - 1)) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("misaligned operand (required alignment: %d)"), ++ 1 << fixP->tc_fix_data.align); ++ ifield->insert(ifield, buf, value >> fixP->tc_fix_data.align); ++ break; ++ case BFD_RELOC_AVR32_ALIGN: ++ /* Nothing to do */ ++ fixP->fx_done = FALSE; ++ break; ++ default: ++ as_fatal("reloc type %s not handled\n", ++ bfd_get_reloc_code_name(fixP->fx_r_type)); ++ } ++ } ++ ++ fixP->fx_addsy = fx_addsy; ++ fixP->fx_subsy = fx_subsy; ++ fixP->fx_offset = fx_offset; ++ ++ if (!fixP->fx_done) ++ { ++ if (!fixP->fx_addsy) ++ fixP->fx_addsy = abs_section_sym; ++ ++ symbol_mark_used_in_reloc(fixP->fx_addsy); ++ if (fixP->fx_subsy) ++ abort(); ++ } ++} ++ ++#if 0 ++void ++md_apply_fix3 (fixS *fixP, valueT *valP, segT seg) ++{ ++ const struct avr32_ifield *ifield; ++ offsetT value = *valP; ++ char *buf = fixP->fx_where + fixP->fx_frag->fr_literal; ++ bfd_boolean apply; ++ ++ pr_debug("%s:%u: apply_fix3: r_type=%d value=%lx offset=%lx\n", ++ fixP->fx_file, fixP->fx_line, fixP->fx_r_type, *valP, ++ fixP->fx_offset); ++ ++ if (fixP->fx_r_type >= BFD_RELOC_UNUSED) ++ { ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("Bad relocation type %d\n"), fixP->fx_r_type); ++ return; ++ } ++ ++ if (!fixP->fx_addsy && !fixP->fx_subsy) ++ fixP->fx_done = 1; ++ ++ if (fixP->fx_pcrel) ++ { ++ if (fixP->fx_addsy != NULL ++ && S_IS_DEFINED(fixP->fx_addsy) ++ && S_GET_SEGMENT(fixP->fx_addsy) != seg) ++ value += md_pcrel_from_section(fixP, seg); ++ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ fixP->fx_r_type = BFD_RELOC_32_PCREL; ++ break; ++ case BFD_RELOC_16: ++ case BFD_RELOC_8: ++ as_bad_where (fixP->fx_file, fixP->fx_line, ++ _("8- and 16-bit PC-relative relocations not supported")); ++ break; ++ case BFD_RELOC_AVR32_SUB5: ++ fixP->fx_r_type = BFD_RELOC_AVR32_PCREL_SUB5; ++ break; ++ case BFD_RELOC_AVR32_16S: ++ fixP->fx_r_type = BFD_RELOC_AVR32_16_PCREL; ++ break; ++ default: ++ /* Should have been taken care of already */ ++ break; ++ } ++ } ++ ++ if (fixP->fx_r_type == BFD_RELOC_32 ++ && fixP->fx_subsy) ++ { ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF32; ++ ++ /* Offsets are only allowed if it's a result of adjusting a ++ local symbol into a section-relative offset. ++ tc_fix_adjustable() should prevent any adjustment if there ++ was an offset involved before. */ ++ if (fixP->fx_offset && !symbol_section_p(fixP->fx_addsy)) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("cannot represent symbol difference with an offset")); ++ ++ value = (S_GET_VALUE(fixP->fx_addsy) + fixP->fx_offset ++ - S_GET_VALUE(fixP->fx_subsy)); ++ ++ /* The difference before any relaxing takes place is written ++ out, and the DIFF32 reloc identifies the address of the first ++ symbol (i.e. the on that's subtracted.) */ ++ *valP = value; ++ fixP->fx_offset -= value; ++ fixP->fx_subsy = NULL; ++ ++ md_number_to_chars(buf, value, fixP->fx_size); ++ } ++ ++ if (fixP->fx_done) ++ { ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_8: ++ case BFD_RELOC_16: ++ case BFD_RELOC_32: ++ md_number_to_chars(buf, value, fixP->fx_size); ++ break; ++ case BFD_RELOC_HI16: ++ value >>= 16; ++ case BFD_RELOC_LO16: ++ value &= 0xffff; ++ *valP = value; ++ md_number_to_chars(buf + 2, value, 2); ++ break; ++ case BFD_RELOC_AVR32_PCREL_SUB5: ++ value = -value; ++ /* fall through */ ++ case BFD_RELOC_AVR32_9_PCREL: ++ case BFD_RELOC_AVR32_11_PCREL: ++ case BFD_RELOC_AVR32_16_PCREL: ++ case BFD_RELOC_AVR32_18_PCREL: ++ case BFD_RELOC_AVR32_22_PCREL: ++ case BFD_RELOC_AVR32_3U: ++ case BFD_RELOC_AVR32_4UH: ++ case BFD_RELOC_AVR32_6UW: ++ case BFD_RELOC_AVR32_6S: ++ case BFD_RELOC_AVR32_7UW: ++ case BFD_RELOC_AVR32_8S: ++ case BFD_RELOC_AVR32_10UW: ++ case BFD_RELOC_AVR32_10SW: ++ case BFD_RELOC_AVR32_14UW: ++ case BFD_RELOC_AVR32_16S: ++ case BFD_RELOC_AVR32_16U: ++ case BFD_RELOC_AVR32_21S: ++ case BFD_RELOC_AVR32_BRC1: ++ case BFD_RELOC_AVR32_SUB5: ++ case BFD_RELOC_AVR32_CPCALL: ++ case BFD_RELOC_AVR32_16_CP: ++ case BFD_RELOC_AVR32_9_CP: ++ case BFD_RELOC_AVR32_15S: ++ ifield = fixP->tc_fix_data.ifield; ++ pr_debug("insert field: %ld <= %ld <= %ld (align %u)\n", ++ fixP->tc_fix_data.min, value, fixP->tc_fix_data.max, ++ fixP->tc_fix_data.align); ++ if (value < fixP->tc_fix_data.min || value > fixP->tc_fix_data.max) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("operand out of range (%ld not between %ld and %ld)"), ++ value, fixP->tc_fix_data.min, fixP->tc_fix_data.max); ++ if (value & ((1 << fixP->tc_fix_data.align) - 1)) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("misaligned operand (required alignment: %d)"), ++ 1 << fixP->tc_fix_data.align); ++ ifield->insert(ifield, buf, value >> fixP->tc_fix_data.align); ++ break; ++ case BFD_RELOC_AVR32_ALIGN: ++ /* Nothing to do */ ++ fixP->fx_done = FALSE; ++ break; ++ default: ++ as_fatal("reloc type %s not handled\n", ++ bfd_get_reloc_code_name(fixP->fx_r_type)); ++ } ++ } ++} ++#endif ++ ++arelent * ++tc_gen_reloc (asection *section ATTRIBUTE_UNUSED, ++ fixS *fixp) ++{ ++ arelent *reloc; ++ bfd_reloc_code_real_type code; ++ ++ reloc = xmalloc (sizeof (arelent)); ++ ++ reloc->sym_ptr_ptr = xmalloc (sizeof (asymbol *)); ++ *reloc->sym_ptr_ptr = symbol_get_bfdsym (fixp->fx_addsy); ++ reloc->address = fixp->fx_frag->fr_address + fixp->fx_where; ++ reloc->addend = fixp->fx_offset; ++ code = fixp->fx_r_type; ++ ++ reloc->howto = bfd_reloc_type_lookup (stdoutput, code); ++ ++ if (reloc->howto == NULL) ++ { ++ as_bad_where (fixp->fx_file, fixp->fx_line, ++ _("cannot represent relocation %s in this object file format"), ++ bfd_get_reloc_code_name (code)); ++ return NULL; ++ } ++ ++ return reloc; ++} ++ ++bfd_boolean ++avr32_force_reloc(fixS *fixP) ++{ ++ if (linkrelax && fixP->fx_addsy ++ && !(S_GET_SEGMENT(fixP->fx_addsy)->flags & SEC_DEBUGGING) ++ && S_GET_SEGMENT(fixP->fx_addsy) != absolute_section) ++ { ++ pr_debug(stderr, "force reloc: addsy=%p, r_type=%d, sec=%s\n", ++ fixP->fx_addsy, fixP->fx_r_type, S_GET_SEGMENT(fixP->fx_addsy)->name); ++ return 1; ++ } ++ ++ return generic_force_reloc(fixP); ++} ++ ++bfd_boolean ++avr32_fix_adjustable(fixS *fixP) ++{ ++ switch (fixP->fx_r_type) ++ { ++ /* GOT relocations can't have addends since BFD treats all ++ references to a given symbol the same. This means that we ++ must avoid section-relative references to local symbols when ++ dealing with these kinds of relocs */ ++ case BFD_RELOC_AVR32_GOT32: ++ case BFD_RELOC_AVR32_GOT16: ++ case BFD_RELOC_AVR32_GOT8: ++ case BFD_RELOC_AVR32_GOT21S: ++ case BFD_RELOC_AVR32_GOT18SW: ++ case BFD_RELOC_AVR32_GOT16S: ++ case BFD_RELOC_AVR32_LDA_GOT: ++ case BFD_RELOC_AVR32_GOTCALL: ++ pr_debug("fix not adjustable\n"); ++ return 0; ++ ++ default: ++ break; ++ } ++ ++ return 1; ++} ++ ++/* When we want the linker to be able to relax the code, we need to ++ output a reloc for every .align directive requesting an alignment ++ to a four byte boundary or larger. If we don't do this, the linker ++ can't guarantee that the alignment is actually maintained in the ++ linker output. ++ ++ TODO: Might as well insert proper NOPs while we're at it... */ ++void ++avr32_handle_align(fragS *frag) ++{ ++ if (linkrelax ++ && frag->fr_type == rs_align_code ++ && frag->fr_address + frag->fr_fix > 0 ++ && frag->fr_offset > 0) ++ { ++ /* The alignment order (fr_offset) is stored in the addend. */ ++ fix_new(frag, frag->fr_fix, 2, &abs_symbol, frag->fr_offset, ++ FALSE, BFD_RELOC_AVR32_ALIGN); ++ } ++} ++ ++/* Relax_align. Advance location counter to next address that has 'alignment' ++ lowest order bits all 0s, return size of adjustment made. */ ++relax_addressT ++avr32_relax_align(segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP, ++ relax_addressT address) ++{ ++ relax_addressT mask; ++ relax_addressT new_address; ++ int alignment; ++ ++ alignment = fragP->fr_offset; ++ mask = ~((~0) << alignment); ++ new_address = (address + mask) & (~mask); ++ ++ return new_address - address; ++} ++ ++/* Turn a string in input_line_pointer into a floating point constant ++ of type type, and store the appropriate bytes in *litP. The number ++ of LITTLENUMS emitted is stored in *sizeP . An error message is ++ returned, or NULL on OK. */ ++ ++/* Equal to MAX_PRECISION in atof-ieee.c */ ++#define MAX_LITTLENUMS 6 ++ ++char * ++md_atof (type, litP, sizeP) ++char type; ++char * litP; ++int * sizeP; ++{ ++ int i; ++ int prec; ++ LITTLENUM_TYPE words [MAX_LITTLENUMS]; ++ char * t; ++ ++ switch (type) ++ { ++ case 'f': ++ case 'F': ++ case 's': ++ case 'S': ++ prec = 2; ++ break; ++ ++ case 'd': ++ case 'D': ++ case 'r': ++ case 'R': ++ prec = 4; ++ break; ++ ++ /* FIXME: Some targets allow other format chars for bigger sizes here. */ ++ ++ default: ++ * sizeP = 0; ++ return _("Bad call to md_atof()"); ++ } ++ ++ t = atof_ieee (input_line_pointer, type, words); ++ if (t) ++ input_line_pointer = t; ++ * sizeP = prec * sizeof (LITTLENUM_TYPE); ++ ++ for (i = 0; i < prec; i++) ++ { ++ md_number_to_chars (litP, (valueT) words[i], ++ sizeof (LITTLENUM_TYPE)); ++ litP += sizeof (LITTLENUM_TYPE); ++ } ++ ++ return 0; ++} ++ ++static char *avr32_end_of_match(char *cont, char *what) ++{ ++ int len = strlen (what); ++ ++ if (! is_part_of_name (cont[len]) ++ && strncasecmp (cont, what, len) == 0) ++ return cont + len; ++ ++ return NULL; ++} ++ ++int ++avr32_parse_name (char const *name, expressionS *exp, char *nextchar) ++{ ++ char *next = input_line_pointer; ++ char *next_end; ++ ++ pr_debug("parse_name: %s, nextchar=%c (%02x)\n", name, *nextchar, *nextchar); ++ ++ if (*nextchar == '(') ++ { ++ if (strcasecmp(name, "hi") == 0) ++ { ++ *next = *nextchar; ++ ++ expression(exp); ++ ++ if (exp->X_op == O_constant) ++ { ++ pr_debug(" -> constant hi(0x%08lx) -> 0x%04lx\n", ++ exp->X_add_number, exp->X_add_number >> 16); ++ exp->X_add_number = (exp->X_add_number >> 16) & 0xffff; ++ } ++ else ++ { ++ exp->X_md = exp->X_op; ++ exp->X_op = O_hi; ++ } ++ ++ return 1; ++ } ++ else if (strcasecmp(name, "lo") == 0) ++ { ++ *next = *nextchar; ++ ++ expression(exp); ++ ++ if (exp->X_op == O_constant) ++ exp->X_add_number &= 0xffff; ++ else ++ { ++ exp->X_md = exp->X_op; ++ exp->X_op = O_lo; ++ } ++ ++ return 1; ++ } ++ } ++ else if (*nextchar == '@') ++ { ++ exp->X_md = exp->X_op; ++ ++ if ((next_end = avr32_end_of_match (next + 1, "got"))) ++ exp->X_op = O_got; ++ else if ((next_end = avr32_end_of_match (next + 1, "tlsgd"))) ++ exp->X_op = O_tlsgd; ++ /* Add more as needed */ ++ else ++ { ++ char c; ++ input_line_pointer++; ++ c = get_symbol_end(); ++ as_bad (_("unknown relocation override `%s'"), next + 1); ++ *input_line_pointer = c; ++ input_line_pointer = next; ++ return 0; ++ } ++ ++ exp->X_op_symbol = NULL; ++ exp->X_add_symbol = symbol_find_or_make (name); ++ exp->X_add_number = 0; ++ ++ *input_line_pointer = *nextchar; ++ input_line_pointer = next_end; ++ *nextchar = *input_line_pointer; ++ *input_line_pointer = '\0'; ++ return 1; ++ } ++ else if (strcmp (name, "_GLOBAL_OFFSET_TABLE_") == 0) ++ { ++ if (!GOT_symbol) ++ GOT_symbol = symbol_find_or_make(name); ++ ++ exp->X_add_symbol = GOT_symbol; ++ exp->X_op = O_symbol; ++ exp->X_add_number = 0; ++ return 1; ++ } ++ ++ return 0; ++} ++ ++static void ++s_rseg (int value ATTRIBUTE_UNUSED) ++{ ++ /* Syntax: RSEG segment_name [:type] [NOROOT|ROOT] [(align)] ++ * Defaults: ++ * - type: undocumented ("typically CODE or DATA") ++ * - ROOT ++ * - align: 1 for code, 0 for others ++ * ++ * TODO: NOROOT is ignored. If gas supports discardable segments, it should ++ * be implemented. ++ */ ++ char *name, *end; ++ int length, type, attr; ++ int align = 0; ++ ++ SKIP_WHITESPACE(); ++ ++ end = input_line_pointer; ++ while (0 == strchr ("\n\t;:( ", *end)) ++ end++; ++ if (end == input_line_pointer) ++ { ++ as_warn (_("missing name")); ++ ignore_rest_of_line(); ++ return; ++ } ++ ++ name = xmalloc (end - input_line_pointer + 1); ++ memcpy (name, input_line_pointer, end - input_line_pointer); ++ name[end - input_line_pointer] = '\0'; ++ input_line_pointer = end; ++ ++ SKIP_WHITESPACE(); ++ ++ type = SHT_NULL; ++ attr = 0; ++ ++ if (*input_line_pointer == ':') ++ { ++ /* Skip the colon */ ++ ++input_line_pointer; ++ SKIP_WHITESPACE(); ++ ++ /* Possible options at this point: ++ * - flag (ROOT or NOROOT) ++ * - a segment type ++ */ ++ end = input_line_pointer; ++ while (0 == strchr ("\n\t;:( ", *end)) ++ end++; ++ length = end - input_line_pointer; ++ if (((length == 4) && (0 == strncasecmp( input_line_pointer, "ROOT", 4))) || ++ ((length == 6) && (0 == strncasecmp( input_line_pointer, "NOROOT", 6)))) ++ { ++ /* Ignore ROOT/NOROOT */ ++ input_line_pointer = end; ++ } ++ else ++ { ++ /* Must be a segment type */ ++ switch (*input_line_pointer) ++ { ++ case 'C': ++ case 'c': ++ if ((length == 4) && ++ (0 == strncasecmp (input_line_pointer, "CODE", 4))) ++ { ++ attr |= SHF_ALLOC | SHF_EXECINSTR; ++ type = SHT_PROGBITS; ++ align = 1; ++ break; ++ } ++ if ((length == 5) && ++ (0 == strncasecmp (input_line_pointer, "CONST", 5))) ++ { ++ attr |= SHF_ALLOC; ++ type = SHT_PROGBITS; ++ break; ++ } ++ goto de_fault; ++ ++ case 'D': ++ case 'd': ++ if ((length == 4) && ++ (0 == strncasecmp (input_line_pointer, "DATA", 4))) ++ { ++ attr |= SHF_ALLOC | SHF_WRITE; ++ type = SHT_PROGBITS; ++ break; ++ } ++ goto de_fault; ++ ++ /* TODO: Add FAR*, HUGE*, IDATA and NEAR* if necessary */ ++ ++ case 'U': ++ case 'u': ++ if ((length == 7) && ++ (0 == strncasecmp (input_line_pointer, "UNTYPED", 7))) ++ break; ++ goto de_fault; ++ ++ /* TODO: Add XDATA and ZPAGE if necessary */ ++ ++ de_fault: ++ default: ++ as_warn (_("unrecognized segment type")); ++ } ++ ++ input_line_pointer = end; ++ SKIP_WHITESPACE(); ++ ++ if (*input_line_pointer == ':') ++ { ++ /* ROOT/NOROOT */ ++ ++input_line_pointer; ++ SKIP_WHITESPACE(); ++ ++ end = input_line_pointer; ++ while (0 == strchr ("\n\t;:( ", *end)) ++ end++; ++ length = end - input_line_pointer; ++ if (! ((length == 4) && ++ (0 == strncasecmp( input_line_pointer, "ROOT", 4))) && ++ ! ((length == 6) && ++ (0 == strncasecmp( input_line_pointer, "NOROOT", 6)))) ++ { ++ as_warn (_("unrecognized segment flag")); ++ } ++ ++ input_line_pointer = end; ++ SKIP_WHITESPACE(); ++ } ++ } ++ } ++ ++ if (*input_line_pointer == '(') ++ { ++ align = get_absolute_expression (); ++ } ++ ++ demand_empty_rest_of_line(); ++ ++ obj_elf_change_section (name, type, attr, 0, NULL, 0, 0); ++#ifdef AVR32_DEBUG ++ fprintf( stderr, "RSEG: Changed section to %s, type: 0x%x, attr: 0x%x\n", ++ name, type, attr ); ++ fprintf( stderr, "RSEG: Aligning to 2**%d\n", align ); ++#endif ++ ++ if (align > 15) ++ { ++ align = 15; ++ as_warn (_("alignment too large: %u assumed"), align); ++ } ++ ++ /* Hope not, that is */ ++ assert (now_seg != absolute_section); ++ ++ /* Only make a frag if we HAVE to... */ ++ if (align != 0 && !need_pass_2) ++ { ++ if (subseg_text_p (now_seg)) ++ frag_align_code (align, 0); ++ else ++ frag_align (align, 0, 0); ++ } ++ ++ record_alignment (now_seg, align - OCTETS_PER_BYTE_POWER); ++} ++ ++/* vim: syntax=c sw=2 ++ */ +--- /dev/null ++++ b/gas/config/tc-avr32.h +@@ -0,0 +1,325 @@ ++/* Assembler definitions for AVR32. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of GAS, the GNU Assembler. ++ ++ GAS is free software; you can redistribute it and/or modify it ++ under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2, or (at your option) ++ any later version. ++ ++ GAS is distributed in the hope that it will be useful, but WITHOUT ++ ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ++ or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public ++ License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with GAS; see the file COPYING. If not, write to the Free ++ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#if 0 ++#define DEBUG ++#define DEBUG1 ++#define DEBUG2 ++#define DEBUG3 ++#define DEBUG4 ++#define DEBUG5 ++#endif ++ ++/* Are we trying to be compatible with the IAR assembler? (--iar) */ ++extern int avr32_iarcompat; ++ ++/* By convention, you should define this macro in the `.h' file. For ++ example, `tc-m68k.h' defines `TC_M68K'. You might have to use this ++ if it is necessary to add CPU specific code to the object format ++ file. */ ++#define TC_AVR32 ++ ++/* This macro is the BFD target name to use when creating the output ++ file. This will normally depend upon the `OBJ_FMT' macro. */ ++#define TARGET_FORMAT "elf32-avr32" ++ ++/* This macro is the BFD architecture to pass to `bfd_set_arch_mach'. */ ++#define TARGET_ARCH bfd_arch_avr32 ++ ++/* This macro is the BFD machine number to pass to ++ `bfd_set_arch_mach'. If it is not defined, GAS will use 0. */ ++#define TARGET_MACH 0 ++ ++/* UNDOCUMENTED: Allow //-style comments */ ++#define DOUBLESLASH_LINE_COMMENTS ++ ++/* You should define this macro to be non-zero if the target is big ++ endian, and zero if the target is little endian. */ ++#define TARGET_BYTES_BIG_ENDIAN 1 ++ ++/* FIXME: It seems that GAS only expects a one-byte opcode... ++ #define NOP_OPCODE 0xd703 */ ++ ++/* If you define this macro, GAS will warn about the use of ++ nonstandard escape sequences in a string. */ ++#undef ONLY_STANDARD_ESCAPES ++ ++#define DWARF2_FORMAT(SEC) dwarf2_format_32bit ++ ++/* Instructions are either 2 or 4 bytes long */ ++/* #define DWARF2_LINE_MIN_INSN_LENGTH 2 */ ++ ++/* GAS will call this function for any expression that can not be ++ recognized. When the function is called, `input_line_pointer' ++ will point to the start of the expression. */ ++#define md_operand(x) ++ ++#define md_parse_name(name, expr, mode, c) avr32_parse_name(name, expr, c) ++extern int avr32_parse_name(const char *, struct expressionS *, char *); ++ ++/* You may define this macro to generate a fixup for a data ++ allocation pseudo-op. */ ++#define TC_CONS_FIX_NEW(FRAG, OFF, LEN, EXP) \ ++ avr32_cons_fix_new(FRAG, OFF, LEN, EXP) ++void avr32_cons_fix_new (fragS *, int, int, expressionS *); ++ ++/* `extsym - .' expressions can be emitted using PC-relative relocs */ ++#define DIFF_EXPR_OK ++ ++/* This is used to construct expressions out of @gotoff, etc. The ++ relocation type is stored in X_md */ ++#define O_got O_md1 ++#define O_hi O_md2 ++#define O_lo O_md3 ++#define O_tlsgd O_md4 ++ ++/* You may define this macro to parse an expression used in a data ++ allocation pseudo-op such as `.word'. You can use this to ++ recognize relocation directives that may appear in such directives. */ ++/* #define TC_PARSE_CONS_EXPRESSION(EXPR,N) avr_parse_cons_expression (EXPR,N) ++ void avr_parse_cons_expression (expressionS *exp, int nbytes); */ ++ ++/* This should just call either `number_to_chars_bigendian' or ++ `number_to_chars_littleendian', whichever is appropriate. On ++ targets like the MIPS which support options to change the ++ endianness, which function to call is a runtime decision. On ++ other targets, `md_number_to_chars' can be a simple macro. */ ++#define md_number_to_chars number_to_chars_bigendian ++ ++/* `md_short_jump_size' ++ `md_long_jump_size' ++ `md_create_short_jump' ++ `md_create_long_jump' ++ If `WORKING_DOT_WORD' is defined, GAS will not do broken word ++ processing (*note Broken words::.). Otherwise, you should set ++ `md_short_jump_size' to the size of a short jump (a jump that is ++ just long enough to jump around a long jmp) and ++ `md_long_jump_size' to the size of a long jump (a jump that can go ++ anywhere in the function), You should define ++ `md_create_short_jump' to create a short jump around a long jump, ++ and define `md_create_long_jump' to create a long jump. */ ++#define WORKING_DOT_WORD ++ ++/* If you define this macro, it means that `tc_gen_reloc' may return ++ multiple relocation entries for a single fixup. In this case, the ++ return value of `tc_gen_reloc' is a pointer to a null terminated ++ array. */ ++#undef RELOC_EXPANSION_POSSIBLE ++ ++/* If you define this macro, GAS will not require pseudo-ops to start with a . ++ character. */ ++#define NO_PSEUDO_DOT (avr32_iarcompat) ++ ++/* The IAR assembler uses $ as the location counter. Unfortunately, we ++ can't make this dependent on avr32_iarcompat... */ ++#define DOLLAR_DOT ++ ++/* Values passed to md_apply_fix3 don't include the symbol value. */ ++#define MD_APPLY_SYM_VALUE(FIX) 0 ++ ++/* The number of bytes to put into a word in a listing. This affects ++ the way the bytes are clumped together in the listing. For ++ example, a value of 2 might print `1234 5678' where a value of 1 ++ would print `12 34 56 78'. The default value is 4. */ ++#define LISTING_WORD_SIZE 4 ++ ++/* extern const struct relax_type md_relax_table[]; ++#define TC_GENERIC_RELAX_TABLE md_relax_table */ ++ ++/* ++ An `.lcomm' directive with no explicit alignment parameter will use ++ this macro to set P2VAR to the alignment that a request for SIZE ++ bytes will have. The alignment is expressed as a power of two. If ++ no alignment should take place, the macro definition should do ++ nothing. Some targets define a `.bss' directive that is also ++ affected by this macro. The default definition will set P2VAR to ++ the truncated power of two of sizes up to eight bytes. ++ ++ We want doublewords to be word-aligned, so we're going to modify the ++ default definition a tiny bit. ++*/ ++#define TC_IMPLICIT_LCOMM_ALIGNMENT(SIZE, P2VAR) \ ++ do \ ++ { \ ++ if ((SIZE) >= 4) \ ++ (P2VAR) = 2; \ ++ else if ((SIZE) >= 2) \ ++ (P2VAR) = 1; \ ++ else \ ++ (P2VAR) = 0; \ ++ } \ ++ while (0) ++ ++/* When relaxing, we need to generate relocations for alignment ++ directives. */ ++#define HANDLE_ALIGN(frag) avr32_handle_align(frag) ++extern void avr32_handle_align(fragS *); ++ ++/* See internals doc for explanation. Oh wait... ++ Now, can you guess where "alignment" comes from? ;-) */ ++#define MAX_MEM_FOR_RS_ALIGN_CODE ((1 << alignment) - 1) ++ ++/* We need to stop gas from reducing certain expressions (e.g. GOT ++ references) */ ++#define tc_fix_adjustable(fix) avr32_fix_adjustable(fix) ++extern bfd_boolean avr32_fix_adjustable(struct fix *); ++ ++/* The linker needs to be passed a little more information when relaxing. */ ++#define TC_FORCE_RELOCATION(fix) avr32_force_reloc(fix) ++extern bfd_boolean avr32_force_reloc(struct fix *); ++ ++/* I'm tired of working around all the madness in fixup_segment(). ++ This hook will do basically the same things as the generic code, ++ and then it will "goto" right past it. */ ++#define TC_VALIDATE_FIX(FIX, SEG, SKIP) \ ++ do \ ++ { \ ++ avr32_process_fixup(FIX, SEG); \ ++ if (!(FIX)->fx_done) \ ++ ++seg_reloc_count; \ ++ goto SKIP; \ ++ } \ ++ while (0) ++extern void avr32_process_fixup(struct fix *fixP, segT this_segment); ++ ++/* Positive values of TC_FX_SIZE_SLACK allow a target to define ++ fixups that far past the end of a frag. Having such fixups ++ is of course most most likely a bug in setting fx_size correctly. ++ A negative value disables the fixup check entirely, which is ++ appropriate for something like the Renesas / SuperH SH_COUNT ++ reloc. */ ++/* This target is buggy, and sets fix size too large. */ ++#define TC_FX_SIZE_SLACK(FIX) -1 ++ ++/* We don't want the gas core to make any assumptions about our way of ++ doing linkrelaxing. */ ++#define TC_LINKRELAX_FIXUP(SEG) 0 ++ ++/* ... but we do want it to insert lots of padding. */ ++#define LINKER_RELAXING_SHRINKS_ONLY ++ ++/* Better do it ourselves, really... */ ++#define TC_RELAX_ALIGN(SEG, FRAG, ADDR) avr32_relax_align(SEG, FRAG, ADDR) ++extern relax_addressT ++avr32_relax_align(segT segment, fragS *fragP, relax_addressT address); ++ ++/* Use line number format that is amenable to linker relaxation. */ ++#define DWARF2_USE_FIXED_ADVANCE_PC (linkrelax != 0) ++ ++/* This is called by write_object_file() just before symbols are ++ attempted converted into section symbols. */ ++#define tc_frob_file_before_adjust() avr32_frob_file() ++extern void avr32_frob_file(void); ++ ++/* If you define this macro, GAS will call it at the end of each input ++ file. */ ++#define md_cleanup() avr32_cleanup() ++extern void avr32_cleanup(void); ++ ++/* There's an AVR32-specific hack in operand() which creates O_md ++ expressions when encountering HWRD or LWRD. We need to generate ++ proper relocs for them */ ++/* #define md_cgen_record_fixup_exp avr32_cgen_record_fixup_exp */ ++ ++/* I needed to add an extra hook in gas_cgen_finish_insn() for ++ conversion of O_md* operands because md_cgen_record_fixup_exp() ++ isn't called for relaxable insns */ ++/* #define md_cgen_convert_expr(exp, opinfo) avr32_cgen_convert_expr(exp, opinfo) ++ int avr32_cgen_convert_expr(expressionS *, int); */ ++ ++/* #define tc_gen_reloc gas_cgen_tc_gen_reloc */ ++ ++/* If you define this macro, it should return the position from which ++ the PC relative adjustment for a PC relative fixup should be ++ made. On many processors, the base of a PC relative instruction is ++ the next instruction, so this macro would return the length of an ++ instruction, plus the address of the PC relative fixup. The latter ++ can be calculated as fixp->fx_where + fixp->fx_frag->fr_address. */ ++extern long md_pcrel_from_section (struct fix *, segT); ++#define MD_PCREL_FROM_SECTION(FIX, SEC) md_pcrel_from_section (FIX, SEC) ++ ++#define LOCAL_LABEL(name) (name[0] == '.' && (name[1] == 'L')) ++#define LOCAL_LABELS_FB 1 ++ ++struct avr32_relaxer ++{ ++ int (*estimate_size)(fragS *, segT); ++ long (*relax_frag)(segT, fragS *, long); ++ void (*convert_frag)(bfd *, segT, fragS *); ++}; ++ ++/* AVR32 has quite complex instruction coding, which means we need ++ * lots of information in order to do the right thing during relaxing ++ * (basically, we need to be able to reconstruct a whole new opcode if ++ * necessary) */ ++#define TC_FRAG_TYPE struct avr32_frag_data ++ ++struct cpool; ++ ++struct avr32_frag_data ++{ ++ /* TODO: Maybe add an expression object here so that we can use ++ fix_new_exp() in md_convert_frag? We may have to decide ++ pcrel-ness in md_estimate_size_before_relax() as well...or we ++ might do it when parsing. Doing it while parsing may fail ++ because the sub_symbol is undefined then... */ ++ int pcrel; ++ int force_extended; ++ int reloc_info; ++ struct avr32_relaxer *relaxer; ++ expressionS exp; ++ ++ /* Points to associated constant pool, for use by LDA and CALL in ++ non-pic mode, and when relaxing the .cpool directive */ ++ struct cpool *pool; ++ unsigned int pool_entry; ++}; ++ ++/* We will have to initialize the fields explicitly when needed */ ++#define TC_FRAG_INIT(fragP) ++ ++#define md_estimate_size_before_relax(fragP, segT) \ ++ ((fragP)->tc_frag_data.relaxer->estimate_size(fragP, segT)) ++#define md_relax_frag(segment, fragP, stretch) \ ++ ((fragP)->tc_frag_data.relaxer->relax_frag(segment, fragP, stretch)) ++#define md_convert_frag(abfd, segment, fragP) \ ++ ((fragP)->tc_frag_data.relaxer->convert_frag(abfd, segment, fragP)) ++ ++#define TC_FIX_TYPE struct avr32_fix_data ++ ++struct avr32_fix_data ++{ ++ const struct avr32_ifield *ifield; ++ unsigned int align; ++ long min; ++ long max; ++}; ++ ++#define TC_INIT_FIX_DATA(fixP) \ ++ do \ ++ { \ ++ (fixP)->tc_fix_data.ifield = NULL; \ ++ (fixP)->tc_fix_data.align = 0; \ ++ (fixP)->tc_fix_data.min = 0; \ ++ (fixP)->tc_fix_data.max = 0; \ ++ } \ ++ while (0) +--- a/gas/configure.tgt ++++ b/gas/configure.tgt +@@ -33,6 +33,7 @@ case ${cpu} in + am33_2.0) cpu_type=mn10300 endian=little ;; + arm*be|arm*b) cpu_type=arm endian=big ;; + arm*) cpu_type=arm endian=little ;; ++ avr32*) cpu_type=avr32 endian=big ;; + bfin*) cpu_type=bfin endian=little ;; + c4x*) cpu_type=tic4x ;; + cr16*) cpu_type=cr16 endian=little ;; +@@ -134,6 +135,9 @@ case ${generic_target} in + + cr16-*-elf*) fmt=elf ;; + ++ avr32-*-linux*) fmt=elf em=linux bfd_gas=yes ;; ++ avr32*) fmt=elf bfd_gas=yes ;; ++ + cris-*-linux-* | crisv32-*-linux-*) + fmt=multi em=linux ;; + cris-*-* | crisv32-*-*) fmt=multi ;; +--- a/gas/doc/all.texi ++++ b/gas/doc/all.texi +@@ -30,6 +30,7 @@ + @set ARC + @set ARM + @set AVR ++@set AVR32 + @set BFIN + @set CR16 + @set CRIS +--- a/gas/doc/asconfig.texi ++++ b/gas/doc/asconfig.texi +@@ -30,6 +30,7 @@ + @set ARC + @set ARM + @set AVR ++@set AVR32 + @set BFIN + @set CR16 + @set CRIS +--- a/gas/doc/as.texinfo ++++ b/gas/doc/as.texinfo +@@ -6603,6 +6603,9 @@ subject, see the hardware manufacturer's + @ifset AVR + * AVR-Dependent:: AVR Dependent Features + @end ifset ++@ifset AVR32 ++* AVR32-Dependent:: AVR32 Dependent Features ++@end ifset + @ifset BFIN + * BFIN-Dependent:: BFIN Dependent Features + @end ifset +@@ -6726,6 +6729,10 @@ subject, see the hardware manufacturer's + @include c-avr.texi + @end ifset + ++@ifset AVR32 ++@include c-avr32.texi ++@end ifset ++ + @ifset BFIN + @include c-bfin.texi + @end ifset +--- /dev/null ++++ b/gas/doc/c-avr32.texi +@@ -0,0 +1,244 @@ ++@c Copyright 2005, 2006, 2007, 2008, 2009 ++@c Atmel Corporation ++@c This is part of the GAS manual. ++@c For copying conditions, see the file as.texinfo. ++ ++@ifset GENERIC ++@page ++@node AVR32-Dependent ++@chapter AVR32 Dependent Features ++@end ifset ++ ++@ifclear GENERIC ++@node Machine Dependencies ++@chapter AVR32 Dependent Features ++@end ifclear ++ ++@cindex AVR32 support ++@menu ++* AVR32 Options:: Options ++* AVR32 Syntax:: Syntax ++* AVR32 Directives:: Directives ++* AVR32 Opcodes:: Opcodes ++@end menu ++ ++@node AVR32 Options ++@section Options ++@cindex AVR32 options ++@cindex options for AVR32 ++ ++@table @code ++ ++@cindex @code{--pic} command line option, AVR32 ++@cindex PIC code generation for AVR32 ++@item --pic ++This option specifies that the output of the assembler should be marked ++as position-independent code (PIC). It will also ensure that ++pseudo-instructions that deal with address calculation are output as ++PIC, and that all absolute address references in the code are marked as ++such. ++ ++@cindex @code{--linkrelax} command line option, AVR32 ++@item --linkrelax ++This option specifies that the output of the assembler should be marked ++as linker-relaxable. It will also ensure that all PC-relative operands ++that may change during linker relaxation get appropriate relocations. ++ ++@end table ++ ++ ++@node AVR32 Syntax ++@section Syntax ++@menu ++* AVR32-Chars:: Special Characters ++* AVR32-Symrefs:: Symbol references ++@end menu ++ ++@node AVR32-Chars ++@subsection Special Characters ++ ++@cindex line comment character, AVR32 ++@cindex AVR32 line comment character ++The presence of a @samp{//} on a line indicates the start of a comment ++that extends to the end of the current line. If a @samp{#} appears as ++the first character of a line, the whole line is treated as a comment. ++ ++@cindex line separator, AVR32 ++@cindex statement separator, AVR32 ++@cindex AVR32 line separator ++The @samp{;} character can be used instead of a newline to separate ++statements. ++ ++@node AVR32-Symrefs ++@subsection Symbol references ++ ++The absolute value of a symbol can be obtained by simply naming the ++symbol. However, as AVR32 symbols have 32-bit values, most symbols have ++values that are outside the range of any instructions. ++ ++Instructions that take a PC-relative offset, e.g. @code{lddpc} or ++@code{rcall}, can also reference a symbol by simply naming the symbol ++(no explicit calculations necessary). In this case, the assembler or ++linker subtracts the address of the instruction from the symbol's value ++and inserts the result into the instruction. Note that even though an ++overflow is less likely to happen for a relative reference than for an ++absolute reference, the assembler or linker will generate an error if ++the referenced symbol is too far away from the current location. ++ ++Relative references can be used for data as well. For example: ++ ++@smallexample ++ lddpc r0, 2f ++1: add r0, pc ++ ... ++ .align 2 ++2: .int @var{some_symbol} - 1b ++@end smallexample ++ ++Here, r0 will end up with the run-time address of @var{some_symbol} even ++if the program was loaded at a different address than it was linked ++(position-independent code). ++ ++@subsubsection Symbol modifiers ++ ++@table @code ++ ++@item @code{hi(@var{symbol})} ++Evaluates to the value of the symbol shifted right 16 bits. This will ++work even if @var{symbol} is defined in a different module. ++ ++@item @code{lo(@var{symbol})} ++Evaluates to the low 16 bits of the symbol's value. This will work even ++if @var{symbol} is defined in a different module. ++ ++@item @code{@var{symbol}@@got} ++Create a GOT entry for @var{symbol} and return the offset of that entry ++relative to the GOT base. ++ ++@end table ++ ++ ++@node AVR32 Directives ++@section Directives ++@cindex machine directives, AVR32 ++@cindex AVR32 directives ++ ++@table @code ++ ++@cindex @code{.cpool} directive, AVR32 ++@item .cpool ++This directive causes the current contents of the constant pool to be ++dumped into the current section at the current location (aligned to a ++word boundary). @code{GAS} maintains a separate constant pool for each ++section and each sub-section. The @code{.cpool} directive will only ++affect the constant pool of the current section and sub-section. At the ++end of assembly, all remaining, non-empty constant pools will ++automatically be dumped. ++ ++@end table ++ ++ ++@node AVR32 Opcodes ++@section Opcodes ++@cindex AVR32 opcodes ++@cindex opcodes for AVR32 ++ ++@code{@value{AS}} implements all the standard AVR32 opcodes. It also ++implements several pseudo-opcodes, which are recommended to use wherever ++possible because they give the tool chain better freedom to generate ++optimal code. ++ ++@table @code ++ ++@cindex @code{LDA.W reg, symbol} pseudo op, AVR32 ++@item LDA.W ++@smallexample ++ lda.w @var{reg}, @var{symbol} ++@end smallexample ++ ++This instruction will load the address of @var{symbol} into ++@var{reg}. The instruction will evaluate to one of the following, ++depending on the relative distance to the symbol, the relative distance ++to the constant pool and whether the @code{--pic} option has been ++specified. If the @code{--pic} option has not been specified, the ++alternatives are as follows: ++@smallexample ++ /* @var{symbol} evaluates to a small enough value */ ++ mov @var{reg}, @var{symbol} ++ ++ /* (. - @var{symbol}) evaluates to a small enough value */ ++ sub @var{reg}, pc, . - @var{symbol} ++ ++ /* Constant pool is close enough */ ++ lddpc @var{reg}, @var{cpent} ++ ... ++@var{cpent}: ++ .long @var{symbol} ++ ++ /* Otherwise (not implemented yet, probably not necessary) */ ++ mov @var{reg}, lo(@var{symbol}) ++ orh @var{reg}, hi(@var{symbol}) ++@end smallexample ++ ++If the @code{--pic} option has been specified, the alternatives are as ++follows: ++@smallexample ++ /* (. - @var{symbol}) evaluates to a small enough value */ ++ sub @var{reg}, pc, . - @var{symbol} ++ ++ /* If @code{--linkrelax} not specified */ ++ ld.w @var{reg}, r6[@var{symbol}@@got] ++ ++ /* Otherwise */ ++ mov @var{reg}, @var{symbol}@@got / 4 ++ ld.w @var{reg}, r6[@var{reg} << 2] ++@end smallexample ++ ++If @var{symbol} is not defined in the same file and section as the ++@code{LDA.W} instruction, the most pessimistic alternative of the ++above is selected. The linker may convert it back into the most ++optimal alternative when the final value of all symbols is known. ++ ++@cindex @code{CALL symbol} pseudo op, AVR32 ++@item CALL ++@smallexample ++ call @var{symbol} ++@end smallexample ++ ++This instruction will insert code to call the subroutine identified by ++@var{symbol}. It will evaluate to one of the following, depending on ++the relative distance to the symbol as well as the @code{--linkrelax} ++and @code{--pic} command-line options. ++ ++If @var{symbol} is defined in the same section and input file, and the ++distance is small enough, an @code{rcall} instruction is inserted: ++@smallexample ++ rcall @var{symbol} ++@end smallexample ++ ++Otherwise, if the @code{--pic} option has not been specified: ++@smallexample ++ mcall @var{cpent} ++ ... ++@var{cpent}: ++ .long @var{symbol} ++@end smallexample ++ ++Finally, if nothing else fits and the @code{--pic} option has been ++specified, the assembler will indirect the call through the Global ++Offset Table: ++@smallexample ++ /* If @code{--linkrelax} not specified */ ++ mcall r6[@var{symbol}@@got] ++ ++ /* If @code{--linkrelax} specified */ ++ mov lr, @var{symbol}@@got / 4 ++ ld.w lr, r6[lr << 2] ++ icall lr ++@end smallexample ++ ++The linker, after determining the final value of @var{symbol}, may ++convert any of these into more optimal alternatives. This includes ++deleting any superfluous constant pool- and GOT-entries. ++ ++@end table +--- a/gas/doc/Makefile.am ++++ b/gas/doc/Makefile.am +@@ -33,6 +33,7 @@ CPU_DOCS = \ + c-arc.texi \ + c-arm.texi \ + c-avr.texi \ ++ c-avr32.texi \ + c-bfin.texi \ + c-cr16.texi \ + c-d10v.texi \ +--- a/gas/doc/Makefile.in ++++ b/gas/doc/Makefile.in +@@ -240,6 +240,7 @@ CPU_DOCS = \ + c-arc.texi \ + c-arm.texi \ + c-avr.texi \ ++ c-avr32.texi \ + c-bfin.texi \ + c-cr16.texi \ + c-d10v.texi \ +--- a/gas/Makefile.am ++++ b/gas/Makefile.am +@@ -47,6 +47,7 @@ CPU_TYPES = \ + arc \ + arm \ + avr \ ++ avr32 \ + bfin \ + cr16 \ + cris \ +@@ -242,6 +243,7 @@ TARGET_CPU_CFILES = \ + config/tc-arc.c \ + config/tc-arm.c \ + config/tc-avr.c \ ++ config/tc-avr32.c \ + config/tc-bfin.c \ + config/tc-cr16.c \ + config/tc-cris.c \ +@@ -303,6 +305,7 @@ TARGET_CPU_HFILES = \ + config/tc-arc.h \ + config/tc-arm.h \ + config/tc-avr.h \ ++ config/tc-avr32.h \ + config/tc-bfin.h \ + config/tc-cr16.h \ + config/tc-cris.h \ +@@ -1075,6 +1078,11 @@ DEPTC_avr_elf = $(srcdir)/config/obj-elf + $(INCDIR)/bfdlink.h $(srcdir)/config/tc-avr.h dwarf2dbg.h \ + $(INCDIR)/safe-ctype.h subsegs.h $(INCDIR)/obstack.h \ + $(INCDIR)/opcode/avr.h ++DEPTC_avr32_elf = $(INCDIR)/symcat.h $(srcdir)/config/obj-elf.h \ ++ $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ ++ $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-avr32.h \ ++ $(INCDIR)/safe-ctype.h subsegs.h $(INCDIR)/obstack.h \ ++ $(srcdir)/../opcodes/avr32-opc.h $(srcdir)/../opcodes/avr32-asm.h + DEPTC_bfin_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ + $(INCDIR)/elf/common.h $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/bfdlink.h $(srcdir)/config/tc-bfin.h dwarf2dbg.h \ +@@ -1511,6 +1519,11 @@ DEPOBJ_avr_elf = $(srcdir)/config/obj-el + $(INCDIR)/bfdlink.h $(srcdir)/config/tc-avr.h dwarf2dbg.h \ + $(INCDIR)/safe-ctype.h subsegs.h $(INCDIR)/obstack.h \ + struc-symbol.h $(INCDIR)/aout/aout64.h ++DEPOBJ_avr32_elf = $(INCDIR)/symcat.h $(srcdir)/config/obj-elf.h \ ++ $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ ++ $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-avr32.h \ ++ $(INCDIR)/safe-ctype.h subsegs.h $(INCDIR)/obstack.h \ ++ struc-symbol.h dwarf2dbg.h + DEPOBJ_bfin_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ + $(INCDIR)/elf/common.h $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/bfdlink.h $(srcdir)/config/tc-bfin.h dwarf2dbg.h \ +@@ -1884,6 +1897,9 @@ DEP_cr16_elf = $(srcdir)/config/obj-elf. + $(INCDIR)/bfdlink.h $(srcdir)/config/tc-cr16.h dwarf2dbg.h \ + $(srcdir)/config/obj-coff.h $(INCDIR)/coff/internal.h \ + $(BFDDIR)/libcoff.h ++DEP_avr32_elf = $(srcdir)/config/obj-elf.h $(INCDIR)/symcat.h \ ++ $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ ++ $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-avr32.h + DEP_cris_aout = $(srcdir)/config/obj-aout.h $(srcdir)/config/tc-cris.h \ + $(BFDDIR)/libaout.h $(INCDIR)/bfdlink.h + DEP_cris_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ +--- a/gas/Makefile.in ++++ b/gas/Makefile.in +@@ -296,6 +296,7 @@ CPU_TYPES = \ + arc \ + arm \ + avr \ ++ avr32 \ + bfin \ + cr16 \ + cris \ +@@ -489,6 +490,7 @@ TARGET_CPU_CFILES = \ + config/tc-arc.c \ + config/tc-arm.c \ + config/tc-avr.c \ ++ config/tc-avr32.c \ + config/tc-bfin.c \ + config/tc-cr16.c \ + config/tc-cris.c \ +@@ -550,6 +552,7 @@ TARGET_CPU_HFILES = \ + config/tc-arc.h \ + config/tc-arm.h \ + config/tc-avr.h \ ++ config/tc-avr32.h \ + config/tc-bfin.h \ + config/tc-cr16.h \ + config/tc-cris.h \ +@@ -844,6 +847,12 @@ DEPTC_avr_elf = $(srcdir)/config/obj-elf + $(INCDIR)/safe-ctype.h subsegs.h $(INCDIR)/obstack.h \ + $(INCDIR)/opcode/avr.h + ++DEPTC_avr32_elf = $(INCDIR)/symcat.h $(srcdir)/config/obj-elf.h \ ++ $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ ++ $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-avr32.h \ ++ $(INCDIR)/safe-ctype.h subsegs.h $(INCDIR)/obstack.h \ ++ $(srcdir)/../opcodes/avr32-opc.h $(srcdir)/../opcodes/avr32-asm.h ++ + DEPTC_bfin_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ + $(INCDIR)/elf/common.h $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/bfdlink.h $(srcdir)/config/tc-bfin.h dwarf2dbg.h \ +@@ -1359,6 +1368,12 @@ DEPOBJ_avr_elf = $(srcdir)/config/obj-el + $(INCDIR)/safe-ctype.h subsegs.h $(INCDIR)/obstack.h \ + struc-symbol.h $(INCDIR)/aout/aout64.h + ++DEPOBJ_avr32_elf = $(INCDIR)/symcat.h $(srcdir)/config/obj-elf.h \ ++ $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ ++ $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-avr32.h \ ++ $(INCDIR)/safe-ctype.h subsegs.h $(INCDIR)/obstack.h \ ++ struc-symbol.h dwarf2dbg.h ++ + DEPOBJ_bfin_elf = $(srcdir)/config/obj-elf.h $(BFDDIR)/elf-bfd.h \ + $(INCDIR)/elf/common.h $(INCDIR)/elf/external.h $(INCDIR)/elf/internal.h \ + $(INCDIR)/bfdlink.h $(srcdir)/config/tc-bfin.h dwarf2dbg.h \ +@@ -1814,6 +1829,10 @@ DEP_cr16_elf = $(srcdir)/config/obj-elf. + $(srcdir)/config/obj-coff.h $(INCDIR)/coff/internal.h \ + $(BFDDIR)/libcoff.h + ++DEP_avr32_elf = $(srcdir)/config/obj-elf.h $(INCDIR)/symcat.h \ ++ $(BFDDIR)/elf-bfd.h $(INCDIR)/elf/common.h $(INCDIR)/elf/internal.h \ ++ $(INCDIR)/elf/external.h $(INCDIR)/bfdlink.h $(srcdir)/config/tc-avr32.h ++ + DEP_cris_aout = $(srcdir)/config/obj-aout.h $(srcdir)/config/tc-cris.h \ + $(BFDDIR)/libaout.h $(INCDIR)/bfdlink.h + +--- /dev/null ++++ b/gas/testsuite/gas/avr32/aliases.d +@@ -0,0 +1,19 @@ ++#as: ++#objdump: -dr ++#name: aliases ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: 19 80 [ \t]+ld\.ub r0,r12\[0x0\] ++ 2: f9 20 00 00[ \t]+ld\.sb r0,r12\[0\] ++ 6: 98 80 [ \t]+ld\.uh r0,r12\[0x0\] ++ 8: 98 00 [ \t]+ld\.sh r0,r12\[0x0\] ++ a: 78 00 [ \t]+ld\.w r0,r12\[0x0\] ++ ++0000000c : ++ c: b8 80 [ \t]+st\.b r12\[0x0\],r0 ++ e: b8 00 [ \t]+st\.h r12\[0x0\],r0 ++ 10: 99 00 [ \t]+st\.w r12\[0x0\],r0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/aliases.s +@@ -0,0 +1,14 @@ ++ .text ++ .global ld_nodisp ++ld_nodisp: ++ ld.ub r0, r12 ++ ld.sb r0, r12 ++ ld.uh r0, r12 ++ ld.sh r0, r12 ++ ld.w r0, r12 ++ ++ .global st_nodisp ++st_nodisp: ++ st.b r12, r0 ++ st.h r12, r0 ++ st.w r12, r0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/allinsn.d +@@ -0,0 +1,2987 @@ ++#as: ++#objdump: -dr ++#name: allinsn ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 3e ld\.d lr,pc\[pc<<0x3\] ++ *[0-9a-f]*: e0 00 02 00 ld\.d r0,r0\[r0\] ++ *[0-9a-f]*: ea 05 02 26 ld\.d r6,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 02 14 ld\.d r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 02 1e ld\.d lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: e6 0d 02 2a ld\.d r10,r3\[sp<<0x2\] ++ *[0-9a-f]*: f4 06 02 28 ld\.d r8,r10\[r6<<0x2\] ++ *[0-9a-f]*: ee 09 02 02 ld\.d r2,r7\[r9\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 03 0f ld\.w pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 03 3c ld\.w r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 03 25 ld\.w r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 03 14 ld\.w r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 03 1e ld\.w lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: f2 09 03 02 ld\.w r2,r9\[r9\] ++ *[0-9a-f]*: e4 06 03 0b ld\.w r11,r2\[r6\] ++ *[0-9a-f]*: e4 0d 03 30 ld\.w r0,r2\[sp<<0x3\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 04 0f ld\.sh pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 04 3c ld\.sh r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 04 25 ld\.sh r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 04 14 ld\.sh r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 04 1e ld\.sh lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: e0 0f 04 2b ld\.sh r11,r0\[pc<<0x2\] ++ *[0-9a-f]*: fa 06 04 2a ld\.sh r10,sp\[r6<<0x2\] ++ *[0-9a-f]*: e4 02 04 0c ld\.sh r12,r2\[r2\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 05 0f ld\.uh pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 05 3c ld\.uh r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 05 25 ld\.uh r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 05 14 ld\.uh r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 05 1e ld\.uh lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: fe 0e 05 38 ld\.uh r8,pc\[lr<<0x3\] ++ *[0-9a-f]*: e2 0f 05 16 ld\.uh r6,r1\[pc<<0x1\] ++ *[0-9a-f]*: fc 0d 05 16 ld\.uh r6,lr\[sp<<0x1\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 06 0f ld\.sb pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 06 3c ld\.sb r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 06 25 ld\.sb r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 06 14 ld\.sb r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 06 1e ld\.sb lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: e2 0f 06 39 ld\.sb r9,r1\[pc<<0x3\] ++ *[0-9a-f]*: e6 0b 06 10 ld\.sb r0,r3\[r11<<0x1\] ++ *[0-9a-f]*: ea 05 06 1a ld\.sb r10,r5\[r5<<0x1\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 07 0f ld\.ub pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 07 3c ld\.ub r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 07 25 ld\.ub r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 07 14 ld\.ub r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 07 1e ld\.ub lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: f8 07 07 36 ld\.ub r6,r12\[r7<<0x3\] ++ *[0-9a-f]*: ec 0c 07 02 ld\.ub r2,r6\[r12\] ++ *[0-9a-f]*: ee 0b 07 10 ld\.ub r0,r7\[r11<<0x1\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 08 0e st\.d pc\[pc\],lr ++ *[0-9a-f]*: f8 0c 08 3c st\.d r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 08 26 st\.d r5\[r5<<0x2\],r6 ++ *[0-9a-f]*: e8 04 08 14 st\.d r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 08 1e st\.d lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e2 09 08 14 st\.d r1\[r9<<0x1\],r4 ++ *[0-9a-f]*: f4 02 08 14 st\.d r10\[r2<<0x1\],r4 ++ *[0-9a-f]*: f8 06 08 0e st\.d r12\[r6\],lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 09 0f st\.w pc\[pc\],pc ++ *[0-9a-f]*: f8 0c 09 3c st\.w r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 09 25 st\.w r5\[r5<<0x2\],r5 ++ *[0-9a-f]*: e8 04 09 14 st\.w r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 09 1e st\.w lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e2 0a 09 03 st\.w r1\[r10\],r3 ++ *[0-9a-f]*: e0 0a 09 19 st\.w r0\[r10<<0x1\],r9 ++ *[0-9a-f]*: e8 05 09 3f st\.w r4\[r5<<0x3\],pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0a 0f st\.h pc\[pc\],pc ++ *[0-9a-f]*: f8 0c 0a 3c st\.h r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 0a 25 st\.h r5\[r5<<0x2\],r5 ++ *[0-9a-f]*: e8 04 0a 14 st\.h r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 0a 1e st\.h lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e4 09 0a 0b st\.h r2\[r9\],r11 ++ *[0-9a-f]*: ea 01 0a 2c st\.h r5\[r1<<0x2\],r12 ++ *[0-9a-f]*: fe 08 0a 23 st\.h pc\[r8<<0x2\],r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0b 0f st\.b pc\[pc\],pc ++ *[0-9a-f]*: f8 0c 0b 3c st\.b r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 0b 25 st\.b r5\[r5<<0x2\],r5 ++ *[0-9a-f]*: e8 04 0b 14 st\.b r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 0b 1e st\.b lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e2 08 0b 16 st\.b r1\[r8<<0x1\],r6 ++ *[0-9a-f]*: fc 0e 0b 31 st\.b lr\[lr<<0x3\],r1 ++ *[0-9a-f]*: ea 00 0b 2f st\.b r5\[r0<<0x2\],pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0c 0f divs pc,pc,pc ++ *[0-9a-f]*: f8 0c 0c 0c divs r12,r12,r12 ++ *[0-9a-f]*: ea 05 0c 05 divs r5,r5,r5 ++ *[0-9a-f]*: e8 04 0c 04 divs r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0c 0e divs lr,lr,lr ++ *[0-9a-f]*: fe 0f 0c 03 divs r3,pc,pc ++ *[0-9a-f]*: f8 02 0c 09 divs r9,r12,r2 ++ *[0-9a-f]*: e8 01 0c 07 divs r7,r4,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 0f add pc,pc ++ *[0-9a-f]*: 18 0c add r12,r12 ++ *[0-9a-f]*: 0a 05 add r5,r5 ++ *[0-9a-f]*: 08 04 add r4,r4 ++ *[0-9a-f]*: 1c 0e add lr,lr ++ *[0-9a-f]*: 12 0c add r12,r9 ++ *[0-9a-f]*: 06 06 add r6,r3 ++ *[0-9a-f]*: 18 0a add r10,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 1f sub pc,pc ++ *[0-9a-f]*: 18 1c sub r12,r12 ++ *[0-9a-f]*: 0a 15 sub r5,r5 ++ *[0-9a-f]*: 08 14 sub r4,r4 ++ *[0-9a-f]*: 1c 1e sub lr,lr ++ *[0-9a-f]*: 0c 1e sub lr,r6 ++ *[0-9a-f]*: 1a 10 sub r0,sp ++ *[0-9a-f]*: 18 16 sub r6,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 2f rsub pc,pc ++ *[0-9a-f]*: 18 2c rsub r12,r12 ++ *[0-9a-f]*: 0a 25 rsub r5,r5 ++ *[0-9a-f]*: 08 24 rsub r4,r4 ++ *[0-9a-f]*: 1c 2e rsub lr,lr ++ *[0-9a-f]*: 1a 2b rsub r11,sp ++ *[0-9a-f]*: 08 27 rsub r7,r4 ++ *[0-9a-f]*: 02 29 rsub r9,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 3f cp\.w pc,pc ++ *[0-9a-f]*: 18 3c cp\.w r12,r12 ++ *[0-9a-f]*: 0a 35 cp\.w r5,r5 ++ *[0-9a-f]*: 08 34 cp\.w r4,r4 ++ *[0-9a-f]*: 1c 3e cp\.w lr,lr ++ *[0-9a-f]*: 04 36 cp\.w r6,r2 ++ *[0-9a-f]*: 12 30 cp\.w r0,r9 ++ *[0-9a-f]*: 1a 33 cp\.w r3,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 4f or pc,pc ++ *[0-9a-f]*: 18 4c or r12,r12 ++ *[0-9a-f]*: 0a 45 or r5,r5 ++ *[0-9a-f]*: 08 44 or r4,r4 ++ *[0-9a-f]*: 1c 4e or lr,lr ++ *[0-9a-f]*: 12 44 or r4,r9 ++ *[0-9a-f]*: 08 4b or r11,r4 ++ *[0-9a-f]*: 00 44 or r4,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 5f eor pc,pc ++ *[0-9a-f]*: 18 5c eor r12,r12 ++ *[0-9a-f]*: 0a 55 eor r5,r5 ++ *[0-9a-f]*: 08 54 eor r4,r4 ++ *[0-9a-f]*: 1c 5e eor lr,lr ++ *[0-9a-f]*: 16 5c eor r12,r11 ++ *[0-9a-f]*: 02 50 eor r0,r1 ++ *[0-9a-f]*: 1e 55 eor r5,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 6f and pc,pc ++ *[0-9a-f]*: 18 6c and r12,r12 ++ *[0-9a-f]*: 0a 65 and r5,r5 ++ *[0-9a-f]*: 08 64 and r4,r4 ++ *[0-9a-f]*: 1c 6e and lr,lr ++ *[0-9a-f]*: 02 68 and r8,r1 ++ *[0-9a-f]*: 1a 60 and r0,sp ++ *[0-9a-f]*: 0a 6a and r10,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 7f tst pc,pc ++ *[0-9a-f]*: 18 7c tst r12,r12 ++ *[0-9a-f]*: 0a 75 tst r5,r5 ++ *[0-9a-f]*: 08 74 tst r4,r4 ++ *[0-9a-f]*: 1c 7e tst lr,lr ++ *[0-9a-f]*: 18 70 tst r0,r12 ++ *[0-9a-f]*: 0c 7a tst r10,r6 ++ *[0-9a-f]*: 08 7d tst sp,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 8f andn pc,pc ++ *[0-9a-f]*: 18 8c andn r12,r12 ++ *[0-9a-f]*: 0a 85 andn r5,r5 ++ *[0-9a-f]*: 08 84 andn r4,r4 ++ *[0-9a-f]*: 1c 8e andn lr,lr ++ *[0-9a-f]*: 18 89 andn r9,r12 ++ *[0-9a-f]*: 1a 8b andn r11,sp ++ *[0-9a-f]*: 0a 8c andn r12,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 9f mov pc,pc ++ *[0-9a-f]*: 18 9c mov r12,r12 ++ *[0-9a-f]*: 0a 95 mov r5,r5 ++ *[0-9a-f]*: 08 94 mov r4,r4 ++ *[0-9a-f]*: 1c 9e mov lr,lr ++ *[0-9a-f]*: 12 95 mov r5,r9 ++ *[0-9a-f]*: 16 9b mov r11,r11 ++ *[0-9a-f]*: 1c 92 mov r2,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e af st\.w pc\+\+,pc ++ *[0-9a-f]*: 18 ac st\.w r12\+\+,r12 ++ *[0-9a-f]*: 0a a5 st\.w r5\+\+,r5 ++ *[0-9a-f]*: 08 a4 st\.w r4\+\+,r4 ++ *[0-9a-f]*: 1c ae st\.w lr\+\+,lr ++ *[0-9a-f]*: 02 ab st\.w r1\+\+,r11 ++ *[0-9a-f]*: 1a a0 st\.w sp\+\+,r0 ++ *[0-9a-f]*: 1a a1 st\.w sp\+\+,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e bf st\.h pc\+\+,pc ++ *[0-9a-f]*: 18 bc st\.h r12\+\+,r12 ++ *[0-9a-f]*: 0a b5 st\.h r5\+\+,r5 ++ *[0-9a-f]*: 08 b4 st\.h r4\+\+,r4 ++ *[0-9a-f]*: 1c be st\.h lr\+\+,lr ++ *[0-9a-f]*: 18 bd st\.h r12\+\+,sp ++ *[0-9a-f]*: 0e be st\.h r7\+\+,lr ++ *[0-9a-f]*: 0e b4 st\.h r7\+\+,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e cf st\.b pc\+\+,pc ++ *[0-9a-f]*: 18 cc st\.b r12\+\+,r12 ++ *[0-9a-f]*: 0a c5 st\.b r5\+\+,r5 ++ *[0-9a-f]*: 08 c4 st\.b r4\+\+,r4 ++ *[0-9a-f]*: 1c ce st\.b lr\+\+,lr ++ *[0-9a-f]*: 12 cd st\.b r9\+\+,sp ++ *[0-9a-f]*: 02 cd st\.b r1\+\+,sp ++ *[0-9a-f]*: 00 c4 st\.b r0\+\+,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e df st\.w --pc,pc ++ *[0-9a-f]*: 18 dc st\.w --r12,r12 ++ *[0-9a-f]*: 0a d5 st\.w --r5,r5 ++ *[0-9a-f]*: 08 d4 st\.w --r4,r4 ++ *[0-9a-f]*: 1c de st\.w --lr,lr ++ *[0-9a-f]*: 02 d7 st\.w --r1,r7 ++ *[0-9a-f]*: 06 d9 st\.w --r3,r9 ++ *[0-9a-f]*: 0a d5 st\.w --r5,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e ef st\.h --pc,pc ++ *[0-9a-f]*: 18 ec st\.h --r12,r12 ++ *[0-9a-f]*: 0a e5 st\.h --r5,r5 ++ *[0-9a-f]*: 08 e4 st\.h --r4,r4 ++ *[0-9a-f]*: 1c ee st\.h --lr,lr ++ *[0-9a-f]*: 0a e7 st\.h --r5,r7 ++ *[0-9a-f]*: 10 e8 st\.h --r8,r8 ++ *[0-9a-f]*: 0e e2 st\.h --r7,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e ff st\.b --pc,pc ++ *[0-9a-f]*: 18 fc st\.b --r12,r12 ++ *[0-9a-f]*: 0a f5 st\.b --r5,r5 ++ *[0-9a-f]*: 08 f4 st\.b --r4,r4 ++ *[0-9a-f]*: 1c fe st\.b --lr,lr ++ *[0-9a-f]*: 1a fd st\.b --sp,sp ++ *[0-9a-f]*: 1a fb st\.b --sp,r11 ++ *[0-9a-f]*: 08 f5 st\.b --r4,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 0f ld\.w pc,pc\+\+ ++ *[0-9a-f]*: 19 0c ld\.w r12,r12\+\+ ++ *[0-9a-f]*: 0b 05 ld\.w r5,r5\+\+ ++ *[0-9a-f]*: 09 04 ld\.w r4,r4\+\+ ++ *[0-9a-f]*: 1d 0e ld\.w lr,lr\+\+ ++ *[0-9a-f]*: 0f 03 ld\.w r3,r7\+\+ ++ *[0-9a-f]*: 1d 03 ld\.w r3,lr\+\+ ++ *[0-9a-f]*: 0b 0c ld\.w r12,r5\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 1f ld\.sh pc,pc\+\+ ++ *[0-9a-f]*: 19 1c ld\.sh r12,r12\+\+ ++ *[0-9a-f]*: 0b 15 ld\.sh r5,r5\+\+ ++ *[0-9a-f]*: 09 14 ld\.sh r4,r4\+\+ ++ *[0-9a-f]*: 1d 1e ld\.sh lr,lr\+\+ ++ *[0-9a-f]*: 05 1b ld\.sh r11,r2\+\+ ++ *[0-9a-f]*: 11 12 ld\.sh r2,r8\+\+ ++ *[0-9a-f]*: 0d 17 ld\.sh r7,r6\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 2f ld\.uh pc,pc\+\+ ++ *[0-9a-f]*: 19 2c ld\.uh r12,r12\+\+ ++ *[0-9a-f]*: 0b 25 ld\.uh r5,r5\+\+ ++ *[0-9a-f]*: 09 24 ld\.uh r4,r4\+\+ ++ *[0-9a-f]*: 1d 2e ld\.uh lr,lr\+\+ ++ *[0-9a-f]*: 0f 26 ld\.uh r6,r7\+\+ ++ *[0-9a-f]*: 17 2a ld\.uh r10,r11\+\+ ++ *[0-9a-f]*: 09 2e ld\.uh lr,r4\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 3f ld\.ub pc,pc\+\+ ++ *[0-9a-f]*: 19 3c ld\.ub r12,r12\+\+ ++ *[0-9a-f]*: 0b 35 ld\.ub r5,r5\+\+ ++ *[0-9a-f]*: 09 34 ld\.ub r4,r4\+\+ ++ *[0-9a-f]*: 1d 3e ld\.ub lr,lr\+\+ ++ *[0-9a-f]*: 1d 38 ld\.ub r8,lr\+\+ ++ *[0-9a-f]*: 19 3c ld\.ub r12,r12\+\+ ++ *[0-9a-f]*: 15 3b ld\.ub r11,r10\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 4f ld\.w pc,--pc ++ *[0-9a-f]*: 19 4c ld\.w r12,--r12 ++ *[0-9a-f]*: 0b 45 ld\.w r5,--r5 ++ *[0-9a-f]*: 09 44 ld\.w r4,--r4 ++ *[0-9a-f]*: 1d 4e ld\.w lr,--lr ++ *[0-9a-f]*: 1d 4a ld\.w r10,--lr ++ *[0-9a-f]*: 13 4c ld\.w r12,--r9 ++ *[0-9a-f]*: 0b 46 ld\.w r6,--r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 5f ld\.sh pc,--pc ++ *[0-9a-f]*: 19 5c ld\.sh r12,--r12 ++ *[0-9a-f]*: 0b 55 ld\.sh r5,--r5 ++ *[0-9a-f]*: 09 54 ld\.sh r4,--r4 ++ *[0-9a-f]*: 1d 5e ld\.sh lr,--lr ++ *[0-9a-f]*: 15 5f ld\.sh pc,--r10 ++ *[0-9a-f]*: 07 56 ld\.sh r6,--r3 ++ *[0-9a-f]*: 0d 54 ld\.sh r4,--r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 6f ld\.uh pc,--pc ++ *[0-9a-f]*: 19 6c ld\.uh r12,--r12 ++ *[0-9a-f]*: 0b 65 ld\.uh r5,--r5 ++ *[0-9a-f]*: 09 64 ld\.uh r4,--r4 ++ *[0-9a-f]*: 1d 6e ld\.uh lr,--lr ++ *[0-9a-f]*: 05 63 ld\.uh r3,--r2 ++ *[0-9a-f]*: 01 61 ld\.uh r1,--r0 ++ *[0-9a-f]*: 13 62 ld\.uh r2,--r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 7f ld\.ub pc,--pc ++ *[0-9a-f]*: 19 7c ld\.ub r12,--r12 ++ *[0-9a-f]*: 0b 75 ld\.ub r5,--r5 ++ *[0-9a-f]*: 09 74 ld\.ub r4,--r4 ++ *[0-9a-f]*: 1d 7e ld\.ub lr,--lr ++ *[0-9a-f]*: 03 71 ld\.ub r1,--r1 ++ *[0-9a-f]*: 0d 70 ld\.ub r0,--r6 ++ *[0-9a-f]*: 0f 72 ld\.ub r2,--r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 8f ld\.ub pc,pc\[0x0\] ++ *[0-9a-f]*: 19 fc ld\.ub r12,r12\[0x7\] ++ *[0-9a-f]*: 0b c5 ld\.ub r5,r5\[0x4\] ++ *[0-9a-f]*: 09 b4 ld\.ub r4,r4\[0x3\] ++ *[0-9a-f]*: 1d 9e ld\.ub lr,lr\[0x1\] ++ *[0-9a-f]*: 13 e6 ld\.ub r6,r9\[0x6\] ++ *[0-9a-f]*: 1d c2 ld\.ub r2,lr\[0x4\] ++ *[0-9a-f]*: 11 81 ld\.ub r1,r8\[0x0\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 20 0d sub sp,0 ++ *[0-9a-f]*: 2f fd sub sp,-4 ++ *[0-9a-f]*: 28 0d sub sp,-512 ++ *[0-9a-f]*: 27 fd sub sp,508 ++ *[0-9a-f]*: 20 1d sub sp,4 ++ *[0-9a-f]*: 20 bd sub sp,44 ++ *[0-9a-f]*: 20 2d sub sp,8 ++ *[0-9a-f]*: 25 7d sub sp,348 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 20 0f sub pc,0 ++ *[0-9a-f]*: 2f fc sub r12,-1 ++ *[0-9a-f]*: 28 05 sub r5,-128 ++ *[0-9a-f]*: 27 f4 sub r4,127 ++ *[0-9a-f]*: 20 1e sub lr,1 ++ *[0-9a-f]*: 2d 76 sub r6,-41 ++ *[0-9a-f]*: 22 54 sub r4,37 ++ *[0-9a-f]*: 23 8c sub r12,56 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 30 0f mov pc,0 ++ *[0-9a-f]*: 3f fc mov r12,-1 ++ *[0-9a-f]*: 38 05 mov r5,-128 ++ *[0-9a-f]*: 37 f4 mov r4,127 ++ *[0-9a-f]*: 30 1e mov lr,1 ++ *[0-9a-f]*: 30 ef mov pc,14 ++ *[0-9a-f]*: 39 c6 mov r6,-100 ++ *[0-9a-f]*: 38 6e mov lr,-122 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 40 0f lddsp pc,sp\[0x0\] ++ *[0-9a-f]*: 47 fc lddsp r12,sp\[0x1fc\] ++ *[0-9a-f]*: 44 05 lddsp r5,sp\[0x100\] ++ *[0-9a-f]*: 43 f4 lddsp r4,sp\[0xfc\] ++ *[0-9a-f]*: 40 1e lddsp lr,sp\[0x4\] ++ *[0-9a-f]*: 44 0e lddsp lr,sp\[0x100\] ++ *[0-9a-f]*: 40 5c lddsp r12,sp\[0x14\] ++ *[0-9a-f]*: 47 69 lddsp r9,sp\[0x1d8\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 48 0f lddpc pc,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4f f0 lddpc r0,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4c 08 lddpc r8,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4b f7 lddpc r7,[0-9a-f]* <.*> ++ *[0-9a-f]*: 48 1e lddpc lr,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4f 6d lddpc sp,[0-9a-f]* <.*> ++ *[0-9a-f]*: 49 e6 lddpc r6,[0-9a-f]* <.*> ++ *[0-9a-f]*: 48 7b lddpc r11,[0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 50 0f stdsp sp\[0x0\],pc ++ *[0-9a-f]*: 57 fc stdsp sp\[0x1fc\],r12 ++ *[0-9a-f]*: 54 05 stdsp sp\[0x100\],r5 ++ *[0-9a-f]*: 53 f4 stdsp sp\[0xfc\],r4 ++ *[0-9a-f]*: 50 1e stdsp sp\[0x4\],lr ++ *[0-9a-f]*: 54 cf stdsp sp\[0x130\],pc ++ *[0-9a-f]*: 54 00 stdsp sp\[0x100\],r0 ++ *[0-9a-f]*: 55 45 stdsp sp\[0x150\],r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 58 0f cp.w pc,0 ++ *[0-9a-f]*: 5b fc cp.w r12,-1 ++ *[0-9a-f]*: 5a 05 cp.w r5,-32 ++ *[0-9a-f]*: 59 f4 cp.w r4,31 ++ *[0-9a-f]*: 58 1e cp.w lr,1 ++ *[0-9a-f]*: 58 38 cp.w r8,3 ++ *[0-9a-f]*: 59 0e cp.w lr,16 ++ *[0-9a-f]*: 5a 67 cp.w r7,-26 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 0f acr pc ++ *[0-9a-f]*: 5c 0c acr r12 ++ *[0-9a-f]*: 5c 05 acr r5 ++ *[0-9a-f]*: 5c 04 acr r4 ++ *[0-9a-f]*: 5c 0e acr lr ++ *[0-9a-f]*: 5c 02 acr r2 ++ *[0-9a-f]*: 5c 0c acr r12 ++ *[0-9a-f]*: 5c 0f acr pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 1f scr pc ++ *[0-9a-f]*: 5c 1c scr r12 ++ *[0-9a-f]*: 5c 15 scr r5 ++ *[0-9a-f]*: 5c 14 scr r4 ++ *[0-9a-f]*: 5c 1e scr lr ++ *[0-9a-f]*: 5c 1f scr pc ++ *[0-9a-f]*: 5c 16 scr r6 ++ *[0-9a-f]*: 5c 11 scr r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 2f cpc pc ++ *[0-9a-f]*: 5c 2c cpc r12 ++ *[0-9a-f]*: 5c 25 cpc r5 ++ *[0-9a-f]*: 5c 24 cpc r4 ++ *[0-9a-f]*: 5c 2e cpc lr ++ *[0-9a-f]*: 5c 2f cpc pc ++ *[0-9a-f]*: 5c 24 cpc r4 ++ *[0-9a-f]*: 5c 29 cpc r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 3f neg pc ++ *[0-9a-f]*: 5c 3c neg r12 ++ *[0-9a-f]*: 5c 35 neg r5 ++ *[0-9a-f]*: 5c 34 neg r4 ++ *[0-9a-f]*: 5c 3e neg lr ++ *[0-9a-f]*: 5c 37 neg r7 ++ *[0-9a-f]*: 5c 31 neg r1 ++ *[0-9a-f]*: 5c 39 neg r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 4f abs pc ++ *[0-9a-f]*: 5c 4c abs r12 ++ *[0-9a-f]*: 5c 45 abs r5 ++ *[0-9a-f]*: 5c 44 abs r4 ++ *[0-9a-f]*: 5c 4e abs lr ++ *[0-9a-f]*: 5c 46 abs r6 ++ *[0-9a-f]*: 5c 46 abs r6 ++ *[0-9a-f]*: 5c 44 abs r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 5f castu\.b pc ++ *[0-9a-f]*: 5c 5c castu\.b r12 ++ *[0-9a-f]*: 5c 55 castu\.b r5 ++ *[0-9a-f]*: 5c 54 castu\.b r4 ++ *[0-9a-f]*: 5c 5e castu\.b lr ++ *[0-9a-f]*: 5c 57 castu\.b r7 ++ *[0-9a-f]*: 5c 5d castu\.b sp ++ *[0-9a-f]*: 5c 59 castu\.b r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 6f casts\.b pc ++ *[0-9a-f]*: 5c 6c casts\.b r12 ++ *[0-9a-f]*: 5c 65 casts\.b r5 ++ *[0-9a-f]*: 5c 64 casts\.b r4 ++ *[0-9a-f]*: 5c 6e casts\.b lr ++ *[0-9a-f]*: 5c 6b casts\.b r11 ++ *[0-9a-f]*: 5c 61 casts\.b r1 ++ *[0-9a-f]*: 5c 6a casts\.b r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 7f castu\.h pc ++ *[0-9a-f]*: 5c 7c castu\.h r12 ++ *[0-9a-f]*: 5c 75 castu\.h r5 ++ *[0-9a-f]*: 5c 74 castu\.h r4 ++ *[0-9a-f]*: 5c 7e castu\.h lr ++ *[0-9a-f]*: 5c 7a castu\.h r10 ++ *[0-9a-f]*: 5c 7b castu\.h r11 ++ *[0-9a-f]*: 5c 71 castu\.h r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 8f casts\.h pc ++ *[0-9a-f]*: 5c 8c casts\.h r12 ++ *[0-9a-f]*: 5c 85 casts\.h r5 ++ *[0-9a-f]*: 5c 84 casts\.h r4 ++ *[0-9a-f]*: 5c 8e casts\.h lr ++ *[0-9a-f]*: 5c 80 casts\.h r0 ++ *[0-9a-f]*: 5c 85 casts\.h r5 ++ *[0-9a-f]*: 5c 89 casts\.h r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 9f brev pc ++ *[0-9a-f]*: 5c 9c brev r12 ++ *[0-9a-f]*: 5c 95 brev r5 ++ *[0-9a-f]*: 5c 94 brev r4 ++ *[0-9a-f]*: 5c 9e brev lr ++ *[0-9a-f]*: 5c 95 brev r5 ++ *[0-9a-f]*: 5c 9a brev r10 ++ *[0-9a-f]*: 5c 98 brev r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c af swap\.h pc ++ *[0-9a-f]*: 5c ac swap\.h r12 ++ *[0-9a-f]*: 5c a5 swap\.h r5 ++ *[0-9a-f]*: 5c a4 swap\.h r4 ++ *[0-9a-f]*: 5c ae swap\.h lr ++ *[0-9a-f]*: 5c a7 swap\.h r7 ++ *[0-9a-f]*: 5c a0 swap\.h r0 ++ *[0-9a-f]*: 5c a8 swap\.h r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c bf swap\.b pc ++ *[0-9a-f]*: 5c bc swap\.b r12 ++ *[0-9a-f]*: 5c b5 swap\.b r5 ++ *[0-9a-f]*: 5c b4 swap\.b r4 ++ *[0-9a-f]*: 5c be swap\.b lr ++ *[0-9a-f]*: 5c ba swap\.b r10 ++ *[0-9a-f]*: 5c bc swap\.b r12 ++ *[0-9a-f]*: 5c b1 swap\.b r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c cf swap\.bh pc ++ *[0-9a-f]*: 5c cc swap\.bh r12 ++ *[0-9a-f]*: 5c c5 swap\.bh r5 ++ *[0-9a-f]*: 5c c4 swap\.bh r4 ++ *[0-9a-f]*: 5c ce swap\.bh lr ++ *[0-9a-f]*: 5c c9 swap\.bh r9 ++ *[0-9a-f]*: 5c c4 swap\.bh r4 ++ *[0-9a-f]*: 5c c1 swap\.bh r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c df com pc ++ *[0-9a-f]*: 5c dc com r12 ++ *[0-9a-f]*: 5c d5 com r5 ++ *[0-9a-f]*: 5c d4 com r4 ++ *[0-9a-f]*: 5c de com lr ++ *[0-9a-f]*: 5c d2 com r2 ++ *[0-9a-f]*: 5c d2 com r2 ++ *[0-9a-f]*: 5c d7 com r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c ef tnbz pc ++ *[0-9a-f]*: 5c ec tnbz r12 ++ *[0-9a-f]*: 5c e5 tnbz r5 ++ *[0-9a-f]*: 5c e4 tnbz r4 ++ *[0-9a-f]*: 5c ee tnbz lr ++ *[0-9a-f]*: 5c e8 tnbz r8 ++ *[0-9a-f]*: 5c ec tnbz r12 ++ *[0-9a-f]*: 5c ef tnbz pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c ff rol pc ++ *[0-9a-f]*: 5c fc rol r12 ++ *[0-9a-f]*: 5c f5 rol r5 ++ *[0-9a-f]*: 5c f4 rol r4 ++ *[0-9a-f]*: 5c fe rol lr ++ *[0-9a-f]*: 5c fa rol r10 ++ *[0-9a-f]*: 5c f9 rol r9 ++ *[0-9a-f]*: 5c f5 rol r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 0f ror pc ++ *[0-9a-f]*: 5d 0c ror r12 ++ *[0-9a-f]*: 5d 05 ror r5 ++ *[0-9a-f]*: 5d 04 ror r4 ++ *[0-9a-f]*: 5d 0e ror lr ++ *[0-9a-f]*: 5d 08 ror r8 ++ *[0-9a-f]*: 5d 04 ror r4 ++ *[0-9a-f]*: 5d 07 ror r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 1f icall pc ++ *[0-9a-f]*: 5d 1c icall r12 ++ *[0-9a-f]*: 5d 15 icall r5 ++ *[0-9a-f]*: 5d 14 icall r4 ++ *[0-9a-f]*: 5d 1e icall lr ++ *[0-9a-f]*: 5d 13 icall r3 ++ *[0-9a-f]*: 5d 11 icall r1 ++ *[0-9a-f]*: 5d 13 icall r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 2f mustr pc ++ *[0-9a-f]*: 5d 2c mustr r12 ++ *[0-9a-f]*: 5d 25 mustr r5 ++ *[0-9a-f]*: 5d 24 mustr r4 ++ *[0-9a-f]*: 5d 2e mustr lr ++ *[0-9a-f]*: 5d 21 mustr r1 ++ *[0-9a-f]*: 5d 24 mustr r4 ++ *[0-9a-f]*: 5d 2c mustr r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 3f musfr pc ++ *[0-9a-f]*: 5d 3c musfr r12 ++ *[0-9a-f]*: 5d 35 musfr r5 ++ *[0-9a-f]*: 5d 34 musfr r4 ++ *[0-9a-f]*: 5d 3e musfr lr ++ *[0-9a-f]*: 5d 3b musfr r11 ++ *[0-9a-f]*: 5d 3c musfr r12 ++ *[0-9a-f]*: 5d 32 musfr r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5e 0f reteq 1 ++ *[0-9a-f]*: 5e fc retal r12 ++ *[0-9a-f]*: 5e 85 retls r5 ++ *[0-9a-f]*: 5e 74 retpl r4 ++ *[0-9a-f]*: 5e 1e retne -1 ++ *[0-9a-f]*: 5e 90 retgt r0 ++ *[0-9a-f]*: 5e 9c retgt r12 ++ *[0-9a-f]*: 5e 4a retge r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5f 0f sreq pc ++ *[0-9a-f]*: 5f fc sral r12 ++ *[0-9a-f]*: 5f 85 srls r5 ++ *[0-9a-f]*: 5f 74 srpl r4 ++ *[0-9a-f]*: 5f 1e srne lr ++ *[0-9a-f]*: 5f 50 srlt r0 ++ *[0-9a-f]*: 5f fd sral sp ++ *[0-9a-f]*: 5f 49 srge r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 7e 0f ld\.w pc,pc\[0x0\] ++ *[0-9a-f]*: 79 fc ld\.w r12,r12\[0x7c\] ++ *[0-9a-f]*: 6b 05 ld\.w r5,r5\[0x40\] ++ *[0-9a-f]*: 68 f4 ld\.w r4,r4\[0x3c\] ++ *[0-9a-f]*: 7c 1e ld\.w lr,lr\[0x4\] ++ *[0-9a-f]*: 64 dd ld\.w sp,r2\[0x34\] ++ *[0-9a-f]*: 62 29 ld\.w r9,r1\[0x8\] ++ *[0-9a-f]*: 7a f5 ld\.w r5,sp\[0x3c\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 0f ld\.sh pc,pc\[0x0\] ++ *[0-9a-f]*: 98 7c ld\.sh r12,r12\[0xe\] ++ *[0-9a-f]*: 8a 45 ld\.sh r5,r5\[0x8\] ++ *[0-9a-f]*: 88 34 ld\.sh r4,r4\[0x6\] ++ *[0-9a-f]*: 9c 1e ld\.sh lr,lr\[0x2\] ++ *[0-9a-f]*: 84 44 ld\.sh r4,r2\[0x8\] ++ *[0-9a-f]*: 9c 5d ld\.sh sp,lr\[0xa\] ++ *[0-9a-f]*: 96 12 ld\.sh r2,r11\[0x2\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 8f ld\.uh pc,pc\[0x0\] ++ *[0-9a-f]*: 98 fc ld\.uh r12,r12\[0xe\] ++ *[0-9a-f]*: 8a c5 ld\.uh r5,r5\[0x8\] ++ *[0-9a-f]*: 88 b4 ld\.uh r4,r4\[0x6\] ++ *[0-9a-f]*: 9c 9e ld\.uh lr,lr\[0x2\] ++ *[0-9a-f]*: 80 da ld\.uh r10,r0\[0xa\] ++ *[0-9a-f]*: 96 c8 ld\.uh r8,r11\[0x8\] ++ *[0-9a-f]*: 84 ea ld\.uh r10,r2\[0xc\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9f 0f st\.w pc\[0x0\],pc ++ *[0-9a-f]*: 99 fc st\.w r12\[0x3c\],r12 ++ *[0-9a-f]*: 8b 85 st\.w r5\[0x20\],r5 ++ *[0-9a-f]*: 89 74 st\.w r4\[0x1c\],r4 ++ *[0-9a-f]*: 9d 1e st\.w lr\[0x4\],lr ++ *[0-9a-f]*: 8f bb st\.w r7\[0x2c\],r11 ++ *[0-9a-f]*: 85 66 st\.w r2\[0x18\],r6 ++ *[0-9a-f]*: 89 39 st\.w r4\[0xc\],r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 0f st\.h pc\[0x0\],pc ++ *[0-9a-f]*: b8 7c st\.h r12\[0xe\],r12 ++ *[0-9a-f]*: aa 45 st\.h r5\[0x8\],r5 ++ *[0-9a-f]*: a8 34 st\.h r4\[0x6\],r4 ++ *[0-9a-f]*: bc 1e st\.h lr\[0x2\],lr ++ *[0-9a-f]*: bc 5c st\.h lr\[0xa\],r12 ++ *[0-9a-f]*: ac 20 st\.h r6\[0x4\],r0 ++ *[0-9a-f]*: aa 6d st\.h r5\[0xc\],sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 8f st\.b pc\[0x0\],pc ++ *[0-9a-f]*: b8 fc st\.b r12\[0x7\],r12 ++ *[0-9a-f]*: aa c5 st\.b r5\[0x4\],r5 ++ *[0-9a-f]*: a8 b4 st\.b r4\[0x3\],r4 ++ *[0-9a-f]*: bc 9e st\.b lr\[0x1\],lr ++ *[0-9a-f]*: b8 e9 st\.b r12\[0x6\],r9 ++ *[0-9a-f]*: a4 be st\.b r2\[0x3\],lr ++ *[0-9a-f]*: a2 bb st\.b r1\[0x3\],r11 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 00 ld\.d r0,pc ++ *[0-9a-f]*: b9 0e ld\.d lr,r12 ++ *[0-9a-f]*: ab 08 ld\.d r8,r5 ++ *[0-9a-f]*: a9 06 ld\.d r6,r4 ++ *[0-9a-f]*: bd 02 ld\.d r2,lr ++ *[0-9a-f]*: af 0e ld\.d lr,r7 ++ *[0-9a-f]*: a9 04 ld\.d r4,r4 ++ *[0-9a-f]*: bf 0e ld\.d lr,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 01 ld\.d r0,pc\+\+ ++ *[0-9a-f]*: b9 0f ld\.d lr,r12\+\+ ++ *[0-9a-f]*: ab 09 ld\.d r8,r5\+\+ ++ *[0-9a-f]*: a9 07 ld\.d r6,r4\+\+ ++ *[0-9a-f]*: bd 03 ld\.d r2,lr\+\+ ++ *[0-9a-f]*: ab 0f ld\.d lr,r5\+\+ ++ *[0-9a-f]*: b7 0d ld\.d r12,r11\+\+ ++ *[0-9a-f]*: b9 03 ld\.d r2,r12\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 10 ld\.d r0,--pc ++ *[0-9a-f]*: b9 1e ld\.d lr,--r12 ++ *[0-9a-f]*: ab 18 ld\.d r8,--r5 ++ *[0-9a-f]*: a9 16 ld\.d r6,--r4 ++ *[0-9a-f]*: bd 12 ld\.d r2,--lr ++ *[0-9a-f]*: a1 18 ld\.d r8,--r0 ++ *[0-9a-f]*: bf 1a ld\.d r10,--pc ++ *[0-9a-f]*: a9 12 ld\.d r2,--r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 11 st\.d pc,r0 ++ *[0-9a-f]*: b9 1f st\.d r12,lr ++ *[0-9a-f]*: ab 19 st\.d r5,r8 ++ *[0-9a-f]*: a9 17 st\.d r4,r6 ++ *[0-9a-f]*: bd 13 st\.d lr,r2 ++ *[0-9a-f]*: a1 1d st\.d r0,r12 ++ *[0-9a-f]*: bb 15 st\.d sp,r4 ++ *[0-9a-f]*: b9 1d st\.d r12,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 20 st\.d pc\+\+,r0 ++ *[0-9a-f]*: b9 2e st\.d r12\+\+,lr ++ *[0-9a-f]*: ab 28 st\.d r5\+\+,r8 ++ *[0-9a-f]*: a9 26 st\.d r4\+\+,r6 ++ *[0-9a-f]*: bd 22 st\.d lr\+\+,r2 ++ *[0-9a-f]*: bb 26 st\.d sp\+\+,r6 ++ *[0-9a-f]*: b5 26 st\.d r10\+\+,r6 ++ *[0-9a-f]*: af 22 st\.d r7\+\+,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 21 st\.d --pc,r0 ++ *[0-9a-f]*: b9 2f st\.d --r12,lr ++ *[0-9a-f]*: ab 29 st\.d --r5,r8 ++ *[0-9a-f]*: a9 27 st\.d --r4,r6 ++ *[0-9a-f]*: bd 23 st\.d --lr,r2 ++ *[0-9a-f]*: a7 27 st\.d --r3,r6 ++ *[0-9a-f]*: bd 23 st\.d --lr,r2 ++ *[0-9a-f]*: a1 25 st\.d --r0,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 3f mul pc,pc ++ *[0-9a-f]*: b9 3c mul r12,r12 ++ *[0-9a-f]*: ab 35 mul r5,r5 ++ *[0-9a-f]*: a9 34 mul r4,r4 ++ *[0-9a-f]*: bd 3e mul lr,lr ++ *[0-9a-f]*: bd 3a mul r10,lr ++ *[0-9a-f]*: b1 30 mul r0,r8 ++ *[0-9a-f]*: ab 38 mul r8,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 4f asr pc,0x0 ++ *[0-9a-f]*: bf 5c asr r12,0x1f ++ *[0-9a-f]*: b1 45 asr r5,0x10 ++ *[0-9a-f]*: af 54 asr r4,0xf ++ *[0-9a-f]*: a1 5e asr lr,0x1 ++ *[0-9a-f]*: b7 56 asr r6,0x17 ++ *[0-9a-f]*: b3 46 asr r6,0x12 ++ *[0-9a-f]*: a9 45 asr r5,0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 6f lsl pc,0x0 ++ *[0-9a-f]*: bf 7c lsl r12,0x1f ++ *[0-9a-f]*: b1 65 lsl r5,0x10 ++ *[0-9a-f]*: af 74 lsl r4,0xf ++ *[0-9a-f]*: a1 7e lsl lr,0x1 ++ *[0-9a-f]*: ad 7c lsl r12,0xd ++ *[0-9a-f]*: b1 66 lsl r6,0x10 ++ *[0-9a-f]*: b9 71 lsl r1,0x19 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 8f lsr pc,0x0 ++ *[0-9a-f]*: bf 9c lsr r12,0x1f ++ *[0-9a-f]*: b1 85 lsr r5,0x10 ++ *[0-9a-f]*: af 94 lsr r4,0xf ++ *[0-9a-f]*: a1 9e lsr lr,0x1 ++ *[0-9a-f]*: a1 90 lsr r0,0x1 ++ *[0-9a-f]*: ab 88 lsr r8,0xa ++ *[0-9a-f]*: bb 87 lsr r7,0x1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 af sbr pc,0x0 ++ *[0-9a-f]*: bf bc sbr r12,0x1f ++ *[0-9a-f]*: b1 a5 sbr r5,0x10 ++ *[0-9a-f]*: af b4 sbr r4,0xf ++ *[0-9a-f]*: a1 be sbr lr,0x1 ++ *[0-9a-f]*: bf b8 sbr r8,0x1f ++ *[0-9a-f]*: b7 a6 sbr r6,0x16 ++ *[0-9a-f]*: b7 b1 sbr r1,0x17 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 cf cbr pc,0x0 ++ *[0-9a-f]*: bf dc cbr r12,0x1f ++ *[0-9a-f]*: b1 c5 cbr r5,0x10 ++ *[0-9a-f]*: af d4 cbr r4,0xf ++ *[0-9a-f]*: a1 de cbr lr,0x1 ++ *[0-9a-f]*: ab cc cbr r12,0xa ++ *[0-9a-f]*: b7 c7 cbr r7,0x16 ++ *[0-9a-f]*: a9 d8 cbr r8,0x9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 00 breq [0-9a-f]* <.*> ++ *[0-9a-f]*: cf f7 brpl [0-9a-f]* <.*> ++ *[0-9a-f]*: c8 04 brge [0-9a-f]* <.*> ++ *[0-9a-f]*: c7 f3 brcs [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 11 brne [0-9a-f]* <.*> ++ *[0-9a-f]*: c7 33 brcs [0-9a-f]* <.*> ++ *[0-9a-f]*: cf 70 breq [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 60 breq [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 08 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: cf fb rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 0a rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: cf f9 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 18 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c1 fa rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 78 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: cf ea rjmp [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 0c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf ff rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 0e rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf fd rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 1c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c6 cc rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf 7e rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c1 ae rcall [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d0 00 acall 0x0 ++ *[0-9a-f]*: df f0 acall 0x3fc ++ *[0-9a-f]*: d8 00 acall 0x200 ++ *[0-9a-f]*: d7 f0 acall 0x1fc ++ *[0-9a-f]*: d0 10 acall 0x4 ++ *[0-9a-f]*: d5 90 acall 0x164 ++ *[0-9a-f]*: d4 c0 acall 0x130 ++ *[0-9a-f]*: d2 b0 acall 0xac ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d8 02 popm pc ++ *[0-9a-f]*: dd fa popm r0-r11,pc,r12=-1 ++ *[0-9a-f]*: d4 02 popm lr ++ *[0-9a-f]*: db fa popm r0-r11,pc,r12=1 ++ *[0-9a-f]*: d0 12 popm r0-r3 ++ *[0-9a-f]*: d8 e2 popm r4-r10,pc ++ *[0-9a-f]*: d9 1a popm r0-r3,r11,pc,r12=0 ++ *[0-9a-f]*: d7 b2 popm r0-r7,r10-r12,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d8 01 pushm pc ++ *[0-9a-f]*: df f1 pushm r0-r12,lr-pc ++ *[0-9a-f]*: d8 01 pushm pc ++ *[0-9a-f]*: d7 f1 pushm r0-r12,lr ++ *[0-9a-f]*: d0 11 pushm r0-r3 ++ *[0-9a-f]*: dc c1 pushm r8-r10,lr-pc ++ *[0-9a-f]*: d0 91 pushm r0-r3,r10 ++ *[0-9a-f]*: d2 41 pushm r8-r9,r12 ++ ++[0-9a-f]* : ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++ ++[0-9a-f]* : ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d0 03 csrfcz 0x0 ++ *[0-9a-f]*: d1 f3 csrfcz 0x1f ++ *[0-9a-f]*: d1 03 csrfcz 0x10 ++ *[0-9a-f]*: d0 f3 csrfcz 0xf ++ *[0-9a-f]*: d0 13 csrfcz 0x1 ++ *[0-9a-f]*: d0 53 csrfcz 0x5 ++ *[0-9a-f]*: d0 d3 csrfcz 0xd ++ *[0-9a-f]*: d1 73 csrfcz 0x17 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d2 03 ssrf 0x0 ++ *[0-9a-f]*: d3 f3 ssrf 0x1f ++ *[0-9a-f]*: d3 03 ssrf 0x10 ++ *[0-9a-f]*: d2 f3 ssrf 0xf ++ *[0-9a-f]*: d2 13 ssrf 0x1 ++ *[0-9a-f]*: d3 d3 ssrf 0x1d ++ *[0-9a-f]*: d2 d3 ssrf 0xd ++ *[0-9a-f]*: d2 d3 ssrf 0xd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d4 03 csrf 0x0 ++ *[0-9a-f]*: d5 f3 csrf 0x1f ++ *[0-9a-f]*: d5 03 csrf 0x10 ++ *[0-9a-f]*: d4 f3 csrf 0xf ++ *[0-9a-f]*: d4 13 csrf 0x1 ++ *[0-9a-f]*: d4 a3 csrf 0xa ++ *[0-9a-f]*: d4 f3 csrf 0xf ++ *[0-9a-f]*: d4 b3 csrf 0xb ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 03 rete ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 13 rets ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 23 retd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 33 retj ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 43 tlbr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 53 tlbs ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 63 tlbw ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 73 breakpoint ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 83 incjosp 1 ++ *[0-9a-f]*: d6 93 incjosp 2 ++ *[0-9a-f]*: d6 a3 incjosp 3 ++ *[0-9a-f]*: d6 b3 incjosp 4 ++ *[0-9a-f]*: d6 c3 incjosp -4 ++ *[0-9a-f]*: d6 d3 incjosp -3 ++ *[0-9a-f]*: d6 e3 incjosp -2 ++ *[0-9a-f]*: d6 f3 incjosp -1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 13 popjc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 23 pushjc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 00 0f add pc,pc,pc ++ *[0-9a-f]*: f8 0c 00 3c add r12,r12,r12<<0x3 ++ *[0-9a-f]*: ea 05 00 25 add r5,r5,r5<<0x2 ++ *[0-9a-f]*: e8 04 00 14 add r4,r4,r4<<0x1 ++ *[0-9a-f]*: fc 0e 00 1e add lr,lr,lr<<0x1 ++ *[0-9a-f]*: f8 00 00 10 add r0,r12,r0<<0x1 ++ *[0-9a-f]*: f8 04 00 09 add r9,r12,r4 ++ *[0-9a-f]*: f8 07 00 2c add r12,r12,r7<<0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 0f sub pc,pc,pc ++ *[0-9a-f]*: f8 0c 01 3c sub r12,r12,r12<<0x3 ++ *[0-9a-f]*: ea 05 01 25 sub r5,r5,r5<<0x2 ++ *[0-9a-f]*: e8 04 01 14 sub r4,r4,r4<<0x1 ++ *[0-9a-f]*: fc 0e 01 1e sub lr,lr,lr<<0x1 ++ *[0-9a-f]*: e6 04 01 0d sub sp,r3,r4 ++ *[0-9a-f]*: ee 03 01 03 sub r3,r7,r3 ++ *[0-9a-f]*: f4 0d 01 1d sub sp,r10,sp<<0x1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0d 0f divu pc,pc,pc ++ *[0-9a-f]*: f8 0c 0d 0c divu r12,r12,r12 ++ *[0-9a-f]*: ea 05 0d 05 divu r5,r5,r5 ++ *[0-9a-f]*: e8 04 0d 04 divu r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0d 0e divu lr,lr,lr ++ *[0-9a-f]*: e8 0f 0d 0d divu sp,r4,pc ++ *[0-9a-f]*: ea 0d 0d 05 divu r5,r5,sp ++ *[0-9a-f]*: fa 00 0d 0a divu r10,sp,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0e 0f addhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 0e 3c addhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 0e 35 addhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 0e 04 addhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 0e 3e addhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: e0 03 0e 00 addhh\.w r0,r0:b,r3:b ++ *[0-9a-f]*: f8 07 0e 2e addhh\.w lr,r12:t,r7:b ++ *[0-9a-f]*: f4 02 0e 23 addhh\.w r3,r10:t,r2:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0f 0f subhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 0f 3c subhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 0f 35 subhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 0f 04 subhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 0f 3e subhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: e2 07 0f 2a subhh\.w r10,r1:t,r7:b ++ *[0-9a-f]*: f4 0e 0f 3f subhh\.w pc,r10:t,lr:t ++ *[0-9a-f]*: e0 0c 0f 23 subhh\.w r3,r0:t,r12:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 00 4f adc pc,pc,pc ++ *[0-9a-f]*: f8 0c 00 4c adc r12,r12,r12 ++ *[0-9a-f]*: ea 05 00 45 adc r5,r5,r5 ++ *[0-9a-f]*: e8 04 00 44 adc r4,r4,r4 ++ *[0-9a-f]*: fc 0e 00 4e adc lr,lr,lr ++ *[0-9a-f]*: e0 07 00 44 adc r4,r0,r7 ++ *[0-9a-f]*: e8 03 00 4d adc sp,r4,r3 ++ *[0-9a-f]*: f8 00 00 42 adc r2,r12,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 4f sbc pc,pc,pc ++ *[0-9a-f]*: f8 0c 01 4c sbc r12,r12,r12 ++ *[0-9a-f]*: ea 05 01 45 sbc r5,r5,r5 ++ *[0-9a-f]*: e8 04 01 44 sbc r4,r4,r4 ++ *[0-9a-f]*: fc 0e 01 4e sbc lr,lr,lr ++ *[0-9a-f]*: ee 09 01 46 sbc r6,r7,r9 ++ *[0-9a-f]*: f0 05 01 40 sbc r0,r8,r5 ++ *[0-9a-f]*: e0 04 01 41 sbc r1,r0,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 4f mul pc,pc,pc ++ *[0-9a-f]*: f8 0c 02 4c mul r12,r12,r12 ++ *[0-9a-f]*: ea 05 02 45 mul r5,r5,r5 ++ *[0-9a-f]*: e8 04 02 44 mul r4,r4,r4 ++ *[0-9a-f]*: fc 0e 02 4e mul lr,lr,lr ++ *[0-9a-f]*: e0 00 02 4f mul pc,r0,r0 ++ *[0-9a-f]*: fe 0e 02 48 mul r8,pc,lr ++ *[0-9a-f]*: f8 0f 02 44 mul r4,r12,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 03 4f mac pc,pc,pc ++ *[0-9a-f]*: f8 0c 03 4c mac r12,r12,r12 ++ *[0-9a-f]*: ea 05 03 45 mac r5,r5,r5 ++ *[0-9a-f]*: e8 04 03 44 mac r4,r4,r4 ++ *[0-9a-f]*: fc 0e 03 4e mac lr,lr,lr ++ *[0-9a-f]*: e8 00 03 4a mac r10,r4,r0 ++ *[0-9a-f]*: fc 00 03 47 mac r7,lr,r0 ++ *[0-9a-f]*: f2 0c 03 42 mac r2,r9,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 04 4f muls\.d pc,pc,pc ++ *[0-9a-f]*: f8 0c 04 4c muls\.d r12,r12,r12 ++ *[0-9a-f]*: ea 05 04 45 muls\.d r5,r5,r5 ++ *[0-9a-f]*: e8 04 04 44 muls\.d r4,r4,r4 ++ *[0-9a-f]*: fc 0e 04 4e muls\.d lr,lr,lr ++ *[0-9a-f]*: f0 0e 04 42 muls\.d r2,r8,lr ++ *[0-9a-f]*: e0 0b 04 44 muls\.d r4,r0,r11 ++ *[0-9a-f]*: fc 06 04 45 muls\.d r5,lr,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 05 40 macs\.d r0,pc,pc ++ *[0-9a-f]*: f8 0c 05 4e macs\.d lr,r12,r12 ++ *[0-9a-f]*: ea 05 05 48 macs\.d r8,r5,r5 ++ *[0-9a-f]*: e8 04 05 46 macs\.d r6,r4,r4 ++ *[0-9a-f]*: fc 0e 05 42 macs\.d r2,lr,lr ++ *[0-9a-f]*: e2 09 05 48 macs\.d r8,r1,r9 ++ *[0-9a-f]*: f0 08 05 4e macs\.d lr,r8,r8 ++ *[0-9a-f]*: e6 0c 05 44 macs\.d r4,r3,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 06 40 mulu\.d r0,pc,pc ++ *[0-9a-f]*: f8 0c 06 4e mulu\.d lr,r12,r12 ++ *[0-9a-f]*: ea 05 06 48 mulu\.d r8,r5,r5 ++ *[0-9a-f]*: e8 04 06 46 mulu\.d r6,r4,r4 ++ *[0-9a-f]*: fc 0e 06 42 mulu\.d r2,lr,lr ++ *[0-9a-f]*: ea 00 06 46 mulu\.d r6,r5,r0 ++ *[0-9a-f]*: ec 01 06 44 mulu\.d r4,r6,r1 ++ *[0-9a-f]*: f0 02 06 48 mulu\.d r8,r8,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 07 40 macu\.d r0,pc,pc ++ *[0-9a-f]*: f8 0c 07 4e macu\.d lr,r12,r12 ++ *[0-9a-f]*: ea 05 07 48 macu\.d r8,r5,r5 ++ *[0-9a-f]*: e8 04 07 46 macu\.d r6,r4,r4 ++ *[0-9a-f]*: fc 0e 07 42 macu\.d r2,lr,lr ++ *[0-9a-f]*: fa 0b 07 46 macu\.d r6,sp,r11 ++ *[0-9a-f]*: e8 08 07 42 macu\.d r2,r4,r8 ++ *[0-9a-f]*: f4 09 07 46 macu\.d r6,r10,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 08 4f asr pc,pc,pc ++ *[0-9a-f]*: f8 0c 08 4c asr r12,r12,r12 ++ *[0-9a-f]*: ea 05 08 45 asr r5,r5,r5 ++ *[0-9a-f]*: e8 04 08 44 asr r4,r4,r4 ++ *[0-9a-f]*: fc 0e 08 4e asr lr,lr,lr ++ *[0-9a-f]*: ec 0f 08 4f asr pc,r6,pc ++ *[0-9a-f]*: ec 0c 08 40 asr r0,r6,r12 ++ *[0-9a-f]*: fa 00 08 44 asr r4,sp,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 09 4f lsl pc,pc,pc ++ *[0-9a-f]*: f8 0c 09 4c lsl r12,r12,r12 ++ *[0-9a-f]*: ea 05 09 45 lsl r5,r5,r5 ++ *[0-9a-f]*: e8 04 09 44 lsl r4,r4,r4 ++ *[0-9a-f]*: fc 0e 09 4e lsl lr,lr,lr ++ *[0-9a-f]*: ea 0e 09 4e lsl lr,r5,lr ++ *[0-9a-f]*: fe 03 09 45 lsl r5,pc,r3 ++ *[0-9a-f]*: fe 09 09 41 lsl r1,pc,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0a 4f lsr pc,pc,pc ++ *[0-9a-f]*: f8 0c 0a 4c lsr r12,r12,r12 ++ *[0-9a-f]*: ea 05 0a 45 lsr r5,r5,r5 ++ *[0-9a-f]*: e8 04 0a 44 lsr r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0a 4e lsr lr,lr,lr ++ *[0-9a-f]*: e8 01 0a 42 lsr r2,r4,r1 ++ *[0-9a-f]*: e2 06 0a 45 lsr r5,r1,r6 ++ *[0-9a-f]*: ec 07 0a 4d lsr sp,r6,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0b 4f xchg pc,pc,pc ++ *[0-9a-f]*: f8 0c 0b 4c xchg r12,r12,r12 ++ *[0-9a-f]*: ea 05 0b 45 xchg r5,r5,r5 ++ *[0-9a-f]*: e8 04 0b 44 xchg r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0b 4e xchg lr,lr,lr ++ *[0-9a-f]*: e8 0d 0b 4e xchg lr,r4,sp ++ *[0-9a-f]*: ea 0c 0b 41 xchg r1,r5,r12 ++ *[0-9a-f]*: f8 00 0b 4e xchg lr,r12,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0c 4f max pc,pc,pc ++ *[0-9a-f]*: f8 0c 0c 4c max r12,r12,r12 ++ *[0-9a-f]*: ea 05 0c 45 max r5,r5,r5 ++ *[0-9a-f]*: e8 04 0c 44 max r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0c 4e max lr,lr,lr ++ *[0-9a-f]*: e4 0d 0c 4e max lr,r2,sp ++ *[0-9a-f]*: f4 09 0c 44 max r4,r10,r9 ++ *[0-9a-f]*: f2 0e 0c 4e max lr,r9,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0d 4f min pc,pc,pc ++ *[0-9a-f]*: f8 0c 0d 4c min r12,r12,r12 ++ *[0-9a-f]*: ea 05 0d 45 min r5,r5,r5 ++ *[0-9a-f]*: e8 04 0d 44 min r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0d 4e min lr,lr,lr ++ *[0-9a-f]*: ee 08 0d 49 min r9,r7,r8 ++ *[0-9a-f]*: ea 05 0d 4d min sp,r5,r5 ++ *[0-9a-f]*: e2 04 0d 44 min r4,r1,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0e 4f addabs pc,pc,pc ++ *[0-9a-f]*: f8 0c 0e 4c addabs r12,r12,r12 ++ *[0-9a-f]*: ea 05 0e 45 addabs r5,r5,r5 ++ *[0-9a-f]*: e8 04 0e 44 addabs r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0e 4e addabs lr,lr,lr ++ *[0-9a-f]*: f4 00 0e 47 addabs r7,r10,r0 ++ *[0-9a-f]*: f2 07 0e 49 addabs r9,r9,r7 ++ *[0-9a-f]*: f0 0c 0e 42 addabs r2,r8,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 8f mulnhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 01 bc mulnhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 01 b5 mulnhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 01 84 mulnhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 01 be mulnhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: fa 09 01 ab mulnhh\.w r11,sp:t,r9:b ++ *[0-9a-f]*: e8 0e 01 9d mulnhh\.w sp,r4:b,lr:t ++ *[0-9a-f]*: e4 0b 01 ac mulnhh\.w r12,r2:t,r11:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 80 mulnwh\.d r0,pc,pc:b ++ *[0-9a-f]*: f8 0c 02 9e mulnwh\.d lr,r12,r12:t ++ *[0-9a-f]*: ea 05 02 98 mulnwh\.d r8,r5,r5:t ++ *[0-9a-f]*: e8 04 02 86 mulnwh\.d r6,r4,r4:b ++ *[0-9a-f]*: fc 0e 02 92 mulnwh\.d r2,lr,lr:t ++ *[0-9a-f]*: e6 02 02 9e mulnwh\.d lr,r3,r2:t ++ *[0-9a-f]*: ea 09 02 84 mulnwh\.d r4,r5,r9:b ++ *[0-9a-f]*: e8 04 02 9c mulnwh\.d r12,r4,r4:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 04 8f machh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 04 bc machh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 04 b5 machh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 04 84 machh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 04 be machh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: ea 01 04 9e machh\.w lr,r5:b,r1:t ++ *[0-9a-f]*: ec 07 04 89 machh\.w r9,r6:b,r7:b ++ *[0-9a-f]*: fc 0c 04 a5 machh\.w r5,lr:t,r12:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 05 80 machh\.d r0,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 05 be machh\.d lr,r12:t,r12:t ++ *[0-9a-f]*: ea 05 05 b8 machh\.d r8,r5:t,r5:t ++ *[0-9a-f]*: e8 04 05 86 machh\.d r6,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 05 b2 machh\.d r2,lr:t,lr:t ++ *[0-9a-f]*: e0 08 05 8a machh\.d r10,r0:b,r8:b ++ *[0-9a-f]*: e8 05 05 9e machh\.d lr,r4:b,r5:t ++ *[0-9a-f]*: e0 04 05 98 machh\.d r8,r0:b,r4:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 06 8f macsathh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 06 bc macsathh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 06 b5 macsathh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 06 84 macsathh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 06 be macsathh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: ee 0f 06 b7 macsathh\.w r7,r7:t,pc:t ++ *[0-9a-f]*: e4 04 06 a4 macsathh\.w r4,r2:t,r4:b ++ *[0-9a-f]*: f0 03 06 b4 macsathh\.w r4,r8:t,r3:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 07 8f mulhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 07 bc mulhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 07 b5 mulhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 07 84 mulhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 07 be mulhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: e8 09 07 a7 mulhh\.w r7,r4:t,r9:b ++ *[0-9a-f]*: e6 07 07 bf mulhh\.w pc,r3:t,r7:t ++ *[0-9a-f]*: e8 09 07 9f mulhh\.w pc,r4:b,r9:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 08 8f mulsathh\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 08 bc mulsathh\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 08 b5 mulsathh\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 08 84 mulsathh\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 08 be mulsathh\.h lr,lr:t,lr:t ++ *[0-9a-f]*: e2 0d 08 83 mulsathh\.h r3,r1:b,sp:b ++ *[0-9a-f]*: fc 0b 08 ab mulsathh\.h r11,lr:t,r11:b ++ *[0-9a-f]*: f0 0b 08 98 mulsathh\.h r8,r8:b,r11:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 09 8f mulsathh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 09 bc mulsathh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 09 b5 mulsathh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 09 84 mulsathh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 09 be mulsathh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: f6 06 09 ae mulsathh\.w lr,r11:t,r6:b ++ *[0-9a-f]*: ec 07 09 96 mulsathh\.w r6,r6:b,r7:t ++ *[0-9a-f]*: e4 03 09 8a mulsathh\.w r10,r2:b,r3:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0a 8f mulsatrndhh\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 0a bc mulsatrndhh\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 0a b5 mulsatrndhh\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 0a 84 mulsatrndhh\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 0a be mulsatrndhh\.h lr,lr:t,lr:t ++ *[0-9a-f]*: ec 09 0a 8b mulsatrndhh\.h r11,r6:b,r9:b ++ *[0-9a-f]*: e6 08 0a 9b mulsatrndhh\.h r11,r3:b,r8:t ++ *[0-9a-f]*: fa 07 0a b5 mulsatrndhh\.h r5,sp:t,r7:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0b 8f mulsatrndwh\.w pc,pc,pc:b ++ *[0-9a-f]*: f8 0c 0b 9c mulsatrndwh\.w r12,r12,r12:t ++ *[0-9a-f]*: ea 05 0b 95 mulsatrndwh\.w r5,r5,r5:t ++ *[0-9a-f]*: e8 04 0b 84 mulsatrndwh\.w r4,r4,r4:b ++ *[0-9a-f]*: fc 0e 0b 9e mulsatrndwh\.w lr,lr,lr:t ++ *[0-9a-f]*: f8 00 0b 85 mulsatrndwh\.w r5,r12,r0:b ++ *[0-9a-f]*: f4 0f 0b 87 mulsatrndwh\.w r7,r10,pc:b ++ *[0-9a-f]*: f0 05 0b 9a mulsatrndwh\.w r10,r8,r5:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0c 80 macwh\.d r0,pc,pc:b ++ *[0-9a-f]*: f8 0c 0c 9e macwh\.d lr,r12,r12:t ++ *[0-9a-f]*: ea 05 0c 98 macwh\.d r8,r5,r5:t ++ *[0-9a-f]*: e8 04 0c 86 macwh\.d r6,r4,r4:b ++ *[0-9a-f]*: fc 0e 0c 92 macwh\.d r2,lr,lr:t ++ *[0-9a-f]*: f4 0c 0c 94 macwh\.d r4,r10,r12:t ++ *[0-9a-f]*: ee 0d 0c 84 macwh\.d r4,r7,sp:b ++ *[0-9a-f]*: f2 0b 0c 8e macwh\.d lr,r9,r11:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0d 80 mulwh\.d r0,pc,pc:b ++ *[0-9a-f]*: f8 0c 0d 9e mulwh\.d lr,r12,r12:t ++ *[0-9a-f]*: ea 05 0d 98 mulwh\.d r8,r5,r5:t ++ *[0-9a-f]*: e8 04 0d 86 mulwh\.d r6,r4,r4:b ++ *[0-9a-f]*: fc 0e 0d 92 mulwh\.d r2,lr,lr:t ++ *[0-9a-f]*: ea 01 0d 8c mulwh\.d r12,r5,r1:b ++ *[0-9a-f]*: e2 03 0d 90 mulwh\.d r0,r1,r3:t ++ *[0-9a-f]*: f2 02 0d 80 mulwh\.d r0,r9,r2:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0e 8f mulsatwh\.w pc,pc,pc:b ++ *[0-9a-f]*: f8 0c 0e 9c mulsatwh\.w r12,r12,r12:t ++ *[0-9a-f]*: ea 05 0e 95 mulsatwh\.w r5,r5,r5:t ++ *[0-9a-f]*: e8 04 0e 84 mulsatwh\.w r4,r4,r4:b ++ *[0-9a-f]*: fc 0e 0e 9e mulsatwh\.w lr,lr,lr:t ++ *[0-9a-f]*: fe 0a 0e 9b mulsatwh\.w r11,pc,r10:t ++ *[0-9a-f]*: f8 09 0e 9d mulsatwh\.w sp,r12,r9:t ++ *[0-9a-f]*: e6 02 0e 90 mulsatwh\.w r0,r3,r2:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0f 8f ld\.w pc,pc\[pc:b<<2\] ++ *[0-9a-f]*: f8 0c 0f bc ld\.w r12,r12\[r12:t<<2\] ++ *[0-9a-f]*: ea 05 0f a5 ld\.w r5,r5\[r5:u<<2\] ++ *[0-9a-f]*: e8 04 0f 94 ld\.w r4,r4\[r4:l<<2\] ++ *[0-9a-f]*: fc 0e 0f 9e ld\.w lr,lr\[lr:l<<2\] ++ *[0-9a-f]*: f4 06 0f 99 ld\.w r9,r10\[r6:l<<2\] ++ *[0-9a-f]*: f4 0a 0f 82 ld\.w r2,r10\[r10:b<<2\] ++ *[0-9a-f]*: ea 0f 0f 8b ld\.w r11,r5\[pc:b<<2\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 00 cf satadd\.w pc,pc,pc ++ *[0-9a-f]*: f8 0c 00 cc satadd\.w r12,r12,r12 ++ *[0-9a-f]*: ea 05 00 c5 satadd\.w r5,r5,r5 ++ *[0-9a-f]*: e8 04 00 c4 satadd\.w r4,r4,r4 ++ *[0-9a-f]*: fc 0e 00 ce satadd\.w lr,lr,lr ++ *[0-9a-f]*: f0 0b 00 c4 satadd\.w r4,r8,r11 ++ *[0-9a-f]*: f8 06 00 c3 satadd\.w r3,r12,r6 ++ *[0-9a-f]*: fc 09 00 c3 satadd\.w r3,lr,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 cf satsub\.w pc,pc,pc ++ *[0-9a-f]*: f8 0c 01 cc satsub\.w r12,r12,r12 ++ *[0-9a-f]*: ea 05 01 c5 satsub\.w r5,r5,r5 ++ *[0-9a-f]*: e8 04 01 c4 satsub\.w r4,r4,r4 ++ *[0-9a-f]*: fc 0e 01 ce satsub\.w lr,lr,lr ++ *[0-9a-f]*: fa 00 01 c8 satsub\.w r8,sp,r0 ++ *[0-9a-f]*: f0 04 01 c9 satsub\.w r9,r8,r4 ++ *[0-9a-f]*: fc 02 01 cf satsub\.w pc,lr,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 cf satadd\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 02 cc satadd\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 02 c5 satadd\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 02 c4 satadd\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 02 ce satadd\.h lr,lr,lr ++ *[0-9a-f]*: e6 09 02 c7 satadd\.h r7,r3,r9 ++ *[0-9a-f]*: e0 02 02 c1 satadd\.h r1,r0,r2 ++ *[0-9a-f]*: e8 0e 02 c1 satadd\.h r1,r4,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 03 cf satsub\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 03 cc satsub\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 03 c5 satsub\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 03 c4 satsub\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 03 ce satsub\.h lr,lr,lr ++ *[0-9a-f]*: fc 03 03 ce satsub\.h lr,lr,r3 ++ *[0-9a-f]*: ec 05 03 cb satsub\.h r11,r6,r5 ++ *[0-9a-f]*: fa 00 03 c3 satsub\.h r3,sp,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 10 00 mul pc,pc,0 ++ *[0-9a-f]*: f8 0c 10 ff mul r12,r12,-1 ++ *[0-9a-f]*: ea 05 10 80 mul r5,r5,-128 ++ *[0-9a-f]*: e8 04 10 7f mul r4,r4,127 ++ *[0-9a-f]*: fc 0e 10 01 mul lr,lr,1 ++ *[0-9a-f]*: e4 0c 10 f9 mul r12,r2,-7 ++ *[0-9a-f]*: fe 01 10 5f mul r1,pc,95 ++ *[0-9a-f]*: ec 04 10 13 mul r4,r6,19 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 11 00 rsub pc,pc,0 ++ *[0-9a-f]*: f8 0c 11 ff rsub r12,r12,-1 ++ *[0-9a-f]*: ea 05 11 80 rsub r5,r5,-128 ++ *[0-9a-f]*: e8 04 11 7f rsub r4,r4,127 ++ *[0-9a-f]*: fc 0e 11 01 rsub lr,lr,1 ++ *[0-9a-f]*: fc 09 11 60 rsub r9,lr,96 ++ *[0-9a-f]*: e2 0b 11 38 rsub r11,r1,56 ++ *[0-9a-f]*: ee 00 11 a9 rsub r0,r7,-87 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 12 00 clz pc,pc ++ *[0-9a-f]*: f8 0c 12 00 clz r12,r12 ++ *[0-9a-f]*: ea 05 12 00 clz r5,r5 ++ *[0-9a-f]*: e8 04 12 00 clz r4,r4 ++ *[0-9a-f]*: fc 0e 12 00 clz lr,lr ++ *[0-9a-f]*: e6 02 12 00 clz r2,r3 ++ *[0-9a-f]*: f6 05 12 00 clz r5,r11 ++ *[0-9a-f]*: e6 0f 12 00 clz pc,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 13 00 cpc pc,pc ++ *[0-9a-f]*: f8 0c 13 00 cpc r12,r12 ++ *[0-9a-f]*: ea 05 13 00 cpc r5,r5 ++ *[0-9a-f]*: e8 04 13 00 cpc r4,r4 ++ *[0-9a-f]*: fc 0e 13 00 cpc lr,lr ++ *[0-9a-f]*: e8 0f 13 00 cpc pc,r4 ++ *[0-9a-f]*: f2 05 13 00 cpc r5,r9 ++ *[0-9a-f]*: ee 06 13 00 cpc r6,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 14 00 asr pc,pc,0x0 ++ *[0-9a-f]*: f8 0c 14 1f asr r12,r12,0x1f ++ *[0-9a-f]*: ea 05 14 10 asr r5,r5,0x10 ++ *[0-9a-f]*: e8 04 14 0f asr r4,r4,0xf ++ *[0-9a-f]*: fc 0e 14 01 asr lr,lr,0x1 ++ *[0-9a-f]*: f6 04 14 13 asr r4,r11,0x13 ++ *[0-9a-f]*: fe 0d 14 1a asr sp,pc,0x1a ++ *[0-9a-f]*: fa 0b 14 08 asr r11,sp,0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 15 00 lsl pc,pc,0x0 ++ *[0-9a-f]*: f8 0c 15 1f lsl r12,r12,0x1f ++ *[0-9a-f]*: ea 05 15 10 lsl r5,r5,0x10 ++ *[0-9a-f]*: e8 04 15 0f lsl r4,r4,0xf ++ *[0-9a-f]*: fc 0e 15 01 lsl lr,lr,0x1 ++ *[0-9a-f]*: f4 08 15 11 lsl r8,r10,0x11 ++ *[0-9a-f]*: fc 02 15 03 lsl r2,lr,0x3 ++ *[0-9a-f]*: f6 0e 15 0e lsl lr,r11,0xe ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 16 00 lsr pc,pc,0x0 ++ *[0-9a-f]*: f8 0c 16 1f lsr r12,r12,0x1f ++ *[0-9a-f]*: ea 05 16 10 lsr r5,r5,0x10 ++ *[0-9a-f]*: e8 04 16 0f lsr r4,r4,0xf ++ *[0-9a-f]*: fc 0e 16 01 lsr lr,lr,0x1 ++ *[0-9a-f]*: e6 04 16 1f lsr r4,r3,0x1f ++ *[0-9a-f]*: f2 0f 16 0e lsr pc,r9,0xe ++ *[0-9a-f]*: e0 03 16 06 lsr r3,r0,0x6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 17 00 moveq pc,pc ++ *[0-9a-f]*: f8 0c 17 f0 moval r12,r12 ++ *[0-9a-f]*: ea 05 17 80 movls r5,r5 ++ *[0-9a-f]*: e8 04 17 70 movpl r4,r4 ++ *[0-9a-f]*: fc 0e 17 10 movne lr,lr ++ *[0-9a-f]*: f6 0f 17 10 movne pc,r11 ++ *[0-9a-f]*: e4 0a 17 60 movmi r10,r2 ++ *[0-9a-f]*: f8 08 17 80 movls r8,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 0f padd\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 0c padd\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 05 padd\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 04 padd\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 0e padd\.h lr,lr,lr ++ *[0-9a-f]*: e4 07 20 08 padd\.h r8,r2,r7 ++ *[0-9a-f]*: e0 03 20 00 padd\.h r0,r0,r3 ++ *[0-9a-f]*: f6 06 20 0d padd\.h sp,r11,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 1f psub\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 1c psub\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 15 psub\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 14 psub\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 1e psub\.h lr,lr,lr ++ *[0-9a-f]*: ec 08 20 1e psub\.h lr,r6,r8 ++ *[0-9a-f]*: e2 0d 20 10 psub\.h r0,r1,sp ++ *[0-9a-f]*: fe 0d 20 1f psub\.h pc,pc,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 2f paddx\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 2c paddx\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 25 paddx\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 24 paddx\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 2e paddx\.h lr,lr,lr ++ *[0-9a-f]*: fe 01 20 2f paddx\.h pc,pc,r1 ++ *[0-9a-f]*: e8 05 20 2a paddx\.h r10,r4,r5 ++ *[0-9a-f]*: fe 02 20 25 paddx\.h r5,pc,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 3f psubx\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 3c psubx\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 35 psubx\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 34 psubx\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 3e psubx\.h lr,lr,lr ++ *[0-9a-f]*: f8 05 20 35 psubx\.h r5,r12,r5 ++ *[0-9a-f]*: f0 03 20 33 psubx\.h r3,r8,r3 ++ *[0-9a-f]*: e4 03 20 35 psubx\.h r5,r2,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 4f padds\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 4c padds\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 45 padds\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 44 padds\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 4e padds\.sh lr,lr,lr ++ *[0-9a-f]*: fc 02 20 49 padds\.sh r9,lr,r2 ++ *[0-9a-f]*: f0 01 20 46 padds\.sh r6,r8,r1 ++ *[0-9a-f]*: e8 0a 20 46 padds\.sh r6,r4,r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 5f psubs\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 5c psubs\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 55 psubs\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 54 psubs\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 5e psubs\.sh lr,lr,lr ++ *[0-9a-f]*: fc 0b 20 56 psubs\.sh r6,lr,r11 ++ *[0-9a-f]*: f8 04 20 52 psubs\.sh r2,r12,r4 ++ *[0-9a-f]*: f2 00 20 50 psubs\.sh r0,r9,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 6f paddxs\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 6c paddxs\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 65 paddxs\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 64 paddxs\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 6e paddxs\.sh lr,lr,lr ++ *[0-9a-f]*: e6 09 20 60 paddxs\.sh r0,r3,r9 ++ *[0-9a-f]*: f4 0b 20 6f paddxs\.sh pc,r10,r11 ++ *[0-9a-f]*: f4 0f 20 6f paddxs\.sh pc,r10,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 7f psubxs\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 7c psubxs\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 75 psubxs\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 74 psubxs\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 7e psubxs\.sh lr,lr,lr ++ *[0-9a-f]*: e8 04 20 77 psubxs\.sh r7,r4,r4 ++ *[0-9a-f]*: f0 03 20 77 psubxs\.sh r7,r8,r3 ++ *[0-9a-f]*: ec 05 20 7f psubxs\.sh pc,r6,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 8f padds\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 8c padds\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 85 padds\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 84 padds\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 8e padds\.uh lr,lr,lr ++ *[0-9a-f]*: f6 07 20 8c padds\.uh r12,r11,r7 ++ *[0-9a-f]*: f0 0e 20 87 padds\.uh r7,r8,lr ++ *[0-9a-f]*: f2 07 20 86 padds\.uh r6,r9,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 9f psubs\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 9c psubs\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 95 psubs\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 94 psubs\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 9e psubs\.uh lr,lr,lr ++ *[0-9a-f]*: f4 06 20 9e psubs\.uh lr,r10,r6 ++ *[0-9a-f]*: e4 0f 20 9d psubs\.uh sp,r2,pc ++ *[0-9a-f]*: f2 02 20 92 psubs\.uh r2,r9,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 af paddxs\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 ac paddxs\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 a5 paddxs\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 a4 paddxs\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 ae paddxs\.uh lr,lr,lr ++ *[0-9a-f]*: f2 05 20 a7 paddxs\.uh r7,r9,r5 ++ *[0-9a-f]*: e2 04 20 a9 paddxs\.uh r9,r1,r4 ++ *[0-9a-f]*: e4 03 20 a5 paddxs\.uh r5,r2,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 bf psubxs\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 bc psubxs\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 b5 psubxs\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 b4 psubxs\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 be psubxs\.uh lr,lr,lr ++ *[0-9a-f]*: ea 0d 20 bd psubxs\.uh sp,r5,sp ++ *[0-9a-f]*: ec 06 20 bd psubxs\.uh sp,r6,r6 ++ *[0-9a-f]*: f6 08 20 b3 psubxs\.uh r3,r11,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 cf paddh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 cc paddh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 c5 paddh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 c4 paddh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 ce paddh\.sh lr,lr,lr ++ *[0-9a-f]*: fa 03 20 cc paddh\.sh r12,sp,r3 ++ *[0-9a-f]*: ea 03 20 cf paddh\.sh pc,r5,r3 ++ *[0-9a-f]*: f0 0d 20 c8 paddh\.sh r8,r8,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 df psubh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 dc psubh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 d5 psubh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 d4 psubh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 de psubh\.sh lr,lr,lr ++ *[0-9a-f]*: ea 08 20 d1 psubh\.sh r1,r5,r8 ++ *[0-9a-f]*: e6 06 20 d7 psubh\.sh r7,r3,r6 ++ *[0-9a-f]*: e6 03 20 d4 psubh\.sh r4,r3,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 ef paddxh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 ec paddxh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 e5 paddxh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 e4 paddxh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 ee paddxh\.sh lr,lr,lr ++ *[0-9a-f]*: e0 04 20 e6 paddxh\.sh r6,r0,r4 ++ *[0-9a-f]*: f0 09 20 e9 paddxh\.sh r9,r8,r9 ++ *[0-9a-f]*: e0 0d 20 e3 paddxh\.sh r3,r0,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 ff psubxh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 fc psubxh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 f5 psubxh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 f4 psubxh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 fe psubxh\.sh lr,lr,lr ++ *[0-9a-f]*: fe 0c 20 f4 psubxh\.sh r4,pc,r12 ++ *[0-9a-f]*: e8 06 20 f8 psubxh\.sh r8,r4,r6 ++ *[0-9a-f]*: f2 04 20 fc psubxh\.sh r12,r9,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 0f paddsub\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 3c paddsub\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 35 paddsub\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 04 paddsub\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 3e paddsub\.h lr,lr:t,lr:t ++ *[0-9a-f]*: e4 0e 21 25 paddsub\.h r5,r2:t,lr:b ++ *[0-9a-f]*: e2 08 21 07 paddsub\.h r7,r1:b,r8:b ++ *[0-9a-f]*: f4 05 21 36 paddsub\.h r6,r10:t,r5:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 4f psubadd\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 7c psubadd\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 75 psubadd\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 44 psubadd\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 7e psubadd\.h lr,lr:t,lr:t ++ *[0-9a-f]*: f6 08 21 79 psubadd\.h r9,r11:t,r8:t ++ *[0-9a-f]*: ee 0e 21 7a psubadd\.h r10,r7:t,lr:t ++ *[0-9a-f]*: fe 0f 21 66 psubadd\.h r6,pc:t,pc:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 8f paddsubs\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 bc paddsubs\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 b5 paddsubs\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 84 paddsubs\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 be paddsubs\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: fc 00 21 a0 paddsubs\.sh r0,lr:t,r0:b ++ *[0-9a-f]*: e4 04 21 b9 paddsubs\.sh r9,r2:t,r4:t ++ *[0-9a-f]*: f2 0d 21 bc paddsubs\.sh r12,r9:t,sp:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 cf psubadds\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 fc psubadds\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 f5 psubadds\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 c4 psubadds\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 fe psubadds\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: fc 01 21 df psubadds\.sh pc,lr:b,r1:t ++ *[0-9a-f]*: e6 0c 21 cb psubadds\.sh r11,r3:b,r12:b ++ *[0-9a-f]*: e4 08 21 fa psubadds\.sh r10,r2:t,r8:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 0f paddsubs\.uh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 3c paddsubs\.uh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 35 paddsubs\.uh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 04 paddsubs\.uh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 3e paddsubs\.uh lr,lr:t,lr:t ++ *[0-9a-f]*: e4 03 22 09 paddsubs\.uh r9,r2:b,r3:b ++ *[0-9a-f]*: fa 07 22 1d paddsubs\.uh sp,sp:b,r7:t ++ *[0-9a-f]*: e0 0a 22 1e paddsubs\.uh lr,r0:b,r10:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 4f psubadds\.uh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 7c psubadds\.uh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 75 psubadds\.uh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 44 psubadds\.uh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 7e psubadds\.uh lr,lr:t,lr:t ++ *[0-9a-f]*: f2 0f 22 7c psubadds\.uh r12,r9:t,pc:t ++ *[0-9a-f]*: ec 08 22 48 psubadds\.uh r8,r6:b,r8:b ++ *[0-9a-f]*: f0 04 22 48 psubadds\.uh r8,r8:b,r4:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 8f paddsubh\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 bc paddsubh\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 b5 paddsubh\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 84 paddsubh\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 be paddsubh\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: f2 09 22 a8 paddsubh\.sh r8,r9:t,r9:b ++ *[0-9a-f]*: fa 01 22 b0 paddsubh\.sh r0,sp:t,r1:t ++ *[0-9a-f]*: e2 00 22 93 paddsubh\.sh r3,r1:b,r0:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 cf psubaddh\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 fc psubaddh\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 f5 psubaddh\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 c4 psubaddh\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 fe psubaddh\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: e6 0a 22 e7 psubaddh\.sh r7,r3:t,r10:b ++ *[0-9a-f]*: e4 01 22 f7 psubaddh\.sh r7,r2:t,r1:t ++ *[0-9a-f]*: e6 06 22 cb psubaddh\.sh r11,r3:b,r6:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 0f padd\.b pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 0c padd\.b r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 05 padd\.b r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 04 padd\.b r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 0e padd\.b lr,lr,lr ++ *[0-9a-f]*: ec 0f 23 02 padd\.b r2,r6,pc ++ *[0-9a-f]*: f2 0c 23 08 padd\.b r8,r9,r12 ++ *[0-9a-f]*: f8 03 23 05 padd\.b r5,r12,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 1f psub\.b pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 1c psub\.b r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 15 psub\.b r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 14 psub\.b r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 1e psub\.b lr,lr,lr ++ *[0-9a-f]*: f8 0f 23 10 psub\.b r0,r12,pc ++ *[0-9a-f]*: fa 0a 23 17 psub\.b r7,sp,r10 ++ *[0-9a-f]*: fa 0c 23 15 psub\.b r5,sp,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 2f padds\.sb pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 2c padds\.sb r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 25 padds\.sb r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 24 padds\.sb r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 2e padds\.sb lr,lr,lr ++ *[0-9a-f]*: f6 04 23 2d padds\.sb sp,r11,r4 ++ *[0-9a-f]*: f4 0b 23 2b padds\.sb r11,r10,r11 ++ *[0-9a-f]*: f8 06 23 25 padds\.sb r5,r12,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 3f psubs\.sb pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 3c psubs\.sb r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 35 psubs\.sb r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 34 psubs\.sb r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 3e psubs\.sb lr,lr,lr ++ *[0-9a-f]*: ec 08 23 37 psubs\.sb r7,r6,r8 ++ *[0-9a-f]*: f4 09 23 3c psubs\.sb r12,r10,r9 ++ *[0-9a-f]*: f6 00 23 3f psubs\.sb pc,r11,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 4f padds\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 4c padds\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 45 padds\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 44 padds\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 4e padds\.ub lr,lr,lr ++ *[0-9a-f]*: e4 0b 23 43 padds\.ub r3,r2,r11 ++ *[0-9a-f]*: f0 01 23 4a padds\.ub r10,r8,r1 ++ *[0-9a-f]*: f0 0a 23 4b padds\.ub r11,r8,r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 5f psubs\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 5c psubs\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 55 psubs\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 54 psubs\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 5e psubs\.ub lr,lr,lr ++ *[0-9a-f]*: e4 07 23 50 psubs\.ub r0,r2,r7 ++ *[0-9a-f]*: ea 03 23 5e psubs\.ub lr,r5,r3 ++ *[0-9a-f]*: ee 09 23 56 psubs\.ub r6,r7,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 6f paddh\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 6c paddh\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 65 paddh\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 64 paddh\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 6e paddh\.ub lr,lr,lr ++ *[0-9a-f]*: e2 00 23 6e paddh\.ub lr,r1,r0 ++ *[0-9a-f]*: ee 07 23 62 paddh\.ub r2,r7,r7 ++ *[0-9a-f]*: e2 02 23 62 paddh\.ub r2,r1,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 7f psubh\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 7c psubh\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 75 psubh\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 74 psubh\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 7e psubh\.ub lr,lr,lr ++ *[0-9a-f]*: e2 06 23 70 psubh\.ub r0,r1,r6 ++ *[0-9a-f]*: fc 0a 23 74 psubh\.ub r4,lr,r10 ++ *[0-9a-f]*: f0 01 23 79 psubh\.ub r9,r8,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 8f pmax\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 8c pmax\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 85 pmax\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 84 pmax\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 8e pmax\.ub lr,lr,lr ++ *[0-9a-f]*: e4 0b 23 8f pmax\.ub pc,r2,r11 ++ *[0-9a-f]*: e2 01 23 8c pmax\.ub r12,r1,r1 ++ *[0-9a-f]*: e4 00 23 85 pmax\.ub r5,r2,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 9f pmax\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 9c pmax\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 95 pmax\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 94 pmax\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 9e pmax\.sh lr,lr,lr ++ *[0-9a-f]*: ec 0c 23 9e pmax\.sh lr,r6,r12 ++ *[0-9a-f]*: fe 05 23 92 pmax\.sh r2,pc,r5 ++ *[0-9a-f]*: e4 07 23 9f pmax\.sh pc,r2,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 af pmin\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 ac pmin\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 a5 pmin\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 a4 pmin\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 ae pmin\.ub lr,lr,lr ++ *[0-9a-f]*: e2 05 23 a8 pmin\.ub r8,r1,r5 ++ *[0-9a-f]*: f0 03 23 a1 pmin\.ub r1,r8,r3 ++ *[0-9a-f]*: e4 07 23 a0 pmin\.ub r0,r2,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 bf pmin\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 bc pmin\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 b5 pmin\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 b4 pmin\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 be pmin\.sh lr,lr,lr ++ *[0-9a-f]*: e8 0a 23 b8 pmin\.sh r8,r4,r10 ++ *[0-9a-f]*: f4 0c 23 be pmin\.sh lr,r10,r12 ++ *[0-9a-f]*: ec 02 23 b2 pmin\.sh r2,r6,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 cf pavg\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 cc pavg\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 c5 pavg\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 c4 pavg\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 ce pavg\.ub lr,lr,lr ++ *[0-9a-f]*: e2 06 23 c0 pavg\.ub r0,r1,r6 ++ *[0-9a-f]*: e6 06 23 c8 pavg\.ub r8,r3,r6 ++ *[0-9a-f]*: f8 0a 23 cf pavg\.ub pc,r12,r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 df pavg\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 dc pavg\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 d5 pavg\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 d4 pavg\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 de pavg\.sh lr,lr,lr ++ *[0-9a-f]*: fe 0d 23 d9 pavg\.sh r9,pc,sp ++ *[0-9a-f]*: fa 03 23 df pavg\.sh pc,sp,r3 ++ *[0-9a-f]*: e2 09 23 d6 pavg\.sh r6,r1,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 23 ef pabs\.sb pc,pc ++ *[0-9a-f]*: e0 0c 23 ec pabs\.sb r12,r12 ++ *[0-9a-f]*: e0 05 23 e5 pabs\.sb r5,r5 ++ *[0-9a-f]*: e0 04 23 e4 pabs\.sb r4,r4 ++ *[0-9a-f]*: e0 0e 23 ee pabs\.sb lr,lr ++ *[0-9a-f]*: e0 06 23 eb pabs\.sb r11,r6 ++ *[0-9a-f]*: e0 09 23 ee pabs\.sb lr,r9 ++ *[0-9a-f]*: e0 07 23 ed pabs\.sb sp,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 23 ff pabs\.sh pc,pc ++ *[0-9a-f]*: e0 0c 23 fc pabs\.sh r12,r12 ++ *[0-9a-f]*: e0 05 23 f5 pabs\.sh r5,r5 ++ *[0-9a-f]*: e0 04 23 f4 pabs\.sh r4,r4 ++ *[0-9a-f]*: e0 0e 23 fe pabs\.sh lr,lr ++ *[0-9a-f]*: e0 03 23 ff pabs\.sh pc,r3 ++ *[0-9a-f]*: e0 07 23 f5 pabs\.sh r5,r7 ++ *[0-9a-f]*: e0 00 23 f4 pabs\.sh r4,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 0f psad pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 0c psad r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 05 psad r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 04 psad r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 0e psad lr,lr,lr ++ *[0-9a-f]*: f6 0b 24 09 psad r9,r11,r11 ++ *[0-9a-f]*: e8 0d 24 0e psad lr,r4,sp ++ *[0-9a-f]*: e8 05 24 0e psad lr,r4,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 1f pasr\.b pc,pc,0x0 ++ *[0-9a-f]*: f8 07 24 1c pasr\.b r12,r12,0x7 ++ *[0-9a-f]*: ea 04 24 15 pasr\.b r5,r5,0x4 ++ *[0-9a-f]*: e8 03 24 14 pasr\.b r4,r4,0x3 ++ *[0-9a-f]*: fc 01 24 1e pasr\.b lr,lr,0x1 ++ *[0-9a-f]*: ee 01 24 1f pasr\.b pc,r7,0x1 ++ *[0-9a-f]*: fc 06 24 1d pasr\.b sp,lr,0x6 ++ *[0-9a-f]*: e6 02 24 1d pasr\.b sp,r3,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 2f plsl\.b pc,pc,0x0 ++ *[0-9a-f]*: f8 07 24 2c plsl\.b r12,r12,0x7 ++ *[0-9a-f]*: ea 04 24 25 plsl\.b r5,r5,0x4 ++ *[0-9a-f]*: e8 03 24 24 plsl\.b r4,r4,0x3 ++ *[0-9a-f]*: fc 01 24 2e plsl\.b lr,lr,0x1 ++ *[0-9a-f]*: f6 04 24 22 plsl\.b r2,r11,0x4 ++ *[0-9a-f]*: ea 07 24 28 plsl\.b r8,r5,0x7 ++ *[0-9a-f]*: e0 02 24 2f plsl\.b pc,r0,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 3f plsr\.b pc,pc,0x0 ++ *[0-9a-f]*: f8 07 24 3c plsr\.b r12,r12,0x7 ++ *[0-9a-f]*: ea 04 24 35 plsr\.b r5,r5,0x4 ++ *[0-9a-f]*: e8 03 24 34 plsr\.b r4,r4,0x3 ++ *[0-9a-f]*: fc 01 24 3e plsr\.b lr,lr,0x1 ++ *[0-9a-f]*: e2 02 24 3c plsr\.b r12,r1,0x2 ++ *[0-9a-f]*: fe 07 24 36 plsr\.b r6,pc,0x7 ++ *[0-9a-f]*: f6 02 24 3c plsr\.b r12,r11,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 4f pasr\.h pc,pc,0x0 ++ *[0-9a-f]*: f8 0f 24 4c pasr\.h r12,r12,0xf ++ *[0-9a-f]*: ea 08 24 45 pasr\.h r5,r5,0x8 ++ *[0-9a-f]*: e8 07 24 44 pasr\.h r4,r4,0x7 ++ *[0-9a-f]*: fc 01 24 4e pasr\.h lr,lr,0x1 ++ *[0-9a-f]*: f6 0a 24 40 pasr\.h r0,r11,0xa ++ *[0-9a-f]*: ec 08 24 44 pasr\.h r4,r6,0x8 ++ *[0-9a-f]*: e4 04 24 46 pasr\.h r6,r2,0x4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 5f plsl\.h pc,pc,0x0 ++ *[0-9a-f]*: f8 0f 24 5c plsl\.h r12,r12,0xf ++ *[0-9a-f]*: ea 08 24 55 plsl\.h r5,r5,0x8 ++ *[0-9a-f]*: e8 07 24 54 plsl\.h r4,r4,0x7 ++ *[0-9a-f]*: fc 01 24 5e plsl\.h lr,lr,0x1 ++ *[0-9a-f]*: f4 09 24 55 plsl\.h r5,r10,0x9 ++ *[0-9a-f]*: fc 08 24 5d plsl\.h sp,lr,0x8 ++ *[0-9a-f]*: fc 07 24 50 plsl\.h r0,lr,0x7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 6f plsr\.h pc,pc,0x0 ++ *[0-9a-f]*: f8 0f 24 6c plsr\.h r12,r12,0xf ++ *[0-9a-f]*: ea 08 24 65 plsr\.h r5,r5,0x8 ++ *[0-9a-f]*: e8 07 24 64 plsr\.h r4,r4,0x7 ++ *[0-9a-f]*: fc 01 24 6e plsr\.h lr,lr,0x1 ++ *[0-9a-f]*: e0 0f 24 6b plsr\.h r11,r0,0xf ++ *[0-9a-f]*: e6 03 24 6e plsr\.h lr,r3,0x3 ++ *[0-9a-f]*: fc 0a 24 68 plsr\.h r8,lr,0xa ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 7f packw\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 7c packw\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 75 packw\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 74 packw\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 7e packw\.sh lr,lr,lr ++ *[0-9a-f]*: f6 0a 24 7d packw\.sh sp,r11,r10 ++ *[0-9a-f]*: e4 0c 24 78 packw\.sh r8,r2,r12 ++ *[0-9a-f]*: e2 05 24 78 packw\.sh r8,r1,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 8f punpckub\.h pc,pc:b ++ *[0-9a-f]*: f8 00 24 9c punpckub\.h r12,r12:t ++ *[0-9a-f]*: ea 00 24 95 punpckub\.h r5,r5:t ++ *[0-9a-f]*: e8 00 24 84 punpckub\.h r4,r4:b ++ *[0-9a-f]*: fc 00 24 9e punpckub\.h lr,lr:t ++ *[0-9a-f]*: e2 00 24 96 punpckub\.h r6,r1:t ++ *[0-9a-f]*: ea 00 24 8e punpckub\.h lr,r5:b ++ *[0-9a-f]*: e4 00 24 9e punpckub\.h lr,r2:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 af punpcksb\.h pc,pc:b ++ *[0-9a-f]*: f8 00 24 bc punpcksb\.h r12,r12:t ++ *[0-9a-f]*: ea 00 24 b5 punpcksb\.h r5,r5:t ++ *[0-9a-f]*: e8 00 24 a4 punpcksb\.h r4,r4:b ++ *[0-9a-f]*: fc 00 24 be punpcksb\.h lr,lr:t ++ *[0-9a-f]*: ee 00 24 b4 punpcksb\.h r4,r7:t ++ *[0-9a-f]*: fc 00 24 a6 punpcksb\.h r6,lr:b ++ *[0-9a-f]*: f8 00 24 bc punpcksb\.h r12,r12:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 cf packsh\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 cc packsh\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 c5 packsh\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 c4 packsh\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 ce packsh\.ub lr,lr,lr ++ *[0-9a-f]*: ec 03 24 c3 packsh\.ub r3,r6,r3 ++ *[0-9a-f]*: e0 03 24 c8 packsh\.ub r8,r0,r3 ++ *[0-9a-f]*: e6 0e 24 c9 packsh\.ub r9,r3,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 df packsh\.sb pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 dc packsh\.sb r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 d5 packsh\.sb r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 d4 packsh\.sb r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 de packsh\.sb lr,lr,lr ++ *[0-9a-f]*: f0 01 24 d6 packsh\.sb r6,r8,r1 ++ *[0-9a-f]*: f2 08 24 de packsh\.sb lr,r9,r8 ++ *[0-9a-f]*: ec 06 24 dd packsh\.sb sp,r6,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 1f 00 00 andl pc,0x0 ++ *[0-9a-f]*: e0 1c ff ff andl r12,0xffff ++ *[0-9a-f]*: e0 15 80 00 andl r5,0x8000 ++ *[0-9a-f]*: e0 14 7f ff andl r4,0x7fff ++ *[0-9a-f]*: e0 1e 00 01 andl lr,0x1 ++ *[0-9a-f]*: e0 1f 5a 58 andl pc,0x5a58 ++ *[0-9a-f]*: e0 18 b8 9e andl r8,0xb89e ++ *[0-9a-f]*: e0 17 35 97 andl r7,0x3597 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e2 1f 00 00 andl pc,0x0,COH ++ *[0-9a-f]*: e2 1c ff ff andl r12,0xffff,COH ++ *[0-9a-f]*: e2 15 80 00 andl r5,0x8000,COH ++ *[0-9a-f]*: e2 14 7f ff andl r4,0x7fff,COH ++ *[0-9a-f]*: e2 1e 00 01 andl lr,0x1,COH ++ *[0-9a-f]*: e2 16 58 e1 andl r6,0x58e1,COH ++ *[0-9a-f]*: e2 10 9e cd andl r0,0x9ecd,COH ++ *[0-9a-f]*: e2 14 bd c4 andl r4,0xbdc4,COH ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e4 1f 00 00 andh pc,0x0 ++ *[0-9a-f]*: e4 1c ff ff andh r12,0xffff ++ *[0-9a-f]*: e4 15 80 00 andh r5,0x8000 ++ *[0-9a-f]*: e4 14 7f ff andh r4,0x7fff ++ *[0-9a-f]*: e4 1e 00 01 andh lr,0x1 ++ *[0-9a-f]*: e4 1c cc 58 andh r12,0xcc58 ++ *[0-9a-f]*: e4 13 21 e3 andh r3,0x21e3 ++ *[0-9a-f]*: e4 12 a7 eb andh r2,0xa7eb ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e6 1f 00 00 andh pc,0x0,COH ++ *[0-9a-f]*: e6 1c ff ff andh r12,0xffff,COH ++ *[0-9a-f]*: e6 15 80 00 andh r5,0x8000,COH ++ *[0-9a-f]*: e6 14 7f ff andh r4,0x7fff,COH ++ *[0-9a-f]*: e6 1e 00 01 andh lr,0x1,COH ++ *[0-9a-f]*: e6 1b 86 0d andh r11,0x860d,COH ++ *[0-9a-f]*: e6 18 ce f6 andh r8,0xcef6,COH ++ *[0-9a-f]*: e6 1a 5c 83 andh r10,0x5c83,COH ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e8 1f 00 00 orl pc,0x0 ++ *[0-9a-f]*: e8 1c ff ff orl r12,0xffff ++ *[0-9a-f]*: e8 15 80 00 orl r5,0x8000 ++ *[0-9a-f]*: e8 14 7f ff orl r4,0x7fff ++ *[0-9a-f]*: e8 1e 00 01 orl lr,0x1 ++ *[0-9a-f]*: e8 1d 41 7e orl sp,0x417e ++ *[0-9a-f]*: e8 10 52 bd orl r0,0x52bd ++ *[0-9a-f]*: e8 1f ac 47 orl pc,0xac47 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ea 1f 00 00 orh pc,0x0 ++ *[0-9a-f]*: ea 1c ff ff orh r12,0xffff ++ *[0-9a-f]*: ea 15 80 00 orh r5,0x8000 ++ *[0-9a-f]*: ea 14 7f ff orh r4,0x7fff ++ *[0-9a-f]*: ea 1e 00 01 orh lr,0x1 ++ *[0-9a-f]*: ea 18 6e 7d orh r8,0x6e7d ++ *[0-9a-f]*: ea 1c 77 1c orh r12,0x771c ++ *[0-9a-f]*: ea 11 ea 1a orh r1,0xea1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ec 1f 00 00 eorl pc,0x0 ++ *[0-9a-f]*: ec 1c ff ff eorl r12,0xffff ++ *[0-9a-f]*: ec 15 80 00 eorl r5,0x8000 ++ *[0-9a-f]*: ec 14 7f ff eorl r4,0x7fff ++ *[0-9a-f]*: ec 1e 00 01 eorl lr,0x1 ++ *[0-9a-f]*: ec 14 c7 b9 eorl r4,0xc7b9 ++ *[0-9a-f]*: ec 16 fb dd eorl r6,0xfbdd ++ *[0-9a-f]*: ec 11 51 b1 eorl r1,0x51b1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ee 1f 00 00 eorh pc,0x0 ++ *[0-9a-f]*: ee 1c ff ff eorh r12,0xffff ++ *[0-9a-f]*: ee 15 80 00 eorh r5,0x8000 ++ *[0-9a-f]*: ee 14 7f ff eorh r4,0x7fff ++ *[0-9a-f]*: ee 1e 00 01 eorh lr,0x1 ++ *[0-9a-f]*: ee 10 2d d4 eorh r0,0x2dd4 ++ *[0-9a-f]*: ee 1a 94 b5 eorh r10,0x94b5 ++ *[0-9a-f]*: ee 19 df 2a eorh r9,0xdf2a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f0 1f 00 00 mcall [0-9a-f]* <.*> ++ *[0-9a-f]*: f0 1c ff ff mcall r12\[-4\] ++ *[0-9a-f]*: f0 15 80 00 mcall r5\[-131072\] ++ *[0-9a-f]*: f0 14 7f ff mcall r4\[131068\] ++ *[0-9a-f]*: f0 1e 00 01 mcall lr\[4\] ++ *[0-9a-f]*: f0 1d 3b bf mcall sp\[61180\] ++ *[0-9a-f]*: f0 14 dd d2 mcall r4\[-35000\] ++ *[0-9a-f]*: f0 10 09 b1 mcall r0\[9924\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f2 1f 00 00 pref pc\[0\] ++ *[0-9a-f]*: f2 1c ff ff pref r12\[-1\] ++ *[0-9a-f]*: f2 15 80 00 pref r5\[-32768\] ++ *[0-9a-f]*: f2 14 7f ff pref r4\[32767\] ++ *[0-9a-f]*: f2 1e 00 01 pref lr\[1\] ++ *[0-9a-f]*: f2 17 1e 44 pref r7\[7748\] ++ *[0-9a-f]*: f2 17 e1 ed pref r7\[-7699\] ++ *[0-9a-f]*: f2 12 9a dc pref r2\[-25892\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f4 1f 00 00 cache pc\[0\],0x0 ++ *[0-9a-f]*: f4 1c ff ff cache r12\[-1\],0x1f ++ *[0-9a-f]*: f4 15 84 00 cache r5\[-1024\],0x10 ++ *[0-9a-f]*: f4 14 7b ff cache r4\[1023\],0xf ++ *[0-9a-f]*: f4 1e 08 01 cache lr\[1\],0x1 ++ *[0-9a-f]*: f4 13 8c 3c cache r3\[-964\],0x11 ++ *[0-9a-f]*: f4 14 b6 89 cache r4\[-375\],0x16 ++ *[0-9a-f]*: f4 13 8c 88 cache r3\[-888\],0x11 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 20 0f sub pc,0 ++ *[0-9a-f]*: 2f fc sub r12,-1 ++ *[0-9a-f]*: f0 25 00 00 sub r5,-1048576 ++ *[0-9a-f]*: ee 34 ff ff sub r4,1048575 ++ *[0-9a-f]*: 20 1e sub lr,1 ++ *[0-9a-f]*: f6 22 8d 6c sub r2,-619156 ++ *[0-9a-f]*: e6 3e 0a cd sub lr,461517 ++ *[0-9a-f]*: fc 38 2d 25 sub r8,-185051 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 58 0f cp.w pc,0 ++ *[0-9a-f]*: 5b fc cp.w r12,-1 ++ *[0-9a-f]*: f0 45 00 00 cp.w r5,-1048576 ++ *[0-9a-f]*: ee 54 ff ff cp.w r4,1048575 ++ *[0-9a-f]*: 58 1e cp.w lr,1 ++ *[0-9a-f]*: e0 51 e4 ae cp.w r1,124078 ++ *[0-9a-f]*: fa 40 37 e3 cp.w r0,-378909 ++ *[0-9a-f]*: fc 44 4a 14 cp.w r4,-243180 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 30 0f mov pc,0 ++ *[0-9a-f]*: 3f fc mov r12,-1 ++ *[0-9a-f]*: f0 65 00 00 mov r5,-1048576 ++ *[0-9a-f]*: ee 74 ff ff mov r4,1048575 ++ *[0-9a-f]*: 30 1e mov lr,1 ++ *[0-9a-f]*: fa 75 29 a3 mov r5,-317021 ++ *[0-9a-f]*: f4 6d 91 94 mov sp,-749164 ++ *[0-9a-f]*: ee 65 58 93 mov r5,940179 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 00 breq [0-9a-f]* <.*> ++ *[0-9a-f]*: fe 9f ff ff bral [0-9a-f]* <.*> ++ *[0-9a-f]*: f0 88 00 00 brls [0-9a-f]* <.*> ++ *[0-9a-f]*: ee 97 ff ff brpl [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 11 brne [0-9a-f]* <.*> ++ *[0-9a-f]*: f2 8b 4a 4d brhi [0-9a-f]* <.*> ++ *[0-9a-f]*: ea 8e 14 cc brqs [0-9a-f]* <.*> ++ *[0-9a-f]*: fa 98 98 33 brls [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 0c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf ff rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: f0 a0 00 00 rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: ee b0 ff ff rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 1c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: e2 b0 ca 5a rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: e8 a0 47 52 rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: fe b0 fd ef rcall [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe cf 00 00 sub pc,pc,0 ++ *[0-9a-f]*: f8 cc ff ff sub r12,r12,-1 ++ *[0-9a-f]*: ea c5 80 00 sub r5,r5,-32768 ++ *[0-9a-f]*: e8 c4 7f ff sub r4,r4,32767 ++ *[0-9a-f]*: fc ce 00 01 sub lr,lr,1 ++ *[0-9a-f]*: fe cf ce 38 sub pc,pc,-12744 ++ *[0-9a-f]*: ee c7 95 1b sub r7,r7,-27365 ++ *[0-9a-f]*: f2 c2 bc 32 sub r2,r9,-17358 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe df 00 00 satsub\.w pc,pc,0 ++ *[0-9a-f]*: f8 dc ff ff satsub\.w r12,r12,-1 ++ *[0-9a-f]*: ea d5 80 00 satsub\.w r5,r5,-32768 ++ *[0-9a-f]*: e8 d4 7f ff satsub\.w r4,r4,32767 ++ *[0-9a-f]*: fc de 00 01 satsub\.w lr,lr,1 ++ *[0-9a-f]*: fc d2 f8 29 satsub\.w r2,lr,-2007 ++ *[0-9a-f]*: f8 d7 fc f0 satsub\.w r7,r12,-784 ++ *[0-9a-f]*: ee d4 5a 8c satsub\.w r4,r7,23180 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe e0 00 00 ld\.d r0,pc\[0\] ++ *[0-9a-f]*: f8 ee ff ff ld\.d lr,r12\[-1\] ++ *[0-9a-f]*: ea e8 80 00 ld\.d r8,r5\[-32768\] ++ *[0-9a-f]*: e8 e6 7f ff ld\.d r6,r4\[32767\] ++ *[0-9a-f]*: fc e2 00 01 ld\.d r2,lr\[1\] ++ *[0-9a-f]*: f6 ee 39 c0 ld\.d lr,r11\[14784\] ++ *[0-9a-f]*: f2 e6 b6 27 ld\.d r6,r9\[-18905\] ++ *[0-9a-f]*: e6 e2 e7 2d ld\.d r2,r3\[-6355\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 7e 0f ld\.w pc,pc\[0x0\] ++ *[0-9a-f]*: f8 fc ff ff ld\.w r12,r12\[-1\] ++ *[0-9a-f]*: ea f5 80 00 ld\.w r5,r5\[-32768\] ++ *[0-9a-f]*: e8 f4 7f ff ld\.w r4,r4\[32767\] ++ *[0-9a-f]*: fc fe 00 01 ld\.w lr,lr\[1\] ++ *[0-9a-f]*: f8 f0 a9 8b ld\.w r0,r12\[-22133\] ++ *[0-9a-f]*: fe fd af d7 ld\.w sp,pc\[-20521\] ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 0f ld\.sh pc,pc\[0x0\] ++ *[0-9a-f]*: f9 0c ff ff ld\.sh r12,r12\[-1\] ++ *[0-9a-f]*: eb 05 80 00 ld\.sh r5,r5\[-32768\] ++ *[0-9a-f]*: e9 04 7f ff ld\.sh r4,r4\[32767\] ++ *[0-9a-f]*: fd 0e 00 01 ld\.sh lr,lr\[1\] ++ *[0-9a-f]*: f5 06 78 d2 ld\.sh r6,r10\[30930\] ++ *[0-9a-f]*: f5 06 55 d5 ld\.sh r6,r10\[21973\] ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 8f ld\.uh pc,pc\[0x0\] ++ *[0-9a-f]*: f9 1c ff ff ld\.uh r12,r12\[-1\] ++ *[0-9a-f]*: eb 15 80 00 ld\.uh r5,r5\[-32768\] ++ *[0-9a-f]*: e9 14 7f ff ld\.uh r4,r4\[32767\] ++ *[0-9a-f]*: fd 1e 00 01 ld\.uh lr,lr\[1\] ++ *[0-9a-f]*: f3 11 cb d6 ld\.uh r1,r9\[-13354\] ++ *[0-9a-f]*: f7 1e 53 59 ld\.uh lr,r11\[21337\] ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff 2f 00 00 ld\.sb pc,pc\[0\] ++ *[0-9a-f]*: f9 2c ff ff ld\.sb r12,r12\[-1\] ++ *[0-9a-f]*: eb 25 80 00 ld\.sb r5,r5\[-32768\] ++ *[0-9a-f]*: e9 24 7f ff ld\.sb r4,r4\[32767\] ++ *[0-9a-f]*: fd 2e 00 01 ld\.sb lr,lr\[1\] ++ *[0-9a-f]*: fb 27 90 09 ld\.sb r7,sp\[-28663\] ++ *[0-9a-f]*: e3 22 e9 09 ld\.sb r2,r1\[-5879\] ++ *[0-9a-f]*: e7 2c 49 2e ld\.sb r12,r3\[18734\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 8f ld\.ub pc,pc\[0x0\] ++ *[0-9a-f]*: f9 3c ff ff ld\.ub r12,r12\[-1\] ++ *[0-9a-f]*: eb 35 80 00 ld\.ub r5,r5\[-32768\] ++ *[0-9a-f]*: e9 34 7f ff ld\.ub r4,r4\[32767\] ++ *[0-9a-f]*: 1d 9e ld\.ub lr,lr\[0x1\] ++ *[0-9a-f]*: e9 3f 20 55 ld\.ub pc,r4\[8277\] ++ *[0-9a-f]*: f9 35 4a e4 ld\.ub r5,r12\[19172\] ++ *[0-9a-f]*: fd 3a 66 eb ld\.ub r10,lr\[26347\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe e1 00 00 st\.d pc\[0\],r0 ++ *[0-9a-f]*: f8 ef ff ff st\.d r12\[-1\],lr ++ *[0-9a-f]*: ea e9 80 00 st\.d r5\[-32768\],r8 ++ *[0-9a-f]*: e8 e7 7f ff st\.d r4\[32767\],r6 ++ *[0-9a-f]*: fc e3 00 01 st\.d lr\[1\],r2 ++ *[0-9a-f]*: ea eb 33 90 st\.d r5\[13200\],r10 ++ *[0-9a-f]*: ea eb 24 88 st\.d r5\[9352\],r10 ++ *[0-9a-f]*: ea e5 7e 75 st\.d r5\[32373\],r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9f 0f st\.w pc\[0x0\],pc ++ *[0-9a-f]*: f9 4c ff ff st\.w r12\[-1\],r12 ++ *[0-9a-f]*: eb 45 80 00 st\.w r5\[-32768\],r5 ++ *[0-9a-f]*: e9 44 7f ff st\.w r4\[32767\],r4 ++ *[0-9a-f]*: fd 4e 00 01 st\.w lr\[1\],lr ++ *[0-9a-f]*: fb 47 17 f8 st\.w sp\[6136\],r7 ++ *[0-9a-f]*: ed 4c 69 cf st\.w r6\[27087\],r12 ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 0f st\.h pc\[0x0\],pc ++ *[0-9a-f]*: f9 5c ff ff st\.h r12\[-1\],r12 ++ *[0-9a-f]*: eb 55 80 00 st\.h r5\[-32768\],r5 ++ *[0-9a-f]*: e9 54 7f ff st\.h r4\[32767\],r4 ++ *[0-9a-f]*: fd 5e 00 01 st\.h lr\[1\],lr ++ *[0-9a-f]*: e9 57 d9 16 st\.h r4\[-9962\],r7 ++ *[0-9a-f]*: f3 53 c0 86 st\.h r9\[-16250\],r3 ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 8f st\.b pc\[0x0\],pc ++ *[0-9a-f]*: f9 6c ff ff st\.b r12\[-1\],r12 ++ *[0-9a-f]*: eb 65 80 00 st\.b r5\[-32768\],r5 ++ *[0-9a-f]*: e9 64 7f ff st\.b r4\[32767\],r4 ++ *[0-9a-f]*: bc 9e st\.b lr\[0x1\],lr ++ *[0-9a-f]*: f9 66 75 96 st\.b r12\[30102\],r6 ++ *[0-9a-f]*: eb 61 71 31 st\.b r5\[28977\],r1 ++ *[0-9a-f]*: e1 61 15 5e st\.b r0\[5470\],r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 bf 00 00 mfsr pc,0x0 ++ *[0-9a-f]*: e1 bc 00 ff mfsr r12,0x3fc ++ *[0-9a-f]*: e1 b5 00 80 mfsr r5,0x200 ++ *[0-9a-f]*: e1 b4 00 7f mfsr r4,0x1fc ++ *[0-9a-f]*: e1 be 00 01 mfsr lr,0x4 ++ *[0-9a-f]*: e1 b2 00 ae mfsr r2,0x2b8 ++ *[0-9a-f]*: e1 b4 00 41 mfsr r4,0x104 ++ *[0-9a-f]*: e1 ba 00 fe mfsr r10,0x3f8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e3 bf 00 00 mtsr 0x0,pc ++ *[0-9a-f]*: e3 bc 00 ff mtsr 0x3fc,r12 ++ *[0-9a-f]*: e3 b5 00 80 mtsr 0x200,r5 ++ *[0-9a-f]*: e3 b4 00 7f mtsr 0x1fc,r4 ++ *[0-9a-f]*: e3 be 00 01 mtsr 0x4,lr ++ *[0-9a-f]*: e3 ba 00 38 mtsr 0xe0,r10 ++ *[0-9a-f]*: e3 bc 00 d1 mtsr 0x344,r12 ++ *[0-9a-f]*: e3 b9 00 4c mtsr 0x130,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 bf 00 00 mfdr pc,0x0 ++ *[0-9a-f]*: e5 bc 00 ff mfdr r12,0x3fc ++ *[0-9a-f]*: e5 b5 00 80 mfdr r5,0x200 ++ *[0-9a-f]*: e5 b4 00 7f mfdr r4,0x1fc ++ *[0-9a-f]*: e5 be 00 01 mfdr lr,0x4 ++ *[0-9a-f]*: e5 b6 00 e9 mfdr r6,0x3a4 ++ *[0-9a-f]*: e5 b5 00 09 mfdr r5,0x24 ++ *[0-9a-f]*: e5 b9 00 4b mfdr r9,0x12c ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e7 bf 00 00 mtdr 0x0,pc ++ *[0-9a-f]*: e7 bc 00 ff mtdr 0x3fc,r12 ++ *[0-9a-f]*: e7 b5 00 80 mtdr 0x200,r5 ++ *[0-9a-f]*: e7 b4 00 7f mtdr 0x1fc,r4 ++ *[0-9a-f]*: e7 be 00 01 mtdr 0x4,lr ++ *[0-9a-f]*: e7 b8 00 2d mtdr 0xb4,r8 ++ *[0-9a-f]*: e7 ba 00 b4 mtdr 0x2d0,r10 ++ *[0-9a-f]*: e7 be 00 66 mtdr 0x198,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 b0 00 00 sleep 0x0 ++ *[0-9a-f]*: e9 b0 00 ff sleep 0xff ++ *[0-9a-f]*: e9 b0 00 80 sleep 0x80 ++ *[0-9a-f]*: e9 b0 00 7f sleep 0x7f ++ *[0-9a-f]*: e9 b0 00 01 sleep 0x1 ++ *[0-9a-f]*: e9 b0 00 fe sleep 0xfe ++ *[0-9a-f]*: e9 b0 00 0f sleep 0xf ++ *[0-9a-f]*: e9 b0 00 2b sleep 0x2b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb b0 00 00 sync 0x0 ++ *[0-9a-f]*: eb b0 00 ff sync 0xff ++ *[0-9a-f]*: eb b0 00 80 sync 0x80 ++ *[0-9a-f]*: eb b0 00 7f sync 0x7f ++ *[0-9a-f]*: eb b0 00 01 sync 0x1 ++ *[0-9a-f]*: eb b0 00 a6 sync 0xa6 ++ *[0-9a-f]*: eb b0 00 e6 sync 0xe6 ++ *[0-9a-f]*: eb b0 00 b4 sync 0xb4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed bf 00 00 bld pc,0x0 ++ *[0-9a-f]*: ed bc 00 1f bld r12,0x1f ++ *[0-9a-f]*: ed b5 00 10 bld r5,0x10 ++ *[0-9a-f]*: ed b4 00 0f bld r4,0xf ++ *[0-9a-f]*: ed be 00 01 bld lr,0x1 ++ *[0-9a-f]*: ed b9 00 0f bld r9,0xf ++ *[0-9a-f]*: ed b0 00 04 bld r0,0x4 ++ *[0-9a-f]*: ed be 00 1a bld lr,0x1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef bf 00 00 bst pc,0x0 ++ *[0-9a-f]*: ef bc 00 1f bst r12,0x1f ++ *[0-9a-f]*: ef b5 00 10 bst r5,0x10 ++ *[0-9a-f]*: ef b4 00 0f bst r4,0xf ++ *[0-9a-f]*: ef be 00 01 bst lr,0x1 ++ *[0-9a-f]*: ef ba 00 1c bst r10,0x1c ++ *[0-9a-f]*: ef b0 00 03 bst r0,0x3 ++ *[0-9a-f]*: ef bd 00 02 bst sp,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f1 bf 00 00 sats pc,0x0 ++ *[0-9a-f]*: f1 bc 03 ff sats r12>>0x1f,0x1f ++ *[0-9a-f]*: f1 b5 02 10 sats r5>>0x10,0x10 ++ *[0-9a-f]*: f1 b4 01 ef sats r4>>0xf,0xf ++ *[0-9a-f]*: f1 be 00 21 sats lr>>0x1,0x1 ++ *[0-9a-f]*: f1 ba 02 63 sats r10>>0x3,0x13 ++ *[0-9a-f]*: f1 ba 03 42 sats r10>>0x2,0x1a ++ *[0-9a-f]*: f1 b1 00 34 sats r1>>0x14,0x1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f1 bf 04 00 satu pc,0x0 ++ *[0-9a-f]*: f1 bc 07 ff satu r12>>0x1f,0x1f ++ *[0-9a-f]*: f1 b5 06 10 satu r5>>0x10,0x10 ++ *[0-9a-f]*: f1 b4 05 ef satu r4>>0xf,0xf ++ *[0-9a-f]*: f1 be 04 21 satu lr>>0x1,0x1 ++ *[0-9a-f]*: f1 bf 04 e5 satu pc>>0x5,0x7 ++ *[0-9a-f]*: f1 b7 04 a5 satu r7>>0x5,0x5 ++ *[0-9a-f]*: f1 b2 06 7a satu r2>>0x1a,0x13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f3 bf 00 00 satrnds pc,0x0 ++ *[0-9a-f]*: f3 bc 03 ff satrnds r12>>0x1f,0x1f ++ *[0-9a-f]*: f3 b5 02 10 satrnds r5>>0x10,0x10 ++ *[0-9a-f]*: f3 b4 01 ef satrnds r4>>0xf,0xf ++ *[0-9a-f]*: f3 be 00 21 satrnds lr>>0x1,0x1 ++ *[0-9a-f]*: f3 b0 02 75 satrnds r0>>0x15,0x13 ++ *[0-9a-f]*: f3 bd 00 40 satrnds sp,0x2 ++ *[0-9a-f]*: f3 b7 03 a6 satrnds r7>>0x6,0x1d ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f3 bf 04 00 satrndu pc,0x0 ++ *[0-9a-f]*: f3 bc 07 ff satrndu r12>>0x1f,0x1f ++ *[0-9a-f]*: f3 b5 06 10 satrndu r5>>0x10,0x10 ++ *[0-9a-f]*: f3 b4 05 ef satrndu r4>>0xf,0xf ++ *[0-9a-f]*: f3 be 04 21 satrndu lr>>0x1,0x1 ++ *[0-9a-f]*: f3 bc 07 40 satrndu r12,0x1a ++ *[0-9a-f]*: f3 b4 04 75 satrndu r4>>0x15,0x3 ++ *[0-9a-f]*: f3 ba 06 03 satrndu r10>>0x3,0x10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f5 bf 00 00 subfeq pc,0 ++ *[0-9a-f]*: f5 bc 0f ff subfal r12,-1 ++ *[0-9a-f]*: f5 b5 08 80 subfls r5,-128 ++ *[0-9a-f]*: f5 b4 07 7f subfpl r4,127 ++ *[0-9a-f]*: f5 be 01 01 subfne lr,1 ++ *[0-9a-f]*: f5 ba 08 08 subfls r10,8 ++ *[0-9a-f]*: f5 bb 0d 63 subfvc r11,99 ++ *[0-9a-f]*: f5 b2 0c 49 subfvs r2,73 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f7 bf 00 00 subeq pc,0 ++ *[0-9a-f]*: f7 bc 0f ff subal r12,-1 ++ *[0-9a-f]*: f7 b5 08 80 subls r5,-128 ++ *[0-9a-f]*: f7 b4 07 7f subpl r4,127 ++ *[0-9a-f]*: f7 be 01 01 subne lr,1 ++ *[0-9a-f]*: f7 bc 08 76 subls r12,118 ++ *[0-9a-f]*: f7 be 0d f4 subvc lr,-12 ++ *[0-9a-f]*: f7 b4 06 f3 submi r4,-13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f9 bf 00 00 moveq pc,0 ++ *[0-9a-f]*: f9 bc 0f ff moval r12,-1 ++ *[0-9a-f]*: f9 b5 08 80 movls r5,-128 ++ *[0-9a-f]*: f9 b4 07 7f movpl r4,127 ++ *[0-9a-f]*: f9 be 01 01 movne lr,1 ++ *[0-9a-f]*: f9 b3 05 86 movlt r3,-122 ++ *[0-9a-f]*: f9 b8 0d 02 movvc r8,2 ++ *[0-9a-f]*: f9 b7 01 91 movne r7,-111 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 18 00 cp\.b pc,r0 ++ *[0-9a-f]*: fe 00 18 00 cp\.b r0,pc ++ *[0-9a-f]*: f0 07 18 00 cp\.b r7,r8 ++ *[0-9a-f]*: ee 08 18 00 cp\.b r8,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 19 00 cp\.h pc,r0 ++ *[0-9a-f]*: fe 00 19 00 cp\.h r0,pc ++ *[0-9a-f]*: f0 07 19 00 cp\.h r7,r8 ++ *[0-9a-f]*: ee 08 19 00 cp\.h r8,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 cf 00 7e ldm pc,r1-r6 ++ *[0-9a-f]*: e1 cc ff ff ldm r12,r0-pc ++ *[0-9a-f]*: e1 c5 80 00 ldm r5,pc ++ *[0-9a-f]*: e1 c4 7f ff ldm r4,r0-lr ++ *[0-9a-f]*: e1 ce 00 01 ldm lr,r0 ++ *[0-9a-f]*: e1 c9 40 22 ldm r9,r1,r5,lr ++ *[0-9a-f]*: e1 cb 81 ec ldm r11,r2-r3,r5-r8,pc ++ *[0-9a-f]*: e1 c6 a2 09 ldm r6,r0,r3,r9,sp,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e3 cf 03 c0 ldm pc\+\+,r6-r9 ++ *[0-9a-f]*: e3 cc ff ff ldm r12\+\+,r0-pc ++ *[0-9a-f]*: e3 c5 80 00 ldm r5\+\+,pc ++ *[0-9a-f]*: e3 c4 7f ff ldm r4\+\+,r0-lr ++ *[0-9a-f]*: e3 ce 00 01 ldm lr\+\+,r0 ++ *[0-9a-f]*: e3 cc d5 38 ldm r12\+\+,r3-r5,r8,r10,r12,lr-pc ++ *[0-9a-f]*: e3 ca c0 74 ldm r10\+\+,r2,r4-r6,lr-pc ++ *[0-9a-f]*: e3 c6 7e 1a ldm r6\+\+,r1,r3-r4,r9-lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 cf 01 80 ldmts pc,r7-r8 ++ *[0-9a-f]*: e5 cc ff ff ldmts r12,r0-pc ++ *[0-9a-f]*: e5 c5 80 00 ldmts r5,pc ++ *[0-9a-f]*: e5 c4 7f ff ldmts r4,r0-lr ++ *[0-9a-f]*: e5 ce 00 01 ldmts lr,r0 ++ *[0-9a-f]*: e5 c0 18 06 ldmts r0,r1-r2,r11-r12 ++ *[0-9a-f]*: e5 ce 61 97 ldmts lr,r0-r2,r4,r7-r8,sp-lr ++ *[0-9a-f]*: e5 cc c2 3b ldmts r12,r0-r1,r3-r5,r9,lr-pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e7 cf 02 00 ldmts pc\+\+,r9 ++ *[0-9a-f]*: e7 cc ff ff ldmts r12\+\+,r0-pc ++ *[0-9a-f]*: e7 c5 80 00 ldmts r5\+\+,pc ++ *[0-9a-f]*: e7 c4 7f ff ldmts r4\+\+,r0-lr ++ *[0-9a-f]*: e7 ce 00 01 ldmts lr\+\+,r0 ++ *[0-9a-f]*: e7 cd 0a bd ldmts sp\+\+,r0,r2-r5,r7,r9,r11 ++ *[0-9a-f]*: e7 c5 0c 8e ldmts r5\+\+,r1-r3,r7,r10-r11 ++ *[0-9a-f]*: e7 c8 a1 9c ldmts r8\+\+,r2-r4,r7-r8,sp,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 cf 00 80 stm pc,r7 ++ *[0-9a-f]*: e9 cc ff ff stm r12,r0-pc ++ *[0-9a-f]*: e9 c5 80 00 stm r5,pc ++ *[0-9a-f]*: e9 c4 7f ff stm r4,r0-lr ++ *[0-9a-f]*: e9 ce 00 01 stm lr,r0 ++ *[0-9a-f]*: e9 cd 49 2c stm sp,r2-r3,r5,r8,r11,lr ++ *[0-9a-f]*: e9 c4 4c 5f stm r4,r0-r4,r6,r10-r11,lr ++ *[0-9a-f]*: e9 c9 f2 22 stm r9,r1,r5,r9,r12-pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb cf 00 70 stm --pc,r4-r6 ++ *[0-9a-f]*: eb cc ff ff stm --r12,r0-pc ++ *[0-9a-f]*: eb c5 80 00 stm --r5,pc ++ *[0-9a-f]*: eb c4 7f ff stm --r4,r0-lr ++ *[0-9a-f]*: eb ce 00 01 stm --lr,r0 ++ *[0-9a-f]*: eb cb fb f1 stm --r11,r0,r4-r9,r11-pc ++ *[0-9a-f]*: eb cb 56 09 stm --r11,r0,r3,r9-r10,r12,lr ++ *[0-9a-f]*: eb c6 63 04 stm --r6,r2,r8-r9,sp-lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed cf 01 00 stmts pc,r8 ++ *[0-9a-f]*: ed cc ff ff stmts r12,r0-pc ++ *[0-9a-f]*: ed c5 80 00 stmts r5,pc ++ *[0-9a-f]*: ed c4 7f ff stmts r4,r0-lr ++ *[0-9a-f]*: ed ce 00 01 stmts lr,r0 ++ *[0-9a-f]*: ed c1 c6 5b stmts r1,r0-r1,r3-r4,r6,r9-r10,lr-pc ++ *[0-9a-f]*: ed c3 1d c1 stmts r3,r0,r6-r8,r10-r12 ++ *[0-9a-f]*: ed cb d6 d1 stmts r11,r0,r4,r6-r7,r9-r10,r12,lr-pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef cf 01 c0 stmts --pc,r6-r8 ++ *[0-9a-f]*: ef cc ff ff stmts --r12,r0-pc ++ *[0-9a-f]*: ef c5 80 00 stmts --r5,pc ++ *[0-9a-f]*: ef c4 7f ff stmts --r4,r0-lr ++ *[0-9a-f]*: ef ce 00 01 stmts --lr,r0 ++ *[0-9a-f]*: ef c2 36 19 stmts --r2,r0,r3-r4,r9-r10,r12-sp ++ *[0-9a-f]*: ef c3 c0 03 stmts --r3,r0-r1,lr-pc ++ *[0-9a-f]*: ef c0 44 7d stmts --r0,r0,r2-r6,r10,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 00 00 ldins\.h pc:b,pc\[0\] ++ *[0-9a-f]*: f9 dc 1f ff ldins\.h r12:t,r12\[-2\] ++ *[0-9a-f]*: eb d5 18 00 ldins\.h r5:t,r5\[-4096\] ++ *[0-9a-f]*: e9 d4 07 ff ldins\.h r4:b,r4\[4094\] ++ *[0-9a-f]*: fd de 10 01 ldins\.h lr:t,lr\[2\] ++ *[0-9a-f]*: fd d0 13 c5 ldins\.h r0:t,lr\[1930\] ++ *[0-9a-f]*: ef d3 0e f5 ldins\.h r3:b,r7\[-534\] ++ *[0-9a-f]*: f9 d2 0b 9a ldins\.h r2:b,r12\[-2252\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 40 00 ldins\.b pc:b,pc\[0\] ++ *[0-9a-f]*: f9 dc 7f ff ldins\.b r12:t,r12\[-1\] ++ *[0-9a-f]*: eb d5 68 00 ldins\.b r5:u,r5\[-2048\] ++ *[0-9a-f]*: e9 d4 57 ff ldins\.b r4:l,r4\[2047\] ++ *[0-9a-f]*: fd de 50 01 ldins\.b lr:l,lr\[1\] ++ *[0-9a-f]*: e9 d6 7d 6a ldins\.b r6:t,r4\[-662\] ++ *[0-9a-f]*: e3 d5 4f 69 ldins\.b r5:b,r1\[-151\] ++ *[0-9a-f]*: f7 da 78 7d ldins\.b r10:t,r11\[-1923\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 20 00 ldswp\.sh pc,pc\[0\] ++ *[0-9a-f]*: f9 dc 2f ff ldswp\.sh r12,r12\[-2\] ++ *[0-9a-f]*: eb d5 28 00 ldswp\.sh r5,r5\[-4096\] ++ *[0-9a-f]*: e9 d4 27 ff ldswp\.sh r4,r4\[4094\] ++ *[0-9a-f]*: fd de 20 01 ldswp\.sh lr,lr\[2\] ++ *[0-9a-f]*: f5 d9 27 84 ldswp\.sh r9,r10\[3848\] ++ *[0-9a-f]*: f9 d4 2c 04 ldswp\.sh r4,r12\[-2040\] ++ *[0-9a-f]*: e5 da 26 08 ldswp\.sh r10,r2\[3088\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 30 00 ldswp\.uh pc,pc\[0\] ++ *[0-9a-f]*: f9 dc 3f ff ldswp\.uh r12,r12\[-2\] ++ *[0-9a-f]*: eb d5 38 00 ldswp\.uh r5,r5\[-4096\] ++ *[0-9a-f]*: e9 d4 37 ff ldswp\.uh r4,r4\[4094\] ++ *[0-9a-f]*: fd de 30 01 ldswp\.uh lr,lr\[2\] ++ *[0-9a-f]*: f3 d4 37 46 ldswp\.uh r4,r9\[3724\] ++ *[0-9a-f]*: fb de 3c bc ldswp\.uh lr,sp\[-1672\] ++ *[0-9a-f]*: f9 d8 38 7d ldswp\.uh r8,r12\[-3846\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 80 00 ldswp\.w pc,pc\[0\] ++ *[0-9a-f]*: f9 dc 8f ff ldswp\.w r12,r12\[-4\] ++ *[0-9a-f]*: eb d5 88 00 ldswp\.w r5,r5\[-8192\] ++ *[0-9a-f]*: e9 d4 87 ff ldswp\.w r4,r4\[8188\] ++ *[0-9a-f]*: fd de 80 01 ldswp\.w lr,lr\[4\] ++ *[0-9a-f]*: ef dd 81 d1 ldswp\.w sp,r7\[1860\] ++ *[0-9a-f]*: eb df 8c c1 ldswp\.w pc,r5\[-3324\] ++ *[0-9a-f]*: f5 dc 8c c8 ldswp\.w r12,r10\[-3296\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 90 00 stswp\.h pc\[0\],pc ++ *[0-9a-f]*: f9 dc 9f ff stswp\.h r12\[-2\],r12 ++ *[0-9a-f]*: eb d5 98 00 stswp\.h r5\[-4096\],r5 ++ *[0-9a-f]*: e9 d4 97 ff stswp\.h r4\[4094\],r4 ++ *[0-9a-f]*: fd de 90 01 stswp\.h lr\[2\],lr ++ *[0-9a-f]*: ef da 90 20 stswp\.h r7\[64\],r10 ++ *[0-9a-f]*: f5 d2 95 e8 stswp\.h r10\[3024\],r2 ++ *[0-9a-f]*: e1 da 9b 74 stswp\.h r0\[-2328\],r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df a0 00 stswp\.w pc\[0\],pc ++ *[0-9a-f]*: f9 dc af ff stswp\.w r12\[-4\],r12 ++ *[0-9a-f]*: eb d5 a8 00 stswp\.w r5\[-8192\],r5 ++ *[0-9a-f]*: e9 d4 a7 ff stswp\.w r4\[8188\],r4 ++ *[0-9a-f]*: fd de a0 01 stswp\.w lr\[4\],lr ++ *[0-9a-f]*: ff d8 a1 21 stswp\.w pc\[1156\],r8 ++ *[0-9a-f]*: fb da a7 ce stswp\.w sp\[7992\],r10 ++ *[0-9a-f]*: f1 d5 ae db stswp\.w r8\[-1172\],r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 00 0f and pc,pc,pc ++ *[0-9a-f]*: f9 ec 01 fc and r12,r12,r12<<0x1f ++ *[0-9a-f]*: eb e5 01 05 and r5,r5,r5<<0x10 ++ *[0-9a-f]*: e9 e4 00 f4 and r4,r4,r4<<0xf ++ *[0-9a-f]*: fd ee 00 1e and lr,lr,lr<<0x1 ++ *[0-9a-f]*: e5 e1 00 1a and r10,r2,r1<<0x1 ++ *[0-9a-f]*: f1 eb 01 bc and r12,r8,r11<<0x1b ++ *[0-9a-f]*: ef e0 00 3a and r10,r7,r0<<0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 02 0f and pc,pc,pc ++ *[0-9a-f]*: f9 ec 03 fc and r12,r12,r12>>0x1f ++ *[0-9a-f]*: eb e5 03 05 and r5,r5,r5>>0x10 ++ *[0-9a-f]*: e9 e4 02 f4 and r4,r4,r4>>0xf ++ *[0-9a-f]*: fd ee 02 1e and lr,lr,lr>>0x1 ++ *[0-9a-f]*: f1 e7 03 1c and r12,r8,r7>>0x11 ++ *[0-9a-f]*: e9 e9 03 4f and pc,r4,r9>>0x14 ++ *[0-9a-f]*: f3 ea 02 ca and r10,r9,r10>>0xc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 10 0f or pc,pc,pc ++ *[0-9a-f]*: f9 ec 11 fc or r12,r12,r12<<0x1f ++ *[0-9a-f]*: eb e5 11 05 or r5,r5,r5<<0x10 ++ *[0-9a-f]*: e9 e4 10 f4 or r4,r4,r4<<0xf ++ *[0-9a-f]*: fd ee 10 1e or lr,lr,lr<<0x1 ++ *[0-9a-f]*: fb eb 11 d8 or r8,sp,r11<<0x1d ++ *[0-9a-f]*: f3 e2 11 cf or pc,r9,r2<<0x1c ++ *[0-9a-f]*: e3 e2 10 35 or r5,r1,r2<<0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 12 0f or pc,pc,pc ++ *[0-9a-f]*: f9 ec 13 fc or r12,r12,r12>>0x1f ++ *[0-9a-f]*: eb e5 13 05 or r5,r5,r5>>0x10 ++ *[0-9a-f]*: e9 e4 12 f4 or r4,r4,r4>>0xf ++ *[0-9a-f]*: fd ee 12 1e or lr,lr,lr>>0x1 ++ *[0-9a-f]*: fb ed 12 21 or r1,sp,sp>>0x2 ++ *[0-9a-f]*: e3 e1 13 d0 or r0,r1,r1>>0x1d ++ *[0-9a-f]*: f9 e8 12 84 or r4,r12,r8>>0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 20 0f eor pc,pc,pc ++ *[0-9a-f]*: f9 ec 21 fc eor r12,r12,r12<<0x1f ++ *[0-9a-f]*: eb e5 21 05 eor r5,r5,r5<<0x10 ++ *[0-9a-f]*: e9 e4 20 f4 eor r4,r4,r4<<0xf ++ *[0-9a-f]*: fd ee 20 1e eor lr,lr,lr<<0x1 ++ *[0-9a-f]*: f3 e4 20 ba eor r10,r9,r4<<0xb ++ *[0-9a-f]*: e1 e1 21 f4 eor r4,r0,r1<<0x1f ++ *[0-9a-f]*: e5 ec 20 d6 eor r6,r2,r12<<0xd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 22 0f eor pc,pc,pc ++ *[0-9a-f]*: f9 ec 23 fc eor r12,r12,r12>>0x1f ++ *[0-9a-f]*: eb e5 23 05 eor r5,r5,r5>>0x10 ++ *[0-9a-f]*: e9 e4 22 f4 eor r4,r4,r4>>0xf ++ *[0-9a-f]*: fd ee 22 1e eor lr,lr,lr>>0x1 ++ *[0-9a-f]*: eb e5 23 65 eor r5,r5,r5>>0x16 ++ *[0-9a-f]*: e3 ee 22 3a eor r10,r1,lr>>0x3 ++ *[0-9a-f]*: fd ed 23 a7 eor r7,lr,sp>>0x1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 8f 0f sthh\.w pc\[pc\],pc:b,pc:b ++ *[0-9a-f]*: f9 ec bc 3c sthh\.w r12\[r12<<0x3\],r12:t,r12:t ++ *[0-9a-f]*: eb e5 b5 25 sthh\.w r5\[r5<<0x2\],r5:t,r5:t ++ *[0-9a-f]*: e9 e4 84 14 sthh\.w r4\[r4<<0x1\],r4:b,r4:b ++ *[0-9a-f]*: fd ee be 1e sthh\.w lr\[lr<<0x1\],lr:t,lr:t ++ *[0-9a-f]*: e3 ec b6 3d sthh\.w sp\[r6<<0x3\],r1:t,r12:t ++ *[0-9a-f]*: f3 e9 b6 06 sthh\.w r6\[r6\],r9:t,r9:t ++ *[0-9a-f]*: e1 eb 93 0a sthh\.w r10\[r3\],r0:b,r11:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef c0 0f sthh\.w pc\[0x0\],pc:b,pc:b ++ *[0-9a-f]*: f9 ec ff fc sthh\.w r12\[0x3fc\],r12:t,r12:t ++ *[0-9a-f]*: eb e5 f8 05 sthh\.w r5\[0x200\],r5:t,r5:t ++ *[0-9a-f]*: e9 e4 c7 f4 sthh\.w r4\[0x1fc\],r4:b,r4:b ++ *[0-9a-f]*: fd ee f0 1e sthh\.w lr\[0x4\],lr:t,lr:t ++ *[0-9a-f]*: f3 e0 e6 54 sthh\.w r4\[0x194\],r9:t,r0:b ++ *[0-9a-f]*: e5 ea e5 78 sthh\.w r8\[0x15c\],r2:t,r10:b ++ *[0-9a-f]*: f3 e2 c2 bd sthh\.w sp\[0xac\],r9:b,r2:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 00 00 cop cp0,cr0,cr0,cr0,0x0 ++ *[0-9a-f]*: e7 af ff ff cop cp7,cr15,cr15,cr15,0x7f ++ *[0-9a-f]*: e3 a8 75 55 cop cp3,cr5,cr5,cr5,0x31 ++ *[0-9a-f]*: e3 a8 44 44 cop cp2,cr4,cr4,cr4,0x30 ++ *[0-9a-f]*: e5 ad a8 37 cop cp5,cr8,cr3,cr7,0x5a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 a0 00 00 ldc\.w cp0,cr0,r0\[0x0\] ++ *[0-9a-f]*: e9 af ef ff ldc\.w cp7,cr15,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a5 65 80 ldc\.w cp3,cr5,r5\[0x200\] ++ *[0-9a-f]*: e9 a4 44 7f ldc\.w cp2,cr4,r4\[0x1fc\] ++ *[0-9a-f]*: e9 ad 89 24 ldc\.w cp4,cr9,sp\[0x90\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 40 ldc\.w cp0,cr0,--r0 ++ *[0-9a-f]*: ef af ef 40 ldc\.w cp7,cr15,--pc ++ *[0-9a-f]*: ef a5 65 40 ldc\.w cp3,cr5,--r5 ++ *[0-9a-f]*: ef a4 44 40 ldc\.w cp2,cr4,--r4 ++ *[0-9a-f]*: ef ad 89 40 ldc\.w cp4,cr9,--sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 00 ldc\.w cp0,cr0,r0\[r0\] ++ *[0-9a-f]*: ef af ff 3f ldc\.w cp7,cr15,pc\[pc<<0x3\] ++ *[0-9a-f]*: ef a5 75 24 ldc\.w cp3,cr5,r5\[r4<<0x2\] ++ *[0-9a-f]*: ef a4 54 13 ldc\.w cp2,cr4,r4\[r3<<0x1\] ++ *[0-9a-f]*: ef ad 99 0c ldc\.w cp4,cr9,sp\[r12\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 a0 10 00 ldc\.d cp0,cr0,r0\[0x0\] ++ *[0-9a-f]*: e9 af fe ff ldc\.d cp7,cr14,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a5 76 80 ldc\.d cp3,cr6,r5\[0x200\] ++ *[0-9a-f]*: e9 a4 54 7f ldc\.d cp2,cr4,r4\[0x1fc\] ++ *[0-9a-f]*: e9 ad 98 24 ldc\.d cp4,cr8,sp\[0x90\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 50 ldc\.d cp0,cr0,--r0 ++ *[0-9a-f]*: ef af ee 50 ldc\.d cp7,cr14,--pc ++ *[0-9a-f]*: ef a5 66 50 ldc\.d cp3,cr6,--r5 ++ *[0-9a-f]*: ef a4 44 50 ldc\.d cp2,cr4,--r4 ++ *[0-9a-f]*: ef ad 88 50 ldc\.d cp4,cr8,--sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 40 ldc\.d cp0,cr0,r0\[r0\] ++ *[0-9a-f]*: ef af fe 7f ldc\.d cp7,cr14,pc\[pc<<0x3\] ++ *[0-9a-f]*: ef a5 76 64 ldc\.d cp3,cr6,r5\[r4<<0x2\] ++ *[0-9a-f]*: ef a4 54 53 ldc\.d cp2,cr4,r4\[r3<<0x1\] ++ *[0-9a-f]*: ef ad 98 4c ldc\.d cp4,cr8,sp\[r12\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb a0 00 00 stc\.w cp0,r0\[0x0\],cr0 ++ *[0-9a-f]*: eb af ef ff stc\.w cp7,pc\[0x3fc\],cr15 ++ *[0-9a-f]*: eb a5 65 80 stc\.w cp3,r5\[0x200\],cr5 ++ *[0-9a-f]*: eb a4 44 7f stc\.w cp2,r4\[0x1fc\],cr4 ++ *[0-9a-f]*: eb ad 89 24 stc\.w cp4,sp\[0x90\],cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 60 stc\.w cp0,r0\+\+,cr0 ++ *[0-9a-f]*: ef af ef 60 stc\.w cp7,pc\+\+,cr15 ++ *[0-9a-f]*: ef a5 65 60 stc\.w cp3,r5\+\+,cr5 ++ *[0-9a-f]*: ef a4 44 60 stc\.w cp2,r4\+\+,cr4 ++ *[0-9a-f]*: ef ad 89 60 stc\.w cp4,sp\+\+,cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 80 stc\.w cp0,r0\[r0\],cr0 ++ *[0-9a-f]*: ef af ff bf stc\.w cp7,pc\[pc<<0x3\],cr15 ++ *[0-9a-f]*: ef a5 75 a4 stc\.w cp3,r5\[r4<<0x2\],cr5 ++ *[0-9a-f]*: ef a4 54 93 stc\.w cp2,r4\[r3<<0x1\],cr4 ++ *[0-9a-f]*: ef ad 99 8c stc\.w cp4,sp\[r12\],cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb a0 10 00 stc\.d cp0,r0\[0x0\],cr0 ++ *[0-9a-f]*: eb af fe ff stc\.d cp7,pc\[0x3fc\],cr14 ++ *[0-9a-f]*: eb a5 76 80 stc\.d cp3,r5\[0x200\],cr6 ++ *[0-9a-f]*: eb a4 54 7f stc\.d cp2,r4\[0x1fc\],cr4 ++ *[0-9a-f]*: eb ad 98 24 stc\.d cp4,sp\[0x90\],cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 70 stc\.d cp0,r0\+\+,cr0 ++ *[0-9a-f]*: ef af ee 70 stc\.d cp7,pc\+\+,cr14 ++ *[0-9a-f]*: ef a5 66 70 stc\.d cp3,r5\+\+,cr6 ++ *[0-9a-f]*: ef a4 44 70 stc\.d cp2,r4\+\+,cr4 ++ *[0-9a-f]*: ef ad 88 70 stc\.d cp4,sp\+\+,cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 c0 stc\.d cp0,r0\[r0\],cr0 ++ *[0-9a-f]*: ef af fe ff stc\.d cp7,pc\[pc<<0x3\],cr14 ++ *[0-9a-f]*: ef a5 76 e4 stc\.d cp3,r5\[r4<<0x2\],cr6 ++ *[0-9a-f]*: ef a4 54 d3 stc\.d cp2,r4\[r3<<0x1\],cr4 ++ *[0-9a-f]*: ef ad 98 cc stc\.d cp4,sp\[r12\],cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f1 a0 00 00 ldc0\.w cr0,r0\[0x0\] ++ *[0-9a-f]*: f1 af ff ff ldc0\.w cr15,pc\[0x3ffc\] ++ *[0-9a-f]*: f1 a5 85 00 ldc0\.w cr5,r5\[0x2000\] ++ *[0-9a-f]*: f1 a4 74 ff ldc0\.w cr4,r4\[0x1ffc\] ++ *[0-9a-f]*: f1 ad 09 93 ldc0\.w cr9,sp\[0x24c\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f3 a0 00 00 ldc0\.d cr0,r0\[0x0\] ++ *[0-9a-f]*: f3 af fe ff ldc0\.d cr14,pc\[0x3ffc\] ++ *[0-9a-f]*: f3 a5 86 00 ldc0\.d cr6,r5\[0x2000\] ++ *[0-9a-f]*: f3 a4 74 ff ldc0\.d cr4,r4\[0x1ffc\] ++ *[0-9a-f]*: f3 ad 08 93 ldc0\.d cr8,sp\[0x24c\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f5 a0 00 00 stc0\.w r0\[0x0\],cr0 ++ *[0-9a-f]*: f5 af ff ff stc0\.w pc\[0x3ffc\],cr15 ++ *[0-9a-f]*: f5 a5 85 00 stc0\.w r5\[0x2000\],cr5 ++ *[0-9a-f]*: f5 a4 74 ff stc0\.w r4\[0x1ffc\],cr4 ++ *[0-9a-f]*: f5 ad 09 93 stc0\.w sp\[0x24c\],cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f7 a0 00 00 stc0\.d r0\[0x0\],cr0 ++ *[0-9a-f]*: f7 af fe ff stc0\.d pc\[0x3ffc\],cr14 ++ *[0-9a-f]*: f7 a5 86 00 stc0\.d r5\[0x2000\],cr6 ++ *[0-9a-f]*: f7 a4 74 ff stc0\.d r4\[0x1ffc\],cr4 ++ *[0-9a-f]*: f7 ad 08 93 stc0\.d sp\[0x24c\],cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f6 10 00 00 memc 0,0x0 ++ *[0-9a-f]*: f6 1f ff ff memc -4,0x1f ++ *[0-9a-f]*: f6 18 40 00 memc -65536,0x10 ++ *[0-9a-f]*: f6 17 bf ff memc 65532,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f8 10 00 00 mems 0,0x0 ++ *[0-9a-f]*: f8 1f ff ff mems -4,0x1f ++ *[0-9a-f]*: f8 18 40 00 mems -65536,0x10 ++ *[0-9a-f]*: f8 17 bf ff mems 65532,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fa 10 00 00 memt 0,0x0 ++ *[0-9a-f]*: fa 1f ff ff memt -4,0x1f ++ *[0-9a-f]*: fa 18 40 00 memt -65536,0x10 ++ *[0-9a-f]*: fa 17 bf ff memt 65532,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 70 00 00 stcond r0\[0\],r0 ++ *[0-9a-f]*: ff 7f ff ff stcond pc\[-1\],pc ++ *[0-9a-f]*: f1 77 80 00 stcond r8\[-32768\],r7 ++ *[0-9a-f]*: ef 78 7f ff stcond r7\[32767\],r8 ++ *[0-9a-f]*: eb 7a 12 34 stcond r5\[4660\],r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 00 ff ldcm\.w cp0,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 e0 01 ldcm\.w cp7,r0,cr0 ++ *[0-9a-f]*: ed a4 90 7f ldcm\.w cp4,r4\+\+,cr0-cr6 ++ *[0-9a-f]*: ed a7 60 80 ldcm\.w cp3,r7,cr7 ++ *[0-9a-f]*: ed ac 30 72 ldcm\.w cp1,r12\+\+,cr1,cr4-cr6 ++ *[0-9a-f]*: ed af 01 ff ldcm\.w cp0,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 e1 01 ldcm\.w cp7,r0,cr8 ++ *[0-9a-f]*: ed a4 91 7f ldcm\.w cp4,r4\+\+,cr8-cr14 ++ *[0-9a-f]*: ed a7 61 80 ldcm\.w cp3,r7,cr15 ++ *[0-9a-f]*: ed ac 31 72 ldcm\.w cp1,r12\+\+,cr9,cr12-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 04 ff ldcm\.d cp0,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 e4 01 ldcm\.d cp7,r0,cr0-cr1 ++ *[0-9a-f]*: ed a4 94 7f ldcm\.d cp4,r4\+\+,cr0-cr13 ++ *[0-9a-f]*: ed a7 64 80 ldcm\.d cp3,r7,cr14-cr15 ++ *[0-9a-f]*: ed ac 54 93 ldcm\.d cp2,r12\+\+,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 02 ff stcm\.w cp0,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 e2 01 stcm\.w cp7,r0,cr0 ++ *[0-9a-f]*: ed a4 92 7f stcm\.w cp4,--r4,cr0-cr6 ++ *[0-9a-f]*: ed a7 62 80 stcm\.w cp3,r7,cr7 ++ *[0-9a-f]*: ed ac 32 72 stcm\.w cp1,--r12,cr1,cr4-cr6 ++ *[0-9a-f]*: ed af 03 ff stcm\.w cp0,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 e3 01 stcm\.w cp7,r0,cr8 ++ *[0-9a-f]*: ed a4 93 7f stcm\.w cp4,--r4,cr8-cr14 ++ *[0-9a-f]*: ed a7 63 80 stcm\.w cp3,r7,cr15 ++ *[0-9a-f]*: ed ac 33 72 stcm\.w cp1,--r12,cr9,cr12-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 05 ff stcm\.d cp0,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 e5 01 stcm\.d cp7,r0,cr0-cr1 ++ *[0-9a-f]*: ed a4 95 7f stcm\.d cp4,--r4,cr0-cr13 ++ *[0-9a-f]*: ed a7 65 80 stcm\.d cp3,r7,cr14-cr15 ++ *[0-9a-f]*: ed ac 55 93 stcm\.d cp2,--r12,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef af ef 00 mvcr\.w cp7,pc,cr15 ++ *[0-9a-f]*: ef a0 00 00 mvcr\.w cp0,r0,cr0 ++ *[0-9a-f]*: ef af 0f 00 mvcr\.w cp0,pc,cr15 ++ *[0-9a-f]*: ef a0 ef 00 mvcr\.w cp7,r0,cr15 ++ *[0-9a-f]*: ef af e0 00 mvcr\.w cp7,pc,cr0 ++ *[0-9a-f]*: ef a7 88 00 mvcr\.w cp4,r7,cr8 ++ *[0-9a-f]*: ef a8 67 00 mvcr\.w cp3,r8,cr7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef ae ee 10 mvcr\.d cp7,lr,cr14 ++ *[0-9a-f]*: ef a0 00 10 mvcr\.d cp0,r0,cr0 ++ *[0-9a-f]*: ef ae 0e 10 mvcr\.d cp0,lr,cr14 ++ *[0-9a-f]*: ef a0 ee 10 mvcr\.d cp7,r0,cr14 ++ *[0-9a-f]*: ef ae e0 10 mvcr\.d cp7,lr,cr0 ++ *[0-9a-f]*: ef a6 88 10 mvcr\.d cp4,r6,cr8 ++ *[0-9a-f]*: ef a8 66 10 mvcr\.d cp3,r8,cr6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef af ef 20 mvrc\.w cp7,cr15,pc ++ *[0-9a-f]*: ef a0 00 20 mvrc\.w cp0,cr0,r0 ++ *[0-9a-f]*: ef af 0f 20 mvrc\.w cp0,cr15,pc ++ *[0-9a-f]*: ef a0 ef 20 mvrc\.w cp7,cr15,r0 ++ *[0-9a-f]*: ef af e0 20 mvrc\.w cp7,cr0,pc ++ *[0-9a-f]*: ef a7 88 20 mvrc\.w cp4,cr8,r7 ++ *[0-9a-f]*: ef a8 67 20 mvrc\.w cp3,cr7,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef ae ee 30 mvrc\.d cp7,cr14,lr ++ *[0-9a-f]*: ef a0 00 30 mvrc\.d cp0,cr0,r0 ++ *[0-9a-f]*: ef ae 0e 30 mvrc\.d cp0,cr14,lr ++ *[0-9a-f]*: ef a0 ee 30 mvrc\.d cp7,cr14,r0 ++ *[0-9a-f]*: ef ae e0 30 mvrc\.d cp7,cr0,lr ++ *[0-9a-f]*: ef a6 88 30 mvrc\.d cp4,cr8,r6 ++ *[0-9a-f]*: ef a8 66 30 mvrc\.d cp3,cr6,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df b3 ff bfexts pc,pc,0x1f,0x1f ++ *[0-9a-f]*: e1 d0 b0 00 bfexts r0,r0,0x0,0x0 ++ *[0-9a-f]*: e1 df b3 ff bfexts r0,pc,0x1f,0x1f ++ *[0-9a-f]*: ff d0 b3 ff bfexts pc,r0,0x1f,0x1f ++ *[0-9a-f]*: ff df b0 1f bfexts pc,pc,0x0,0x1f ++ *[0-9a-f]*: ff df b3 e0 bfexts pc,pc,0x1f,0x0 ++ *[0-9a-f]*: ef d8 b1 f0 bfexts r7,r8,0xf,0x10 ++ *[0-9a-f]*: f1 d7 b2 0f bfexts r8,r7,0x10,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df c3 ff bfextu pc,pc,0x1f,0x1f ++ *[0-9a-f]*: e1 d0 c0 00 bfextu r0,r0,0x0,0x0 ++ *[0-9a-f]*: e1 df c3 ff bfextu r0,pc,0x1f,0x1f ++ *[0-9a-f]*: ff d0 c3 ff bfextu pc,r0,0x1f,0x1f ++ *[0-9a-f]*: ff df c0 1f bfextu pc,pc,0x0,0x1f ++ *[0-9a-f]*: ff df c3 e0 bfextu pc,pc,0x1f,0x0 ++ *[0-9a-f]*: ef d8 c1 f0 bfextu r7,r8,0xf,0x10 ++ *[0-9a-f]*: f1 d7 c2 0f bfextu r8,r7,0x10,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df d3 ff bfins pc,pc,0x1f,0x1f ++ *[0-9a-f]*: e1 d0 d0 00 bfins r0,r0,0x0,0x0 ++ *[0-9a-f]*: e1 df d3 ff bfins r0,pc,0x1f,0x1f ++ *[0-9a-f]*: ff d0 d3 ff bfins pc,r0,0x1f,0x1f ++ *[0-9a-f]*: ff df d0 1f bfins pc,pc,0x0,0x1f ++ *[0-9a-f]*: ff df d3 e0 bfins pc,pc,0x1f,0x0 ++ *[0-9a-f]*: ef d8 d1 f0 bfins r7,r8,0xf,0x10 ++ *[0-9a-f]*: f1 d7 d2 0f bfins r8,r7,0x10,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fb bf 00 00 rsubeq pc,0 ++ *[0-9a-f]*: fb bc 0f ff rsubal r12,-1 ++ *[0-9a-f]*: fb b5 08 80 rsubls r5,-128 ++ *[0-9a-f]*: fb b4 07 7f rsubpl r4,127 ++ *[0-9a-f]*: fb be 01 01 rsubne lr,1 ++ *[0-9a-f]*: fb bc 08 76 rsubls r12,118 ++ *[0-9a-f]*: fb be 0d f4 rsubvc lr,-12 ++ *[0-9a-f]*: fb b4 06 f3 rsubmi r4,-13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 0f addeq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 0c addal r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 05 addls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 04 addpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 0e addne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 0a addls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 0c addvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 0a addmi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 1f subeq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 1c subal r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 15 subls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 14 subpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 1e subne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 1a subls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 1c subvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 1a submi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 2f andeq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 2c andal r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 25 andls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 24 andpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 2e andne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 2a andls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 2c andvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 2a andmi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 3f oreq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 3c oral r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 35 orls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 34 orpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 3e orne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 3a orls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 3c orvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 3a ormi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 4f eoreq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 4c eoral r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 45 eorls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 44 eorpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 4e eorne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 4a eorls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 4c eorvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 4a eormi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ff 01 ff ld.weq pc,pc[0x7fc] ++ *[0-9a-f]*: f9 fc f3 ff ld.shal r12,r12[0x3fe] ++ *[0-9a-f]*: eb f5 84 00 ld.shls r5,r5[0x0] ++ *[0-9a-f]*: e9 f4 79 ff ld.ubpl r4,r4[0x1ff] ++ *[0-9a-f]*: fd fe 16 00 ld.sbne lr,lr[0x0] ++ *[0-9a-f]*: e5 fa 80 00 ld.wls r10,r2[0x0] ++ *[0-9a-f]*: f1 fc d3 ff ld.shvc r12,r8[0x3fe] ++ *[0-9a-f]*: ef fa 68 01 ld.ubmi r10,r7[0x1] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ff 0b ff st.weq pc[0x7fc],pc ++ *[0-9a-f]*: f9 fc fd ff st.hal r12[0x3fe],r12 ++ *[0-9a-f]*: eb f5 8c 00 st.hls r5[0x0],r5 ++ *[0-9a-f]*: e9 f4 7f ff st.bpl r4[0x1ff],r4 ++ *[0-9a-f]*: fd fe 1e 00 st.bne lr[0x0],lr ++ *[0-9a-f]*: e5 fa 8a 00 st.wls r2[0x0],r10 ++ *[0-9a-f]*: f1 fc dd ff st.hvc r8[0x3fe],r12 ++ *[0-9a-f]*: ef fa 6e 01 st.bmi r7[0x1],r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fc 1f ff ff movh pc,0xffff ++ *[0-9a-f]*: fc 10 00 00 movh r0,0x0 ++ *[0-9a-f]*: fc 15 00 01 movh r5,0x1 ++ *[0-9a-f]*: fc 1c 7f ff movh r12,0x7fff ++ +--- /dev/null ++++ b/gas/testsuite/gas/avr32/allinsn.exp +@@ -0,0 +1,5 @@ ++# AVR32 assembler testsuite. -*- Tcl -*- ++ ++if [istarget avr32-*-*] { ++ run_dump_test "allinsn" ++} +--- /dev/null ++++ b/gas/testsuite/gas/avr32/allinsn.s +@@ -0,0 +1,3330 @@ ++ .data ++foodata: .word 42 ++ .text ++footext: ++ .text ++ .global ld_d5 ++ld_d5: ++ ld.d lr,pc[pc<<3] ++ ld.d r0,r0[r0<<0] ++ ld.d r6,r5[r5<<2] ++ ld.d r4,r4[r4<<1] ++ ld.d lr,lr[lr<<1] ++ ld.d r10,r3[sp<<2] ++ ld.d r8,r10[r6<<2] ++ ld.d r2,r7[r9<<0] ++ .text ++ .global ld_w5 ++ld_w5: ++ ld.w pc,pc[pc<<0] ++ ld.w r12,r12[r12<<3] ++ ld.w r5,r5[r5<<2] ++ ld.w r4,r4[r4<<1] ++ ld.w lr,lr[lr<<1] ++ ld.w r2,r9[r9<<0] ++ ld.w r11,r2[r6<<0] ++ ld.w r0,r2[sp<<3] ++ .text ++ .global ld_sh5 ++ld_sh5: ++ ld.sh pc,pc[pc<<0] ++ ld.sh r12,r12[r12<<3] ++ ld.sh r5,r5[r5<<2] ++ ld.sh r4,r4[r4<<1] ++ ld.sh lr,lr[lr<<1] ++ ld.sh r11,r0[pc<<2] ++ ld.sh r10,sp[r6<<2] ++ ld.sh r12,r2[r2<<0] ++ .text ++ .global ld_uh5 ++ld_uh5: ++ ld.uh pc,pc[pc<<0] ++ ld.uh r12,r12[r12<<3] ++ ld.uh r5,r5[r5<<2] ++ ld.uh r4,r4[r4<<1] ++ ld.uh lr,lr[lr<<1] ++ ld.uh r8,pc[lr<<3] ++ ld.uh r6,r1[pc<<1] ++ ld.uh r6,lr[sp<<1] ++ .text ++ .global ld_sb2 ++ld_sb2: ++ ld.sb pc,pc[pc<<0] ++ ld.sb r12,r12[r12<<3] ++ ld.sb r5,r5[r5<<2] ++ ld.sb r4,r4[r4<<1] ++ ld.sb lr,lr[lr<<1] ++ ld.sb r9,r1[pc<<3] ++ ld.sb r0,r3[r11<<1] ++ ld.sb r10,r5[r5<<1] ++ .text ++ .global ld_ub5 ++ld_ub5: ++ ld.ub pc,pc[pc<<0] ++ ld.ub r12,r12[r12<<3] ++ ld.ub r5,r5[r5<<2] ++ ld.ub r4,r4[r4<<1] ++ ld.ub lr,lr[lr<<1] ++ ld.ub r6,r12[r7<<3] ++ ld.ub r2,r6[r12<<0] ++ ld.ub r0,r7[r11<<1] ++ .text ++ .global st_d5 ++st_d5: ++ st.d pc[pc<<0],r14 ++ st.d r12[r12<<3],r12 ++ st.d r5[r5<<2],r6 ++ st.d r4[r4<<1],r4 ++ st.d lr[lr<<1],lr ++ st.d r1[r9<<1],r4 ++ st.d r10[r2<<1],r4 ++ st.d r12[r6<<0],lr ++ .text ++ .global st_w5 ++st_w5: ++ st.w pc[pc<<0],pc ++ st.w r12[r12<<3],r12 ++ st.w r5[r5<<2],r5 ++ st.w r4[r4<<1],r4 ++ st.w lr[lr<<1],lr ++ st.w r1[r10<<0],r3 ++ st.w r0[r10<<1],r9 ++ st.w r4[r5<<3],pc ++ .text ++ .global st_h5 ++st_h5: ++ st.h pc[pc<<0],pc ++ st.h r12[r12<<3],r12 ++ st.h r5[r5<<2],r5 ++ st.h r4[r4<<1],r4 ++ st.h lr[lr<<1],lr ++ st.h r2[r9<<0],r11 ++ st.h r5[r1<<2],r12 ++ st.h pc[r8<<2],r3 ++ .text ++ .global st_b5 ++st_b5: ++ st.b pc[pc<<0],pc ++ st.b r12[r12<<3],r12 ++ st.b r5[r5<<2],r5 ++ st.b r4[r4<<1],r4 ++ st.b lr[lr<<1],lr ++ st.b r1[r8<<1],r6 ++ st.b lr[lr<<3],r1 ++ st.b r5[r0<<2],pc ++ .text ++ .global divs ++divs: ++ divs pc,pc,pc ++ divs r12,r12,r12 ++ divs r5,r5,r5 ++ divs r4,r4,r4 ++ divs lr,lr,lr ++ divs r3,pc,pc ++ divs r9,r12,r2 ++ divs r7,r4,r1 ++ .text ++ .global add1 ++add1: ++ add pc,pc ++ add r12,r12 ++ add r5,r5 ++ add r4,r4 ++ add lr,lr ++ add r12,r9 ++ add r6,r3 ++ add r10,r12 ++ .text ++ .global sub1 ++sub1: ++ sub pc,pc ++ sub r12,r12 ++ sub r5,r5 ++ sub r4,r4 ++ sub lr,lr ++ sub lr,r6 ++ sub r0,sp ++ sub r6,r12 ++ .text ++ .global rsub1 ++rsub1: ++ rsub pc,pc ++ rsub r12,r12 ++ rsub r5,r5 ++ rsub r4,r4 ++ rsub lr,lr ++ rsub r11,sp ++ rsub r7,r4 ++ rsub r9,r1 ++ .text ++ .global cp1 ++cp1: ++ cp pc,pc ++ cp r12,r12 ++ cp r5,r5 ++ cp r4,r4 ++ cp lr,lr ++ cp r6,r2 ++ cp r0,r9 ++ cp r3,sp ++ .text ++ .global or1 ++or1: ++ or pc,pc ++ or r12,r12 ++ or r5,r5 ++ or r4,r4 ++ or lr,lr ++ or r4,r9 ++ or r11,r4 ++ or r4,r0 ++ .text ++ .global eor1 ++eor1: ++ eor pc,pc ++ eor r12,r12 ++ eor r5,r5 ++ eor r4,r4 ++ eor lr,lr ++ eor r12,r11 ++ eor r0,r1 ++ eor r5,pc ++ .text ++ .global and1 ++and1: ++ and pc,pc ++ and r12,r12 ++ and r5,r5 ++ and r4,r4 ++ and lr,lr ++ and r8,r1 ++ and r0,sp ++ and r10,r5 ++ .text ++ .global tst ++tst: ++ tst pc,pc ++ tst r12,r12 ++ tst r5,r5 ++ tst r4,r4 ++ tst lr,lr ++ tst r0,r12 ++ tst r10,r6 ++ tst sp,r4 ++ .text ++ .global andn ++andn: ++ andn pc,pc ++ andn r12,r12 ++ andn r5,r5 ++ andn r4,r4 ++ andn lr,lr ++ andn r9,r12 ++ andn r11,sp ++ andn r12,r5 ++ .text ++ .global mov3 ++mov3: ++ mov pc,pc ++ mov r12,r12 ++ mov r5,r5 ++ mov r4,r4 ++ mov lr,lr ++ mov r5,r9 ++ mov r11,r11 ++ mov r2,lr ++ .text ++ .global st_w1 ++st_w1: ++ st.w pc++,pc ++ st.w r12++,r12 ++ st.w r5++,r5 ++ st.w r4++,r4 ++ st.w lr++,lr ++ st.w r1++,r11 ++ st.w sp++,r0 ++ st.w sp++,r1 ++ .text ++ .global st_h1 ++st_h1: ++ st.h pc++,pc ++ st.h r12++,r12 ++ st.h r5++,r5 ++ st.h r4++,r4 ++ st.h lr++,lr ++ st.h r12++,sp ++ st.h r7++,lr ++ st.h r7++,r4 ++ .text ++ .global st_b1 ++st_b1: ++ st.b pc++,pc ++ st.b r12++,r12 ++ st.b r5++,r5 ++ st.b r4++,r4 ++ st.b lr++,lr ++ st.b r9++,sp ++ st.b r1++,sp ++ st.b r0++,r4 ++ .text ++ .global st_w2 ++st_w2: ++ st.w --pc,pc ++ st.w --r12,r12 ++ st.w --r5,r5 ++ st.w --r4,r4 ++ st.w --lr,lr ++ st.w --r1,r7 ++ st.w --r3,r9 ++ st.w --r5,r5 ++ .text ++ .global st_h2 ++st_h2: ++ st.h --pc,pc ++ st.h --r12,r12 ++ st.h --r5,r5 ++ st.h --r4,r4 ++ st.h --lr,lr ++ st.h --r5,r7 ++ st.h --r8,r8 ++ st.h --r7,r2 ++ .text ++ .global st_b2 ++st_b2: ++ st.b --pc,pc ++ st.b --r12,r12 ++ st.b --r5,r5 ++ st.b --r4,r4 ++ st.b --lr,lr ++ st.b --sp,sp ++ st.b --sp,r11 ++ st.b --r4,r5 ++ .text ++ .global ld_w1 ++ld_w1: ++ ld.w pc,pc++ ++ ld.w r12,r12++ ++ ld.w r5,r5++ ++ ld.w r4,r4++ ++ ld.w lr,lr++ ++ ld.w r3,r7++ ++ ld.w r3,lr++ ++ ld.w r12,r5++ ++ .text ++ .global ld_sh1 ++ld_sh1: ++ ld.sh pc,pc++ ++ ld.sh r12,r12++ ++ ld.sh r5,r5++ ++ ld.sh r4,r4++ ++ ld.sh lr,lr++ ++ ld.sh r11,r2++ ++ ld.sh r2,r8++ ++ ld.sh r7,r6++ ++ .text ++ .global ld_uh1 ++ld_uh1: ++ ld.uh pc,pc++ ++ ld.uh r12,r12++ ++ ld.uh r5,r5++ ++ ld.uh r4,r4++ ++ ld.uh lr,lr++ ++ ld.uh r6,r7++ ++ ld.uh r10,r11++ ++ ld.uh lr,r4++ ++ .text ++ .global ld_ub1 ++ld_ub1: ++ ld.ub pc,pc++ ++ ld.ub r12,r12++ ++ ld.ub r5,r5++ ++ ld.ub r4,r4++ ++ ld.ub lr,lr++ ++ ld.ub r8,lr++ ++ ld.ub r12,r12++ ++ ld.ub r11,r10++ ++ .text ++ .global ld_w2 ++ld_w2: ++ ld.w pc,--pc ++ ld.w r12,--r12 ++ ld.w r5,--r5 ++ ld.w r4,--r4 ++ ld.w lr,--lr ++ ld.w r10,--lr ++ ld.w r12,--r9 ++ ld.w r6,--r5 ++ .text ++ .global ld_sh2 ++ld_sh2: ++ ld.sh pc,--pc ++ ld.sh r12,--r12 ++ ld.sh r5,--r5 ++ ld.sh r4,--r4 ++ ld.sh lr,--lr ++ ld.sh pc,--r10 ++ ld.sh r6,--r3 ++ ld.sh r4,--r6 ++ .text ++ .global ld_uh2 ++ld_uh2: ++ ld.uh pc,--pc ++ ld.uh r12,--r12 ++ ld.uh r5,--r5 ++ ld.uh r4,--r4 ++ ld.uh lr,--lr ++ ld.uh r3,--r2 ++ ld.uh r1,--r0 ++ ld.uh r2,--r9 ++ .text ++ .global ld_ub2 ++ld_ub2: ++ ld.ub pc,--pc ++ ld.ub r12,--r12 ++ ld.ub r5,--r5 ++ ld.ub r4,--r4 ++ ld.ub lr,--lr ++ ld.ub r1,--r1 ++ ld.ub r0,--r6 ++ ld.ub r2,--r7 ++ .text ++ .global ld_ub3 ++ld_ub3: ++ ld.ub pc,pc[0] ++ ld.ub r12,r12[7] ++ ld.ub r5,r5[4] ++ ld.ub r4,r4[3] ++ ld.ub lr,lr[1] ++ ld.ub r6,r9[6] ++ ld.ub r2,lr[4] ++ ld.ub r1,r8[0] ++ .text ++ .global sub3_sp ++sub3_sp: ++ sub sp,0 ++ sub sp,-4 ++ sub sp,-512 ++ sub sp,508 ++ sub sp,4 ++ sub sp,44 ++ sub sp,8 ++ sub sp,348 ++ .text ++ .global sub3 ++sub3: ++ sub pc,0 ++ sub r12,-1 ++ sub r5,-128 ++ sub r4,127 ++ sub lr,1 ++ sub r6,-41 ++ sub r4,37 ++ sub r12,56 ++ .text ++ .global mov1 ++mov1: ++ mov pc,0 ++ mov r12,-1 ++ mov r5,-128 ++ mov r4,127 ++ mov lr,1 ++ mov pc,14 ++ mov r6,-100 ++ mov lr,-122 ++ .text ++ .global lddsp ++lddsp: ++ lddsp pc,sp[0] ++ lddsp r12,sp[508] ++ lddsp r5,sp[256] ++ lddsp r4,sp[252] ++ lddsp lr,sp[4] ++ lddsp lr,sp[256] ++ lddsp r12,sp[20] ++ lddsp r9,sp[472] ++ .text ++ .global lddpc ++lddpc: ++ lddpc pc,pc[0] ++ lddpc r0,pc[508] ++ lddpc r8,pc[256] ++ lddpc r7,pc[252] ++ lddpc lr,pc[4] ++ lddpc sp,pc[472] ++ lddpc r6,pc[120] ++ lddpc r11,pc[28] ++ .text ++ .global stdsp ++stdsp: ++ stdsp sp[0],pc ++ stdsp sp[508],r12 ++ stdsp sp[256],r5 ++ stdsp sp[252],r4 ++ stdsp sp[4],lr ++ stdsp sp[304],pc ++ stdsp sp[256],r0 ++ stdsp sp[336],r5 ++ .text ++ .global cp2 ++cp2: ++ cp pc,0 ++ cp r12,-1 ++ cp r5,-32 ++ cp r4,31 ++ cp lr,1 ++ cp r8,3 ++ cp lr,16 ++ cp r7,-26 ++ .text ++ .global acr ++acr: ++ acr pc ++ acr r12 ++ acr r5 ++ acr r4 ++ acr lr ++ acr r2 ++ acr r12 ++ acr pc ++ .text ++ .global scr ++scr: ++ scr pc ++ scr r12 ++ scr r5 ++ scr r4 ++ scr lr ++ scr pc ++ scr r6 ++ scr r1 ++ .text ++ .global cpc0 ++cpc0: ++ cpc pc ++ cpc r12 ++ cpc r5 ++ cpc r4 ++ cpc lr ++ cpc pc ++ cpc r4 ++ cpc r9 ++ .text ++ .global neg ++neg: ++ neg pc ++ neg r12 ++ neg r5 ++ neg r4 ++ neg lr ++ neg r7 ++ neg r1 ++ neg r9 ++ .text ++ .global abs ++abs: ++ abs pc ++ abs r12 ++ abs r5 ++ abs r4 ++ abs lr ++ abs r6 ++ abs r6 ++ abs r4 ++ .text ++ .global castu_b ++castu_b: ++ castu.b pc ++ castu.b r12 ++ castu.b r5 ++ castu.b r4 ++ castu.b lr ++ castu.b r7 ++ castu.b sp ++ castu.b r9 ++ .text ++ .global casts_b ++casts_b: ++ casts.b pc ++ casts.b r12 ++ casts.b r5 ++ casts.b r4 ++ casts.b lr ++ casts.b r11 ++ casts.b r1 ++ casts.b r10 ++ .text ++ .global castu_h ++castu_h: ++ castu.h pc ++ castu.h r12 ++ castu.h r5 ++ castu.h r4 ++ castu.h lr ++ castu.h r10 ++ castu.h r11 ++ castu.h r1 ++ .text ++ .global casts_h ++casts_h: ++ casts.h pc ++ casts.h r12 ++ casts.h r5 ++ casts.h r4 ++ casts.h lr ++ casts.h r0 ++ casts.h r5 ++ casts.h r9 ++ .text ++ .global brev ++brev: ++ brev pc ++ brev r12 ++ brev r5 ++ brev r4 ++ brev lr ++ brev r5 ++ brev r10 ++ brev r8 ++ .text ++ .global swap_h ++swap_h: ++ swap.h pc ++ swap.h r12 ++ swap.h r5 ++ swap.h r4 ++ swap.h lr ++ swap.h r7 ++ swap.h r0 ++ swap.h r8 ++ .text ++ .global swap_b ++swap_b: ++ swap.b pc ++ swap.b r12 ++ swap.b r5 ++ swap.b r4 ++ swap.b lr ++ swap.b r10 ++ swap.b r12 ++ swap.b r1 ++ .text ++ .global swap_bh ++swap_bh: ++ swap.bh pc ++ swap.bh r12 ++ swap.bh r5 ++ swap.bh r4 ++ swap.bh lr ++ swap.bh r9 ++ swap.bh r4 ++ swap.bh r1 ++ .text ++ .global One_s_compliment ++One_s_compliment: ++ com pc ++ com r12 ++ com r5 ++ com r4 ++ com lr ++ com r2 ++ com r2 ++ com r7 ++ .text ++ .global tnbz ++tnbz: ++ tnbz pc ++ tnbz r12 ++ tnbz r5 ++ tnbz r4 ++ tnbz lr ++ tnbz r8 ++ tnbz r12 ++ tnbz pc ++ .text ++ .global rol ++rol: ++ rol pc ++ rol r12 ++ rol r5 ++ rol r4 ++ rol lr ++ rol r10 ++ rol r9 ++ rol r5 ++ .text ++ .global ror ++ror: ++ ror pc ++ ror r12 ++ ror r5 ++ ror r4 ++ ror lr ++ ror r8 ++ ror r4 ++ ror r7 ++ .text ++ .global icall ++icall: ++ icall pc ++ icall r12 ++ icall r5 ++ icall r4 ++ icall lr ++ icall r3 ++ icall r1 ++ icall r3 ++ .text ++ .global mustr ++mustr: ++ mustr pc ++ mustr r12 ++ mustr r5 ++ mustr r4 ++ mustr lr ++ mustr r1 ++ mustr r4 ++ mustr r12 ++ .text ++ .global musfr ++musfr: ++ musfr pc ++ musfr r12 ++ musfr r5 ++ musfr r4 ++ musfr lr ++ musfr r11 ++ musfr r12 ++ musfr r2 ++ .text ++ .global ret_cond ++ret_cond: ++ reteq pc ++ retal r12 ++ retls r5 ++ retpl r4 ++ retne lr ++ retgt r0 ++ retgt r12 ++ retge r10 ++ .text ++ .global sr_cond ++sr_cond: ++ sreq pc ++ sral r12 ++ srls r5 ++ srpl r4 ++ srne lr ++ srlt r0 ++ sral sp ++ srge r9 ++ .text ++ .global ld_w3 ++ld_w3: ++ ld.w pc,pc[0] ++ ld.w r12,r12[124] ++ ld.w r5,r5[64] ++ ld.w r4,r4[60] ++ ld.w lr,lr[4] ++ ld.w sp,r2[52] ++ ld.w r9,r1[8] ++ ld.w r5,sp[60] ++ .text ++ .global ld_sh3 ++ld_sh3: ++ ld.sh pc,pc[0] ++ ld.sh r12,r12[14] ++ ld.sh r5,r5[8] ++ ld.sh r4,r4[6] ++ ld.sh lr,lr[2] ++ ld.sh r4,r2[8] ++ ld.sh sp,lr[10] ++ ld.sh r2,r11[2] ++ .text ++ .global ld_uh3 ++ld_uh3: ++ ld.uh pc,pc[0] ++ ld.uh r12,r12[14] ++ ld.uh r5,r5[8] ++ ld.uh r4,r4[6] ++ ld.uh lr,lr[2] ++ ld.uh r10,r0[10] ++ ld.uh r8,r11[8] ++ ld.uh r10,r2[12] ++ .text ++ .global st_w3 ++st_w3: ++ st.w pc[0],pc ++ st.w r12[60],r12 ++ st.w r5[32],r5 ++ st.w r4[28],r4 ++ st.w lr[4],lr ++ st.w r7[44],r11 ++ st.w r2[24],r6 ++ st.w r4[12],r9 ++ .text ++ .global st_h3 ++st_h3: ++ st.h pc[0],pc ++ st.h r12[14],r12 ++ st.h r5[8],r5 ++ st.h r4[6],r4 ++ st.h lr[2],lr ++ st.h lr[10],r12 ++ st.h r6[4],r0 ++ st.h r5[12],sp ++ .text ++ .global st_b3 ++st_b3: ++ st.b pc[0],pc ++ st.b r12[7],r12 ++ st.b r5[4],r5 ++ st.b r4[3],r4 ++ st.b lr[1],lr ++ st.b r12[6],r9 ++ st.b r2[3],lr ++ st.b r1[3],r11 ++ .text ++ .global ldd ++ldd: ++ ld.d r0,pc ++ ld.d r14,r12 ++ ld.d r8,r5 ++ ld.d r6,r4 ++ ld.d r2,lr ++ ld.d r14,r7 ++ ld.d r4,r4 ++ ld.d r14,pc ++ .text ++ .global ldd_postinc ++ldd_postinc: ++ ld.d r0,pc++ ++ ld.d r14,r12++ ++ ld.d r8,r5++ ++ ld.d r6,r4++ ++ ld.d r2,lr++ ++ ld.d r14,r5++ ++ ld.d r12,r11++ ++ ld.d r2,r12++ ++ .text ++ .global ldd_predec ++ldd_predec: ++ ld.d r0,--pc ++ ld.d r14,--r12 ++ ld.d r8,--r5 ++ ld.d r6,--r4 ++ ld.d r2,--lr ++ ld.d r8,--r0 ++ ld.d r10,--pc ++ ld.d r2,--r4 ++ .text ++ .global std ++std: ++ st.d pc,r0 ++ st.d r12,r14 ++ st.d r5,r8 ++ st.d r4,r6 ++ st.d lr,r2 ++ st.d r0,r12 ++ st.d sp,r4 ++ st.d r12,r12 ++ .text ++ .global std_postinc ++std_postinc: ++ st.d pc++,r0 ++ st.d r12++,r14 ++ st.d r5++,r8 ++ st.d r4++,r6 ++ st.d lr++,r2 ++ st.d sp++,r6 ++ st.d r10++,r6 ++ st.d r7++,r2 ++ .text ++ .global std_predec ++std_predec: ++ st.d --pc,r0 ++ st.d --r12,r14 ++ st.d --r5,r8 ++ st.d --r4,r6 ++ st.d --lr,r2 ++ st.d --r3,r6 ++ st.d --lr,r2 ++ st.d --r0,r4 ++ .text ++ .global mul ++mul: ++ mul pc,pc ++ mul r12,r12 ++ mul r5,r5 ++ mul r4,r4 ++ mul lr,lr ++ mul r10,lr ++ mul r0,r8 ++ mul r8,r5 ++ .text ++ .global asr_imm5 ++asr_imm5: ++ asr pc,0 ++ asr r12,31 ++ asr r5,16 ++ asr r4,15 ++ asr lr,1 ++ asr r6,23 ++ asr r6,18 ++ asr r5,8 ++ .text ++ .global lsl_imm5 ++lsl_imm5: ++ lsl pc,0 ++ lsl r12,31 ++ lsl r5,16 ++ lsl r4,15 ++ lsl lr,1 ++ lsl r12,13 ++ lsl r6,16 ++ lsl r1,25 ++ .text ++ .global lsr_imm5 ++lsr_imm5: ++ lsr pc,0 ++ lsr r12,31 ++ lsr r5,16 ++ lsr r4,15 ++ lsr lr,1 ++ lsr r0,1 ++ lsr r8,10 ++ lsr r7,26 ++ .text ++ .global sbr ++sbr: ++ sbr pc,0 ++ sbr r12,31 ++ sbr r5,16 ++ sbr r4,15 ++ sbr lr,1 ++ sbr r8,31 ++ sbr r6,22 ++ sbr r1,23 ++ .text ++ .global cbr ++cbr: ++ cbr pc,0 ++ cbr r12,31 ++ cbr r5,16 ++ cbr r4,15 ++ cbr lr,1 ++ cbr r12,10 ++ cbr r7,22 ++ cbr r8,9 ++ .text ++ .global brc1 ++brc1: ++ breq 0 ++ brpl -2 ++ brge -256 ++ brcs 254 ++ brne 2 ++ brcs 230 ++ breq -18 ++ breq 12 ++ .text ++ .global rjmp ++rjmp: ++ rjmp 0 ++ rjmp -2 ++ rjmp -1024 ++ rjmp 1022 ++ rjmp 2 ++ rjmp -962 ++ rjmp 14 ++ rjmp -516 ++ .text ++ .global rcall1 ++rcall1: ++ rcall 0 ++ rcall -2 ++ rcall -1024 ++ rcall 1022 ++ rcall 2 ++ rcall 216 ++ rcall -530 ++ rcall -972 ++ .text ++ .global acall ++acall: ++ acall 0 ++ acall 1020 ++ acall 512 ++ acall 508 ++ acall 4 ++ acall 356 ++ acall 304 ++ acall 172 ++ .text ++ .global scall ++scall: ++ scall ++ scall ++ scall ++ scall ++ scall ++ scall ++ scall ++ scall ++ .text ++ .global popm ++popm: ++ /* popm with no argument fails currently */ ++ popm pc ++ popm r0-r11,pc,r12=-1 ++ popm lr ++ popm r0-r11,pc,r12=1 ++ popm r0-r3 ++ popm r4-r10,pc ++ popm r0-r3,r11,pc,r12=0 ++ popm r0-r7,r10-r12,lr ++ .text ++ .global pushm ++pushm: ++ pushm pc ++ pushm r0-r12,lr,pc ++ pushm pc ++ pushm r0-r12,lr ++ pushm r0-r3 ++ pushm r8-r10,lr,pc ++ pushm r0-r3,r10 ++ pushm r8-r9,r12 ++ .text ++ .global popm_n ++popm_n: ++ popm pc ++ popm r0-r11,pc,r12=-1 ++ popm lr ++ popm r0-r11,pc,r12=1 ++ popm r0-r3 ++ popm r4-r10,pc ++ popm r0-r3,r11,pc,r12=0 ++ popm r0-r7,r10-r12,lr ++ .text ++ .global pushm_n ++pushm_n: ++ pushm pc ++ pushm r0-r12,lr,pc ++ pushm pc ++ pushm r0-r12,lr ++ pushm r0-r3 ++ pushm r8-r10,lr,pc ++ pushm r0-r3,r10 ++ pushm r8-r9,r12 ++ .text ++ .global csrfcz ++csrfcz: ++ csrfcz 0 ++ csrfcz 31 ++ csrfcz 16 ++ csrfcz 15 ++ csrfcz 1 ++ csrfcz 5 ++ csrfcz 13 ++ csrfcz 23 ++ .text ++ .global ssrf ++ssrf: ++ ssrf 0 ++ ssrf 31 ++ ssrf 16 ++ ssrf 15 ++ ssrf 1 ++ ssrf 29 ++ ssrf 13 ++ ssrf 13 ++ .text ++ .global csrf ++csrf: ++ csrf 0 ++ csrf 31 ++ csrf 16 ++ csrf 15 ++ csrf 1 ++ csrf 10 ++ csrf 15 ++ csrf 11 ++ .text ++ .global rete ++rete: ++ rete ++ .text ++ .global rets ++rets: ++ rets ++ .text ++ .global retd ++retd: ++ retd ++ .text ++ .global retj ++retj: ++ retj ++ .text ++ .global tlbr ++tlbr: ++ tlbr ++ .text ++ .global tlbs ++tlbs: ++ tlbs ++ .text ++ .global tlbw ++tlbw: ++ tlbw ++ .text ++ .global breakpoint ++breakpoint: ++ breakpoint ++ .text ++ .global incjosp ++incjosp: ++ incjosp 1 ++ incjosp 2 ++ incjosp 3 ++ incjosp 4 ++ incjosp -4 ++ incjosp -3 ++ incjosp -2 ++ incjosp -1 ++ .text ++ .global nop ++nop: ++ nop ++ .text ++ .global popjc ++popjc: ++ popjc ++ .text ++ .global pushjc ++pushjc: ++ pushjc ++ .text ++ .global add2 ++add2: ++ add pc,pc,pc<<0 ++ add r12,r12,r12<<3 ++ add r5,r5,r5<<2 ++ add r4,r4,r4<<1 ++ add lr,lr,lr<<1 ++ add r0,r12,r0<<1 ++ add r9,r12,r4<<0 ++ add r12,r12,r7<<2 ++ .text ++ .global sub2 ++sub2: ++ sub pc,pc,pc<<0 ++ sub r12,r12,r12<<3 ++ sub r5,r5,r5<<2 ++ sub r4,r4,r4<<1 ++ sub lr,lr,lr<<1 ++ sub sp,r3,r4<<0 ++ sub r3,r7,r3<<0 ++ sub sp,r10,sp<<1 ++ .text ++ .global divu ++divu: ++ divu pc,pc,pc ++ divu r12,r12,r12 ++ divu r5,r5,r5 ++ divu r4,r4,r4 ++ divu lr,lr,lr ++ divu sp,r4,pc ++ divu r5,r5,sp ++ divu r10,sp,r0 ++ .text ++ .global addhh_w ++addhh_w: ++ addhh.w pc,pc:b,pc:b ++ addhh.w r12,r12:t,r12:t ++ addhh.w r5,r5:t,r5:t ++ addhh.w r4,r4:b,r4:b ++ addhh.w lr,lr:t,lr:t ++ addhh.w r0,r0:b,r3:b ++ addhh.w lr,r12:t,r7:b ++ addhh.w r3,r10:t,r2:b ++ .text ++ .global subhh_w ++subhh_w: ++ subhh.w pc,pc:b,pc:b ++ subhh.w r12,r12:t,r12:t ++ subhh.w r5,r5:t,r5:t ++ subhh.w r4,r4:b,r4:b ++ subhh.w lr,lr:t,lr:t ++ subhh.w r10,r1:t,r7:b ++ subhh.w pc,r10:t,lr:t ++ subhh.w r3,r0:t,r12:b ++ .text ++ .global adc ++adc: ++ adc pc,pc,pc ++ adc r12,r12,r12 ++ adc r5,r5,r5 ++ adc r4,r4,r4 ++ adc lr,lr,lr ++ adc r4,r0,r7 ++ adc sp,r4,r3 ++ adc r2,r12,r0 ++ .text ++ .global sbc ++sbc: ++ sbc pc,pc,pc ++ sbc r12,r12,r12 ++ sbc r5,r5,r5 ++ sbc r4,r4,r4 ++ sbc lr,lr,lr ++ sbc r6,r7,r9 ++ sbc r0,r8,r5 ++ sbc r1,r0,r4 ++ .text ++ .global mul_2 ++mul_2: ++ mul pc,pc,pc ++ mul r12,r12,r12 ++ mul r5,r5,r5 ++ mul r4,r4,r4 ++ mul lr,lr,lr ++ mul pc,r0,r0 ++ mul r8,pc,lr ++ mul r4,r12,pc ++ .text ++ .global mac ++mac: ++ mac pc,pc,pc ++ mac r12,r12,r12 ++ mac r5,r5,r5 ++ mac r4,r4,r4 ++ mac lr,lr,lr ++ mac r10,r4,r0 ++ mac r7,lr,r0 ++ mac r2,r9,r12 ++ .text ++ .global mulsd ++mulsd: ++ muls.d pc,pc,pc ++ muls.d r12,r12,r12 ++ muls.d r5,r5,r5 ++ muls.d r4,r4,r4 ++ muls.d lr,lr,lr ++ muls.d r2,r8,lr ++ muls.d r4,r0,r11 ++ muls.d r5,lr,r6 ++ .text ++ .global macsd ++macsd: ++ macs.d r0,pc,pc ++ macs.d r14,r12,r12 ++ macs.d r8,r5,r5 ++ macs.d r6,r4,r4 ++ macs.d r2,lr,lr ++ macs.d r8,r1,r9 ++ macs.d r14,r8,r8 ++ macs.d r4,r3,r12 ++ .text ++ .global mulud ++mulud: ++ mulu.d r0,pc,pc ++ mulu.d r14,r12,r12 ++ mulu.d r8,r5,r5 ++ mulu.d r6,r4,r4 ++ mulu.d r2,lr,lr ++ mulu.d r6,r5,r0 ++ mulu.d r4,r6,r1 ++ mulu.d r8,r8,r2 ++ .text ++ .global macud ++macud: ++ macu.d r0,pc,pc ++ macu.d r14,r12,r12 ++ macu.d r8,r5,r5 ++ macu.d r6,r4,r4 ++ macu.d r2,lr,lr ++ macu.d r6,sp,r11 ++ macu.d r2,r4,r8 ++ macu.d r6,r10,r9 ++ .text ++ .global asr_1 ++asr_1: ++ asr pc,pc,pc ++ asr r12,r12,r12 ++ asr r5,r5,r5 ++ asr r4,r4,r4 ++ asr lr,lr,lr ++ asr pc,r6,pc ++ asr r0,r6,r12 ++ asr r4,sp,r0 ++ .text ++ .global lsl_1 ++lsl_1: ++ lsl pc,pc,pc ++ lsl r12,r12,r12 ++ lsl r5,r5,r5 ++ lsl r4,r4,r4 ++ lsl lr,lr,lr ++ lsl lr,r5,lr ++ lsl r5,pc,r3 ++ lsl r1,pc,r9 ++ .text ++ .global lsr_1 ++lsr_1: ++ lsr pc,pc,pc ++ lsr r12,r12,r12 ++ lsr r5,r5,r5 ++ lsr r4,r4,r4 ++ lsr lr,lr,lr ++ lsr r2,r4,r1 ++ lsr r5,r1,r6 ++ lsr sp,r6,r7 ++ .text ++ .global xchg ++xchg: ++ xchg pc,pc,pc ++ xchg r12,r12,r12 ++ xchg r5,r5,r5 ++ xchg r4,r4,r4 ++ xchg lr,lr,lr ++ xchg lr,r4,sp ++ xchg r1,r5,r12 ++ xchg lr,r12,r0 ++ .text ++ .global max ++max: ++ max pc,pc,pc ++ max r12,r12,r12 ++ max r5,r5,r5 ++ max r4,r4,r4 ++ max lr,lr,lr ++ max lr,r2,sp ++ max r4,r10,r9 ++ max lr,r9,lr ++ .text ++ .global min ++min: ++ min pc,pc,pc ++ min r12,r12,r12 ++ min r5,r5,r5 ++ min r4,r4,r4 ++ min lr,lr,lr ++ min r9,r7,r8 ++ min sp,r5,r5 ++ min r4,r1,r4 ++ .text ++ .global addabs ++addabs: ++ addabs pc,pc,pc ++ addabs r12,r12,r12 ++ addabs r5,r5,r5 ++ addabs r4,r4,r4 ++ addabs lr,lr,lr ++ addabs r7,r10,r0 ++ addabs r9,r9,r7 ++ addabs r2,r8,r12 ++ .text ++ .global mulnhh_w ++mulnhh_w: ++ mulnhh.w pc,pc:b,pc:b ++ mulnhh.w r12,r12:t,r12:t ++ mulnhh.w r5,r5:t,r5:t ++ mulnhh.w r4,r4:b,r4:b ++ mulnhh.w lr,lr:t,lr:t ++ mulnhh.w r11,sp:t,r9:b ++ mulnhh.w sp,r4:b,lr:t ++ mulnhh.w r12,r2:t,r11:b ++ .text ++ .global mulnwh_d ++mulnwh_d: ++ mulnwh.d r0,pc,pc:b ++ mulnwh.d r14,r12,r12:t ++ mulnwh.d r8,r5,r5:t ++ mulnwh.d r6,r4,r4:b ++ mulnwh.d r2,lr,lr:t ++ mulnwh.d r14,r3,r2:t ++ mulnwh.d r4,r5,r9:b ++ mulnwh.d r12,r4,r4:t ++ .text ++ .global machh_w ++machh_w: ++ machh.w pc,pc:b,pc:b ++ machh.w r12,r12:t,r12:t ++ machh.w r5,r5:t,r5:t ++ machh.w r4,r4:b,r4:b ++ machh.w lr,lr:t,lr:t ++ machh.w lr,r5:b,r1:t ++ machh.w r9,r6:b,r7:b ++ machh.w r5,lr:t,r12:b ++ .text ++ .global machh_d ++machh_d: ++ machh.d r0,pc:b,pc:b ++ machh.d r14,r12:t,r12:t ++ machh.d r8,r5:t,r5:t ++ machh.d r6,r4:b,r4:b ++ machh.d r2,lr:t,lr:t ++ machh.d r10,r0:b,r8:b ++ machh.d r14,r4:b,r5:t ++ machh.d r8,r0:b,r4:t ++ .text ++ .global macsathh_w ++macsathh_w: ++ macsathh.w pc,pc:b,pc:b ++ macsathh.w r12,r12:t,r12:t ++ macsathh.w r5,r5:t,r5:t ++ macsathh.w r4,r4:b,r4:b ++ macsathh.w lr,lr:t,lr:t ++ macsathh.w r7,r7:t,pc:t ++ macsathh.w r4,r2:t,r4:b ++ macsathh.w r4,r8:t,r3:t ++ .text ++ .global mulhh_w ++mulhh_w: ++ mulhh.w pc,pc:b,pc:b ++ mulhh.w r12,r12:t,r12:t ++ mulhh.w r5,r5:t,r5:t ++ mulhh.w r4,r4:b,r4:b ++ mulhh.w lr,lr:t,lr:t ++ mulhh.w r7,r4:t,r9:b ++ mulhh.w pc,r3:t,r7:t ++ mulhh.w pc,r4:b,r9:t ++ .text ++ .global mulsathh_h ++mulsathh_h: ++ mulsathh.h pc,pc:b,pc:b ++ mulsathh.h r12,r12:t,r12:t ++ mulsathh.h r5,r5:t,r5:t ++ mulsathh.h r4,r4:b,r4:b ++ mulsathh.h lr,lr:t,lr:t ++ mulsathh.h r3,r1:b,sp:b ++ mulsathh.h r11,lr:t,r11:b ++ mulsathh.h r8,r8:b,r11:t ++ .text ++ .global mulsathh_w ++mulsathh_w: ++ mulsathh.w pc,pc:b,pc:b ++ mulsathh.w r12,r12:t,r12:t ++ mulsathh.w r5,r5:t,r5:t ++ mulsathh.w r4,r4:b,r4:b ++ mulsathh.w lr,lr:t,lr:t ++ mulsathh.w lr,r11:t,r6:b ++ mulsathh.w r6,r6:b,r7:t ++ mulsathh.w r10,r2:b,r3:b ++ .text ++ .global mulsatrndhh_h ++mulsatrndhh_h: ++ mulsatrndhh.h pc,pc:b,pc:b ++ mulsatrndhh.h r12,r12:t,r12:t ++ mulsatrndhh.h r5,r5:t,r5:t ++ mulsatrndhh.h r4,r4:b,r4:b ++ mulsatrndhh.h lr,lr:t,lr:t ++ mulsatrndhh.h r11,r6:b,r9:b ++ mulsatrndhh.h r11,r3:b,r8:t ++ mulsatrndhh.h r5,sp:t,r7:t ++ .text ++ .global mulsatrndwh_w ++mulsatrndwh_w: ++ mulsatrndwh.w pc,pc,pc:b ++ mulsatrndwh.w r12,r12,r12:t ++ mulsatrndwh.w r5,r5,r5:t ++ mulsatrndwh.w r4,r4,r4:b ++ mulsatrndwh.w lr,lr,lr:t ++ mulsatrndwh.w r5,r12,r0:b ++ mulsatrndwh.w r7,r10,pc:b ++ mulsatrndwh.w r10,r8,r5:t ++ .text ++ .global macwh_d ++macwh_d: ++ macwh.d r0,pc,pc:b ++ macwh.d r14,r12,r12:t ++ macwh.d r8,r5,r5:t ++ macwh.d r6,r4,r4:b ++ macwh.d r2,lr,lr:t ++ macwh.d r4,r10,r12:t ++ macwh.d r4,r7,sp:b ++ macwh.d r14,r9,r11:b ++ .text ++ .global mulwh_d ++mulwh_d: ++ mulwh.d r0,pc,pc:b ++ mulwh.d r14,r12,r12:t ++ mulwh.d r8,r5,r5:t ++ mulwh.d r6,r4,r4:b ++ mulwh.d r2,lr,lr:t ++ mulwh.d r12,r5,r1:b ++ mulwh.d r0,r1,r3:t ++ mulwh.d r0,r9,r2:b ++ .text ++ .global mulsatwh_w ++mulsatwh_w: ++ mulsatwh.w pc,pc,pc:b ++ mulsatwh.w r12,r12,r12:t ++ mulsatwh.w r5,r5,r5:t ++ mulsatwh.w r4,r4,r4:b ++ mulsatwh.w lr,lr,lr:t ++ mulsatwh.w r11,pc,r10:t ++ mulsatwh.w sp,r12,r9:t ++ mulsatwh.w r0,r3,r2:t ++ .text ++ .global ldw7 ++ldw7: ++ ld.w pc,pc[pc:b<<2] ++ ld.w r12,r12[r12:t<<2] ++ ld.w r5,r5[r5:u<<2] ++ ld.w r4,r4[r4:l<<2] ++ ld.w lr,lr[lr:l<<2] ++ ld.w r9,r10[r6:l<<2] ++ ld.w r2,r10[r10:b<<2] ++ ld.w r11,r5[pc:b<<2] ++ .text ++ .global satadd_w ++satadd_w: ++ satadd.w pc,pc,pc ++ satadd.w r12,r12,r12 ++ satadd.w r5,r5,r5 ++ satadd.w r4,r4,r4 ++ satadd.w lr,lr,lr ++ satadd.w r4,r8,r11 ++ satadd.w r3,r12,r6 ++ satadd.w r3,lr,r9 ++ .text ++ .global satsub_w1 ++satsub_w1: ++ satsub.w pc,pc,pc ++ satsub.w r12,r12,r12 ++ satsub.w r5,r5,r5 ++ satsub.w r4,r4,r4 ++ satsub.w lr,lr,lr ++ satsub.w r8,sp,r0 ++ satsub.w r9,r8,r4 ++ satsub.w pc,lr,r2 ++ .text ++ .global satadd_h ++satadd_h: ++ satadd.h pc,pc,pc ++ satadd.h r12,r12,r12 ++ satadd.h r5,r5,r5 ++ satadd.h r4,r4,r4 ++ satadd.h lr,lr,lr ++ satadd.h r7,r3,r9 ++ satadd.h r1,r0,r2 ++ satadd.h r1,r4,lr ++ .text ++ .global satsub_h ++satsub_h: ++ satsub.h pc,pc,pc ++ satsub.h r12,r12,r12 ++ satsub.h r5,r5,r5 ++ satsub.h r4,r4,r4 ++ satsub.h lr,lr,lr ++ satsub.h lr,lr,r3 ++ satsub.h r11,r6,r5 ++ satsub.h r3,sp,r0 ++ .text ++ .global mul3 ++mul3: ++ mul pc,pc,0 ++ mul r12,r12,-1 ++ mul r5,r5,-128 ++ mul r4,r4,127 ++ mul lr,lr,1 ++ mul r12,r2,-7 ++ mul r1,pc,95 ++ mul r4,r6,19 ++ .text ++ .global rsub2 ++rsub2: ++ rsub pc,pc,0 ++ rsub r12,r12,-1 ++ rsub r5,r5,-128 ++ rsub r4,r4,127 ++ rsub lr,lr,1 ++ rsub r9,lr,96 ++ rsub r11,r1,56 ++ rsub r0,r7,-87 ++ .text ++ .global clz ++clz: ++ clz pc,pc ++ clz r12,r12 ++ clz r5,r5 ++ clz r4,r4 ++ clz lr,lr ++ clz r2,r3 ++ clz r5,r11 ++ clz pc,r3 ++ .text ++ .global cpc1 ++cpc1: ++ cpc pc,pc ++ cpc r12,r12 ++ cpc r5,r5 ++ cpc r4,r4 ++ cpc lr,lr ++ cpc pc,r4 ++ cpc r5,r9 ++ cpc r6,r7 ++ .text ++ .global asr3 ++asr3: ++ asr pc,pc,0 ++ asr r12,r12,31 ++ asr r5,r5,16 ++ asr r4,r4,15 ++ asr lr,lr,1 ++ asr r4,r11,19 ++ asr sp,pc,26 ++ asr r11,sp,8 ++ .text ++ .global lsl3 ++lsl3: ++ lsl pc,pc,0 ++ lsl r12,r12,31 ++ lsl r5,r5,16 ++ lsl r4,r4,15 ++ lsl lr,lr,1 ++ lsl r8,r10,17 ++ lsl r2,lr,3 ++ lsl lr,r11,14 ++ .text ++ .global lsr3 ++lsr3: ++ lsr pc,pc,0 ++ lsr r12,r12,31 ++ lsr r5,r5,16 ++ lsr r4,r4,15 ++ lsr lr,lr,1 ++ lsr r4,r3,31 ++ lsr pc,r9,14 ++ lsr r3,r0,6 ++/* .text ++ .global extract_b ++extract_b: ++ extract.b pc,pc:b ++ extract.b r12,r12:t ++ extract.b r5,r5:u ++ extract.b r4,r4:l ++ extract.b lr,lr:l ++ extract.b r2,r5:l ++ extract.b r12,r3:l ++ extract.b sp,r3:l ++ .text ++ .global insert_b ++insert_b: ++ insert.b pc:b,pc ++ insert.b r12:t,r12 ++ insert.b r5:u,r5 ++ insert.b r4:l,r4 ++ insert.b lr:l,lr ++ insert.b r12:u,r3 ++ insert.b r10:l,lr ++ insert.b r11:l,r12 ++ .text ++ .global extract_h ++extract_h: ++ extract.h pc,pc:b ++ extract.h r12,r12:t ++ extract.h r5,r5:t ++ extract.h r4,r4:b ++ extract.h lr,lr:t ++ extract.h r11,lr:b ++ extract.h r10,r0:b ++ extract.h r11,r12:b ++ .text ++ .global insert_h ++insert_h: ++ insert.h pc:b,pc ++ insert.h r12:t,r12 ++ insert.h r5:t,r5 ++ insert.h r4:b,r4 ++ insert.h lr:t,lr ++ insert.h r12:t,r11 ++ insert.h r7:b,r6 ++ insert.h r1:t,r11 */ ++ .text ++ .global movc1 ++movc1: ++ moveq pc,pc ++ moval r12,r12 ++ movls r5,r5 ++ movpl r4,r4 ++ movne lr,lr ++ movne pc,r11 ++ movmi r10,r2 ++ movls r8,r12 ++ .text ++ .global padd_h ++padd_h: ++ padd.h pc,pc,pc ++ padd.h r12,r12,r12 ++ padd.h r5,r5,r5 ++ padd.h r4,r4,r4 ++ padd.h lr,lr,lr ++ padd.h r8,r2,r7 ++ padd.h r0,r0,r3 ++ padd.h sp,r11,r6 ++ .text ++ .global psub_h ++psub_h: ++ psub.h pc,pc,pc ++ psub.h r12,r12,r12 ++ psub.h r5,r5,r5 ++ psub.h r4,r4,r4 ++ psub.h lr,lr,lr ++ psub.h lr,r6,r8 ++ psub.h r0,r1,sp ++ psub.h pc,pc,sp ++ .text ++ .global paddx_h ++paddx_h: ++ paddx.h pc,pc,pc ++ paddx.h r12,r12,r12 ++ paddx.h r5,r5,r5 ++ paddx.h r4,r4,r4 ++ paddx.h lr,lr,lr ++ paddx.h pc,pc,r1 ++ paddx.h r10,r4,r5 ++ paddx.h r5,pc,r2 ++ .text ++ .global psubx_h ++psubx_h: ++ psubx.h pc,pc,pc ++ psubx.h r12,r12,r12 ++ psubx.h r5,r5,r5 ++ psubx.h r4,r4,r4 ++ psubx.h lr,lr,lr ++ psubx.h r5,r12,r5 ++ psubx.h r3,r8,r3 ++ psubx.h r5,r2,r3 ++ .text ++ .global padds_sh ++padds_sh: ++ padds.sh pc,pc,pc ++ padds.sh r12,r12,r12 ++ padds.sh r5,r5,r5 ++ padds.sh r4,r4,r4 ++ padds.sh lr,lr,lr ++ padds.sh r9,lr,r2 ++ padds.sh r6,r8,r1 ++ padds.sh r6,r4,r10 ++ .text ++ .global psubs_sh ++psubs_sh: ++ psubs.sh pc,pc,pc ++ psubs.sh r12,r12,r12 ++ psubs.sh r5,r5,r5 ++ psubs.sh r4,r4,r4 ++ psubs.sh lr,lr,lr ++ psubs.sh r6,lr,r11 ++ psubs.sh r2,r12,r4 ++ psubs.sh r0,r9,r0 ++ .text ++ .global paddxs_sh ++paddxs_sh: ++ paddxs.sh pc,pc,pc ++ paddxs.sh r12,r12,r12 ++ paddxs.sh r5,r5,r5 ++ paddxs.sh r4,r4,r4 ++ paddxs.sh lr,lr,lr ++ paddxs.sh r0,r3,r9 ++ paddxs.sh pc,r10,r11 ++ paddxs.sh pc,r10,pc ++ .text ++ .global psubxs_sh ++psubxs_sh: ++ psubxs.sh pc,pc,pc ++ psubxs.sh r12,r12,r12 ++ psubxs.sh r5,r5,r5 ++ psubxs.sh r4,r4,r4 ++ psubxs.sh lr,lr,lr ++ psubxs.sh r7,r4,r4 ++ psubxs.sh r7,r8,r3 ++ psubxs.sh pc,r6,r5 ++ .text ++ .global padds_uh ++padds_uh: ++ padds.uh pc,pc,pc ++ padds.uh r12,r12,r12 ++ padds.uh r5,r5,r5 ++ padds.uh r4,r4,r4 ++ padds.uh lr,lr,lr ++ padds.uh r12,r11,r7 ++ padds.uh r7,r8,lr ++ padds.uh r6,r9,r7 ++ .text ++ .global psubs_uh ++psubs_uh: ++ psubs.uh pc,pc,pc ++ psubs.uh r12,r12,r12 ++ psubs.uh r5,r5,r5 ++ psubs.uh r4,r4,r4 ++ psubs.uh lr,lr,lr ++ psubs.uh lr,r10,r6 ++ psubs.uh sp,r2,pc ++ psubs.uh r2,r9,r2 ++ .text ++ .global paddxs_uh ++paddxs_uh: ++ paddxs.uh pc,pc,pc ++ paddxs.uh r12,r12,r12 ++ paddxs.uh r5,r5,r5 ++ paddxs.uh r4,r4,r4 ++ paddxs.uh lr,lr,lr ++ paddxs.uh r7,r9,r5 ++ paddxs.uh r9,r1,r4 ++ paddxs.uh r5,r2,r3 ++ .text ++ .global psubxs_uh ++psubxs_uh: ++ psubxs.uh pc,pc,pc ++ psubxs.uh r12,r12,r12 ++ psubxs.uh r5,r5,r5 ++ psubxs.uh r4,r4,r4 ++ psubxs.uh lr,lr,lr ++ psubxs.uh sp,r5,sp ++ psubxs.uh sp,r6,r6 ++ psubxs.uh r3,r11,r8 ++ .text ++ .global paddh_sh ++paddh_sh: ++ paddh.sh pc,pc,pc ++ paddh.sh r12,r12,r12 ++ paddh.sh r5,r5,r5 ++ paddh.sh r4,r4,r4 ++ paddh.sh lr,lr,lr ++ paddh.sh r12,sp,r3 ++ paddh.sh pc,r5,r3 ++ paddh.sh r8,r8,sp ++ .text ++ .global psubh_sh ++psubh_sh: ++ psubh.sh pc,pc,pc ++ psubh.sh r12,r12,r12 ++ psubh.sh r5,r5,r5 ++ psubh.sh r4,r4,r4 ++ psubh.sh lr,lr,lr ++ psubh.sh r1,r5,r8 ++ psubh.sh r7,r3,r6 ++ psubh.sh r4,r3,r3 ++ .text ++ .global paddxh_sh ++paddxh_sh: ++ paddxh.sh pc,pc,pc ++ paddxh.sh r12,r12,r12 ++ paddxh.sh r5,r5,r5 ++ paddxh.sh r4,r4,r4 ++ paddxh.sh lr,lr,lr ++ paddxh.sh r6,r0,r4 ++ paddxh.sh r9,r8,r9 ++ paddxh.sh r3,r0,sp ++ .text ++ .global psubxh_sh ++psubxh_sh: ++ psubxh.sh pc,pc,pc ++ psubxh.sh r12,r12,r12 ++ psubxh.sh r5,r5,r5 ++ psubxh.sh r4,r4,r4 ++ psubxh.sh lr,lr,lr ++ psubxh.sh r4,pc,r12 ++ psubxh.sh r8,r4,r6 ++ psubxh.sh r12,r9,r4 ++ .text ++ .global paddsub_h ++paddsub_h: ++ paddsub.h pc,pc:b,pc:b ++ paddsub.h r12,r12:t,r12:t ++ paddsub.h r5,r5:t,r5:t ++ paddsub.h r4,r4:b,r4:b ++ paddsub.h lr,lr:t,lr:t ++ paddsub.h r5,r2:t,lr:b ++ paddsub.h r7,r1:b,r8:b ++ paddsub.h r6,r10:t,r5:t ++ .text ++ .global psubadd_h ++psubadd_h: ++ psubadd.h pc,pc:b,pc:b ++ psubadd.h r12,r12:t,r12:t ++ psubadd.h r5,r5:t,r5:t ++ psubadd.h r4,r4:b,r4:b ++ psubadd.h lr,lr:t,lr:t ++ psubadd.h r9,r11:t,r8:t ++ psubadd.h r10,r7:t,lr:t ++ psubadd.h r6,pc:t,pc:b ++ .text ++ .global paddsubs_sh ++paddsubs_sh: ++ paddsubs.sh pc,pc:b,pc:b ++ paddsubs.sh r12,r12:t,r12:t ++ paddsubs.sh r5,r5:t,r5:t ++ paddsubs.sh r4,r4:b,r4:b ++ paddsubs.sh lr,lr:t,lr:t ++ paddsubs.sh r0,lr:t,r0:b ++ paddsubs.sh r9,r2:t,r4:t ++ paddsubs.sh r12,r9:t,sp:t ++ .text ++ .global psubadds_sh ++psubadds_sh: ++ psubadds.sh pc,pc:b,pc:b ++ psubadds.sh r12,r12:t,r12:t ++ psubadds.sh r5,r5:t,r5:t ++ psubadds.sh r4,r4:b,r4:b ++ psubadds.sh lr,lr:t,lr:t ++ psubadds.sh pc,lr:b,r1:t ++ psubadds.sh r11,r3:b,r12:b ++ psubadds.sh r10,r2:t,r8:t ++ .text ++ .global paddsubs_uh ++paddsubs_uh: ++ paddsubs.uh pc,pc:b,pc:b ++ paddsubs.uh r12,r12:t,r12:t ++ paddsubs.uh r5,r5:t,r5:t ++ paddsubs.uh r4,r4:b,r4:b ++ paddsubs.uh lr,lr:t,lr:t ++ paddsubs.uh r9,r2:b,r3:b ++ paddsubs.uh sp,sp:b,r7:t ++ paddsubs.uh lr,r0:b,r10:t ++ .text ++ .global psubadds_uh ++psubadds_uh: ++ psubadds.uh pc,pc:b,pc:b ++ psubadds.uh r12,r12:t,r12:t ++ psubadds.uh r5,r5:t,r5:t ++ psubadds.uh r4,r4:b,r4:b ++ psubadds.uh lr,lr:t,lr:t ++ psubadds.uh r12,r9:t,pc:t ++ psubadds.uh r8,r6:b,r8:b ++ psubadds.uh r8,r8:b,r4:b ++ .text ++ .global paddsubh_sh ++paddsubh_sh: ++ paddsubh.sh pc,pc:b,pc:b ++ paddsubh.sh r12,r12:t,r12:t ++ paddsubh.sh r5,r5:t,r5:t ++ paddsubh.sh r4,r4:b,r4:b ++ paddsubh.sh lr,lr:t,lr:t ++ paddsubh.sh r8,r9:t,r9:b ++ paddsubh.sh r0,sp:t,r1:t ++ paddsubh.sh r3,r1:b,r0:t ++ .text ++ .global psubaddh_sh ++psubaddh_sh: ++ psubaddh.sh pc,pc:b,pc:b ++ psubaddh.sh r12,r12:t,r12:t ++ psubaddh.sh r5,r5:t,r5:t ++ psubaddh.sh r4,r4:b,r4:b ++ psubaddh.sh lr,lr:t,lr:t ++ psubaddh.sh r7,r3:t,r10:b ++ psubaddh.sh r7,r2:t,r1:t ++ psubaddh.sh r11,r3:b,r6:b ++ .text ++ .global padd_b ++padd_b: ++ padd.b pc,pc,pc ++ padd.b r12,r12,r12 ++ padd.b r5,r5,r5 ++ padd.b r4,r4,r4 ++ padd.b lr,lr,lr ++ padd.b r2,r6,pc ++ padd.b r8,r9,r12 ++ padd.b r5,r12,r3 ++ .text ++ .global psub_b ++psub_b: ++ psub.b pc,pc,pc ++ psub.b r12,r12,r12 ++ psub.b r5,r5,r5 ++ psub.b r4,r4,r4 ++ psub.b lr,lr,lr ++ psub.b r0,r12,pc ++ psub.b r7,sp,r10 ++ psub.b r5,sp,r12 ++ .text ++ .global padds_sb ++padds_sb: ++ padds.sb pc,pc,pc ++ padds.sb r12,r12,r12 ++ padds.sb r5,r5,r5 ++ padds.sb r4,r4,r4 ++ padds.sb lr,lr,lr ++ padds.sb sp,r11,r4 ++ padds.sb r11,r10,r11 ++ padds.sb r5,r12,r6 ++ .text ++ .global psubs_sb ++psubs_sb: ++ psubs.sb pc,pc,pc ++ psubs.sb r12,r12,r12 ++ psubs.sb r5,r5,r5 ++ psubs.sb r4,r4,r4 ++ psubs.sb lr,lr,lr ++ psubs.sb r7,r6,r8 ++ psubs.sb r12,r10,r9 ++ psubs.sb pc,r11,r0 ++ .text ++ .global padds_ub ++padds_ub: ++ padds.ub pc,pc,pc ++ padds.ub r12,r12,r12 ++ padds.ub r5,r5,r5 ++ padds.ub r4,r4,r4 ++ padds.ub lr,lr,lr ++ padds.ub r3,r2,r11 ++ padds.ub r10,r8,r1 ++ padds.ub r11,r8,r10 ++ .text ++ .global psubs_ub ++psubs_ub: ++ psubs.ub pc,pc,pc ++ psubs.ub r12,r12,r12 ++ psubs.ub r5,r5,r5 ++ psubs.ub r4,r4,r4 ++ psubs.ub lr,lr,lr ++ psubs.ub r0,r2,r7 ++ psubs.ub lr,r5,r3 ++ psubs.ub r6,r7,r9 ++ .text ++ .global paddh_ub ++paddh_ub: ++ paddh.ub pc,pc,pc ++ paddh.ub r12,r12,r12 ++ paddh.ub r5,r5,r5 ++ paddh.ub r4,r4,r4 ++ paddh.ub lr,lr,lr ++ paddh.ub lr,r1,r0 ++ paddh.ub r2,r7,r7 ++ paddh.ub r2,r1,r2 ++ .text ++ .global psubh_ub ++psubh_ub: ++ psubh.ub pc,pc,pc ++ psubh.ub r12,r12,r12 ++ psubh.ub r5,r5,r5 ++ psubh.ub r4,r4,r4 ++ psubh.ub lr,lr,lr ++ psubh.ub r0,r1,r6 ++ psubh.ub r4,lr,r10 ++ psubh.ub r9,r8,r1 ++ .text ++ .global pmax_ub ++pmax_ub: ++ pmax.ub pc,pc,pc ++ pmax.ub r12,r12,r12 ++ pmax.ub r5,r5,r5 ++ pmax.ub r4,r4,r4 ++ pmax.ub lr,lr,lr ++ pmax.ub pc,r2,r11 ++ pmax.ub r12,r1,r1 ++ pmax.ub r5,r2,r0 ++ .text ++ .global pmax_sh ++pmax_sh: ++ pmax.sh pc,pc,pc ++ pmax.sh r12,r12,r12 ++ pmax.sh r5,r5,r5 ++ pmax.sh r4,r4,r4 ++ pmax.sh lr,lr,lr ++ pmax.sh lr,r6,r12 ++ pmax.sh r2,pc,r5 ++ pmax.sh pc,r2,r7 ++ .text ++ .global pmin_ub ++pmin_ub: ++ pmin.ub pc,pc,pc ++ pmin.ub r12,r12,r12 ++ pmin.ub r5,r5,r5 ++ pmin.ub r4,r4,r4 ++ pmin.ub lr,lr,lr ++ pmin.ub r8,r1,r5 ++ pmin.ub r1,r8,r3 ++ pmin.ub r0,r2,r7 ++ .text ++ .global pmin_sh ++pmin_sh: ++ pmin.sh pc,pc,pc ++ pmin.sh r12,r12,r12 ++ pmin.sh r5,r5,r5 ++ pmin.sh r4,r4,r4 ++ pmin.sh lr,lr,lr ++ pmin.sh r8,r4,r10 ++ pmin.sh lr,r10,r12 ++ pmin.sh r2,r6,r2 ++ .text ++ .global pavg_ub ++pavg_ub: ++ pavg.ub pc,pc,pc ++ pavg.ub r12,r12,r12 ++ pavg.ub r5,r5,r5 ++ pavg.ub r4,r4,r4 ++ pavg.ub lr,lr,lr ++ pavg.ub r0,r1,r6 ++ pavg.ub r8,r3,r6 ++ pavg.ub pc,r12,r10 ++ .text ++ .global pavg_sh ++pavg_sh: ++ pavg.sh pc,pc,pc ++ pavg.sh r12,r12,r12 ++ pavg.sh r5,r5,r5 ++ pavg.sh r4,r4,r4 ++ pavg.sh lr,lr,lr ++ pavg.sh r9,pc,sp ++ pavg.sh pc,sp,r3 ++ pavg.sh r6,r1,r9 ++ .text ++ .global pabs_sb ++pabs_sb: ++ pabs.sb pc,pc ++ pabs.sb r12,r12 ++ pabs.sb r5,r5 ++ pabs.sb r4,r4 ++ pabs.sb lr,lr ++ pabs.sb r11,r6 ++ pabs.sb lr,r9 ++ pabs.sb sp,r7 ++ .text ++ .global pabs_sh ++pabs_sh: ++ pabs.sh pc,pc ++ pabs.sh r12,r12 ++ pabs.sh r5,r5 ++ pabs.sh r4,r4 ++ pabs.sh lr,lr ++ pabs.sh pc,r3 ++ pabs.sh r5,r7 ++ pabs.sh r4,r0 ++ .text ++ .global psad ++psad: ++ psad pc,pc,pc ++ psad r12,r12,r12 ++ psad r5,r5,r5 ++ psad r4,r4,r4 ++ psad lr,lr,lr ++ psad r9,r11,r11 ++ psad lr,r4,sp ++ psad lr,r4,r5 ++ .text ++ .global pasr_b ++pasr_b: ++ pasr.b pc,pc,0 ++ pasr.b r12,r12,7 ++ pasr.b r5,r5,4 ++ pasr.b r4,r4,3 ++ pasr.b lr,lr,1 ++ pasr.b pc,r7,1 ++ pasr.b sp,lr,6 ++ pasr.b sp,r3,2 ++ .text ++ .global plsl_b ++plsl_b: ++ plsl.b pc,pc,0 ++ plsl.b r12,r12,7 ++ plsl.b r5,r5,4 ++ plsl.b r4,r4,3 ++ plsl.b lr,lr,1 ++ plsl.b r2,r11,4 ++ plsl.b r8,r5,7 ++ plsl.b pc,r0,2 ++ .text ++ .global plsr_b ++plsr_b: ++ plsr.b pc,pc,0 ++ plsr.b r12,r12,7 ++ plsr.b r5,r5,4 ++ plsr.b r4,r4,3 ++ plsr.b lr,lr,1 ++ plsr.b r12,r1,2 ++ plsr.b r6,pc,7 ++ plsr.b r12,r11,2 ++ .text ++ .global pasr_h ++pasr_h: ++ pasr.h pc,pc,0 ++ pasr.h r12,r12,15 ++ pasr.h r5,r5,8 ++ pasr.h r4,r4,7 ++ pasr.h lr,lr,1 ++ pasr.h r0,r11,10 ++ pasr.h r4,r6,8 ++ pasr.h r6,r2,4 ++ .text ++ .global plsl_h ++plsl_h: ++ plsl.h pc,pc,0 ++ plsl.h r12,r12,15 ++ plsl.h r5,r5,8 ++ plsl.h r4,r4,7 ++ plsl.h lr,lr,1 ++ plsl.h r5,r10,9 ++ plsl.h sp,lr,8 ++ plsl.h r0,lr,7 ++ .text ++ .global plsr_h ++plsr_h: ++ plsr.h pc,pc,0 ++ plsr.h r12,r12,15 ++ plsr.h r5,r5,8 ++ plsr.h r4,r4,7 ++ plsr.h lr,lr,1 ++ plsr.h r11,r0,15 ++ plsr.h lr,r3,3 ++ plsr.h r8,lr,10 ++ .text ++ .global packw_sh ++packw_sh: ++ packw.sh pc,pc,pc ++ packw.sh r12,r12,r12 ++ packw.sh r5,r5,r5 ++ packw.sh r4,r4,r4 ++ packw.sh lr,lr,lr ++ packw.sh sp,r11,r10 ++ packw.sh r8,r2,r12 ++ packw.sh r8,r1,r5 ++ .text ++ .global punpckub_h ++punpckub_h: ++ punpckub.h pc,pc:b ++ punpckub.h r12,r12:t ++ punpckub.h r5,r5:t ++ punpckub.h r4,r4:b ++ punpckub.h lr,lr:t ++ punpckub.h r6,r1:t ++ punpckub.h lr,r5:b ++ punpckub.h lr,r2:t ++ .text ++ .global punpcksb_h ++punpcksb_h: ++ punpcksb.h pc,pc:b ++ punpcksb.h r12,r12:t ++ punpcksb.h r5,r5:t ++ punpcksb.h r4,r4:b ++ punpcksb.h lr,lr:t ++ punpcksb.h r4,r7:t ++ punpcksb.h r6,lr:b ++ punpcksb.h r12,r12:t ++ .text ++ .global packsh_ub ++packsh_ub: ++ packsh.ub pc,pc,pc ++ packsh.ub r12,r12,r12 ++ packsh.ub r5,r5,r5 ++ packsh.ub r4,r4,r4 ++ packsh.ub lr,lr,lr ++ packsh.ub r3,r6,r3 ++ packsh.ub r8,r0,r3 ++ packsh.ub r9,r3,lr ++ .text ++ .global packsh_sb ++packsh_sb: ++ packsh.sb pc,pc,pc ++ packsh.sb r12,r12,r12 ++ packsh.sb r5,r5,r5 ++ packsh.sb r4,r4,r4 ++ packsh.sb lr,lr,lr ++ packsh.sb r6,r8,r1 ++ packsh.sb lr,r9,r8 ++ packsh.sb sp,r6,r6 ++ .text ++ .global andl ++andl: ++ andl pc,0 ++ andl r12,65535 ++ andl r5,32768 ++ andl r4,32767 ++ andl lr,1 ++ andl pc,23128 ++ andl r8,47262 ++ andl r7,13719 ++ .text ++ .global andl_coh ++andl_coh: ++ andl pc,0,COH ++ andl r12,65535,COH ++ andl r5,32768,COH ++ andl r4,32767,COH ++ andl lr,1,COH ++ andl r6,22753,COH ++ andl r0,40653,COH ++ andl r4,48580,COH ++ .text ++ .global andh ++andh: ++ andh pc,0 ++ andh r12,65535 ++ andh r5,32768 ++ andh r4,32767 ++ andh lr,1 ++ andh r12,52312 ++ andh r3,8675 ++ andh r2,42987 ++ .text ++ .global andh_coh ++andh_coh: ++ andh pc,0,COH ++ andh r12,65535,COH ++ andh r5,32768,COH ++ andh r4,32767,COH ++ andh lr,1,COH ++ andh r11,34317,COH ++ andh r8,52982,COH ++ andh r10,23683,COH ++ .text ++ .global orl ++orl: ++ orl pc,0 ++ orl r12,65535 ++ orl r5,32768 ++ orl r4,32767 ++ orl lr,1 ++ orl sp,16766 ++ orl r0,21181 ++ orl pc,44103 ++ .text ++ .global orh ++orh: ++ orh pc,0 ++ orh r12,65535 ++ orh r5,32768 ++ orh r4,32767 ++ orh lr,1 ++ orh r8,28285 ++ orh r12,30492 ++ orh r1,59930 ++ .text ++ .global eorl ++eorl: ++ eorl pc,0 ++ eorl r12,65535 ++ eorl r5,32768 ++ eorl r4,32767 ++ eorl lr,1 ++ eorl r4,51129 ++ eorl r6,64477 ++ eorl r1,20913 ++ .text ++ .global eorh ++eorh: ++ eorh pc,0 ++ eorh r12,65535 ++ eorh r5,32768 ++ eorh r4,32767 ++ eorh lr,1 ++ eorh r0,11732 ++ eorh r10,38069 ++ eorh r9,57130 ++ .text ++ .global mcall ++mcall: ++ mcall pc[0] ++ mcall r12[-4] ++ mcall r5[-131072] ++ mcall r4[131068] ++ mcall lr[4] ++ mcall sp[61180] ++ mcall r4[-35000] ++ mcall r0[9924] ++ .text ++ .global pref ++pref: ++ pref pc[0] ++ pref r12[-1] ++ pref r5[-32768] ++ pref r4[32767] ++ pref lr[1] ++ pref r7[7748] ++ pref r7[-7699] ++ pref r2[-25892] ++ .text ++ .global cache ++cache: ++ cache pc[0],0 ++ cache r12[-1],31 ++ cache r5[-1024],16 ++ cache r4[1023],15 ++ cache lr[1],1 ++ cache r3[-964],17 ++ cache r4[-375],22 ++ cache r3[-888],17 ++ .text ++ .global sub4 ++sub4: ++ sub pc,0 ++ sub r12,-1 ++ sub r5,-1048576 ++ sub r4,1048575 ++ sub lr,1 ++ sub r2,-619156 ++ sub lr,461517 ++ sub r8,-185051 ++ .text ++ .global cp3 ++cp3: ++ cp pc,0 ++ cp r12,-1 ++ cp r5,-1048576 ++ cp r4,1048575 ++ cp lr,1 ++ cp r1,124078 ++ cp r0,-378909 ++ cp r4,-243180 ++ .text ++ .global mov2 ++mov2: ++ mov pc,0 ++ mov r12,-1 ++ mov r5,-1048576 ++ mov r4,1048575 ++ mov lr,1 ++ mov r5,-317021 ++ mov sp,-749164 ++ mov r5,940179 ++ .text ++ .global brc2 ++brc2: ++ breq 0 ++ bral -2 ++ brls -2097152 ++ brpl 2097150 ++ brne 2 ++ brhi -1796966 ++ brqs 1321368 ++ brls -577434 ++ .text ++ .global rcall2 ++rcall2: ++ rcall 0 ++ rcall -2 ++ rcall -2097152 ++ rcall 2097150 ++ rcall 2 ++ rcall 496820 ++ rcall 1085092 ++ rcall -1058 ++ .text ++ .global sub5 ++sub5: ++ sub pc,pc,0 ++ sub r12,r12,-1 ++ sub r5,r5,-32768 ++ sub r4,r4,32767 ++ sub lr,lr,1 ++ sub pc,pc,-12744 ++ sub r7,r7,-27365 ++ sub r2,r9,-17358 ++ .text ++ .global satsub_w2 ++satsub_w2: ++ satsub.w pc,pc,0 ++ satsub.w r12,r12,-1 ++ satsub.w r5,r5,-32768 ++ satsub.w r4,r4,32767 ++ satsub.w lr,lr,1 ++ satsub.w r2,lr,-2007 ++ satsub.w r7,r12,-784 ++ satsub.w r4,r7,23180 ++ .text ++ .global ld_d4 ++ld_d4: ++ ld.d r0,pc[0] ++ ld.d r14,r12[-1] ++ ld.d r8,r5[-32768] ++ ld.d r6,r4[32767] ++ ld.d r2,lr[1] ++ ld.d r14,r11[14784] ++ ld.d r6,r9[-18905] ++ ld.d r2,r3[-6355] ++ .text ++ .global ld_w4 ++ld_w4: ++ ld.w pc,pc[0] ++ ld.w r12,r12[-1] ++ ld.w r5,r5[-32768] ++ ld.w r4,r4[32767] ++ ld.w lr,lr[1] ++ ld.w r0,r12[-22133] ++ ld.w sp,pc[-20521] ++ /* ld.w r3,r5[29035] */ ++ nop ++ .text ++ .global ld_sh4 ++ld_sh4: ++ ld.sh pc,pc[0] ++ ld.sh r12,r12[-1] ++ ld.sh r5,r5[-32768] ++ ld.sh r4,r4[32767] ++ ld.sh lr,lr[1] ++ ld.sh r6,r10[30930] ++ ld.sh r6,r10[21973] ++ /* ld.sh r11,r10[-2058] */ ++ nop ++ .text ++ .global ld_uh4 ++ld_uh4: ++ ld.uh pc,pc[0] ++ ld.uh r12,r12[-1] ++ ld.uh r5,r5[-32768] ++ ld.uh r4,r4[32767] ++ ld.uh lr,lr[1] ++ ld.uh r1,r9[-13354] ++ ld.uh lr,r11[21337] ++ /* ld.uh r2,lr[-25370] */ ++ nop ++ .text ++ .global ld_sb1 ++ld_sb1: ++ ld.sb pc,pc[0] ++ ld.sb r12,r12[-1] ++ ld.sb r5,r5[-32768] ++ ld.sb r4,r4[32767] ++ ld.sb lr,lr[1] ++ ld.sb r7,sp[-28663] ++ ld.sb r2,r1[-5879] ++ ld.sb r12,r3[18734] ++ .text ++ .global ld_ub4 ++ld_ub4: ++ ld.ub pc,pc[0] ++ ld.ub r12,r12[-1] ++ ld.ub r5,r5[-32768] ++ ld.ub r4,r4[32767] ++ ld.ub lr,lr[1] ++ ld.ub pc,r4[8277] ++ ld.ub r5,r12[19172] ++ ld.ub r10,lr[26347] ++ .text ++ .global st_d4 ++st_d4: ++ st.d pc[0],r0 ++ st.d r12[-1],r14 ++ st.d r5[-32768],r8 ++ st.d r4[32767],r6 ++ st.d lr[1],r2 ++ st.d r5[13200],r10 ++ st.d r5[9352],r10 ++ st.d r5[32373],r4 ++ .text ++ .global st_w4 ++st_w4: ++ st.w pc[0],pc ++ st.w r12[-1],r12 ++ st.w r5[-32768],r5 ++ st.w r4[32767],r4 ++ st.w lr[1],lr ++ st.w sp[6136],r7 ++ st.w r6[27087],r12 ++ /* st.w r3[20143],r7 */ ++ nop ++ .text ++ .global st_h4 ++st_h4: ++ st.h pc[0],pc ++ st.h r12[-1],r12 ++ st.h r5[-32768],r5 ++ st.h r4[32767],r4 ++ st.h lr[1],lr ++ st.h r4[-9962],r7 ++ st.h r9[-16250],r3 ++ /* st.h r8[-28810],r7 */ ++ nop ++ .text ++ .global st_b4 ++st_b4: ++ st.b pc[0],pc ++ st.b r12[-1],r12 ++ st.b r5[-32768],r5 ++ st.b r4[32767],r4 ++ st.b lr[1],lr ++ st.b r12[30102],r6 ++ st.b r5[28977],r1 ++ st.b r0[5470],r1 ++ .text ++ .global mfsr ++mfsr: ++ mfsr pc,0 ++ mfsr r12,1020 ++ mfsr r5,512 ++ mfsr r4,508 ++ mfsr lr,4 ++ mfsr r2,696 ++ mfsr r4,260 ++ mfsr r10,1016 ++ .text ++ .global mtsr ++mtsr: ++ mtsr 0,pc ++ mtsr 1020,r12 ++ mtsr 512,r5 ++ mtsr 508,r4 ++ mtsr 4,lr ++ mtsr 224,r10 ++ mtsr 836,r12 ++ mtsr 304,r9 ++ .text ++ .global mfdr ++mfdr: ++ mfdr pc,0 ++ mfdr r12,1020 ++ mfdr r5,512 ++ mfdr r4,508 ++ mfdr lr,4 ++ mfdr r6,932 ++ mfdr r5,36 ++ mfdr r9,300 ++ .text ++ .global mtdr ++mtdr: ++ mtdr 0,pc ++ mtdr 1020,r12 ++ mtdr 512,r5 ++ mtdr 508,r4 ++ mtdr 4,lr ++ mtdr 180,r8 ++ mtdr 720,r10 ++ mtdr 408,lr ++ .text ++ .global sleep ++sleep: ++ sleep 0 ++ sleep 255 ++ sleep 128 ++ sleep 127 ++ sleep 1 ++ sleep 254 ++ sleep 15 ++ sleep 43 ++ .text ++ .global sync ++sync: ++ sync 0 ++ sync 255 ++ sync 128 ++ sync 127 ++ sync 1 ++ sync 166 ++ sync 230 ++ sync 180 ++ .text ++ .global bld ++bld: ++ bld pc,0 ++ bld r12,31 ++ bld r5,16 ++ bld r4,15 ++ bld lr,1 ++ bld r9,15 ++ bld r0,4 ++ bld lr,26 ++ .text ++ .global bst ++bst: ++ bst pc,0 ++ bst r12,31 ++ bst r5,16 ++ bst r4,15 ++ bst lr,1 ++ bst r10,28 ++ bst r0,3 ++ bst sp,2 ++ .text ++ .global sats ++sats: ++ sats pc>>0,0 ++ sats r12>>31,31 ++ sats r5>>16,16 ++ sats r4>>15,15 ++ sats lr>>1,1 ++ sats r10>>3,19 ++ sats r10>>2,26 ++ sats r1>>20,1 ++ .text ++ .global satu ++satu: ++ satu pc>>0,0 ++ satu r12>>31,31 ++ satu r5>>16,16 ++ satu r4>>15,15 ++ satu lr>>1,1 ++ satu pc>>5,7 ++ satu r7>>5,5 ++ satu r2>>26,19 ++ .text ++ .global satrnds ++satrnds: ++ satrnds pc>>0,0 ++ satrnds r12>>31,31 ++ satrnds r5>>16,16 ++ satrnds r4>>15,15 ++ satrnds lr>>1,1 ++ satrnds r0>>21,19 ++ satrnds sp>>0,2 ++ satrnds r7>>6,29 ++ .text ++ .global satrndu ++satrndu: ++ satrndu pc>>0,0 ++ satrndu r12>>31,31 ++ satrndu r5>>16,16 ++ satrndu r4>>15,15 ++ satrndu lr>>1,1 ++ satrndu r12>>0,26 ++ satrndu r4>>21,3 ++ satrndu r10>>3,16 ++ .text ++ .global subfc ++subfc: ++ subfeq pc,0 ++ subfal r12,-1 ++ subfls r5,-128 ++ subfpl r4,127 ++ subfne lr,1 ++ subfls r10,8 ++ subfvc r11,99 ++ subfvs r2,73 ++ .text ++ .global subc ++subc: ++ subeq pc,0 ++ subal r12,-1 ++ subls r5,-128 ++ subpl r4,127 ++ subne lr,1 ++ subls r12,118 ++ subvc lr,-12 ++ submi r4,-13 ++ .text ++ .global movc2 ++movc2: ++ moveq pc,0 ++ moval r12,-1 ++ movls r5,-128 ++ movpl r4,127 ++ movne lr,1 ++ movlt r3,-122 ++ movvc r8,2 ++ movne r7,-111 ++ .text ++ .global cp_b ++cp_b: ++ cp.b pc,r0 ++ cp.b r0,pc ++ cp.b r7,r8 ++ cp.b r8,r7 ++ .text ++ .global cp_h ++cp_h: ++ cp.h pc,r0 ++ cp.h r0,pc ++ cp.h r7,r8 ++ cp.h r8,r7 ++ .text ++ .global ldm ++ldm: ++ ldm pc,r1-r6 ++ ldm r12,r0-r15 ++ ldm r5,r15 ++ ldm r4,r0-r14 ++ ldm lr,r0 ++ ldm r9,r1,r5,r14 ++ ldm r11,r2-r3,r5-r8,r15 ++ ldm r6,r0,r3,r9,r13,r15 ++ .text ++ .global ldm_pu ++ldm_pu: ++ ldm pc++,r6-r9 ++ ldm r12++,r0-r15 ++ ldm r5++,r15 ++ ldm r4++,r0-r14 ++ ldm lr++,r0 ++ ldm r12++,r3-r5,r8,r10,r12,r14-r15 ++ ldm r10++,r2,r4-r6,r14-r15 ++ ldm r6++,r1,r3-r4,r9-r14 ++ .text ++ .global ldmts ++ldmts: ++ ldmts pc,r7-r8 ++ ldmts r12,r0-r15 ++ ldmts r5,r15 ++ ldmts r4,r0-r14 ++ ldmts lr,r0 ++ ldmts r0,r1-r2,r11-r12 ++ ldmts lr,r0-r2,r4,r7-r8,r13-r14 ++ ldmts r12,r0-r1,r3-r5,r9,r14-r15 ++ .text ++ .global ldmts_pu ++ldmts_pu: ++ ldmts pc++,r9 ++ ldmts r12++,r0-r15 ++ ldmts r5++,r15 ++ ldmts r4++,r0-r14 ++ ldmts lr++,r0 ++ ldmts sp++,r0,r2-r5,r7,r9,r11 ++ ldmts r5++,r1-r3,r7,r10-r11 ++ ldmts r8++,r2-r4,r7-r8,r13,r15 ++ .text ++ .global stm ++stm: ++ stm pc,r7 ++ stm r12,r0-r15 ++ stm r5,r15 ++ stm r4,r0-r14 ++ stm lr,r0 ++ stm sp,r2-r3,r5,r8,r11,r14 ++ stm r4,r0-r4,r6,r10-r11,r14 ++ stm r9,r1,r5,r9,r12-r15 ++ .text ++ .global stm_pu ++stm_pu: ++ stm --pc,r4-r6 ++ stm --r12,r0-r15 ++ stm --r5,r15 ++ stm --r4,r0-r14 ++ stm --lr,r0 ++ stm --r11,r0,r4-r9,r11-r15 ++ stm --r11,r0,r3,r9-r10,r12,r14 ++ stm --r6,r2,r8-r9,r13-r14 ++ .text ++ .global stmts ++stmts: ++ stmts pc,r8 ++ stmts r12,r0-r15 ++ stmts r5,r15 ++ stmts r4,r0-r14 ++ stmts lr,r0 ++ stmts r1,r0-r1,r3-r4,r6,r9-r10,r14-r15 ++ stmts r3,r0,r6-r8,r10-r12 ++ stmts r11,r0,r4,r6-r7,r9-r10,r12,r14-r15 ++ .text ++ .global stmts_pu ++stmts_pu: ++ stmts --pc,r6-r8 ++ stmts --r12,r0-r15 ++ stmts --r5,r15 ++ stmts --r4,r0-r14 ++ stmts --lr,r0 ++ stmts --r2,r0,r3-r4,r9-r10,r12-r13 ++ stmts --r3,r0-r1,r14-r15 ++ stmts --r0,r0,r2-r6,r10,r14 ++ .text ++ .global ldins_h ++ldins_h: ++ ldins.h pc:b,pc[0] ++ ldins.h r12:t,r12[-2] ++ ldins.h r5:t,r5[-4096] ++ ldins.h r4:b,r4[4094] ++ ldins.h lr:t,lr[2] ++ ldins.h r0:t,lr[1930] ++ ldins.h r3:b,r7[-534] ++ ldins.h r2:b,r12[-2252] ++ .text ++ .global ldins_b ++ldins_b: ++ ldins.b pc:b,pc[0] ++ ldins.b r12:t,r12[-1] ++ ldins.b r5:u,r5[-2048] ++ ldins.b r4:l,r4[2047] ++ ldins.b lr:l,lr[1] ++ ldins.b r6:t,r4[-662] ++ ldins.b r5:b,r1[-151] ++ ldins.b r10:t,r11[-1923] ++ .text ++ .global ldswp_sh ++ldswp_sh: ++ ldswp.sh pc,pc[0] ++ ldswp.sh r12,r12[-2] ++ ldswp.sh r5,r5[-4096] ++ ldswp.sh r4,r4[4094] ++ ldswp.sh lr,lr[2] ++ ldswp.sh r9,r10[3848] ++ ldswp.sh r4,r12[-2040] ++ ldswp.sh r10,r2[3088] ++ .text ++ .global ldswp_uh ++ldswp_uh: ++ ldswp.uh pc,pc[0] ++ ldswp.uh r12,r12[-2] ++ ldswp.uh r5,r5[-4096] ++ ldswp.uh r4,r4[4094] ++ ldswp.uh lr,lr[2] ++ ldswp.uh r4,r9[3724] ++ ldswp.uh lr,sp[-1672] ++ ldswp.uh r8,r12[-3846] ++ .text ++ .global ldswp_w ++ldswp_w: ++ ldswp.w pc,pc[0] ++ ldswp.w r12,r12[-4] ++ ldswp.w r5,r5[-8192] ++ ldswp.w r4,r4[8188] ++ ldswp.w lr,lr[4] ++ ldswp.w sp,r7[1860] ++ ldswp.w pc,r5[-3324] ++ ldswp.w r12,r10[-3296] ++ .text ++ .global stswp_h ++stswp_h: ++ stswp.h pc[0],pc ++ stswp.h r12[-2],r12 ++ stswp.h r5[-4096],r5 ++ stswp.h r4[4094],r4 ++ stswp.h lr[2],lr ++ stswp.h r7[64],r10 ++ stswp.h r10[3024],r2 ++ stswp.h r0[-2328],r10 ++ .text ++ .global stswp_w ++stswp_w: ++ stswp.w pc[0],pc ++ stswp.w r12[-4],r12 ++ stswp.w r5[-8192],r5 ++ stswp.w r4[8188],r4 ++ stswp.w lr[4],lr ++ stswp.w pc[1156],r8 ++ stswp.w sp[7992],r10 ++ stswp.w r8[-1172],r5 ++ .text ++ .global and2 ++and2: ++ and pc,pc,pc<<0 ++ and r12,r12,r12<<31 ++ and r5,r5,r5<<16 ++ and r4,r4,r4<<15 ++ and lr,lr,lr<<1 ++ and r10,r2,r1<<1 ++ and r12,r8,r11<<27 ++ and r10,r7,r0<<3 ++ .text ++ .global and3 ++and3: ++ and pc,pc,pc>>0 ++ and r12,r12,r12>>31 ++ and r5,r5,r5>>16 ++ and r4,r4,r4>>15 ++ and lr,lr,lr>>1 ++ and r12,r8,r7>>17 ++ and pc,r4,r9>>20 ++ and r10,r9,r10>>12 ++ .text ++ .global or2 ++or2: ++ or pc,pc,pc<<0 ++ or r12,r12,r12<<31 ++ or r5,r5,r5<<16 ++ or r4,r4,r4<<15 ++ or lr,lr,lr<<1 ++ or r8,sp,r11<<29 ++ or pc,r9,r2<<28 ++ or r5,r1,r2<<3 ++ .text ++ .global or3 ++or3: ++ or pc,pc,pc>>0 ++ or r12,r12,r12>>31 ++ or r5,r5,r5>>16 ++ or r4,r4,r4>>15 ++ or lr,lr,lr>>1 ++ or r1,sp,sp>>2 ++ or r0,r1,r1>>29 ++ or r4,r12,r8>>8 ++ .text ++ .global eor2 ++eor2: ++ eor pc,pc,pc<<0 ++ eor r12,r12,r12<<31 ++ eor r5,r5,r5<<16 ++ eor r4,r4,r4<<15 ++ eor lr,lr,lr<<1 ++ eor r10,r9,r4<<11 ++ eor r4,r0,r1<<31 ++ eor r6,r2,r12<<13 ++ .text ++ .global eor3 ++eor3: ++ eor pc,pc,pc>>0 ++ eor r12,r12,r12>>31 ++ eor r5,r5,r5>>16 ++ eor r4,r4,r4>>15 ++ eor lr,lr,lr>>1 ++ eor r5,r5,r5>>22 ++ eor r10,r1,lr>>3 ++ eor r7,lr,sp>>26 ++ .text ++ .global sthh_w2 ++sthh_w2: ++ sthh.w pc[pc<<0],pc:b,pc:b ++ sthh.w r12[r12<<3],r12:t,r12:t ++ sthh.w r5[r5<<2],r5:t,r5:t ++ sthh.w r4[r4<<1],r4:b,r4:b ++ sthh.w lr[lr<<1],lr:t,lr:t ++ sthh.w sp[r6<<3],r1:t,r12:t ++ sthh.w r6[r6<<0],r9:t,r9:t ++ sthh.w r10[r3<<0],r0:b,r11:t ++ .text ++ .global sthh_w1 ++sthh_w1: ++ sthh.w pc[0],pc:b,pc:b ++ sthh.w r12[1020],r12:t,r12:t ++ sthh.w r5[512],r5:t,r5:t ++ sthh.w r4[508],r4:b,r4:b ++ sthh.w lr[4],lr:t,lr:t ++ sthh.w r4[404],r9:t,r0:b ++ sthh.w r8[348],r2:t,r10:b ++ sthh.w sp[172],r9:b,r2:b ++ .text ++ .global cop ++cop: ++ cop cp0,cr0,cr0,cr0,0 ++ cop cp7,cr15,cr15,cr15,0x7f ++ cop cp3,cr5,cr5,cr5,0x31 ++ cop cp2,cr4,cr4,cr4,0x30 ++ cop cp5,cr8,cr3,cr7,0x5a ++ .text ++ .global ldc_w1 ++ldc_w1: ++ ldc.w cp0,cr0,r0[0] ++ ldc.w cp7,cr15,pc[255<<2] ++ ldc.w cp3,cr5,r5[128<<2] ++ ldc.w cp2,cr4,r4[127<<2] ++ ldc.w cp4,cr9,r13[36<<2] ++ .text ++ .global ldc_w2 ++ldc_w2: ++ ldc.w cp0,cr0,--r0 ++ ldc.w cp7,cr15,--pc ++ ldc.w cp3,cr5,--r5 ++ ldc.w cp2,cr4,--r4 ++ ldc.w cp4,cr9,--r13 ++ .text ++ .global ldc_w3 ++ldc_w3: ++ ldc.w cp0,cr0,r0[r0] ++ ldc.w cp7,cr15,pc[pc<<3] ++ ldc.w cp3,cr5,r5[r4<<2] ++ ldc.w cp2,cr4,r4[r3<<1] ++ ldc.w cp4,cr9,r13[r12<<0] ++ .text ++ .global ldc_d1 ++ldc_d1: ++ ldc.d cp0,cr0,r0[0] ++ ldc.d cp7,cr14,pc[255<<2] ++ ldc.d cp3,cr6,r5[128<<2] ++ ldc.d cp2,cr4,r4[127<<2] ++ ldc.d cp4,cr8,r13[36<<2] ++ .text ++ .global ldc_d2 ++ldc_d2: ++ ldc.d cp0,cr0,--r0 ++ ldc.d cp7,cr14,--pc ++ ldc.d cp3,cr6,--r5 ++ ldc.d cp2,cr4,--r4 ++ ldc.d cp4,cr8,--r13 ++ .text ++ .global ldc_d3 ++ldc_d3: ++ ldc.d cp0,cr0,r0[r0] ++ ldc.d cp7,cr14,pc[pc<<3] ++ ldc.d cp3,cr6,r5[r4<<2] ++ ldc.d cp2,cr4,r4[r3<<1] ++ ldc.d cp4,cr8,r13[r12<<0] ++ .text ++ .global stc_w1 ++stc_w1: ++ stc.w cp0,r0[0],cr0 ++ stc.w cp7,pc[255<<2],cr15 ++ stc.w cp3,r5[128<<2],cr5 ++ stc.w cp2,r4[127<<2],cr4 ++ stc.w cp4,r13[36<<2],cr9 ++ .text ++ .global stc_w2 ++stc_w2: ++ stc.w cp0,r0++,cr0 ++ stc.w cp7,pc++,cr15 ++ stc.w cp3,r5++,cr5 ++ stc.w cp2,r4++,cr4 ++ stc.w cp4,r13++,cr9 ++ .text ++ .global stc_w3 ++stc_w3: ++ stc.w cp0,r0[r0],cr0 ++ stc.w cp7,pc[pc<<3],cr15 ++ stc.w cp3,r5[r4<<2],cr5 ++ stc.w cp2,r4[r3<<1],cr4 ++ stc.w cp4,r13[r12<<0],cr9 ++ .text ++ .global stc_d1 ++stc_d1: ++ stc.d cp0,r0[0],cr0 ++ stc.d cp7,pc[255<<2],cr14 ++ stc.d cp3,r5[128<<2],cr6 ++ stc.d cp2,r4[127<<2],cr4 ++ stc.d cp4,r13[36<<2],cr8 ++ .text ++ .global stc_d2 ++stc_d2: ++ stc.d cp0,r0++,cr0 ++ stc.d cp7,pc++,cr14 ++ stc.d cp3,r5++,cr6 ++ stc.d cp2,r4++,cr4 ++ stc.d cp4,r13++,cr8 ++ .text ++ .global stc_d3 ++stc_d3: ++ stc.d cp0,r0[r0],cr0 ++ stc.d cp7,pc[pc<<3],cr14 ++ stc.d cp3,r5[r4<<2],cr6 ++ stc.d cp2,r4[r3<<1],cr4 ++ stc.d cp4,r13[r12<<0],cr8 ++ .text ++ .global ldc0_w ++ldc0_w: ++ ldc0.w cr0,r0[0] ++ ldc0.w cr15,pc[4095<<2] ++ ldc0.w cr5,r5[2048<<2] ++ ldc0.w cr4,r4[2047<<2] ++ ldc0.w cr9,r13[147<<2] ++ .text ++ .global ldc0_d ++ldc0_d: ++ ldc0.d cr0,r0[0] ++ ldc0.d cr14,pc[4095<<2] ++ ldc0.d cr6,r5[2048<<2] ++ ldc0.d cr4,r4[2047<<2] ++ ldc0.d cr8,r13[147<<2] ++ .text ++ .global stc0_w ++stc0_w: ++ stc0.w r0[0],cr0 ++ stc0.w pc[4095<<2],cr15 ++ stc0.w r5[2048<<2],cr5 ++ stc0.w r4[2047<<2],cr4 ++ stc0.w r13[147<<2],cr9 ++ .text ++ .global stc0_d ++stc0_d: ++ stc0.d r0[0],cr0 ++ stc0.d pc[4095<<2],cr14 ++ stc0.d r5[2048<<2],cr6 ++ stc0.d r4[2047<<2],cr4 ++ stc0.d r13[147<<2],cr8 ++ .text ++ .global memc ++memc: ++ memc 0, 0 ++ memc -4, 31 ++ memc -65536, 16 ++ memc 65532, 15 ++ .text ++ .global mems ++mems: ++ mems 0, 0 ++ mems -4, 31 ++ mems -65536, 16 ++ mems 65532, 15 ++ .text ++ .global memt ++memt: ++ memt 0, 0 ++ memt -4, 31 ++ memt -65536, 16 ++ memt 65532, 15 ++ ++ .text ++ .global stcond ++stcond: ++ stcond r0[0], r0 ++ stcond pc[-1], pc ++ stcond r8[-32768], r7 ++ stcond r7[32767], r8 ++ stcond r5[0x1234], r10 ++ ++ldcm_w: ++ ldcm.w cp0,pc,cr0-cr7 ++ ldcm.w cp7,r0,cr0 ++ ldcm.w cp4,r4++,cr0-cr6 ++ ldcm.w cp3,r7,cr7 ++ ldcm.w cp1,r12++,cr1,cr4-cr6 ++ ldcm.w cp0,pc,cr8-cr15 ++ ldcm.w cp7,r0,cr8 ++ ldcm.w cp4,r4++,cr8-cr14 ++ ldcm.w cp3,r7,cr15 ++ ldcm.w cp1,r12++,cr9,cr12-cr14 ++ ++ldcm_d: ++ ldcm.d cp0,pc,cr0-cr15 ++ ldcm.d cp7,r0,cr0,cr1 ++ ldcm.d cp4,r4++,cr0-cr13 ++ ldcm.d cp3,r7,cr14-cr15 ++ ldcm.d cp2,r12++,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++stcm_w: ++ stcm.w cp0,pc,cr0-cr7 ++ stcm.w cp7,r0,cr0 ++ stcm.w cp4,--r4,cr0-cr6 ++ stcm.w cp3,r7,cr7 ++ stcm.w cp1,--r12,cr1,cr4-cr6 ++ stcm.w cp0,pc,cr8-cr15 ++ stcm.w cp7,r0,cr8 ++ stcm.w cp4,--r4,cr8-cr14 ++ stcm.w cp3,r7,cr15 ++ stcm.w cp1,--r12,cr9,cr12-cr14 ++ ++stcm_d: ++ stcm.d cp0,pc,cr0-cr15 ++ stcm.d cp7,r0,cr0,cr1 ++ stcm.d cp4,--r4,cr0-cr13 ++ stcm.d cp3,r7,cr14-cr15 ++ stcm.d cp2,--r12,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++mvcr_w: ++ mvcr.w cp7,pc,cr15 ++ mvcr.w cp0,r0,cr0 ++ mvcr.w cp0,pc,cr15 ++ mvcr.w cp7,r0,cr15 ++ mvcr.w cp7,pc,cr0 ++ mvcr.w cp4,r7,cr8 ++ mvcr.w cp3,r8,cr7 ++ ++mvcr_d: ++ mvcr.d cp7,lr,cr14 ++ mvcr.d cp0,r0,cr0 ++ mvcr.d cp0,lr,cr14 ++ mvcr.d cp7,r0,cr14 ++ mvcr.d cp7,lr,cr0 ++ mvcr.d cp4,r6,cr8 ++ mvcr.d cp3,r8,cr6 ++ ++mvrc_w: ++ mvrc.w cp7,cr15,pc ++ mvrc.w cp0,cr0,r0 ++ mvrc.w cp0,cr15,pc ++ mvrc.w cp7,cr15,r0 ++ mvrc.w cp7,cr0,pc ++ mvrc.w cp4,cr8,r7 ++ mvrc.w cp3,cr7,r8 ++ ++mvrc_d: ++ mvrc.d cp7,cr14,lr ++ mvrc.d cp0,cr0,r0 ++ mvrc.d cp0,cr14,lr ++ mvrc.d cp7,cr14,r0 ++ mvrc.d cp7,cr0,lr ++ mvrc.d cp4,cr8,r6 ++ mvrc.d cp3,cr6,r8 ++ ++bfexts: ++ bfexts pc,pc,31,31 ++ bfexts r0,r0,0,0 ++ bfexts r0,pc,31,31 ++ bfexts pc,r0,31,31 ++ bfexts pc,pc,0,31 ++ bfexts pc,pc,31,0 ++ bfexts r7,r8,15,16 ++ bfexts r8,r7,16,15 ++ ++bfextu: ++ bfextu pc,pc,31,31 ++ bfextu r0,r0,0,0 ++ bfextu r0,pc,31,31 ++ bfextu pc,r0,31,31 ++ bfextu pc,pc,0,31 ++ bfextu pc,pc,31,0 ++ bfextu r7,r8,15,16 ++ bfextu r8,r7,16,15 ++ ++bfins: ++ bfins pc,pc,31,31 ++ bfins r0,r0,0,0 ++ bfins r0,pc,31,31 ++ bfins pc,r0,31,31 ++ bfins pc,pc,0,31 ++ bfins pc,pc,31,0 ++ bfins r7,r8,15,16 ++ bfins r8,r7,16,15 ++ ++rsubc: ++ rsubeq pc,0 ++ rsubal r12,-1 ++ rsubls r5,-128 ++ rsubpl r4,127 ++ rsubne lr,1 ++ rsubls r12,118 ++ rsubvc lr,-12 ++ rsubmi r4,-13 ++ ++addc: ++ addeq pc,pc,pc ++ addal r12,r12,r12 ++ addls r5,r5,r5 ++ addpl r4,r4,r4 ++ addne lr,lr,lr ++ addls r10,r2,r1 ++ addvc r12,r8,r11 ++ addmi r10,r7,r0 ++ ++subc2: ++ subeq pc,pc,pc ++ subal r12,r12,r12 ++ subls r5,r5,r5 ++ subpl r4,r4,r4 ++ subne lr,lr,lr ++ subls r10,r2,r1 ++ subvc r12,r8,r11 ++ submi r10,r7,r0 ++ ++andc: ++ andeq pc,pc,pc ++ andal r12,r12,r12 ++ andls r5,r5,r5 ++ andpl r4,r4,r4 ++ andne lr,lr,lr ++ andls r10,r2,r1 ++ andvc r12,r8,r11 ++ andmi r10,r7,r0 ++ ++orc: ++ oreq pc,pc,pc ++ oral r12,r12,r12 ++ orls r5,r5,r5 ++ orpl r4,r4,r4 ++ orne lr,lr,lr ++ orls r10,r2,r1 ++ orvc r12,r8,r11 ++ ormi r10,r7,r0 ++ ++eorc: ++ eoreq pc,pc,pc ++ eoral r12,r12,r12 ++ eorls r5,r5,r5 ++ eorpl r4,r4,r4 ++ eorne lr,lr,lr ++ eorls r10,r2,r1 ++ eorvc r12,r8,r11 ++ eormi r10,r7,r0 ++ ++ldcond: ++ ld.weq pc,pc[2044] ++ ld.shal r12,r12[1022] ++ ld.uhls r5,r5[0] ++ ld.ubpl r4,r4[511] ++ ld.sbne lr,lr[0] ++ ld.wls r10,r2[0] ++ ld.shvc r12,r8[0x3fe] ++ ld.ubmi r10,r7[1] ++ ++stcond2: ++ st.weq pc[2044],pc ++ st.hal r12[1022],r12 ++ st.hls r5[0],r5 ++ st.bpl r4[511],r4 ++ st.bne lr[0],lr ++ st.wls r2[0],r10 ++ st.hvc r8[0x3fe],r12 ++ st.bmi r7[1],r10 ++ ++movh: ++ movh pc, 65535 ++ movh r0, 0 ++ movh r5, 1 ++ movh r12, 32767 ++ ++ +--- /dev/null ++++ b/gas/testsuite/gas/avr32/avr32.exp +@@ -0,0 +1,23 @@ ++# AVR32 assembler testsuite. -*- Tcl -*- ++ ++if [istarget avr32-*-*] { ++ run_dump_test "hwrd-lwrd" ++ run_dump_test "pcrel" ++ run_dump_test "aliases" ++ run_dump_test "dwarf2" ++ run_dump_test "pic_reloc" ++ run_dump_test "fpinsn" ++ run_dump_test "pico" ++ run_dump_test "lda_pic" ++ run_dump_test "lda_pic_linkrelax" ++ run_dump_test "lda_nopic" ++ run_dump_test "lda_nopic_linkrelax" ++ run_dump_test "call_pic" ++ run_dump_test "call_pic_linkrelax" ++ run_dump_test "call_nopic" ++ run_dump_test "call_nopic_linkrelax" ++ run_dump_test "jmptable" ++ run_dump_test "jmptable_linkrelax" ++ run_dump_test "symdiff" ++ run_dump_test "symdiff_linkrelax" ++} +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_nopic.d +@@ -0,0 +1,36 @@ ++#source: call.s ++#as: ++#objdump: -dr ++#name: call_nopic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: f0 a0 00 00 rcall 0 ++ 200004: f0 1f 00 0c mcall 200034 ++ 200008: f0 1f 00 0c mcall 200038 ++ 20000c: f0 1f 00 0c mcall 20003c ++ 200010: f0 1f 00 0c mcall 200040 ++ \.\.\. ++ 200030: ee b0 ff ff rcall 40002e ++ \.\.\. ++ 200034: R_AVR32_32_CPENT \.text\+0x2 ++ 200038: R_AVR32_32_CPENT \.text\.init ++ 20003c: R_AVR32_32_CPENT undefined ++ 200040: R_AVR32_32_CPENT \.text\+0x40002c ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_nopic_linkrelax.d +@@ -0,0 +1,43 @@ ++#source: call.s ++#as: --linkrelax ++#objdump: -dr ++#name: call_nopic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: e0 a0 00 00 rcall 200000 ++ 200000: R_AVR32_22H_PCREL \.text ++ 200004: f0 1f 00 00 mcall 200004 ++ 200004: R_AVR32_CPCALL \.text\+0x200034 ++ 200008: f0 1f 00 00 mcall 200008 ++ 200008: R_AVR32_CPCALL \.text\+0x200038 ++ 20000c: f0 1f 00 00 mcall 20000c ++ 20000c: R_AVR32_CPCALL \.text\+0x20003c ++ 200010: f0 1f 00 00 mcall 200010 ++ 200010: R_AVR32_CPCALL \.text\+0x200040 ++ \.\.\. ++ 200030: e0 a0 00 00 rcall 200030 ++ 200030: R_AVR32_22H_PCREL \.text\+0x40002e ++ \.\.\. ++ 200034: R_AVR32_ALIGN \*ABS\*\+0x2 ++ 200034: R_AVR32_32_CPENT \.text\+0x2 ++ 200038: R_AVR32_32_CPENT \.text\.init ++ 20003c: R_AVR32_32_CPENT undefined ++ 200040: R_AVR32_32_CPENT \.text\+0x40002c ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_pic.d +@@ -0,0 +1,36 @@ ++#source: call.s ++#as: --pic ++#objdump: -dr ++#name: call_pic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: f0 a0 00 00 rcall 0 ++ 200004: f0 16 00 00 mcall r6\[0\] ++ 200004: R_AVR32_GOT18SW toofar_negative ++ 200008: f0 16 00 00 mcall r6\[0\] ++ 200008: R_AVR32_GOT18SW different_section ++ 20000c: f0 16 00 00 mcall r6\[0\] ++ 20000c: R_AVR32_GOT18SW undefined ++ 200010: f0 16 00 00 mcall r6\[0\] ++ 200010: R_AVR32_GOT18SW toofar_positive ++ \.\.\. ++ 200030: ee b0 ff ff rcall 40002e ++ \.\.\. ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_pic_linkrelax.d +@@ -0,0 +1,47 @@ ++#source: call.s ++#as: --pic --linkrelax ++#objdump: -dr ++#name: call_pic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: e0 a0 00 00 rcall 200000 ++ 200000: R_AVR32_22H_PCREL \.text ++ 200004: e0 6e 00 00 mov lr,0 ++ 200004: R_AVR32_GOTCALL toofar_negative ++ 200008: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 20000c: 5d 1e icall lr ++ 20000e: e0 6e 00 00 mov lr,0 ++ 20000e: R_AVR32_GOTCALL different_section ++ 200012: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 200016: 5d 1e icall lr ++ 200018: e0 6e 00 00 mov lr,0 ++ 200018: R_AVR32_GOTCALL undefined ++ 20001c: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 200020: 5d 1e icall lr ++ 200022: e0 6e 00 00 mov lr,0 ++ 200022: R_AVR32_GOTCALL toofar_positive ++ 200026: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 20002a: 5d 1e icall lr ++ 20002c: 00 00 add r0,r0 ++ 20002e: 00 00 add r0,r0 ++ 200030: e0 a0 00 00 rcall 200030 ++ 200030: R_AVR32_22H_PCREL \.text\+0x40002e ++ \.\.\. ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call.s +@@ -0,0 +1,30 @@ ++ ++ .text ++ .global call_test ++call_test: ++far_negative: ++ nop ++toofar_negative: ++ ++ .org 0x200000 ++ ++ call far_negative ++ call toofar_negative ++ call different_section ++ call undefined ++ call toofar_positive ++ .org 0x200030 ++ call far_positive ++ ++ .cpool ++ ++ .org 0x40002c ++ ++toofar_positive: ++ nop ++far_positive: ++ nop ++ ++ .section .text.init,"ax",@progbits ++different_section: ++ sub r0, r1, 0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/dwarf2.d +@@ -0,0 +1,42 @@ ++#readelf: -wl ++#name: dwarf2 ++#source: dwarf2.s ++ ++Dump of debug contents of section \.debug_line: ++ ++ Length: 53 ++ DWARF Version: 2 ++ Prologue Length: 26 ++ Minimum Instruction Length: 1 ++ Initial value of 'is_stmt': 1 ++ Line Base: -5 ++ Line Range: 14 ++ Opcode Base: 10 ++ \(Pointer size: 4\) ++ ++ Opcodes: ++ Opcode 1 has 0 args ++ Opcode 2 has 1 args ++ Opcode 3 has 1 args ++ Opcode 4 has 1 args ++ Opcode 5 has 1 args ++ Opcode 6 has 0 args ++ Opcode 7 has 0 args ++ Opcode 8 has 0 args ++ Opcode 9 has 1 args ++ ++ The Directory Table is empty\. ++ ++ The File Name Table: ++ Entry Dir Time Size Name ++ 1 0 0 0 main\.c ++ ++ Line Number Statements: ++ Extended opcode 2: set Address to 0x0 ++ Advance Line by 87 to 88 ++ Copy ++ Advance Line by 23 to 111 ++ Special opcode .*: advance Address by 4 to 0x4 and Line by 0 to 111 ++ Special opcode .*: advance Address by 10 to 0xe and Line by 1 to 112 ++ Advance PC by 530 to 220 ++ Extended opcode 1: End of Sequence +--- /dev/null ++++ b/gas/testsuite/gas/avr32/dwarf2.s +@@ -0,0 +1,67 @@ ++# Source file used to test DWARF2 information for AVR32. ++ ++ .file "main.c" ++ ++ .section .debug_abbrev,"",@progbits ++.Ldebug_abbrev0: ++ .section .debug_info,"",@progbits ++.Ldebug_info0: ++ .section .debug_line,"",@progbits ++.Ldebug_line0: ++ ++ .text ++ .align 1 ++ .globl main ++ .type main, @function ++.Ltext0: ++main: ++ .file 1 "main.c" ++ .loc 1 88 0 ++ pushm r0-r7,lr ++ sub sp, 4 ++ .loc 1 111 0 ++ lddpc r12, .LC1 ++ lddpc r7, .LC1 ++ icall r7 ++ .loc 1 112 0 ++ lddpc r6, .LC4 ++ ++ .align 2 ++.LC4: .int 0 ++ ++ .fill 256, 2, 0 ++ ++ .align 2 ++.LC1: ++ .int 0 ++.LC2: ++ .int 0 ++.LC3: ++ .int 0 ++ .size main, . - main ++ ++.Letext0: ++ ++ .section .debug_info ++ .int .Ledebug_info0 - .Ldebug_info0 // size ++ .short 2 // version ++ .int .Ldebug_abbrev0 // abbrev offset ++ .byte 4 // bytes per addr ++ ++ .uleb128 1 // abbrev 1 ++ .int .Ldebug_line0 // DW_AT_stmt_list ++ .int .Letext0 // DW_AT_high_pc ++ .int .Ltext0 // DW_AT_low_pc ++ ++.Ledebug_info0: ++ ++ .section .debug_abbrev ++ .uleb128 0x01 ++ .uleb128 0x11 // DW_TAG_compile_unit ++ .byte 0 // DW_CHILDREN_no ++ .uleb128 0x10, 0x6 // DW_AT_stmt_list ++ .uleb128 0x12, 0x1 // DW_AT_high_pc ++ .uleb128 0x11, 0x1 // DW_AT_low_pc ++ .uleb128 0, 0 ++ ++ .byte 0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/fpinsn.d +@@ -0,0 +1,271 @@ ++#as: ++#objdump: -dr ++#name: fpinsn ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a2 0f ff cop cp0,cr15,cr15,cr15,0x4 ++ *[0-9a-f]*: e1 a2 00 00 cop cp0,cr0,cr0,cr0,0x4 ++ *[0-9a-f]*: e1 a2 00 ff cop cp0,cr0,cr15,cr15,0x4 ++ *[0-9a-f]*: e1 a2 0f 0f cop cp0,cr15,cr0,cr15,0x4 ++ *[0-9a-f]*: e1 a2 0f f0 cop cp0,cr15,cr15,cr0,0x4 ++ *[0-9a-f]*: e1 a2 07 88 cop cp0,cr7,cr8,cr8,0x4 ++ *[0-9a-f]*: e1 a2 08 78 cop cp0,cr8,cr7,cr8,0x4 ++ *[0-9a-f]*: e1 a2 08 87 cop cp0,cr8,cr8,cr7,0x4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a2 1f ff cop cp0,cr15,cr15,cr15,0x5 ++ *[0-9a-f]*: e1 a2 10 00 cop cp0,cr0,cr0,cr0,0x5 ++ *[0-9a-f]*: e1 a2 10 ff cop cp0,cr0,cr15,cr15,0x5 ++ *[0-9a-f]*: e1 a2 1f 0f cop cp0,cr15,cr0,cr15,0x5 ++ *[0-9a-f]*: e1 a2 1f f0 cop cp0,cr15,cr15,cr0,0x5 ++ *[0-9a-f]*: e1 a2 17 88 cop cp0,cr7,cr8,cr8,0x5 ++ *[0-9a-f]*: e1 a2 18 78 cop cp0,cr8,cr7,cr8,0x5 ++ *[0-9a-f]*: e1 a2 18 87 cop cp0,cr8,cr8,cr7,0x5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 0f ff cop cp0,cr15,cr15,cr15,0x0 ++ *[0-9a-f]*: e1 a0 00 00 cop cp0,cr0,cr0,cr0,0x0 ++ *[0-9a-f]*: e1 a0 00 ff cop cp0,cr0,cr15,cr15,0x0 ++ *[0-9a-f]*: e1 a0 0f 0f cop cp0,cr15,cr0,cr15,0x0 ++ *[0-9a-f]*: e1 a0 0f f0 cop cp0,cr15,cr15,cr0,0x0 ++ *[0-9a-f]*: e1 a0 07 88 cop cp0,cr7,cr8,cr8,0x0 ++ *[0-9a-f]*: e1 a0 08 78 cop cp0,cr8,cr7,cr8,0x0 ++ *[0-9a-f]*: e1 a0 08 87 cop cp0,cr8,cr8,cr7,0x0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 1f ff cop cp0,cr15,cr15,cr15,0x1 ++ *[0-9a-f]*: e1 a0 10 00 cop cp0,cr0,cr0,cr0,0x1 ++ *[0-9a-f]*: e1 a0 10 ff cop cp0,cr0,cr15,cr15,0x1 ++ *[0-9a-f]*: e1 a0 1f 0f cop cp0,cr15,cr0,cr15,0x1 ++ *[0-9a-f]*: e1 a0 1f f0 cop cp0,cr15,cr15,cr0,0x1 ++ *[0-9a-f]*: e1 a0 17 88 cop cp0,cr7,cr8,cr8,0x1 ++ *[0-9a-f]*: e1 a0 18 78 cop cp0,cr8,cr7,cr8,0x1 ++ *[0-9a-f]*: e1 a0 18 87 cop cp0,cr8,cr8,cr7,0x1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a1 0f ff cop cp0,cr15,cr15,cr15,0x2 ++ *[0-9a-f]*: e1 a1 00 00 cop cp0,cr0,cr0,cr0,0x2 ++ *[0-9a-f]*: e1 a1 00 ff cop cp0,cr0,cr15,cr15,0x2 ++ *[0-9a-f]*: e1 a1 0f 0f cop cp0,cr15,cr0,cr15,0x2 ++ *[0-9a-f]*: e1 a1 0f f0 cop cp0,cr15,cr15,cr0,0x2 ++ *[0-9a-f]*: e1 a1 07 88 cop cp0,cr7,cr8,cr8,0x2 ++ *[0-9a-f]*: e1 a1 08 78 cop cp0,cr8,cr7,cr8,0x2 ++ *[0-9a-f]*: e1 a1 08 87 cop cp0,cr8,cr8,cr7,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a1 1f ff cop cp0,cr15,cr15,cr15,0x3 ++ *[0-9a-f]*: e1 a1 10 00 cop cp0,cr0,cr0,cr0,0x3 ++ *[0-9a-f]*: e1 a1 10 ff cop cp0,cr0,cr15,cr15,0x3 ++ *[0-9a-f]*: e1 a1 1f 0f cop cp0,cr15,cr0,cr15,0x3 ++ *[0-9a-f]*: e1 a1 1f f0 cop cp0,cr15,cr15,cr0,0x3 ++ *[0-9a-f]*: e1 a1 17 88 cop cp0,cr7,cr8,cr8,0x3 ++ *[0-9a-f]*: e1 a1 18 78 cop cp0,cr8,cr7,cr8,0x3 ++ *[0-9a-f]*: e1 a1 18 87 cop cp0,cr8,cr8,cr7,0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a3 0f ff cop cp0,cr15,cr15,cr15,0x6 ++ *[0-9a-f]*: e1 a3 00 00 cop cp0,cr0,cr0,cr0,0x6 ++ *[0-9a-f]*: e1 a3 00 ff cop cp0,cr0,cr15,cr15,0x6 ++ *[0-9a-f]*: e1 a3 0f 0f cop cp0,cr15,cr0,cr15,0x6 ++ *[0-9a-f]*: e1 a3 0f f0 cop cp0,cr15,cr15,cr0,0x6 ++ *[0-9a-f]*: e1 a3 07 88 cop cp0,cr7,cr8,cr8,0x6 ++ *[0-9a-f]*: e1 a3 08 78 cop cp0,cr8,cr7,cr8,0x6 ++ *[0-9a-f]*: e1 a3 08 87 cop cp0,cr8,cr8,cr7,0x6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a3 1f ff cop cp0,cr15,cr15,cr15,0x7 ++ *[0-9a-f]*: e1 a3 10 00 cop cp0,cr0,cr0,cr0,0x7 ++ *[0-9a-f]*: e1 a3 10 ff cop cp0,cr0,cr15,cr15,0x7 ++ *[0-9a-f]*: e1 a3 1f 0f cop cp0,cr15,cr0,cr15,0x7 ++ *[0-9a-f]*: e1 a3 1f f0 cop cp0,cr15,cr15,cr0,0x7 ++ *[0-9a-f]*: e1 a3 17 88 cop cp0,cr7,cr8,cr8,0x7 ++ *[0-9a-f]*: e1 a3 18 78 cop cp0,cr8,cr7,cr8,0x7 ++ *[0-9a-f]*: e1 a3 18 87 cop cp0,cr8,cr8,cr7,0x7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a4 0f f0 cop cp0,cr15,cr15,cr0,0x8 ++ *[0-9a-f]*: e1 a4 00 00 cop cp0,cr0,cr0,cr0,0x8 ++ *[0-9a-f]*: e1 a4 00 f0 cop cp0,cr0,cr15,cr0,0x8 ++ *[0-9a-f]*: e1 a4 0f 00 cop cp0,cr15,cr0,cr0,0x8 ++ *[0-9a-f]*: e1 a4 07 80 cop cp0,cr7,cr8,cr0,0x8 ++ *[0-9a-f]*: e1 a4 08 70 cop cp0,cr8,cr7,cr0,0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a4 1f f0 cop cp0,cr15,cr15,cr0,0x9 ++ *[0-9a-f]*: e1 a4 10 00 cop cp0,cr0,cr0,cr0,0x9 ++ *[0-9a-f]*: e1 a4 10 f0 cop cp0,cr0,cr15,cr0,0x9 ++ *[0-9a-f]*: e1 a4 1f 00 cop cp0,cr15,cr0,cr0,0x9 ++ *[0-9a-f]*: e1 a4 17 80 cop cp0,cr7,cr8,cr0,0x9 ++ *[0-9a-f]*: e1 a4 18 70 cop cp0,cr8,cr7,cr0,0x9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a6 10 ff cop cp0,cr0,cr15,cr15,0xd ++ *[0-9a-f]*: e1 a6 10 00 cop cp0,cr0,cr0,cr0,0xd ++ *[0-9a-f]*: e1 a6 10 0f cop cp0,cr0,cr0,cr15,0xd ++ *[0-9a-f]*: e1 a6 10 f0 cop cp0,cr0,cr15,cr0,0xd ++ *[0-9a-f]*: e1 a6 10 78 cop cp0,cr0,cr7,cr8,0xd ++ *[0-9a-f]*: e1 a6 10 87 cop cp0,cr0,cr8,cr7,0xd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a2 0e ee cop cp0,cr14,cr14,cr14,0x44 ++ *[0-9a-f]*: e5 a2 00 00 cop cp0,cr0,cr0,cr0,0x44 ++ *[0-9a-f]*: e5 a2 00 ee cop cp0,cr0,cr14,cr14,0x44 ++ *[0-9a-f]*: e5 a2 0e 0e cop cp0,cr14,cr0,cr14,0x44 ++ *[0-9a-f]*: e5 a2 0e e0 cop cp0,cr14,cr14,cr0,0x44 ++ *[0-9a-f]*: e5 a2 06 88 cop cp0,cr6,cr8,cr8,0x44 ++ *[0-9a-f]*: e5 a2 08 68 cop cp0,cr8,cr6,cr8,0x44 ++ *[0-9a-f]*: e5 a2 08 86 cop cp0,cr8,cr8,cr6,0x44 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a2 1e ee cop cp0,cr14,cr14,cr14,0x45 ++ *[0-9a-f]*: e5 a2 10 00 cop cp0,cr0,cr0,cr0,0x45 ++ *[0-9a-f]*: e5 a2 10 ee cop cp0,cr0,cr14,cr14,0x45 ++ *[0-9a-f]*: e5 a2 1e 0e cop cp0,cr14,cr0,cr14,0x45 ++ *[0-9a-f]*: e5 a2 1e e0 cop cp0,cr14,cr14,cr0,0x45 ++ *[0-9a-f]*: e5 a2 16 88 cop cp0,cr6,cr8,cr8,0x45 ++ *[0-9a-f]*: e5 a2 18 68 cop cp0,cr8,cr6,cr8,0x45 ++ *[0-9a-f]*: e5 a2 18 86 cop cp0,cr8,cr8,cr6,0x45 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a0 0e ee cop cp0,cr14,cr14,cr14,0x40 ++ *[0-9a-f]*: e5 a0 00 00 cop cp0,cr0,cr0,cr0,0x40 ++ *[0-9a-f]*: e5 a0 00 ee cop cp0,cr0,cr14,cr14,0x40 ++ *[0-9a-f]*: e5 a0 0e 0e cop cp0,cr14,cr0,cr14,0x40 ++ *[0-9a-f]*: e5 a0 0e e0 cop cp0,cr14,cr14,cr0,0x40 ++ *[0-9a-f]*: e5 a0 06 88 cop cp0,cr6,cr8,cr8,0x40 ++ *[0-9a-f]*: e5 a0 08 68 cop cp0,cr8,cr6,cr8,0x40 ++ *[0-9a-f]*: e5 a0 08 86 cop cp0,cr8,cr8,cr6,0x40 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a0 1e ee cop cp0,cr14,cr14,cr14,0x41 ++ *[0-9a-f]*: e5 a0 10 00 cop cp0,cr0,cr0,cr0,0x41 ++ *[0-9a-f]*: e5 a0 10 ee cop cp0,cr0,cr14,cr14,0x41 ++ *[0-9a-f]*: e5 a0 1e 0e cop cp0,cr14,cr0,cr14,0x41 ++ *[0-9a-f]*: e5 a0 1e e0 cop cp0,cr14,cr14,cr0,0x41 ++ *[0-9a-f]*: e5 a0 16 88 cop cp0,cr6,cr8,cr8,0x41 ++ *[0-9a-f]*: e5 a0 18 68 cop cp0,cr8,cr6,cr8,0x41 ++ *[0-9a-f]*: e5 a0 18 86 cop cp0,cr8,cr8,cr6,0x41 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a1 0e ee cop cp0,cr14,cr14,cr14,0x42 ++ *[0-9a-f]*: e5 a1 00 00 cop cp0,cr0,cr0,cr0,0x42 ++ *[0-9a-f]*: e5 a1 00 ee cop cp0,cr0,cr14,cr14,0x42 ++ *[0-9a-f]*: e5 a1 0e 0e cop cp0,cr14,cr0,cr14,0x42 ++ *[0-9a-f]*: e5 a1 0e e0 cop cp0,cr14,cr14,cr0,0x42 ++ *[0-9a-f]*: e5 a1 06 88 cop cp0,cr6,cr8,cr8,0x42 ++ *[0-9a-f]*: e5 a1 08 68 cop cp0,cr8,cr6,cr8,0x42 ++ *[0-9a-f]*: e5 a1 08 86 cop cp0,cr8,cr8,cr6,0x42 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a1 1e ee cop cp0,cr14,cr14,cr14,0x43 ++ *[0-9a-f]*: e5 a1 10 00 cop cp0,cr0,cr0,cr0,0x43 ++ *[0-9a-f]*: e5 a1 10 ee cop cp0,cr0,cr14,cr14,0x43 ++ *[0-9a-f]*: e5 a1 1e 0e cop cp0,cr14,cr0,cr14,0x43 ++ *[0-9a-f]*: e5 a1 1e e0 cop cp0,cr14,cr14,cr0,0x43 ++ *[0-9a-f]*: e5 a1 16 88 cop cp0,cr6,cr8,cr8,0x43 ++ *[0-9a-f]*: e5 a1 18 68 cop cp0,cr8,cr6,cr8,0x43 ++ *[0-9a-f]*: e5 a1 18 86 cop cp0,cr8,cr8,cr6,0x43 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a3 0e ee cop cp0,cr14,cr14,cr14,0x46 ++ *[0-9a-f]*: e5 a3 00 00 cop cp0,cr0,cr0,cr0,0x46 ++ *[0-9a-f]*: e5 a3 00 ee cop cp0,cr0,cr14,cr14,0x46 ++ *[0-9a-f]*: e5 a3 0e 0e cop cp0,cr14,cr0,cr14,0x46 ++ *[0-9a-f]*: e5 a3 0e e0 cop cp0,cr14,cr14,cr0,0x46 ++ *[0-9a-f]*: e5 a3 06 88 cop cp0,cr6,cr8,cr8,0x46 ++ *[0-9a-f]*: e5 a3 08 68 cop cp0,cr8,cr6,cr8,0x46 ++ *[0-9a-f]*: e5 a3 08 86 cop cp0,cr8,cr8,cr6,0x46 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a3 1e ee cop cp0,cr14,cr14,cr14,0x47 ++ *[0-9a-f]*: e5 a3 10 00 cop cp0,cr0,cr0,cr0,0x47 ++ *[0-9a-f]*: e5 a3 10 ee cop cp0,cr0,cr14,cr14,0x47 ++ *[0-9a-f]*: e5 a3 1e 0e cop cp0,cr14,cr0,cr14,0x47 ++ *[0-9a-f]*: e5 a3 1e e0 cop cp0,cr14,cr14,cr0,0x47 ++ *[0-9a-f]*: e5 a3 16 88 cop cp0,cr6,cr8,cr8,0x47 ++ *[0-9a-f]*: e5 a3 18 68 cop cp0,cr8,cr6,cr8,0x47 ++ *[0-9a-f]*: e5 a3 18 86 cop cp0,cr8,cr8,cr6,0x47 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a4 0e e0 cop cp0,cr14,cr14,cr0,0x48 ++ *[0-9a-f]*: e5 a4 00 00 cop cp0,cr0,cr0,cr0,0x48 ++ *[0-9a-f]*: e5 a4 00 e0 cop cp0,cr0,cr14,cr0,0x48 ++ *[0-9a-f]*: e5 a4 0e 00 cop cp0,cr14,cr0,cr0,0x48 ++ *[0-9a-f]*: e5 a4 06 80 cop cp0,cr6,cr8,cr0,0x48 ++ *[0-9a-f]*: e5 a4 08 60 cop cp0,cr8,cr6,cr0,0x48 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a4 1e e0 cop cp0,cr14,cr14,cr0,0x49 ++ *[0-9a-f]*: e5 a4 10 00 cop cp0,cr0,cr0,cr0,0x49 ++ *[0-9a-f]*: e5 a4 10 e0 cop cp0,cr0,cr14,cr0,0x49 ++ *[0-9a-f]*: e5 a4 1e 00 cop cp0,cr14,cr0,cr0,0x49 ++ *[0-9a-f]*: e5 a4 16 80 cop cp0,cr6,cr8,cr0,0x49 ++ *[0-9a-f]*: e5 a4 18 60 cop cp0,cr8,cr6,cr0,0x49 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a6 10 ee cop cp0,cr0,cr14,cr14,0x4d ++ *[0-9a-f]*: e5 a6 10 00 cop cp0,cr0,cr0,cr0,0x4d ++ *[0-9a-f]*: e5 a6 10 0e cop cp0,cr0,cr0,cr14,0x4d ++ *[0-9a-f]*: e5 a6 10 e0 cop cp0,cr0,cr14,cr0,0x4d ++ *[0-9a-f]*: e5 a6 10 68 cop cp0,cr0,cr6,cr8,0x4d ++ *[0-9a-f]*: e5 a6 10 86 cop cp0,cr0,cr8,cr6,0x4d ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a5 0f f0 cop cp0,cr15,cr15,cr0,0xa ++ *[0-9a-f]*: e1 a5 00 00 cop cp0,cr0,cr0,cr0,0xa ++ *[0-9a-f]*: e1 a5 0f 00 cop cp0,cr15,cr0,cr0,0xa ++ *[0-9a-f]*: e1 a5 00 f0 cop cp0,cr0,cr15,cr0,0xa ++ *[0-9a-f]*: e1 a5 08 70 cop cp0,cr8,cr7,cr0,0xa ++ *[0-9a-f]*: e1 a5 07 80 cop cp0,cr7,cr8,cr0,0xa ++ *[0-9a-f]*: ef af 0f 00 mvcr.w cp0,pc,cr15 ++ *[0-9a-f]*: ef a0 00 00 mvcr.w cp0,r0,cr0 ++ *[0-9a-f]*: ef af 00 00 mvcr.w cp0,pc,cr0 ++ *[0-9a-f]*: ef a0 0f 00 mvcr.w cp0,r0,cr15 ++ *[0-9a-f]*: ef a8 07 00 mvcr.w cp0,r8,cr7 ++ *[0-9a-f]*: ef a7 08 00 mvcr.w cp0,r7,cr8 ++ *[0-9a-f]*: ef af 0f 20 mvrc.w cp0,cr15,pc ++ *[0-9a-f]*: ef a0 00 20 mvrc.w cp0,cr0,r0 ++ *[0-9a-f]*: ef a0 0f 20 mvrc.w cp0,cr15,r0 ++ *[0-9a-f]*: ef af 00 20 mvrc.w cp0,cr0,pc ++ *[0-9a-f]*: ef a7 08 20 mvrc.w cp0,cr8,r7 ++ *[0-9a-f]*: ef a8 07 20 mvrc.w cp0,cr7,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a5 0e e0 cop cp0,cr14,cr14,cr0,0x4a ++ *[0-9a-f]*: e5 a5 00 00 cop cp0,cr0,cr0,cr0,0x4a ++ *[0-9a-f]*: e5 a5 0e 00 cop cp0,cr14,cr0,cr0,0x4a ++ *[0-9a-f]*: e5 a5 00 e0 cop cp0,cr0,cr14,cr0,0x4a ++ *[0-9a-f]*: e5 a5 08 60 cop cp0,cr8,cr6,cr0,0x4a ++ *[0-9a-f]*: e5 a5 06 80 cop cp0,cr6,cr8,cr0,0x4a ++ *[0-9a-f]*: ef ae 0e 10 mvcr.d cp0,lr,cr14 ++ *[0-9a-f]*: ef a0 00 10 mvcr.d cp0,r0,cr0 ++ *[0-9a-f]*: ef ae 00 10 mvcr.d cp0,lr,cr0 ++ *[0-9a-f]*: ef a0 0e 10 mvcr.d cp0,r0,cr14 ++ *[0-9a-f]*: ef a8 06 10 mvcr.d cp0,r8,cr6 ++ *[0-9a-f]*: ef a6 08 10 mvcr.d cp0,r6,cr8 ++ *[0-9a-f]*: ef ae 0e 30 mvrc.d cp0,cr14,lr ++ *[0-9a-f]*: ef a0 00 30 mvrc.d cp0,cr0,r0 ++ *[0-9a-f]*: ef a0 0e 30 mvrc.d cp0,cr14,r0 ++ *[0-9a-f]*: ef ae 00 30 mvrc.d cp0,cr0,lr ++ *[0-9a-f]*: ef a6 08 30 mvrc.d cp0,cr8,r6 ++ *[0-9a-f]*: ef a8 06 30 mvrc.d cp0,cr6,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a7 1f e0 cop cp0,cr15,cr14,cr0,0xf ++ *[0-9a-f]*: e1 a7 10 00 cop cp0,cr0,cr0,cr0,0xf ++ *[0-9a-f]*: e1 a7 1f 00 cop cp0,cr15,cr0,cr0,0xf ++ *[0-9a-f]*: e1 a7 10 e0 cop cp0,cr0,cr14,cr0,0xf ++ *[0-9a-f]*: e1 a7 18 60 cop cp0,cr8,cr6,cr0,0xf ++ *[0-9a-f]*: e1 a7 17 80 cop cp0,cr7,cr8,cr0,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a8 0e f0 cop cp0,cr14,cr15,cr0,0x10 ++ *[0-9a-f]*: e1 a8 00 00 cop cp0,cr0,cr0,cr0,0x10 ++ *[0-9a-f]*: e1 a8 0e 00 cop cp0,cr14,cr0,cr0,0x10 ++ *[0-9a-f]*: e1 a8 00 f0 cop cp0,cr0,cr15,cr0,0x10 ++ *[0-9a-f]*: e1 a8 08 70 cop cp0,cr8,cr7,cr0,0x10 ++ *[0-9a-f]*: e1 a8 06 80 cop cp0,cr6,cr8,cr0,0x10 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/fpinsn.s +@@ -0,0 +1,266 @@ ++ ++ .text ++ .global fadd_s ++fadd_s: ++ fadd.s fr15, fr15, fr15 ++ fadd.s fr0, fr0, fr0 ++ fadd.s fr0, fr15, fr15 ++ fadd.s fr15, fr0, fr15 ++ fadd.s fr15, fr15, fr0 ++ fadd.s fr7, fr8, fr8 ++ fadd.s fr8, fr7, fr8 ++ fadd.s fr8, fr8, fr7 ++ .global fsub_s ++fsub_s: ++ fsub.s fr15, fr15, fr15 ++ fsub.s fr0, fr0, fr0 ++ fsub.s fr0, fr15, fr15 ++ fsub.s fr15, fr0, fr15 ++ fsub.s fr15, fr15, fr0 ++ fsub.s fr7, fr8, fr8 ++ fsub.s fr8, fr7, fr8 ++ fsub.s fr8, fr8, fr7 ++ .global fmac_s ++fmac_s: ++ fmac.s fr15, fr15, fr15 ++ fmac.s fr0, fr0, fr0 ++ fmac.s fr0, fr15, fr15 ++ fmac.s fr15, fr0, fr15 ++ fmac.s fr15, fr15, fr0 ++ fmac.s fr7, fr8, fr8 ++ fmac.s fr8, fr7, fr8 ++ fmac.s fr8, fr8, fr7 ++ .global fnmac_s ++fnmac_s: ++ fnmac.s fr15, fr15, fr15 ++ fnmac.s fr0, fr0, fr0 ++ fnmac.s fr0, fr15, fr15 ++ fnmac.s fr15, fr0, fr15 ++ fnmac.s fr15, fr15, fr0 ++ fnmac.s fr7, fr8, fr8 ++ fnmac.s fr8, fr7, fr8 ++ fnmac.s fr8, fr8, fr7 ++ .global fmsc_s ++fmsc_s: ++ fmsc.s fr15, fr15, fr15 ++ fmsc.s fr0, fr0, fr0 ++ fmsc.s fr0, fr15, fr15 ++ fmsc.s fr15, fr0, fr15 ++ fmsc.s fr15, fr15, fr0 ++ fmsc.s fr7, fr8, fr8 ++ fmsc.s fr8, fr7, fr8 ++ fmsc.s fr8, fr8, fr7 ++ .global fnmsc_s ++fnmsc_s: ++ fnmsc.s fr15, fr15, fr15 ++ fnmsc.s fr0, fr0, fr0 ++ fnmsc.s fr0, fr15, fr15 ++ fnmsc.s fr15, fr0, fr15 ++ fnmsc.s fr15, fr15, fr0 ++ fnmsc.s fr7, fr8, fr8 ++ fnmsc.s fr8, fr7, fr8 ++ fnmsc.s fr8, fr8, fr7 ++ .global fmul_s ++fmul_s: ++ fmul.s fr15, fr15, fr15 ++ fmul.s fr0, fr0, fr0 ++ fmul.s fr0, fr15, fr15 ++ fmul.s fr15, fr0, fr15 ++ fmul.s fr15, fr15, fr0 ++ fmul.s fr7, fr8, fr8 ++ fmul.s fr8, fr7, fr8 ++ fmul.s fr8, fr8, fr7 ++ .global fnmul_s ++fnmul_s: ++ fnmul.s fr15, fr15, fr15 ++ fnmul.s fr0, fr0, fr0 ++ fnmul.s fr0, fr15, fr15 ++ fnmul.s fr15, fr0, fr15 ++ fnmul.s fr15, fr15, fr0 ++ fnmul.s fr7, fr8, fr8 ++ fnmul.s fr8, fr7, fr8 ++ fnmul.s fr8, fr8, fr7 ++ .global fneg_s ++fneg_s: ++ fneg.s fr15, fr15 ++ fneg.s fr0, fr0 ++ fneg.s fr0, fr15 ++ fneg.s fr15, fr0 ++ fneg.s fr7, fr8 ++ fneg.s fr8, fr7 ++ .global fabs_s ++fabs_s: ++ fabs.s fr15, fr15 ++ fabs.s fr0, fr0 ++ fabs.s fr0, fr15 ++ fabs.s fr15, fr0 ++ fabs.s fr7, fr8 ++ fabs.s fr8, fr7 ++ .global fcmp_s ++fcmp_s: ++ fcmp.s fr15, fr15 ++ fcmp.s fr0, fr0 ++ fcmp.s fr0, fr15 ++ fcmp.s fr15, fr0 ++ fcmp.s fr7, fr8 ++ fcmp.s fr8, fr7 ++ .global fadd_d ++fadd_d: ++ fadd.d fr14, fr14, fr14 ++ fadd.d fr0, fr0, fr0 ++ fadd.d fr0, fr14, fr14 ++ fadd.d fr14, fr0, fr14 ++ fadd.d fr14, fr14, fr0 ++ fadd.d fr6, fr8, fr8 ++ fadd.d fr8, fr6, fr8 ++ fadd.d fr8, fr8, fr6 ++ .global fsub_d ++fsub_d: ++ fsub.d fr14, fr14, fr14 ++ fsub.d fr0, fr0, fr0 ++ fsub.d fr0, fr14, fr14 ++ fsub.d fr14, fr0, fr14 ++ fsub.d fr14, fr14, fr0 ++ fsub.d fr6, fr8, fr8 ++ fsub.d fr8, fr6, fr8 ++ fsub.d fr8, fr8, fr6 ++ .global fmac_d ++fmac_d: ++ fmac.d fr14, fr14, fr14 ++ fmac.d fr0, fr0, fr0 ++ fmac.d fr0, fr14, fr14 ++ fmac.d fr14, fr0, fr14 ++ fmac.d fr14, fr14, fr0 ++ fmac.d fr6, fr8, fr8 ++ fmac.d fr8, fr6, fr8 ++ fmac.d fr8, fr8, fr6 ++ .global fnmac_d ++fnmac_d: ++ fnmac.d fr14, fr14, fr14 ++ fnmac.d fr0, fr0, fr0 ++ fnmac.d fr0, fr14, fr14 ++ fnmac.d fr14, fr0, fr14 ++ fnmac.d fr14, fr14, fr0 ++ fnmac.d fr6, fr8, fr8 ++ fnmac.d fr8, fr6, fr8 ++ fnmac.d fr8, fr8, fr6 ++ .global fmsc_d ++fmsc_d: ++ fmsc.d fr14, fr14, fr14 ++ fmsc.d fr0, fr0, fr0 ++ fmsc.d fr0, fr14, fr14 ++ fmsc.d fr14, fr0, fr14 ++ fmsc.d fr14, fr14, fr0 ++ fmsc.d fr6, fr8, fr8 ++ fmsc.d fr8, fr6, fr8 ++ fmsc.d fr8, fr8, fr6 ++ .global fnmsc_d ++fnmsc_d: ++ fnmsc.d fr14, fr14, fr14 ++ fnmsc.d fr0, fr0, fr0 ++ fnmsc.d fr0, fr14, fr14 ++ fnmsc.d fr14, fr0, fr14 ++ fnmsc.d fr14, fr14, fr0 ++ fnmsc.d fr6, fr8, fr8 ++ fnmsc.d fr8, fr6, fr8 ++ fnmsc.d fr8, fr8, fr6 ++ .global fmul_d ++fmul_d: ++ fmul.d fr14, fr14, fr14 ++ fmul.d fr0, fr0, fr0 ++ fmul.d fr0, fr14, fr14 ++ fmul.d fr14, fr0, fr14 ++ fmul.d fr14, fr14, fr0 ++ fmul.d fr6, fr8, fr8 ++ fmul.d fr8, fr6, fr8 ++ fmul.d fr8, fr8, fr6 ++ .global fnmul_d ++fnmul_d: ++ fnmul.d fr14, fr14, fr14 ++ fnmul.d fr0, fr0, fr0 ++ fnmul.d fr0, fr14, fr14 ++ fnmul.d fr14, fr0, fr14 ++ fnmul.d fr14, fr14, fr0 ++ fnmul.d fr6, fr8, fr8 ++ fnmul.d fr8, fr6, fr8 ++ fnmul.d fr8, fr8, fr6 ++ .global fneg_d ++fneg_d: ++ fneg.d fr14, fr14 ++ fneg.d fr0, fr0 ++ fneg.d fr0, fr14 ++ fneg.d fr14, fr0 ++ fneg.d fr6, fr8 ++ fneg.d fr8, fr6 ++ .global fabs_d ++fabs_d: ++ fabs.d fr14, fr14 ++ fabs.d fr0, fr0 ++ fabs.d fr0, fr14 ++ fabs.d fr14, fr0 ++ fabs.d fr6, fr8 ++ fabs.d fr8, fr6 ++ .global fcmp_d ++fcmp_d: ++ fcmp.d fr14, fr14 ++ fcmp.d fr0, fr0 ++ fcmp.d fr0, fr14 ++ fcmp.d fr14, fr0 ++ fcmp.d fr6, fr8 ++ fcmp.d fr8, fr6 ++ .global fmov_s ++fmov_s: ++ fmov.s fr15, fr15 ++ fmov.s fr0, fr0 ++ fmov.s fr15, fr0 ++ fmov.s fr0, fr15 ++ fmov.s fr8, fr7 ++ fmov.s fr7, fr8 ++ fmov.s pc, fr15 ++ fmov.s r0, fr0 ++ fmov.s pc, fr0 ++ fmov.s r0, fr15 ++ fmov.s r8, fr7 ++ fmov.s r7, fr8 ++ fmov.s fr15, pc ++ fmov.s fr0, r0 ++ fmov.s fr15, r0 ++ fmov.s fr0, pc ++ fmov.s fr8, r7 ++ fmov.s fr7, r8 ++ .global fmov_d ++fmov_d: ++ fmov.d fr14, fr14 ++ fmov.d fr0, fr0 ++ fmov.d fr14, fr0 ++ fmov.d fr0, fr14 ++ fmov.d fr8, fr6 ++ fmov.d fr6, fr8 ++ fmov.d lr, fr14 ++ fmov.d r0, fr0 ++ fmov.d lr, fr0 ++ fmov.d r0, fr14 ++ fmov.d r8, fr6 ++ fmov.d r6, fr8 ++ fmov.d fr14, lr ++ fmov.d fr0, r0 ++ fmov.d fr14, r0 ++ fmov.d fr0, lr ++ fmov.d fr8, r6 ++ fmov.d fr6, r8 ++ .global fcasts_d ++fcasts_d: ++ fcasts.d fr15, fr14 ++ fcasts.d fr0, fr0 ++ fcasts.d fr15, fr0 ++ fcasts.d fr0, fr14 ++ fcasts.d fr8, fr6 ++ fcasts.d fr7, fr8 ++ .global fcastd_s ++fcastd_s: ++ fcastd.s fr14, fr15 ++ fcastd.s fr0, fr0 ++ fcastd.s fr14, fr0 ++ fcastd.s fr0, fr15 ++ fcastd.s fr8, fr7 ++ fcastd.s fr6, fr8 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/hwrd-lwrd.d +@@ -0,0 +1,47 @@ ++#as: ++#objdump: -dr ++#name: hwrd-lwrd ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: e0 60 87 65 mov r0,34661 ++ 4: e0 60 12 34 mov r0,4660 ++ 8: e0 60 00 00 mov r0,0 ++ 8: R_AVR32_HI16 \.text\+0x60 ++ c: e0 60 00 00 mov r0,0 ++ c: R_AVR32_HI16 extsym1 ++ 10: ea 10 87 65 orh r0,0x8765 ++ 14: ea 10 12 34 orh r0,0x1234 ++ 18: ea 10 00 00 orh r0,0x0 ++ 18: R_AVR32_HI16 \.text\+0x60 ++ 1c: ea 10 00 00 orh r0,0x0 ++ 1c: R_AVR32_HI16 extsym1 ++ 20: e4 10 87 65 andh r0,0x8765 ++ 24: e4 10 12 34 andh r0,0x1234 ++ 28: e4 10 00 00 andh r0,0x0 ++ 28: R_AVR32_HI16 \.text\+0x60 ++ 2c: e4 10 00 00 andh r0,0x0 ++ 2c: R_AVR32_HI16 extsym1 ++ ++00000030 : ++ 30: e0 60 43 21 mov r0,17185 ++ 34: e0 60 56 78 mov r0,22136 ++ 38: e0 60 00 00 mov r0,0 ++ 38: R_AVR32_LO16 \.text\+0x60 ++ 3c: e0 60 00 00 mov r0,0 ++ 3c: R_AVR32_LO16 extsym1 ++ 40: e8 10 43 21 orl r0,0x4321 ++ 44: e8 10 56 78 orl r0,0x5678 ++ 48: e8 10 00 00 orl r0,0x0 ++ 48: R_AVR32_LO16 \.text\+0x60 ++ 4c: e8 10 00 00 orl r0,0x0 ++ 4c: R_AVR32_LO16 extsym1 ++ 50: e0 10 43 21 andl r0,0x4321 ++ 54: e0 10 56 78 andl r0,0x5678 ++ 58: e0 10 00 00 andl r0,0x0 ++ 58: R_AVR32_LO16 \.text\+0x60 ++ 5c: e0 10 00 00 andl r0,0x0 ++ 5c: R_AVR32_LO16 extsym1 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/hwrd-lwrd.s +@@ -0,0 +1,39 @@ ++ ++ .equ sym1, 0x12345678 ++ ++ .text ++ .global test_hwrd ++test_hwrd: ++ mov r0, hi(0x87654321) ++ mov r0, hi(sym1) ++ mov r0, hi(sym2) ++ mov r0, hi(extsym1) ++ ++ orh r0, hi(0x87654321) ++ orh r0, hi(sym1) ++ orh r0, hi(sym2) ++ orh r0, hi(extsym1) ++ ++ andh r0, hi(0x87654321) ++ andh r0, hi(sym1) ++ andh r0, hi(sym2) ++ andh r0, hi(extsym1) ++ ++ .global test_lwrd ++test_lwrd: ++ mov r0, lo(0x87654321) ++ mov r0, lo(sym1) ++ mov r0, lo(sym2) ++ mov r0, lo(extsym1) ++ ++ orl r0, lo(0x87654321) ++ orl r0, lo(sym1) ++ orl r0, lo(sym2) ++ orl r0, lo(extsym1) ++ ++ andl r0, lo(0x87654321) ++ andl r0, lo(sym1) ++ andl r0, lo(sym2) ++ andl r0, lo(extsym1) ++ ++sym2: +--- /dev/null ++++ b/gas/testsuite/gas/avr32/jmptable.d +@@ -0,0 +1,20 @@ ++#source: jmptable.s ++#as: ++#objdump: -dr ++#name: jmptable ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: fe c8 ff f4 sub r8,pc,-12 ++ 4: f0 00 00 2f add pc,r8,r0<<0x2 ++ 8: d7 03 nop ++ a: 00 00 add r0,r0 ++ c: c0 38 rjmp 12 ++ e: c0 38 rjmp 14 ++ 10: c0 38 rjmp 16 ++ 12: d7 03 nop ++ 14: d7 03 nop ++ 16: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/jmptable_linkrelax.d +@@ -0,0 +1,25 @@ ++#source: jmptable.s ++#as: --linkrelax ++#objdump: -dr ++#name: jmptable_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: fe c8 00 00 sub r8,pc,0 ++ 0: R_AVR32_16N_PCREL \.text\+0xc ++ 4: f0 00 00 2f add pc,r8,r0<<0x2 ++ 8: d7 03 nop ++ a: 00 00 add r0,r0 ++ a: R_AVR32_ALIGN \*ABS\*\+0x2 ++ c: c0 08 rjmp c ++ c: R_AVR32_11H_PCREL \.text\+0x12 ++ e: c0 08 rjmp e ++ e: R_AVR32_11H_PCREL \.text\+0x14 ++ 10: c0 08 rjmp 10 ++ 10: R_AVR32_11H_PCREL \.text\+0x16 ++ 12: d7 03 nop ++ 14: d7 03 nop ++ 16: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/jmptable.s +@@ -0,0 +1,14 @@ ++ ++ .text ++ .global jmptable_test ++jmptable_test: ++ sub r8, pc, -(.L1 - .) ++ add pc, r8, r0 << 2 ++ nop ++ .align 2 ++.L1: rjmp 1f ++ rjmp 2f ++ rjmp 3f ++1: nop ++2: nop ++3: nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_nopic.d +@@ -0,0 +1,32 @@ ++#source: lda.s ++#as: ++#objdump: -dr ++#name: lda_nopic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ ... ++ 8000: fe c0 7f fc sub r0,pc,32764 ++ 8004: 48 31 lddpc r1,8010 ++ 8006: 48 42 lddpc r2,8014 ++ 8008: 48 43 lddpc r3,8018 ++ 800a: 48 54 lddpc r4,801c ++ 800c: fe c5 80 04 sub r5,pc,-32764 ++ ... ++ 8010: R_AVR32_32_CPENT \.text ++ 8014: R_AVR32_32_CPENT \.data ++ 8018: R_AVR32_32_CPENT undefined ++ 801c: R_AVR32_32_CPENT \.text\+0x1001c ++ ++00010008 : ++ 10008: fa cc 00 00 sub r12,sp,0 ++ ... ++0001001c : ++ 1001c: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_nopic_linkrelax.d +@@ -0,0 +1,41 @@ ++#source: lda.s ++#as: --linkrelax ++#objdump: -dr ++#name: lda_nopic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ \.\.\. ++ 8000: 48 00 lddpc r0,8000 ++ 8000: R_AVR32_9W_CP \.text\+0x800c ++ 8002: 48 01 lddpc r1,8000 ++ 8002: R_AVR32_9W_CP \.text\+0x8010 ++ 8004: 48 02 lddpc r2,8004 ++ 8004: R_AVR32_9W_CP \.text\+0x8014 ++ 8006: 48 03 lddpc r3,8004 ++ 8006: R_AVR32_9W_CP \.text\+0x8018 ++ 8008: 48 04 lddpc r4,8008 ++ 8008: R_AVR32_9W_CP \.text\+0x801c ++ 800a: 48 05 lddpc r5,8008 ++ 800a: R_AVR32_9W_CP \.text\+0x8020 ++ \.\.\. ++ 800c: R_AVR32_ALIGN \*ABS\*\+0x2 ++ 800c: R_AVR32_32_CPENT \.text\+0x4 ++ 8010: R_AVR32_32_CPENT \.text ++ 8014: R_AVR32_32_CPENT \.data ++ 8018: R_AVR32_32_CPENT undefined ++ 801c: R_AVR32_32_CPENT \.text\+0x10020 ++ 8020: R_AVR32_32_CPENT \.text\+0x1000c ++ ++0001000c : ++ 1000c: fa cc 00 00 sub r12,sp,0 ++ \.\.\. ++00010020 : ++ 10020: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_pic.d +@@ -0,0 +1,32 @@ ++#source: lda.s ++#as: --pic ++#objdump: -dr ++#name: lda_pic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ ... ++ 8000: fe c0 7f fc sub r0,pc,32764 ++ 8004: ec f1 00 00 ld.w r1,r6\[0\] ++ 8004: R_AVR32_GOT16S toofar_negative ++ 8008: ec f2 00 00 ld.w r2,r6\[0\] ++ 8008: R_AVR32_GOT16S different_section ++ 800c: ec f3 00 00 ld.w r3,r6\[0\] ++ 800c: R_AVR32_GOT16S undefined ++ 8010: ec f4 00 00 ld.w r4,r6\[0\] ++ 8010: R_AVR32_GOT16S toofar_positive ++ 8014: fe c5 80 14 sub r5,pc,-32748 ++ ... ++ ++00010000 : ++ 10000: fa cc 00 00 sub r12,sp,0 ++ ... ++00010014 : ++ 10014: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_pic_linkrelax.d +@@ -0,0 +1,40 @@ ++#source: lda.s ++#as: --pic --linkrelax ++#objdump: -dr ++#name: lda_pic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ ... ++ 8000: e0 60 00 00 mov r0,0 ++ 8000: R_AVR32_LDA_GOT far_negative ++ 8004: ec 00 03 20 ld\.w r0,r6\[r0<<0x2\] ++ 8008: e0 61 00 00 mov r1,0 ++ 8008: R_AVR32_LDA_GOT toofar_negative ++ 800c: ec 01 03 21 ld\.w r1,r6\[r1<<0x2\] ++ 8010: e0 62 00 00 mov r2,0 ++ 8010: R_AVR32_LDA_GOT different_section ++ 8014: ec 02 03 22 ld\.w r2,r6\[r2<<0x2\] ++ 8018: e0 63 00 00 mov r3,0 ++ 8018: R_AVR32_LDA_GOT undefined ++ 801c: ec 03 03 23 ld\.w r3,r6\[r3<<0x2\] ++ 8020: e0 64 00 00 mov r4,0 ++ 8020: R_AVR32_LDA_GOT toofar_positive ++ 8024: ec 04 03 24 ld\.w r4,r6\[r4<<0x2\] ++ 8028: e0 65 00 00 mov r5,0 ++ 8028: R_AVR32_LDA_GOT far_positive ++ 802c: ec 05 03 25 ld\.w r5,r6\[r5<<0x2\] ++ ... ++ ++00010018 : ++ 10018: fa cc 00 00 sub r12,sp,0 ++ ... ++0001002c : ++ 1002c: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda.s +@@ -0,0 +1,30 @@ ++ ++ .text ++ .global lda_test ++lda_test: ++toofar_negative: ++ sub r8, r9, 0 ++far_negative: ++ sub r10, r11, 0 ++ ++ .fill 32760, 1, 0x00 ++ ++ lda.w r0, far_negative ++ lda.w r1, toofar_negative ++ lda.w r2, different_section ++ lda.w r3, undefined ++ lda.w r4, toofar_positive ++ lda.w r5, far_positive ++ ++ .cpool ++ ++ .fill 32744, 1, 0x00 ++far_positive: ++ sub r12, sp, 0 ++ .fill 16, 1, 0x00 ++toofar_positive: ++ sub lr, pc, 0 ++ ++ .data ++different_section: ++ .long 0x12345678 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pcrel.d +@@ -0,0 +1,64 @@ ++#as: ++#objdump: -dr ++#name: pcrel ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ 2: c0 28 rjmp 6 ++ 4: d7 03 nop ++ 6: e0 8f 00 00 bral 6 ++ 6: R_AVR32_22H_PCREL extsym10 ++ ++0000000a : ++ a: d7 03 nop ++0000000c : ++ c: c0 2c rcall 10 ++ e: d7 03 nop ++ 10: e0 a0 00 00 rcall 10 ++ 10: R_AVR32_22H_PCREL extsym21 ++ ++00000014 : ++ 14: c0 31 brne 1a ++ 16: e0 8f 00 00 bral 16 ++ 16: R_AVR32_22H_PCREL test_branch ++ 1a: e0 80 00 00 breq 1a ++ 1a: R_AVR32_22H_PCREL extsym21 ++ ++0000001e : ++ 1e: 48 30 lddpc r0,28 ++ 20: 48 20 lddpc r0,28 ++ 22: fe f0 00 00 ld.w r0,pc\[0\] ++ 22: R_AVR32_16B_PCREL extsym16 ++ \.\.\. ++ ++00000028 : ++ 28: d7 03 nop ++ 2a: d7 03 nop ++ ++0000002c : ++ 2c: 48 20 lddpc r0,34 ++ 2e: 48 30 lddpc r0,38 ++ 30: 48 20 lddpc r0,38 ++ 32: 00 00 add r0,r0 ++ 34: d7 03 nop ++ 36: d7 03 nop ++ 38: d7 03 nop ++ 3a: d7 03 nop ++ ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e0 a0 .. .. rcall [0-9a-f]+ <.*> ++ 0: R_AVR32_22H_PCREL test_rcall ++ 4: d7 03 nop ++ 6: e0 a0 .. .. rcall [0-9a-f]+ <.*> ++ 6: R_AVR32_22H_PCREL test_rcall ++ a: e0 a0 .. .. rcall [0-9a-z]+ <.*> ++ a: R_AVR32_22H_PCREL \.text\+0xc ++ e: d7 03 nop ++ 10: e0 a0 .. .. rcall [0-9a-f]+ <.*> ++ 10: R_AVR32_22H_PCREL \.text\+0xc +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pcrel.s +@@ -0,0 +1,57 @@ ++ ++ .text ++ .global test_rjmp ++test_rjmp: ++ nop ++ rjmp 0f ++ nop ++0: rjmp extsym10 ++ ++ .global test_rcall ++test_rcall: ++ nop ++test_rcall2: ++ rcall 0f ++ nop ++0: rcall extsym21 ++ ++ .global test_branch ++test_branch: ++ brne 0f ++ /* This will generate a reloc since test_branch is global */ ++ bral test_branch ++0: breq extsym21 ++ ++ .global test_lddpc ++test_lddpc: ++ lddpc r0,sym1 ++ lddpc r0,sym1 ++ lddpc r0,extsym16 ++ ++ .align 2 ++sym1: nop ++ nop ++ ++ .global test_local ++test_local: ++ lddpc r0, .LC1 ++ lddpc r0, .LC2 ++ lddpc r0, .LC1 + 0x4 ++ ++ .align 2 ++.LC1: ++ nop ++ nop ++.LC2: ++ nop ++ nop ++ ++ .section .text.init,"ax" ++ .global test_inter_section ++test_inter_section: ++ rcall test_rcall ++ nop ++ rcall test_rcall ++ rcall test_rcall2 ++ nop ++ rcall test_rcall2 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pico.d +@@ -0,0 +1,149 @@ ++#as: ++#objdump: -dr ++#name: pico ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a6 20 00 cop cp1,cr0,cr0,cr0,0xc ++ *[0-9a-f]*: e1 a7 2b bb cop cp1,cr11,cr11,cr11,0xe ++ *[0-9a-f]*: e1 a6 3a 05 cop cp1,cr10,cr0,cr5,0xd ++ *[0-9a-f]*: e1 a7 36 90 cop cp1,cr6,cr9,cr0,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a4 20 00 cop cp1,cr0,cr0,cr0,0x8 ++ *[0-9a-f]*: e1 a5 2b bb cop cp1,cr11,cr11,cr11,0xa ++ *[0-9a-f]*: e1 a4 3a 05 cop cp1,cr10,cr0,cr5,0x9 ++ *[0-9a-f]*: e1 a5 36 90 cop cp1,cr6,cr9,cr0,0xb ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a2 20 00 cop cp1,cr0,cr0,cr0,0x4 ++ *[0-9a-f]*: e1 a3 2b bb cop cp1,cr11,cr11,cr11,0x6 ++ *[0-9a-f]*: e1 a2 3a 05 cop cp1,cr10,cr0,cr5,0x5 ++ *[0-9a-f]*: e1 a3 36 90 cop cp1,cr6,cr9,cr0,0x7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 20 00 cop cp1,cr0,cr0,cr0,0x0 ++ *[0-9a-f]*: e1 a1 2b bb cop cp1,cr11,cr11,cr11,0x2 ++ *[0-9a-f]*: e1 a0 3a 05 cop cp1,cr10,cr0,cr5,0x1 ++ *[0-9a-f]*: e1 a1 36 90 cop cp1,cr6,cr9,cr0,0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 af 3e ff ldc\.d cp1,cr14,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a0 30 ff ldc\.d cp1,cr0,r0\[0x3fc\] ++ *[0-9a-f]*: e9 a0 30 00 ldc\.d cp1,cr0,r0\[0x0\] ++ *[0-9a-f]*: ef a8 26 50 ldc\.d cp1,cr6,--r8 ++ *[0-9a-f]*: ef a7 28 50 ldc\.d cp1,cr8,--r7 ++ *[0-9a-f]*: ef aa 32 65 ldc\.d cp1,cr2,r10\[r5<<0x2\] ++ *[0-9a-f]*: ef a3 3c 46 ldc\.d cp1,cr12,r3\[r6\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 af 2f ff ldc\.w cp1,cr15,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a0 20 ff ldc\.w cp1,cr0,r0\[0x3fc\] ++ *[0-9a-f]*: e9 a0 20 00 ldc\.w cp1,cr0,r0\[0x0\] ++ *[0-9a-f]*: ef a8 27 40 ldc\.w cp1,cr7,--r8 ++ *[0-9a-f]*: ef a7 28 40 ldc\.w cp1,cr8,--r7 ++ *[0-9a-f]*: ef aa 31 25 ldc\.w cp1,cr1,r10\[r5<<0x2\] ++ *[0-9a-f]*: ef a3 3d 06 ldc\.w cp1,cr13,r3\[r6\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 24 ff ldcm\.d cp1,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 24 01 ldcm\.d cp1,r0,cr0-cr1 ++ *[0-9a-f]*: ed a7 24 80 ldcm\.d cp1,r7,cr14-cr15 ++ *[0-9a-f]*: ed a8 24 7f ldcm\.d cp1,r8,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 34 ff ldcm\.d cp1,pc\+\+,cr0-cr15 ++ *[0-9a-f]*: ed a0 34 01 ldcm\.d cp1,r0\+\+,cr0-cr1 ++ *[0-9a-f]*: ed a7 34 80 ldcm\.d cp1,r7\+\+,cr14-cr15 ++ *[0-9a-f]*: ed a8 34 7f ldcm\.d cp1,r8\+\+,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 20 ff ldcm\.w cp1,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 20 01 ldcm\.w cp1,r0,cr0 ++ *[0-9a-f]*: ed a7 20 80 ldcm\.w cp1,r7,cr7 ++ *[0-9a-f]*: ed a8 20 7f ldcm\.w cp1,r8,cr0-cr6 ++ *[0-9a-f]*: ed af 21 ff ldcm\.w cp1,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 21 01 ldcm\.w cp1,r0,cr8 ++ *[0-9a-f]*: ed a7 21 80 ldcm\.w cp1,r7,cr15 ++ *[0-9a-f]*: ed a8 21 7f ldcm\.w cp1,r8,cr8-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 30 ff ldcm\.w cp1,pc\+\+,cr0-cr7 ++ *[0-9a-f]*: ed a0 30 01 ldcm\.w cp1,r0\+\+,cr0 ++ *[0-9a-f]*: ed a7 30 80 ldcm\.w cp1,r7\+\+,cr7 ++ *[0-9a-f]*: ed a8 30 7f ldcm\.w cp1,r8\+\+,cr0-cr6 ++ *[0-9a-f]*: ed af 31 ff ldcm\.w cp1,pc\+\+,cr8-cr15 ++ *[0-9a-f]*: ed a0 31 01 ldcm\.w cp1,r0\+\+,cr8 ++ *[0-9a-f]*: ed a7 31 80 ldcm\.w cp1,r7\+\+,cr15 ++ *[0-9a-f]*: ed a8 31 7f ldcm\.w cp1,r8\+\+,cr8-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef ae 2e 30 mvrc\.d cp1,cr14,lr ++ *[0-9a-f]*: ef a0 20 30 mvrc\.d cp1,cr0,r0 ++ *[0-9a-f]*: ef a8 26 30 mvrc\.d cp1,cr6,r8 ++ *[0-9a-f]*: ef a6 28 30 mvrc\.d cp1,cr8,r6 ++ *[0-9a-f]*: ef ae 2e 10 mvcr\.d cp1,lr,cr14 ++ *[0-9a-f]*: ef a0 20 10 mvcr\.d cp1,r0,cr0 ++ *[0-9a-f]*: ef a8 26 10 mvcr\.d cp1,r8,cr6 ++ *[0-9a-f]*: ef a6 28 10 mvcr\.d cp1,r6,cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef af 2f 20 mvrc\.w cp1,cr15,pc ++ *[0-9a-f]*: ef a0 20 20 mvrc\.w cp1,cr0,r0 ++ *[0-9a-f]*: ef a8 27 20 mvrc\.w cp1,cr7,r8 ++ *[0-9a-f]*: ef a7 28 20 mvrc\.w cp1,cr8,r7 ++ *[0-9a-f]*: ef af 2f 00 mvcr\.w cp1,pc,cr15 ++ *[0-9a-f]*: ef a0 20 00 mvcr\.w cp1,r0,cr0 ++ *[0-9a-f]*: ef a8 27 00 mvcr\.w cp1,r8,cr7 ++ *[0-9a-f]*: ef a7 28 00 mvcr\.w cp1,r7,cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb af 3e ff stc\.d cp1,pc\[0x3fc\],cr14 ++ *[0-9a-f]*: eb a0 30 00 stc\.d cp1,r0\[0x0\],cr0 ++ *[0-9a-f]*: ef a8 26 70 stc\.d cp1,r8\+\+,cr6 ++ *[0-9a-f]*: ef a7 28 70 stc\.d cp1,r7\+\+,cr8 ++ *[0-9a-f]*: ef aa 32 e5 stc\.d cp1,r10\[r5<<0x2\],cr2 ++ *[0-9a-f]*: ef a3 3c c6 stc\.d cp1,r3\[r6\],cr12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb af 2f ff stc\.w cp1,pc\[0x3fc\],cr15 ++ *[0-9a-f]*: eb a0 20 00 stc\.w cp1,r0\[0x0\],cr0 ++ *[0-9a-f]*: ef a8 27 60 stc\.w cp1,r8\+\+,cr7 ++ *[0-9a-f]*: ef a7 28 60 stc\.w cp1,r7\+\+,cr8 ++ *[0-9a-f]*: ef aa 31 a5 stc\.w cp1,r10\[r5<<0x2\],cr1 ++ *[0-9a-f]*: ef a3 3d 86 stc\.w cp1,r3\[r6\],cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 25 ff stcm\.d cp1,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 25 01 stcm\.d cp1,r0,cr0-cr1 ++ *[0-9a-f]*: ed a7 25 80 stcm\.d cp1,r7,cr14-cr15 ++ *[0-9a-f]*: ed a8 25 7f stcm\.d cp1,r8,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 35 ff stcm\.d cp1,--pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 35 01 stcm\.d cp1,--r0,cr0-cr1 ++ *[0-9a-f]*: ed a7 35 80 stcm\.d cp1,--r7,cr14-cr15 ++ *[0-9a-f]*: ed a8 35 7f stcm\.d cp1,--r8,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 22 ff stcm\.w cp1,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 22 01 stcm\.w cp1,r0,cr0 ++ *[0-9a-f]*: ed a7 22 80 stcm\.w cp1,r7,cr7 ++ *[0-9a-f]*: ed a8 22 7f stcm\.w cp1,r8,cr0-cr6 ++ *[0-9a-f]*: ed af 23 ff stcm\.w cp1,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 23 01 stcm\.w cp1,r0,cr8 ++ *[0-9a-f]*: ed a7 23 80 stcm\.w cp1,r7,cr15 ++ *[0-9a-f]*: ed a8 23 7f stcm\.w cp1,r8,cr8-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 32 ff stcm\.w cp1,--pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 32 01 stcm\.w cp1,--r0,cr0 ++ *[0-9a-f]*: ed a7 32 80 stcm\.w cp1,--r7,cr7 ++ *[0-9a-f]*: ed a8 32 7f stcm\.w cp1,--r8,cr0-cr6 ++ *[0-9a-f]*: ed af 33 ff stcm\.w cp1,--pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 33 01 stcm\.w cp1,--r0,cr8 ++ *[0-9a-f]*: ed a7 33 80 stcm\.w cp1,--r7,cr15 ++ *[0-9a-f]*: ed a8 33 7f stcm\.w cp1,--r8,cr8-cr14 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pico.s +@@ -0,0 +1,144 @@ ++ ++ .text ++ .global picosvmac ++picosvmac: ++ picosvmac out0, in0, in0, in0 ++ picosvmac out2, in11, in11, in11 ++ picosvmac out1, in10, in0, in5 ++ picosvmac out3, in6, in9, in0 ++ .global picosvmul ++picosvmul: ++ picosvmul out0, in0, in0, in0 ++ picosvmul out2, in11, in11, in11 ++ picosvmul out1, in10, in0, in5 ++ picosvmul out3, in6, in9, in0 ++ .global picovmac ++picovmac: ++ picovmac out0, in0, in0, in0 ++ picovmac out2, in11, in11, in11 ++ picovmac out1, in10, in0, in5 ++ picovmac out3, in6, in9, in0 ++ .global picovmul ++picovmul: ++ picovmul out0, in0, in0, in0 ++ picovmul out2, in11, in11, in11 ++ picovmul out1, in10, in0, in5 ++ picovmul out3, in6, in9, in0 ++ .global picold_d ++picold_d: ++ picold.d vmu2_out, pc[1020] ++ picold.d inpix2, r0[1020] ++ picold.d inpix2, r0[0] ++ picold.d coeff0_a, --r8 ++ picold.d coeff1_a, --r7 ++ picold.d inpix0, r10[r5 << 2] ++ picold.d vmu0_out, r3[r6 << 0] ++ .global picold_w ++picold_w: ++ picold.w config, pc[1020] ++ picold.w inpix2, r0[1020] ++ picold.w inpix2, r0[0] ++ picold.w coeff0_b, --r8 ++ picold.w coeff1_a, --r7 ++ picold.w inpix1, r10[r5 << 2] ++ picold.w vmu1_out, r3[r6 << 0] ++ .global picoldm_d ++picoldm_d: ++ picoldm.d pc, inpix2-config ++ picoldm.d r0, inpix2, inpix1 ++ picoldm.d r7, vmu2_out, config ++ picoldm.d r8, inpix2-vmu1_out ++ .global picoldm_d_pu ++picoldm_d_pu: ++ picoldm.d pc++, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out, vmu2_out, config ++ picoldm.d r0++, inpix2, inpix1 ++ picoldm.d r7++, vmu2_out, config ++ picoldm.d r8++, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out ++ .global picoldm_w ++picoldm_w: ++ picoldm.w pc, inpix2-coeff0_b ++ picoldm.w r0, inpix2 ++ picoldm.w r7, coeff0_b ++ picoldm.w r8, inpix2-coeff0_a ++ picoldm.w pc, coeff1_a-config ++ picoldm.w r0, coeff1_a ++ picoldm.w r7, config ++ picoldm.w r8, coeff1_a-vmu2_out ++ .global picoldm_w_pu ++picoldm_w_pu: ++ picoldm.w pc++, inpix2-coeff0_b ++ picoldm.w r0++, inpix2 ++ picoldm.w r7++, coeff0_b ++ picoldm.w r8++, inpix2-coeff0_a ++ picoldm.w pc++, coeff1_a-config ++ picoldm.w r0++, coeff1_a ++ picoldm.w r7++, config ++ picoldm.w r8++, coeff1_a-vmu2_out ++ .global picomv_d ++picomv_d: ++ picomv.d vmu2_out, lr ++ picomv.d inpix2, r0 ++ picomv.d coeff0_a, r8 ++ picomv.d coeff1_a, r6 ++ picomv.d pc, vmu2_out ++ picomv.d r0, inpix2 ++ picomv.d r8, coeff0_a ++ picomv.d r6, coeff1_a ++ .global picomv_w ++picomv_w: ++ picomv.w config, pc ++ picomv.w inpix2, r0 ++ picomv.w coeff0_b, r8 ++ picomv.w coeff1_a, r7 ++ picomv.w pc, config ++ picomv.w r0, inpix2 ++ picomv.w r8, coeff0_b ++ picomv.w r7, coeff1_a ++ .global picost_d ++picost_d: ++ picost.d pc[1020], vmu2_out ++ picost.d r0[0], inpix2 ++ picost.d r8++, coeff0_a ++ picost.d r7++, coeff1_a ++ picost.d r10[r5 << 2], inpix0 ++ picost.d r3[r6 << 0], vmu0_out ++ .global picost_w ++picost_w: ++ picost.w pc[1020], config ++ picost.w r0[0], inpix2 ++ picost.w r8++, coeff0_b ++ picost.w r7++, coeff1_a ++ picost.w r10[r5 << 2], inpix1 ++ picost.w r3[r6 << 0], vmu1_out ++ .global picostm_d ++picostm_d: ++ picostm.d pc, inpix2-config ++ picostm.d r0, inpix2, inpix1 ++ picostm.d r7, vmu2_out, config ++ picostm.d r8, inpix2-vmu1_out ++ .global picostm_d_pu ++picostm_d_pu: ++ picostm.d --pc, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out, vmu2_out, config ++ picostm.d --r0, inpix2, inpix1 ++ picostm.d --r7, vmu2_out, config ++ picostm.d --r8, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out ++ .global picostm_w ++picostm_w: ++ picostm.w pc, inpix2-coeff0_b ++ picostm.w r0, inpix2 ++ picostm.w r7, coeff0_b ++ picostm.w r8, inpix2-coeff0_a ++ picostm.w pc, coeff1_a-config ++ picostm.w r0, coeff1_a ++ picostm.w r7, config ++ picostm.w r8, coeff1_a-vmu2_out ++ .global picostm_w_pu ++picostm_w_pu: ++ picostm.w --pc, inpix2-coeff0_b ++ picostm.w --r0, inpix2 ++ picostm.w --r7, coeff0_b ++ picostm.w --r8, inpix2-coeff0_a ++ picostm.w --pc, coeff1_a-config ++ picostm.w --r0, coeff1_a ++ picostm.w --r7, config ++ picostm.w --r8, coeff1_a-vmu2_out +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pic_reloc.d +@@ -0,0 +1,27 @@ ++#as: ++#objdump: -dr ++#name: pic_reloc ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f0 16 00 00 mcall r6\[0\] ++ 0: R_AVR32_GOT18SW extfunc ++ 4: f0 16 00 00 mcall r6\[0\] ++ 4: R_AVR32_GOT18SW \.L1 ++ 8: f0 16 00 00 mcall r6\[0\] ++ 8: R_AVR32_GOT18SW \.L2 ++ c: f0 16 00 00 mcall r6\[0\] ++ c: R_AVR32_GOT18SW mcall_got ++ ++00000010 : ++ 10: ec f0 00 00 ld.w r0,r6\[0\] ++ 10: R_AVR32_GOT16S extvar ++ 14: ec f0 00 00 ld.w r0,r6\[0\] ++ 14: R_AVR32_GOT16S \.L3 ++ 18: ec f0 00 00 ld.w r0,r6\[0\] ++ 18: R_AVR32_GOT16S \.L4 ++ 1c: ec f0 00 00 ld.w r0,r6\[0\] ++ 1c: R_AVR32_GOT16S ldw_got +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pic_reloc.s +@@ -0,0 +1,18 @@ ++ ++ .text ++ .global mcall_got ++mcall_got: ++.L1: ++ mcall r6[extfunc@got] ++ mcall r6[.L1@got] ++ mcall r6[.L2@got] ++ mcall r6[mcall_got@got] ++.L2: ++ ++ .global ldw_got ++ldw_got: ++.L3: ld.w r0,r6[extvar@got] ++ ld.w r0,r6[.L3@got] ++ ld.w r0,r6[.L4@got] ++ ld.w r0,r6[ldw_got@got] ++.L4: +--- /dev/null ++++ b/gas/testsuite/gas/avr32/symdiff.d +@@ -0,0 +1,24 @@ ++#source: symdiff.s ++#as: ++#objdump: -dr ++#name: symdiff ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: 00 00 add r0,r0 ++ 2: 00 04 add r4,r0 ++ ++00000004 : ++ 4: 00 04 add r4,r0 ++ ++00000006 : ++ 6: 04 00 add r0,r2 ++ ++00000008 : ++ 8: d7 03 nop ++ a: d7 03 nop ++ c: d7 03 nop ++ e: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/symdiff_linkrelax.d +@@ -0,0 +1,28 @@ ++#source: symdiff.s ++#as: --linkrelax ++#objdump: -dr ++#name: symdiff_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: 00 00 add r0,r0 ++ 0: R_AVR32_DIFF32 \.text\+0xa ++ 2: 00 04 add r4,r0 ++ ++00000004 : ++ 4: 00 04 add r4,r0 ++ 4: R_AVR32_DIFF16 \.text\+0xa ++ ++00000006 : ++ 6: 04 00 add r0,r2 ++ 6: R_AVR32_DIFF8 \.text\+0xa ++ 7: R_AVR32_ALIGN \*ABS\*\+0x1 ++ ++00000008 : ++ 8: d7 03 nop ++ a: d7 03 nop ++ c: d7 03 nop ++ e: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/symdiff.s +@@ -0,0 +1,19 @@ ++ ++ .text ++ .global diff32 ++diff32: ++ .long .L2 - .L1 ++ .global diff16 ++diff16: ++ .short .L2 - .L1 ++ .global diff8 ++diff8: ++ .byte .L2 - .L1 ++ ++ .global symdiff_test ++ .align 1 ++symdiff_test: ++ nop ++.L1: nop ++ nop ++.L2: nop +--- a/gas/write.c ++++ b/gas/write.c +@@ -1993,6 +1993,10 @@ relax_frag (segT segment, fragS *fragP, + + #endif /* defined (TC_GENERIC_RELAX_TABLE) */ + ++#ifdef TC_RELAX_ALIGN ++#define RELAX_ALIGN(SEG, FRAG, ADDR) TC_RELAX_ALIGN(SEG, FRAG, ADDR) ++#else ++#define RELAX_ALIGN(SEG, FRAG, ADDR) relax_align(ADDR, (FRAG)->fr_offset) + /* Relax_align. Advance location counter to next address that has 'alignment' + lowest order bits all 0s, return size of adjustment made. */ + static relax_addressT +@@ -2012,6 +2016,7 @@ relax_align (register relax_addressT add + #endif + return (new_address - address); + } ++#endif + + /* Now we have a segment, not a crowd of sub-segments, we can make + fr_address values. +@@ -2055,7 +2060,7 @@ relax_segment (struct frag *segment_frag + case rs_align_code: + case rs_align_test: + { +- addressT offset = relax_align (address, (int) fragP->fr_offset); ++ addressT offset = RELAX_ALIGN(segment, fragP, address); + + if (fragP->fr_subtype != 0 && offset > fragP->fr_subtype) + offset = 0; +@@ -2256,10 +2261,10 @@ relax_segment (struct frag *segment_frag + { + addressT oldoff, newoff; + +- oldoff = relax_align (was_address + fragP->fr_fix, +- (int) offset); +- newoff = relax_align (address + fragP->fr_fix, +- (int) offset); ++ oldoff = RELAX_ALIGN (segment, fragP, ++ was_address + fragP->fr_fix); ++ newoff = RELAX_ALIGN (segment, fragP, ++ address + fragP->fr_fix); + + if (fragP->fr_subtype != 0) + { +--- a/include/dis-asm.h ++++ b/include/dis-asm.h +@@ -213,6 +213,7 @@ typedef int (*disassembler_ftype) (bfd_v + + extern int print_insn_alpha (bfd_vma, disassemble_info *); + extern int print_insn_avr (bfd_vma, disassemble_info *); ++extern int print_insn_avr32 (bfd_vma, disassemble_info *); + extern int print_insn_bfin (bfd_vma, disassemble_info *); + extern int print_insn_big_arm (bfd_vma, disassemble_info *); + extern int print_insn_big_mips (bfd_vma, disassemble_info *); +@@ -293,7 +294,9 @@ extern void print_i386_disassembler_opti + extern void print_mips_disassembler_options (FILE *); + extern void print_ppc_disassembler_options (FILE *); + extern void print_arm_disassembler_options (FILE *); ++extern void print_avr32_disassembler_options (FILE *); + extern void parse_arm_disassembler_option (char *); ++extern void parse_avr32_disassembler_option (char *); + extern void print_s390_disassembler_options (FILE *); + extern int get_arm_regname_num_options (void); + extern int set_arm_regname_option (int); +--- /dev/null ++++ b/include/elf/avr32.h +@@ -0,0 +1,98 @@ ++/* AVR32 ELF support for BFD. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include "elf/reloc-macros.h" ++ ++/* CPU-specific flags for the ELF header e_flags field */ ++#define EF_AVR32_LINKRELAX 0x01 ++#define EF_AVR32_PIC 0x02 ++ ++START_RELOC_NUMBERS (elf_avr32_reloc_type) ++ RELOC_NUMBER (R_AVR32_NONE, 0) ++ ++ /* Data Relocations */ ++ RELOC_NUMBER (R_AVR32_32, 1) ++ RELOC_NUMBER (R_AVR32_16, 2) ++ RELOC_NUMBER (R_AVR32_8, 3) ++ RELOC_NUMBER (R_AVR32_32_PCREL, 4) ++ RELOC_NUMBER (R_AVR32_16_PCREL, 5) ++ RELOC_NUMBER (R_AVR32_8_PCREL, 6) ++ RELOC_NUMBER (R_AVR32_DIFF32, 7) ++ RELOC_NUMBER (R_AVR32_DIFF16, 8) ++ RELOC_NUMBER (R_AVR32_DIFF8, 9) ++ RELOC_NUMBER (R_AVR32_GOT32, 10) ++ RELOC_NUMBER (R_AVR32_GOT16, 11) ++ RELOC_NUMBER (R_AVR32_GOT8, 12) ++ ++ /* Normal Code Relocations */ ++ RELOC_NUMBER (R_AVR32_21S, 13) ++ RELOC_NUMBER (R_AVR32_16U, 14) ++ RELOC_NUMBER (R_AVR32_16S, 15) ++ RELOC_NUMBER (R_AVR32_8S, 16) ++ RELOC_NUMBER (R_AVR32_8S_EXT, 17) ++ ++ /* PC-Relative Code Relocations */ ++ RELOC_NUMBER (R_AVR32_22H_PCREL, 18) ++ RELOC_NUMBER (R_AVR32_18W_PCREL, 19) ++ RELOC_NUMBER (R_AVR32_16B_PCREL, 20) ++ RELOC_NUMBER (R_AVR32_16N_PCREL, 21) ++ RELOC_NUMBER (R_AVR32_14UW_PCREL, 22) ++ RELOC_NUMBER (R_AVR32_11H_PCREL, 23) ++ RELOC_NUMBER (R_AVR32_10UW_PCREL, 24) ++ RELOC_NUMBER (R_AVR32_9H_PCREL, 25) ++ RELOC_NUMBER (R_AVR32_9UW_PCREL, 26) ++ ++ /* Special Code Relocations */ ++ RELOC_NUMBER (R_AVR32_HI16, 27) ++ RELOC_NUMBER (R_AVR32_LO16, 28) ++ ++ /* PIC Relocations */ ++ RELOC_NUMBER (R_AVR32_GOTPC, 29) ++ RELOC_NUMBER (R_AVR32_GOTCALL, 30) ++ RELOC_NUMBER (R_AVR32_LDA_GOT, 31) ++ RELOC_NUMBER (R_AVR32_GOT21S, 32) ++ RELOC_NUMBER (R_AVR32_GOT18SW, 33) ++ RELOC_NUMBER (R_AVR32_GOT16S, 34) ++ RELOC_NUMBER (R_AVR32_GOT7UW, 35) ++ ++ /* Constant Pool Relocations */ ++ RELOC_NUMBER (R_AVR32_32_CPENT, 36) ++ RELOC_NUMBER (R_AVR32_CPCALL, 37) ++ RELOC_NUMBER (R_AVR32_16_CP, 38) ++ RELOC_NUMBER (R_AVR32_9W_CP, 39) ++ ++ /* Dynamic Relocations */ ++ RELOC_NUMBER (R_AVR32_RELATIVE, 40) ++ RELOC_NUMBER (R_AVR32_GLOB_DAT, 41) ++ RELOC_NUMBER (R_AVR32_JMP_SLOT, 42) ++ ++ /* Linkrelax Information */ ++ RELOC_NUMBER (R_AVR32_ALIGN, 43) ++ ++ RELOC_NUMBER (R_AVR32_15S, 44) ++ ++END_RELOC_NUMBERS (R_AVR32_max) ++ ++/* Processor specific dynamic array tags. */ ++ ++/* The total size in bytes of the Global Offset Table */ ++#define DT_AVR32_GOTSZ 0x70000001 +--- a/include/elf/common.h ++++ b/include/elf/common.h +@@ -310,6 +310,9 @@ + /* V850 backend magic number. Written in the absense of an ABI. */ + #define EM_CYGNUS_V850 0x9080 + ++/* AVR32 magic number, picked by IAR Systems. */ ++#define EM_AVR32 0x18ad ++ + /* old S/390 backend magic number. Written in the absence of an ABI. */ + #define EM_S390_OLD 0xa390 + +--- a/ld/configdoc.texi ++++ b/ld/configdoc.texi +@@ -7,6 +7,7 @@ + @set H8300 + @set HPPA + @set I960 ++@set AVR32 + @set M68HC11 + @set M68K + @set MMIX +--- a/ld/configure.tgt ++++ b/ld/configure.tgt +@@ -109,6 +109,9 @@ xscale-*-elf) targ_emul=armelf + avr-*-*) targ_emul=avr2 + targ_extra_emuls="avr1 avr25 avr3 avr31 avr35 avr4 avr5 avr51 avr6" + ;; ++avr32-*-none) targ_emul=avr32elf_ap7000 ++ targ_extra_emuls="avr32elf_ap7001 avr32elf_ap7002 avr32elf_ap7200 avr32elf_uc3a0128 avr32elf_uc3a0256 avr32elf_uc3a0512 avr32elf_uc3a0512es avr32elf_uc3a1128 avr32elf_uc3a1256 avr32elf_uc3a1512es avr32elf_uc3a1512 avr32elf_uc3a364 avr32elf_uc3a364s avr32elf_uc3a3128 avr32elf_uc3a3128s avr32elf_uc3a3256 avr32elf_uc3a3256s avr32elf_uc3b064 avr32elf_uc3b0128 avr32elf_uc3b0256es avr32elf_uc3b0256 avr32elf_uc3b0512 avr32elf_uc3b0512revc avr32elf_uc3b164 avr32elf_uc3b1128 avr32elf_uc3b1256es avr32elf_uc3b1256 avr32elf_uc3b1512 avr32elf_uc3b1512revc avr32elf_uc3c064c avr32elf_uc3c0128c avr32elf_uc3c0256c avr32elf_uc3c0512crevc avr32elf_uc3c164c avr32elf_uc3c1128c avr32elf_uc3c1256c avr32elf_uc3c1512crevc avr32elf_uc3c264c avr32elf_uc3c2128c avr32elf_uc3c2256c avr32elf_uc3c2512crevc avr32elf_uc3l064 avr32elf_uc3l032 avr32elf_uc3l016 avr32elf_uc3l064revb" ;; ++avr32-*-linux*) targ_emul=avr32linux ;; + bfin-*-elf) targ_emul=elf32bfin; + targ_extra_emuls="elf32bfinfd" + targ_extra_libpath=$targ_extra_emuls +--- /dev/null ++++ b/ld/emulparams/avr32elf.sh +@@ -0,0 +1,274 @@ ++# This script is called from ld/genscript.sh ++# There is a difference on how 'bash' and POSIX handles ++# the '.' (source) command in a script. ++# genscript.sh calls this script with argument ${EMULATION_NAME} ++# but that will fail on POSIX compilant shells like 'sh' or 'dash' ++# therefor I use the variable directly instead of $1 ++EMULATION=${EMULATION_NAME} ++SCRIPT_NAME=avr32 ++TEMPLATE_NAME=elf32 ++EXTRA_EM_FILE=avr32elf ++OUTPUT_FORMAT="elf32-avr32" ++ARCH=avr32 ++MAXPAGESIZE=4096 ++ENTRY=_start ++EMBEDDED=yes ++NO_SMALL_DATA=yes ++NOP=0xd703d703 ++ ++DATA_SEGMENT_ALIGN=8 ++BSS_ALIGNMENT=8 ++ ++RO_LMA_REGION="FLASH" ++RO_VMA_REGION="FLASH" ++RW_LMA_REGION="FLASH" ++RW_VMA_REGION="CPUSRAM" ++ ++STACK_SIZE=_stack_size ++STACK_ADDR="ORIGIN(CPUSRAM) + LENGTH(CPUSRAM) - ${STACK_SIZE}" ++ ++DATA_SEGMENT_END=" ++ __heap_start__ = ALIGN(8); ++ . = ${STACK_ADDR}; ++ __heap_end__ = .; ++" ++ ++case "$EMULATION" in ++avr32elf_ap*) ++ MACHINE=ap ++ INITIAL_READONLY_SECTIONS=" ++ .reset : { *(.reset) } >FLASH AT>FLASH ++ . = . & 0x9fffffff; ++" ++ TEXT_START_ADDR=0xa0000000 ++ case "$EMULATION" in ++ avr32elf_ap700[0-2]) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai) : ORIGIN = 0x00000000, LENGTH = 64M ++ CPUSRAM (rwxa) : ORIGIN = 0x24000000, LENGTH = 32K ++} ++" ++ ;; ++ avr32elf_ap7200) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai) : ORIGIN = 0x00000000, LENGTH = 64M ++ CPUSRAM (rwxa) : ORIGIN = 0x08000000, LENGTH = 64K ++} ++" ++ ;; ++ esac ++ ;; ++ ++avr32elf_uc3*) ++ MACHINE=uc ++ INITIAL_READONLY_SECTIONS=".reset : { *(.reset) } >FLASH AT>FLASH" ++ TEXT_START_ADDR=0x80000000 ++ OTHER_SECTIONS=" ++ .userpage : { *(.userpage .userpage.*) } >USERPAGE AT>USERPAGE ++ .factorypage : { *(.factorypage .factorypage.*) } >FACTORYPAGE AT>FACTORYPAGE ++" ++ ++ case "$EMULATION" in ++ avr32elf_uc3[ac][012]512*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 512K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3[ac][012]256*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3b[01]512revc) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 512K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x17FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ PADDING=" ++ .padding : { ++ QUAD(0) ++ QUAD(0) ++ QUAD(0) ++ QUAD(0) ++ } >FLASH AT>FLASH ++" ++ ;; ++ ++ avr32elf_uc3b[01]512) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 512K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x17FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3b[01]256*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x7FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3[abc][012]128*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 128K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x7FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3[bc][0123]64*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3a3256*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ HSBSRAM (wxa!ri) : ORIGIN = 0xFF000000, LENGTH = 64K ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .hsbsram : { *(.hsbsram .hsbsram.*) } >HSBSRAM AT>FLASH :FLASH ++" ++ ++ ;; ++ ++ avr32elf_uc3a3128*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 128K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ HSBSRAM (wxa!ri) : ORIGIN = 0xFF000000, LENGTH = 64K ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .hsbsram : { *(.hsbsram .hsbsram.*) } >HSBSRAM AT>FLASH :FLASH ++" ++ ;; ++ ++ avr32elf_uc3a364*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ HSBSRAM (wxa!ri) : ORIGIN = 0xFF000000, LENGTH = 64K ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .hsbsram : { *(.hsbsram .hsbsram.*) } >HSBSRAM AT>FLASH :FLASH ++" ++ ;; ++ ++ ++ avr32elf_uc3l[0123]64*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3l[0123]32*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 32K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3l[0123]16*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 16K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x1FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ esac ++ ;; ++ ++esac +--- /dev/null ++++ b/ld/emulparams/avr32linux.sh +@@ -0,0 +1,14 @@ ++ARCH=avr32 ++SCRIPT_NAME=elf ++TEMPLATE_NAME=elf32 ++EXTRA_EM_FILE=avr32elf ++OUTPUT_FORMAT="elf32-avr32" ++GENERATE_SHLIB_SCRIPT=yes ++MAXPAGESIZE=0x1000 ++TEXT_START_ADDR=0x00001000 ++NOP=0xd703d703 ++ ++# This appears to place the GOT before the data section, which is ++# essential for uClinux. We don't use those .s* sections on AVR32 ++# anyway, so it shouldn't hurt for regular Linux either... ++NO_SMALL_DATA=yes +--- /dev/null ++++ b/ld/emultempl/avr32elf.em +@@ -0,0 +1,162 @@ ++# This shell script emits a C file. -*- C -*- ++# Copyright (C) 2007,2008,2009 Atmel Corporation ++# ++# This file is part of GLD, the Gnu Linker. ++# ++# This program is free software; you can redistribute it and/or modify ++# it under the terms of the GNU General Public License as published by ++# the Free Software Foundation; either version 2 of the License, or ++# (at your option) any later version. ++# ++# This program is distributed in the hope that it will be useful, ++# but WITHOUT ANY WARRANTY; without even the implied warranty of ++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++# GNU General Public License for more details. ++# ++# You should have received a copy of the GNU General Public License ++# along with this program; if not, write to the Free Software ++# Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. ++# ++ ++# This file is sourced from elf32.em, and defines extra avr32-elf ++# specific routines. ++# ++ ++# Generate linker script for writable rodata ++LD_FLAG=rodata-writable ++DATA_ALIGNMENT=${DATA_ALIGNMENT_} ++RELOCATING=" " ++WRITABLE_RODATA=" " ++( echo "/* Linker script for writable rodata */" ++ . ${CUSTOMIZER_SCRIPT} ${EMULATION_NAME} ++ . ${srcdir}/scripttempl/${SCRIPT_NAME}.sc ++) | sed -e '/^ *$/d;s/[ ]*$//' > ldscripts/${EMULATION_NAME}.xwr ++ ++ ++cat >> e${EMULATION_NAME}.c <children); ++ ++ lang_add_assignment (exp_assop ('=', "_stack_size", ++ exp_intop (stack_size))); ++ ++ stat_ptr = save; ++} ++ ++static char * gld${EMULATION_NAME}_get_script (int *isfile); ++ ++static char * avr32_elf_get_script (int *isfile) ++{ ++ if ( rodata_writable ) ++ { ++EOF ++if test -n "$COMPILE_IN" ++then ++# Scripts compiled in. ++ ++# sed commands to quote an ld script as a C string. ++sc="-f stringify.sed" ++ ++cat >>e${EMULATION_NAME}.c <> e${EMULATION_NAME}.c ++echo ';' >> e${EMULATION_NAME}.c ++else ++# Scripts read from the filesystem. ++ ++cat >>e${EMULATION_NAME}.c <>e${EMULATION_NAME}.c <: ++a0000000: d7 03 nop ++a0000002: d7 03 nop ++ ++a0000004 : ++a0000004: d7 03 nop ++a0000006: c0 28 rjmp a000000a ++a0000008: d7 03 nop ++a000000a: e0 8f 01 fb bral a0000400 ++ ++a000000e : ++a000000e: d7 03 nop ++a0000010 : ++a0000010: c0 2c rcall a0000014 ++a0000012: d7 03 nop ++a0000014: ee b0 ff f6 rcall a0200000 ++ ++a0000018 : ++a0000018: c0 31 brne a000001e ++a000001a: fe 9f ff ff bral a0000018 ++a000001e: ee 90 ff f1 breq a0200000 ++ ++a0000022 : ++a0000022: 48 30 lddpc r0,a000002c ++a0000024: 48 20 lddpc r0,a000002c ++a0000026: fe f0 7f da ld.w r0,pc\[32730\] ++ ... ++ ++a000002c : ++a000002c: d7 03 nop ++a000002e: d7 03 nop ++ ++a0000030 : ++a0000030: 48 20 lddpc r0,a0000038 ++a0000032: 48 30 lddpc r0,a000003c ++a0000034: 48 20 lddpc r0,a000003c ++a0000036: 00 00 add r0,r0 ++a0000038: d7 03 nop ++a000003a: d7 03 nop ++a000003c: d7 03 nop ++a000003e: d7 03 nop ++ ++Disassembly of section \.text\.init: ++a0000040 : ++a0000040: fe b0 ff e7 rcall a000000e ++a0000044: d7 03 nop ++a0000046: fe b0 ff e4 rcall a000000e ++a000004a: fe b0 ff e3 rcall a0000010 ++a000004e: d7 03 nop ++a0000050: fe b0 ff e0 rcall a0000010 ++ ++Disassembly of section \.text\.pcrel10: ++ ++a0000400 : ++a0000400: d7 03 nop ++ ++Disassembly of section \.text\.pcrel16: ++ ++a0008000 : ++a0008000: d7 03 nop ++ ++Disassembly of section \.text\.pcrel21: ++a0200000 : ++a0200000: d7 03 nop +--- /dev/null ++++ b/ld/testsuite/ld-avr32/pcrel.ld +@@ -0,0 +1,23 @@ ++ENTRY(_start) ++SECTIONS ++{ ++ .text 0xa0000000: ++ { ++ *(.text) ++ } ++ ++ .text.pcrel10 0xa0000400: ++ { ++ *(.text.pcrel10) ++ } ++ ++ .text.pcrel16 0xa0008000: ++ { ++ *(.text.pcrel16) ++ } ++ ++ .text.pcrel21 0xa0200000: ++ { ++ *(.text.pcrel21) ++ } ++} +--- /dev/null ++++ b/ld/testsuite/ld-avr32/symbols.s +@@ -0,0 +1,20 @@ ++ .text ++ .global _start ++_start: ++ nop ++ nop ++ ++ .section .text.pcrel10,"ax" ++ .global extsym10 ++extsym10: ++ nop ++ ++ .section .text.pcrel16,"ax" ++ .global extsym16 ++extsym16: ++ nop ++ ++ .section .text.pcrel21,"ax" ++ .global extsym21 ++extsym21: ++ nop +--- /dev/null ++++ b/opcodes/avr32-asm.c +@@ -0,0 +1,264 @@ ++/* Assembler interface for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include ++ ++#include "avr32-opc.h" ++#include "avr32-asm.h" ++ ++/* Structure for a register hash table entry. */ ++struct reg_entry ++{ ++ const char *name; ++ int number; ++}; ++ ++/* Integer Registers. */ ++static const struct reg_entry reg_table[] = ++ { ++ /* Primary names (used by the disassembler) */ ++ { "r0", 0 }, { "r1", 1 }, { "r2", 2 }, { "r3", 3 }, ++ { "r4", 4 }, { "r5", 5 }, { "r6", 6 }, { "r7", 7 }, ++ { "r8", 8 }, { "r9", 9 }, { "r10", 10 }, { "r11", 11 }, ++ { "r12", 12 }, { "sp", 13 }, { "lr", 14 }, { "pc", 15 }, ++ /* Alternatives to sp, lr and pc. */ ++ { "r13", 13 }, { "r14", 14 }, { "r15", 15 }, ++ }; ++#define AVR32_NR_INTREGS (sizeof(reg_table)/sizeof(reg_table[0])) ++ ++/* Coprocessor Registers. */ ++static const struct reg_entry cr_table[] = ++ { ++ { "cr0", 0 }, { "cr1", 1 }, { "cr2", 2 }, { "cr3", 3 }, ++ { "cr4", 4 }, { "cr5", 5 }, { "cr6", 6 }, { "cr7", 7 }, ++ { "cr8", 8 }, { "cr9", 9 }, { "cr10", 10 }, { "cr11", 11 }, ++ { "cr12", 12 }, { "cr13", 13 }, { "cr14", 14 }, { "cr15", 15 }, ++ }; ++#define AVR32_NR_CPREGS (sizeof(cr_table)/sizeof(cr_table[0])) ++ ++/* Floating-point Registers. */ ++static const struct reg_entry fr_table[] = ++ { ++ { "fr0", 0 }, { "fr1", 1 }, { "fr2", 2 }, { "fr3", 3 }, ++ { "fr4", 4 }, { "fr5", 5 }, { "fr6", 6 }, { "fr7", 7 }, ++ { "fr8", 8 }, { "fr9", 9 }, { "fr10", 10 }, { "fr11", 11 }, ++ { "fr12", 12 }, { "fr13", 13 }, { "fr14", 14 }, { "fr15", 15 }, ++ }; ++#define AVR32_NR_FPREGS (sizeof(fr_table)/sizeof(fr_table[0])) ++ ++/* PiCo Registers. */ ++static const struct reg_entry pico_table[] = ++ { ++ { "inpix2", 0 }, { "inpix1", 1 }, { "inpix0", 2 }, ++ { "outpix2", 3 }, { "outpix1", 4 }, { "outpix0", 5 }, ++ { "coeff0_a", 6 }, { "coeff0_b", 7 }, { "coeff1_a", 8 }, ++ { "coeff1_b", 9 }, { "coeff2_a", 10 }, { "coeff2_b", 11 }, ++ { "vmu0_out", 12 }, { "vmu1_out", 13 }, { "vmu2_out", 14 }, ++ { "config", 15 }, ++ }; ++#define AVR32_NR_PICOREGS (sizeof(pico_table)/sizeof(pico_table[0])) ++ ++int ++avr32_parse_intreg(const char *str) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < AVR32_NR_INTREGS; i++) ++ { ++ if (strcasecmp(reg_table[i].name, str) == 0) ++ return reg_table[i].number; ++ } ++ ++ return -1; ++} ++ ++int ++avr32_parse_cpreg(const char *str) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < AVR32_NR_CPREGS; i++) ++ { ++ if (strcasecmp(cr_table[i].name, str) == 0) ++ return cr_table[i].number; ++ } ++ ++ return -1; ++} ++ ++int avr32_parse_fpreg(const char *str) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < AVR32_NR_FPREGS; i++) ++ { ++ if (strcasecmp(fr_table[i].name, str) == 0) ++ return fr_table[i].number; ++ } ++ ++ return -1; ++} ++ ++int avr32_parse_picoreg(const char *str) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < AVR32_NR_PICOREGS; i++) ++ { ++ if (strcasecmp(pico_table[i].name, str) == 0) ++ return pico_table[i].number; ++ } ++ ++ return -1; ++} ++ ++static unsigned long ++parse_reglist(char *str, char **endptr, int (*parse_reg)(const char *)) ++{ ++ int reg_from, reg_to; ++ unsigned long result = 0; ++ char *p1, *p2, c; ++ ++ while (*str) ++ { ++ for (p1 = str; *p1; p1++) ++ if (*p1 == ',' || *p1 == '-') ++ break; ++ ++ c = *p1, *p1 = 0; ++ reg_from = parse_reg(str); ++ *p1 = c; ++ ++ if (reg_from < 0) ++ break; ++ ++ if (*p1 == '-') ++ { ++ for (p2 = ++p1; *p2; p2++) ++ if (*p2 == ',') ++ break; ++ ++ c = *p2, *p2 = 0; ++ /* printf("going to parse reg_to from `%s'\n", p1); */ ++ reg_to = parse_reg(p1); ++ *p2 = c; ++ ++ if (reg_to < 0) ++ break; ++ ++ while (reg_from <= reg_to) ++ result |= (1 << reg_from++); ++ p1 = p2; ++ } ++ else ++ result |= (1 << reg_from); ++ ++ str = p1; ++ if (*str) ++str; ++ } ++ ++ if (endptr) ++ *endptr = str; ++ ++ return result; ++} ++ ++unsigned long ++avr32_parse_reglist(char *str, char **endptr) ++{ ++ return parse_reglist(str, endptr, avr32_parse_intreg); ++} ++ ++unsigned long ++avr32_parse_cpreglist(char *str, char **endptr) ++{ ++ return parse_reglist(str, endptr, avr32_parse_cpreg); ++} ++ ++unsigned long ++avr32_parse_pico_reglist(char *str, char **endptr) ++{ ++ return parse_reglist(str, endptr, avr32_parse_picoreg); ++} ++ ++int ++avr32_make_regmask8(unsigned long regmask16, unsigned long *regmask8) ++{ ++ unsigned long result = 0; ++ ++ /* printf("convert regmask16 0x%04lx\n", regmask16); */ ++ ++ if (regmask16 & 0xf) ++ { ++ if ((regmask16 & 0xf) == 0xf) ++ result |= 1 << 0; ++ else ++ return -1; ++ } ++ if (regmask16 & 0xf0) ++ { ++ if ((regmask16 & 0xf0) == 0xf0) ++ result |= 1 << 1; ++ else ++ return -1; ++ } ++ if (regmask16 & 0x300) ++ { ++ if ((regmask16 & 0x300) == 0x300) ++ result |= 1 << 2; ++ else ++ return -1; ++ } ++ if (regmask16 & (1 << 13)) ++ return -1; ++ ++ if (regmask16 & (1 << 10)) ++ result |= 1 << 3; ++ if (regmask16 & (1 << 11)) ++ result |= 1 << 4; ++ if (regmask16 & (1 << 12)) ++ result |= 1 << 5; ++ if (regmask16 & (1 << 14)) ++ result |= 1 << 6; ++ if (regmask16 & (1 << 15)) ++ result |= 1 << 7; ++ ++ *regmask8 = result; ++ ++ return 0; ++} ++ ++#if 0 ++struct reg_map ++{ ++ const struct reg_entry *names; ++ int nr_regs; ++ struct hash_control *htab; ++ const char *errmsg; ++}; ++ ++struct reg_map all_reg_maps[] = ++ { ++ { reg_table, AVR32_NR_INTREGS, NULL, N_("integral register expected") }, ++ { cr_table, AVR32_NR_CPREGS, NULL, N_("coprocessor register expected") }, ++ }; ++#endif +--- /dev/null ++++ b/opcodes/avr32-asm.h +@@ -0,0 +1,42 @@ ++/* Assembler interface for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++#ifndef __OPCODES_AVR32_ASM_H ++#define __OPCODES_AVR32_ASM_H ++ ++extern int ++avr32_parse_intreg(const char *str); ++extern int ++avr32_parse_cpreg(const char *str); ++extern int ++avr32_parse_fpreg(const char *str); ++extern int ++avr32_parse_picoreg(const char *str); ++extern unsigned long ++avr32_parse_reglist(char *str, char **endptr); ++extern unsigned long ++avr32_parse_cpreglist(char *str, char **endptr); ++extern unsigned long ++avr32_parse_pico_reglist(char *str, char **endptr); ++extern int ++avr32_make_regmask8(unsigned long regmask16, unsigned long *regmask8); ++ ++#endif /* __OPCODES_AVR32_ASM_H */ +--- /dev/null ++++ b/opcodes/avr32-dis.c +@@ -0,0 +1,891 @@ ++/* Print AVR32 instructions for GDB and objdump. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include "sysdep.h" ++#include "dis-asm.h" ++#include "avr32-opc.h" ++#include "opintl.h" ++#include "safe-ctype.h" ++ ++/* TODO: Share this with -asm */ ++ ++/* Structure for a register hash table entry. */ ++struct reg_entry ++{ ++ const char *name; ++ int number; ++}; ++ ++#ifndef strneq ++#define strneq(a,b,n) (strncmp ((a), (b), (n)) == 0) ++#endif ++ ++ ++static const struct reg_entry reg_table[] = ++ { ++ /* Primary names (used by the disassembler) */ ++ { "r0", 0 }, { "r1", 1 }, { "r2", 2 }, { "r3", 3 }, ++ { "r4", 4 }, { "r5", 5 }, { "r6", 6 }, { "r7", 7 }, ++ { "r8", 8 }, { "r9", 9 }, { "r10", 10 }, { "r11", 11 }, ++ { "r12", 12 }, { "sp", 13 }, { "lr", 14 }, { "pc", 15 }, ++ /* Alternatives to sp, lr and pc. */ ++ { "r13", 13 }, { "r14", 14 }, { "r15", 15 }, ++ }; ++#define AVR32_NR_INTREGS (sizeof(reg_table)/sizeof(reg_table[0])) ++ ++/* Coprocessor Registers. */ ++static const struct reg_entry cr_table[] = ++ { ++ { "cr0", 0 }, { "cr1", 1 }, { "cr2", 2 }, { "cr3", 3 }, ++ { "cr4", 4 }, { "cr5", 5 }, { "cr6", 6 }, { "cr7", 7 }, ++ { "cr8", 8 }, { "cr9", 9 }, { "cr10", 10 }, { "cr11", 11 }, ++ { "cr12", 12 }, { "cr13", 13 }, { "cr14", 14 }, { "cr15", 15 }, ++ }; ++#define AVR32_NR_CPREGS (sizeof(cr_table)/sizeof(cr_table[0])) ++ ++static const char bparts[4] = { 'b', 'l', 'u', 't' }; ++static bfd_vma current_pc; ++ ++struct avr32_field_value ++{ ++ const struct avr32_ifield *ifield; ++ unsigned long value; ++}; ++ ++struct avr32_operand ++{ ++ int id; ++ int is_pcrel; ++ int align_order; ++ int (*print)(struct avr32_operand *op, struct disassemble_info *info, ++ struct avr32_field_value *ifields); ++}; ++ ++static signed long ++get_signed_value(const struct avr32_field_value *fv) ++{ ++ signed long value = fv->value; ++ ++ if (fv->value & (1 << (fv->ifield->bitsize - 1))) ++ value |= (~0UL << fv->ifield->bitsize); ++ ++ return value; ++} ++ ++static void ++print_reglist_range(unsigned int first, unsigned int last, ++ const struct reg_entry *reg_names, ++ int need_comma, ++ struct disassemble_info *info) ++{ ++ if (need_comma) ++ info->fprintf_func(info->stream, ","); ++ ++ if (first == last) ++ info->fprintf_func(info->stream, "%s", ++ reg_names[first].name); ++ else ++ info->fprintf_func(info->stream, "%s-%s", ++ reg_names[first].name, reg_names[last].name); ++} ++ ++static int ++print_intreg(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regid = ifields[0].value << op->align_order; ++ ++ info->fprintf_func(info->stream, "%s", ++ reg_table[regid].name); ++ return 1; ++} ++ ++static int ++print_intreg_predec(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "--%s", ++ reg_table[ifields[0].value].name); ++ return 1; ++} ++ ++static int ++print_intreg_postinc(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s++", ++ reg_table[ifields[0].value].name); ++ return 1; ++} ++ ++static int ++print_intreg_lsl(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ const char *rp = reg_table[ifields[0].value].name; ++ unsigned long sa = ifields[1].value; ++ ++ if (sa) ++ info->fprintf_func(info->stream, "%s<<0x%lx", rp, sa); ++ else ++ info->fprintf_func(info->stream, "%s", rp); ++ ++ return 2; ++} ++ ++static int ++print_intreg_lsr(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ const char *rp = reg_table[ifields[0].value].name; ++ unsigned long sa = ifields[1].value; ++ ++ if (sa) ++ info->fprintf_func(info->stream, "%s>>0x%lx", rp, sa); ++ else ++ info->fprintf_func(info->stream, "%s", rp); ++ ++ return 2; ++} ++ ++static int ++print_intreg_bpart(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s:%c", ++ reg_table[ifields[0].value].name, ++ bparts[ifields[1].value]); ++ return 2; ++} ++ ++static int ++print_intreg_hpart(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s:%c", ++ reg_table[ifields[0].value].name, ++ ifields[1].value ? 't' : 'b'); ++ return 2; ++} ++ ++static int ++print_intreg_sdisp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ signed long disp; ++ ++ disp = get_signed_value(&ifields[1]) << op->align_order; ++ ++ info->fprintf_func(info->stream, "%s[%ld]", ++ reg_table[ifields[0].value].name, disp); ++ return 2; ++} ++ ++static int ++print_intreg_udisp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s[0x%lx]", ++ reg_table[ifields[0].value].name, ++ ifields[1].value << op->align_order); ++ return 2; ++} ++ ++static int ++print_intreg_index(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ const char *rb, *ri; ++ unsigned long sa = ifields[2].value; ++ ++ rb = reg_table[ifields[0].value].name; ++ ri = reg_table[ifields[1].value].name; ++ ++ if (sa) ++ info->fprintf_func(info->stream, "%s[%s<<0x%lx]", rb, ri, sa); ++ else ++ info->fprintf_func(info->stream, "%s[%s]", rb, ri); ++ ++ return 3; ++} ++ ++static int ++print_intreg_xindex(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s[%s:%c<<2]", ++ reg_table[ifields[0].value].name, ++ reg_table[ifields[1].value].name, ++ bparts[ifields[2].value]); ++ return 3; ++} ++ ++static int ++print_jmplabel(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ bfd_vma address, offset; ++ ++ offset = get_signed_value(ifields) << op->align_order; ++ address = (current_pc & (~0UL << op->align_order)) + offset; ++ ++ info->print_address_func(address, info); ++ ++ return 1; ++} ++ ++static int ++print_pc_disp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ bfd_vma address, offset; ++ ++ offset = ifields[0].value << op->align_order; ++ address = (current_pc & (~0UL << op->align_order)) + offset; ++ ++ info->print_address_func(address, info); ++ ++ return 1; ++} ++ ++static int ++print_sp(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields ATTRIBUTE_UNUSED) ++{ ++ info->fprintf_func(info->stream, "sp"); ++ return 1; ++} ++ ++static int ++print_sp_disp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "sp[0x%lx]", ++ ifields[0].value << op->align_order); ++ return 1; ++} ++ ++static int ++print_cpno(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "cp%lu", ifields[0].value); ++ return 1; ++} ++ ++static int ++print_cpreg(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "cr%lu", ++ ifields[0].value << op->align_order); ++ return 1; ++} ++ ++static int ++print_uconst(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "0x%lx", ++ ifields[0].value << op->align_order); ++ return 1; ++} ++ ++static int ++print_sconst(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%ld", ++ get_signed_value(ifields) << op->align_order); ++ return 1; ++} ++ ++static int ++print_reglist8_head(unsigned long regmask, int *commap, ++ struct disassemble_info *info) ++{ ++ int first = -1, last, i = 0; ++ int need_comma = 0; ++ ++ while (i < 12) ++ { ++ if (first == -1 && (regmask & 1)) ++ { ++ first = i; ++ } ++ else if (first != -1 && !(regmask & 1)) ++ { ++ last = i - 1; ++ ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ first = -1; ++ } ++ ++ if (i < 8) ++ i += 4; ++ else if (i < 10) ++ i += 2; ++ else ++ i++; ++ regmask >>= 1; ++ } ++ ++ *commap = need_comma; ++ return first; ++} ++ ++static void ++print_reglist8_tail(unsigned long regmask, int first, int need_comma, ++ struct disassemble_info *info) ++{ ++ int last = 11; ++ ++ if (regmask & 0x20) ++ { ++ if (first == -1) ++ first = 12; ++ last = 12; ++ } ++ ++ if (first != -1) ++ { ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ first = -1; ++ } ++ ++ if (regmask & 0x40) ++ { ++ if (first == -1) ++ first = 14; ++ last = 14; ++ } ++ ++ if (regmask & 0x80) ++ { ++ if (first == -1) ++ first = 15; ++ last = 15; ++ } ++ ++ if (first != -1) ++ print_reglist_range(first, last, reg_table, need_comma, info); ++} ++ ++static int ++print_reglist8(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ int first, need_comma; ++ ++ first = print_reglist8_head(regmask, &need_comma, info); ++ print_reglist8_tail(regmask, first, need_comma, info); ++ ++ return 1; ++} ++ ++static int ++print_reglist9(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value >> 1; ++ int first, last, need_comma; ++ ++ first = print_reglist8_head(regmask, &need_comma, info); ++ ++ if ((ifields[0].value & 0x101) == 0x101) ++ { ++ if (first != -1) ++ { ++ last = 11; ++ ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ first = -1; ++ } ++ ++ print_reglist_range(15, 15, reg_table, need_comma, info); ++ ++ regmask >>= 5; ++ ++ if ((regmask & 3) == 0) ++ info->fprintf_func(info->stream, ",r12=0"); ++ else if ((regmask & 3) == 1) ++ info->fprintf_func(info->stream, ",r12=1"); ++ else ++ info->fprintf_func(info->stream, ",r12=-1"); ++ } ++ else ++ print_reglist8_tail(regmask, first, need_comma, info); ++ ++ return 1; ++} ++ ++static int ++print_reglist16(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ unsigned int i = 0, first, last; ++ int need_comma = 0; ++ ++ while (i < 16) ++ { ++ if (regmask & 1) ++ { ++ first = i; ++ while (i < 16) ++ { ++ i++; ++ regmask >>= 1; ++ if (!(regmask & 1)) ++ break; ++ } ++ last = i - 1; ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ } ++ else ++ { ++ i++; ++ regmask >>= 1; ++ } ++ } ++ ++ return 1; ++} ++ ++static int ++print_reglist_ldm(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ int rp, w_bit; ++ int i, first, last; ++ unsigned long regmask; ++ ++ rp = ifields[0].value; ++ w_bit = ifields[1].value; ++ regmask = ifields[2].value; ++ ++ if (regmask & (1 << AVR32_REG_PC) && rp == AVR32_REG_PC) ++ { ++ if (w_bit) ++ info->fprintf_func(info->stream, "sp++"); ++ else ++ info->fprintf_func(info->stream, "sp"); ++ ++ for (i = 0; i < 12; ) ++ { ++ if (regmask & (1 << i)) ++ { ++ first = i; ++ while (i < 12) ++ { ++ i++; ++ if (!(regmask & (1 << i))) ++ break; ++ } ++ last = i - 1; ++ print_reglist_range(first, last, reg_table, 1, info); ++ } ++ else ++ i++; ++ } ++ ++ info->fprintf_func(info->stream, ",pc"); ++ if (regmask & (1 << AVR32_REG_LR)) ++ info->fprintf_func(info->stream, ",r12=-1"); ++ else if (regmask & (1 << AVR32_REG_R12)) ++ info->fprintf_func(info->stream, ",r12=1"); ++ else ++ info->fprintf_func(info->stream, ",r12=0"); ++ } ++ else ++ { ++ if (w_bit) ++ info->fprintf_func(info->stream, "%s++,", reg_table[rp].name); ++ else ++ info->fprintf_func(info->stream, "%s,", reg_table[rp].name); ++ ++ print_reglist16(op, info, ifields + 2); ++ } ++ ++ return 3; ++} ++ ++static int ++print_reglist_cp8(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ unsigned int i = 0, first, last, offset = 0; ++ int need_comma = 0; ++ ++ if (ifields[1].value) ++ offset = 8; ++ ++ while (i < 8) ++ { ++ if (regmask & 1) ++ { ++ first = i; ++ while (i < 8) ++ { ++ i++; ++ regmask >>= 1; ++ if (!(regmask & 1)) ++ break; ++ } ++ last = i - 1; ++ print_reglist_range(offset + first, offset + last, ++ cr_table, need_comma, info); ++ need_comma = 1; ++ } ++ else ++ { ++ i++; ++ regmask >>= 1; ++ } ++ } ++ ++ return 2; ++} ++ ++static int ++print_reglist_cpd8(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ unsigned int i = 0, first, last; ++ int need_comma = 0; ++ ++ while (i < 8) ++ { ++ if (regmask & 1) ++ { ++ first = 2 * i; ++ while (i < 8) ++ { ++ i++; ++ regmask >>= 1; ++ if (!(regmask & 1)) ++ break; ++ } ++ last = 2 * (i - 1) + 1; ++ print_reglist_range(first, last, cr_table, need_comma, info); ++ need_comma = 1; ++ } ++ else ++ { ++ i++; ++ regmask >>= 1; ++ } ++ } ++ ++ return 1; ++} ++ ++static int ++print_retval(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regid = ifields[0].value; ++ const char *retval; ++ ++ if (regid < AVR32_REG_SP) ++ retval = reg_table[regid].name; ++ else if (regid == AVR32_REG_SP) ++ retval = "0"; ++ else if (regid == AVR32_REG_LR) ++ retval = "-1"; ++ else ++ retval = "1"; ++ ++ info->fprintf_func(info->stream, "%s", retval); ++ ++ return 1; ++} ++ ++static int ++print_mcall(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regid = ifields[0].value; ++ ++ if (regid == AVR32_REG_PC) ++ print_jmplabel(op, info, ifields + 1); ++ else ++ print_intreg_sdisp(op, info, ifields); ++ ++ return 2; ++} ++ ++static int ++print_jospinc(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ signed long value = ifields[0].value; ++ ++ if (value >= 4) ++ value -= 8; ++ else ++ value += 1; ++ ++ info->fprintf_func(info->stream, "%ld", value); ++ ++ return 1; ++} ++ ++static int ++print_coh(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields ATTRIBUTE_UNUSED) ++{ ++ info->fprintf_func(info->stream, "COH"); ++ return 0; ++} ++ ++#define OP(name, sgn, pcrel, align, func) \ ++ { AVR32_OPERAND_##name, pcrel, align, print_##func } ++ ++struct avr32_operand operand[AVR32_NR_OPERANDS] = ++ { ++ OP(INTREG, 0, 0, 0, intreg), ++ OP(INTREG_PREDEC, 0, 0, 0, intreg_predec), ++ OP(INTREG_POSTINC, 0, 0, 0, intreg_postinc), ++ OP(INTREG_LSL, 0, 0, 0, intreg_lsl), ++ OP(INTREG_LSR, 0, 0, 0, intreg_lsr), ++ OP(INTREG_BSEL, 0, 0, 0, intreg_bpart), ++ OP(INTREG_HSEL, 0, 0, 1, intreg_hpart), ++ OP(INTREG_SDISP, 1, 0, 0, intreg_sdisp), ++ OP(INTREG_SDISP_H, 1, 0, 1, intreg_sdisp), ++ OP(INTREG_SDISP_W, 1, 0, 2, intreg_sdisp), ++ OP(INTREG_UDISP, 0, 0, 0, intreg_udisp), ++ OP(INTREG_UDISP_H, 0, 0, 1, intreg_udisp), ++ OP(INTREG_UDISP_W, 0, 0, 2, intreg_udisp), ++ OP(INTREG_INDEX, 0, 0, 0, intreg_index), ++ OP(INTREG_XINDEX, 0, 0, 0, intreg_xindex), ++ OP(DWREG, 0, 0, 1, intreg), ++ OP(PC_UDISP_W, 0, 1, 2, pc_disp), ++ OP(SP, 0, 0, 0, sp), ++ OP(SP_UDISP_W, 0, 0, 2, sp_disp), ++ OP(CPNO, 0, 0, 0, cpno), ++ OP(CPREG, 0, 0, 0, cpreg), ++ OP(CPREG_D, 0, 0, 1, cpreg), ++ OP(UNSIGNED_CONST, 0, 0, 0, uconst), ++ OP(UNSIGNED_CONST_W, 0, 0, 2, uconst), ++ OP(SIGNED_CONST, 1, 0, 0, sconst), ++ OP(SIGNED_CONST_W, 1, 0, 2, sconst), ++ OP(JMPLABEL, 1, 1, 1, jmplabel), ++ OP(UNSIGNED_NUMBER, 0, 0, 0, uconst), ++ OP(UNSIGNED_NUMBER_W, 0, 0, 2, uconst), ++ OP(REGLIST8, 0, 0, 0, reglist8), ++ OP(REGLIST9, 0, 0, 0, reglist9), ++ OP(REGLIST16, 0, 0, 0, reglist16), ++ OP(REGLIST_LDM, 0, 0, 0, reglist_ldm), ++ OP(REGLIST_CP8, 0, 0, 0, reglist_cp8), ++ OP(REGLIST_CPD8, 0, 0, 0, reglist_cpd8), ++ OP(RETVAL, 0, 0, 0, retval), ++ OP(MCALL, 1, 0, 2, mcall), ++ OP(JOSPINC, 0, 0, 0, jospinc), ++ OP(COH, 0, 0, 0, coh), ++ }; ++ ++static void ++print_opcode(bfd_vma insn_word, const struct avr32_opcode *opc, ++ bfd_vma pc, struct disassemble_info *info) ++{ ++ const struct avr32_syntax *syntax = opc->syntax; ++ struct avr32_field_value fields[AVR32_MAX_FIELDS]; ++ unsigned int i, next_field = 0, nr_operands; ++ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ opc->fields[i]->extract(opc->fields[i], &insn_word, &fields[i].value); ++ fields[i].ifield = opc->fields[i]; ++ } ++ ++ current_pc = pc; ++ info->fprintf_func(info->stream, "%s", syntax->mnemonic->name); ++ ++ if (syntax->nr_operands < 0) ++ nr_operands = (unsigned int) -syntax->nr_operands; ++ else ++ nr_operands = (unsigned int) syntax->nr_operands; ++ ++ for (i = 0; i < nr_operands; i++) ++ { ++ struct avr32_operand *op = &operand[syntax->operand[i]]; ++ ++ if (i) ++ info->fprintf_func(info->stream, ","); ++ else ++ info->fprintf_func(info->stream, "\t"); ++ next_field += op->print(op, info, &fields[next_field]); ++ } ++} ++ ++static const struct avr32_opcode * ++find_opcode(bfd_vma insn_word) ++{ ++ int i; ++ ++ for (i = 0; i < AVR32_NR_OPCODES; i++) ++ { ++ const struct avr32_opcode *opc = &avr32_opc_table[i]; ++ ++ if ((insn_word & opc->mask) == opc->value) ++ return opc; ++ } ++ ++ return NULL; ++} ++ ++static int ++read_insn_word(bfd_vma pc, bfd_vma *valuep, ++ struct disassemble_info *info) ++{ ++ bfd_byte b[4]; ++ int status; ++ ++ status = info->read_memory_func(pc, b, 4, info); ++ if (status) ++ { ++ status = info->read_memory_func(pc, b, 2, info); ++ if (status) ++ { ++ info->memory_error_func(status, pc, info); ++ return -1; ++ } ++ b[3] = b[2] = 0; ++ } ++ ++ *valuep = (b[0] << 24) | (b[1] << 16) | (b[2] << 8) | b[3]; ++ return 0; ++} ++ ++/* Parse an individual disassembler option. */ ++ ++void ++parse_avr32_disassembler_option (option) ++ char * option; ++{ ++ if (option == NULL) ++ return; ++ ++ /* XXX - should break 'option' at following delimiter. */ ++ fprintf (stderr, _("Unrecognised disassembler option: %s\n"), option); ++ ++ return; ++} ++ ++/* Parse the string of disassembler options, spliting it at whitespaces ++ or commas. (Whitespace separators supported for backwards compatibility). */ ++ ++static void ++parse_disassembler_options (char *options) ++{ ++ if (options == NULL) ++ return; ++ ++ while (*options) ++ { ++ parse_avr32_disassembler_option (options); ++ ++ /* Skip forward to next seperator. */ ++ while ((*options) && (! ISSPACE (*options)) && (*options != ',')) ++ ++ options; ++ /* Skip forward past seperators. */ ++ while (ISSPACE (*options) || (*options == ',')) ++ ++ options; ++ } ++} ++ ++int ++print_insn_avr32(bfd_vma pc, struct disassemble_info *info) ++{ ++ bfd_vma insn_word; ++ const struct avr32_opcode *opc; ++ ++ if (info->disassembler_options) ++ { ++ parse_disassembler_options (info->disassembler_options); ++ ++ /* To avoid repeated parsing of these options, we remove them here. */ ++ info->disassembler_options = NULL; ++ } ++ ++ info->bytes_per_chunk = 1; ++ info->display_endian = BFD_ENDIAN_BIG; ++ ++ if (read_insn_word(pc, &insn_word, info)) ++ return -1; ++ ++ opc = find_opcode(insn_word); ++ if (opc) ++ { ++ print_opcode(insn_word, opc, pc, info); ++ return opc->size; ++ } ++ else ++ { ++ info->fprintf_func(info->stream, _("*unknown*")); ++ return 2; ++ } ++ ++} ++ ++void ++print_avr32_disassembler_options (FILE *stream ATTRIBUTE_UNUSED) ++{ ++ ++} +--- /dev/null ++++ b/opcodes/avr32-opc.c +@@ -0,0 +1,6946 @@ ++/* Opcode tables for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include ++#include ++ ++#include "avr32-opc.h" ++ ++#define PICO_CPNO 1 ++ ++void ++avr32_insert_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ word |= (value << field->shift) & field->mask; ++ bfd_putb32(word, buf); ++} ++ ++void ++avr32_insert_bit5c(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long value) ++{ ++ char *opcode = buf; ++ ++ opcode[0] = (opcode[0] & 0xe1) | (value & 0x1e); ++ opcode[1] = (opcode[1] & 0xef) | ((value & 1) << 4); ++} ++ ++void ++avr32_insert_k10(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long value) ++{ ++ char *opcode = buf; ++ ++ opcode[0] = (opcode[0] & 0xf0) | ((value & 0xf0) >> 4); ++ opcode[1] = ((opcode[1] & 0x0c) | ((value & 0x0f) << 4) ++ | ((value & 0x300) >> 8)); ++} ++ ++ ++void ++avr32_insert_k21(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ bfd_vma k21; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ k21 = ((value & 0xffff) | ((value & 0x10000) << 4) ++ | ((value & 0x1e0000) << 8)); ++ assert(!(k21 & ~field->mask)); ++ word |= k21; ++ bfd_putb32(word, buf); ++} ++ ++void ++avr32_insert_cpop(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ word |= (((value & 0x1e) << 15) | ((value & 0x60) << 20) ++ | ((value & 0x01) << 12)); ++ bfd_putb32(word, buf); ++} ++ ++void ++avr32_insert_k12cp(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ word |= ((value & 0xf00) << 4) | (value & 0xff); ++ bfd_putb32(word, buf); ++} ++ ++void avr32_extract_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long *value) ++{ ++ /* XXX: The disassembler has done any necessary byteswapping already */ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = (word & field->mask) >> field->shift; ++} ++ ++void avr32_extract_bit5c(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word >> 20) & 1) | ((word >> 24) & 0x1e); ++} ++ ++void avr32_extract_k10(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word >> 8) & 0x300) | ((word >> 20) & 0xff); ++} ++ ++void avr32_extract_k21(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word & 0xffff) | ((word >> 4) & 0x10000) ++ | ((word >> 8) & 0x1e0000)); ++} ++ ++void avr32_extract_cpop(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = (((word >> 12) & 1) | ((word >> 15) & 0x1e) ++ | ((word >> 20) & 0x60)); ++} ++ ++void avr32_extract_k12cp(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word >> 4) & 0xf00) | (word & 0xff); ++} ++ ++ ++#define IFLD(id, bitsz, shift, mask, func) \ ++ { AVR32_IFIELD_##id, bitsz, shift, mask, \ ++ avr32_insert_##func, avr32_extract_##func } ++ ++const struct avr32_ifield avr32_ifield_table[] = ++ { ++ IFLD(RX, 4, 25, 0x1e000000, simple), ++ IFLD(RY, 4, 16, 0x000f0000, simple), ++ IFLD(COND4C, 4, 20, 0x00f00000, simple), ++ IFLD(K8C, 8, 20, 0x0ff00000, simple), ++ IFLD(K7C, 7, 20, 0x07f00000, simple), ++ IFLD(K5C, 5, 20, 0x01f00000, simple), ++ IFLD(K3, 3, 20, 0x00700000, simple), ++ IFLD(RY_DW, 3, 17, 0x000e0000, simple), ++ IFLD(COND4E, 4, 8, 0x00000f00, simple), ++ IFLD(K8E, 8, 0, 0x000000ff, simple), ++ IFLD(BIT5C, 5, 20, 0x1e100000, bit5c), ++ IFLD(COND3, 3, 16, 0x00070000, simple), ++ IFLD(K10, 10, 16, 0x0ff30000, k10), ++ IFLD(POPM, 9, 19, 0x0ff80000, simple), ++ IFLD(K2, 2, 4, 0x00000030, simple), ++ IFLD(RD_E, 4, 0, 0x0000000f, simple), ++ IFLD(RD_DW, 3, 1, 0x0000000e, simple), ++ IFLD(X, 1, 5, 0x00000020, simple), ++ IFLD(Y, 1, 4, 0x00000010, simple), ++ IFLD(X2, 1, 13, 0x00002000, simple), ++ IFLD(Y2, 1, 12, 0x00001000, simple), ++ IFLD(K5E, 5, 0, 0x0000001f, simple), ++ IFLD(PART2, 2, 0, 0x00000003, simple), ++ IFLD(PART1, 1, 0, 0x00000001, simple), ++ IFLD(K16, 16, 0, 0x0000ffff, simple), ++ IFLD(CACHEOP, 5, 11, 0x0000f800, simple), ++ IFLD(K11, 11, 0, 0x000007ff, simple), ++ IFLD(K21, 21, 0, 0x1e10ffff, k21), ++ IFLD(CPOP, 7, 12, 0x060f1000, cpop), ++ IFLD(CPNO, 3, 13, 0x0000e000, simple), ++ IFLD(CRD_RI, 4, 8, 0x00000f00, simple), ++ IFLD(CRX, 4, 4, 0x000000f0, simple), ++ IFLD(CRY, 4, 0, 0x0000000f, simple), ++ IFLD(K7E, 7, 0, 0x0000007f, simple), ++ IFLD(CRD_DW, 3, 9, 0x00000e00, simple), ++ IFLD(PART1_K12, 1, 12, 0x00001000, simple), ++ IFLD(PART2_K12, 2, 12, 0x00003000, simple), ++ IFLD(K12, 12, 0, 0x00000fff, simple), ++ IFLD(S5, 5, 5, 0x000003e0, simple), ++ IFLD(K5E2, 5, 4, 0x000001f0, simple), ++ IFLD(K4, 4, 20, 0x00f00000, simple), ++ IFLD(COND4E2, 4, 4, 0x000000f0, simple), ++ IFLD(K8E2, 8, 4, 0x00000ff0, simple), ++ IFLD(K6, 6, 20, 0x03f00000, simple), ++ IFLD(MEM15, 15, 0, 0x00007fff, simple), ++ IFLD(MEMB5, 5, 15, 0x000f8000, simple), ++ IFLD(W, 1, 25, 0x02000000, simple), ++ /* Coprocessor Multiple High/Low */ ++ IFLD(CM_HL, 1, 8, 0x00000100, simple), ++ IFLD(K12CP, 12 ,0, 0x0000f0ff, k12cp), ++ IFLD(K9E, 9 ,0, 0x000001ff, simple), ++ }; ++#undef IFLD ++ ++ ++struct avr32_opcode avr32_opc_table[] = ++ { ++ { ++ AVR32_OPC_ABS, 2, 0x5c400000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ABS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_ACALL, 2, 0xd0000000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_ACALL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_ACR, 2, 0x5c000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ACR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ADC, 4, 0xe0000040, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADC], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ADD1, 2, 0x00000000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ADD1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_ADD2, 4, 0xe0000000, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADD2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_ADDABS, 4, 0xe0000e40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADDABS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ADDHH_W, 4, 0xe0000e00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADDHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_AND1, 2, 0x00600000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_AND1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_AND2, 4, 0xe1e00000, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_AND2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_AND3, 4, 0xe1e00200, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_AND3], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDH, 4, 0xe4100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDH_COH, 4, 0xe6100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDH_COH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDL, 4, 0xe0100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDL], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDL_COH, 4, 0xe2100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDL_COH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDN, 2, 0x00800000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDN], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_ASR1, 4, 0xe0000840, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_ASR1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ASR3, 4, 0xe0001400, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_ASR3], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_ASR2, 2, 0xa1400000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ASR2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_BLD, 4, 0xedb00000, 0xfff0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_BLD], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_BREQ1, 2, 0xc0000000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREQ1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRNE1, 2, 0xc0010000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRNE1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCC1, 2, 0xc0020000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRCC1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCS1, 2, 0xc0030000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRCS1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRGE1, 2, 0xc0040000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRGE1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLT1, 2, 0xc0050000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLT1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRMI1, 2, 0xc0060000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRMI1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRPL1, 2, 0xc0070000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRPL1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BREQ2, 4, 0xe0800000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREQ2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRNE2, 4, 0xe0810000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRNE2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCC2, 4, 0xe0820000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRHS2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCS2, 4, 0xe0830000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLO2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRGE2, 4, 0xe0840000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRGE2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLT2, 4, 0xe0850000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLT2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRMI2, 4, 0xe0860000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRMI2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRPL2, 4, 0xe0870000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRPL2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLS, 4, 0xe0880000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLS], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRGT, 4, 0xe0890000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRGT], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLE, 4, 0xe08a0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLE], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRHI, 4, 0xe08b0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRHI], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRVS, 4, 0xe08c0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRVS], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRVC, 4, 0xe08d0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRVC], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRQS, 4, 0xe08e0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRQS], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRAL, 4, 0xe08f0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRAL], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BREAKPOINT, 2, 0xd6730000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREAKPOINT], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_BREV, 2, 0x5c900000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREV], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_BST, 4, 0xefb00000, 0xfff0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_BST], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_CACHE, 4, 0xf4100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CACHE], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K11], ++ &avr32_ifield_table[AVR32_IFIELD_CACHEOP], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTS_B, 2, 0x5c600000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTS_B], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTS_H, 2, 0x5c800000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTS_H], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTU_B, 2, 0x5c500000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTU_B], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTU_H, 2, 0x5c700000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTU_H], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CBR, 2, 0xa1c00000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CBR], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_CLZ, 4, 0xe0001200, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CLZ], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_COM, 2, 0x5cd00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_COM], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_COP, 4, 0xe1a00000, 0xf9f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_COP], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_CRX], ++ &avr32_ifield_table[AVR32_IFIELD_CRY], ++ &avr32_ifield_table[AVR32_IFIELD_CPOP], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_B, 4, 0xe0001800, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_B], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_H, 4, 0xe0001900, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_H], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_W1, 2, 0x00300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_W1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_W2, 2, 0x58000000, 0xfc000000, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_W2], ++ BFD_RELOC_AVR32_6S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K6], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_W3, 4, 0xe0400000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_W3], ++ BFD_RELOC_AVR32_21S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_CPC1, 4, 0xe0001300, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CPC1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CPC2, 2, 0x5c200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CPC2], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CSRF, 2, 0xd4030000, 0xfe0f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_CSRF], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_CSRFCZ, 2, 0xd0030000, 0xfe0f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_CSRFCZ], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_DIVS, 4, 0xe0000c00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_DIVS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_DIVU, 4, 0xe0000d00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_DIVU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_EOR1, 2, 0x00500000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_EOR1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_EOR2, 4, 0xe1e02000, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_EOR2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ } ++ }, ++ { ++ AVR32_OPC_EOR3, 4, 0xe1e02200, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_EOR3], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ } ++ }, ++ { ++ AVR32_OPC_EORL, 4, 0xec100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_EORL], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_EORH, 4, 0xee100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_EORH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_FRS, 2, 0xd7430000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_FRS], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_ICALL, 2, 0x5d100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ICALL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_INCJOSP, 2, 0xd6830000, 0xff8f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_INCJOSP], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D1, 2, 0xa1010000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D2, 2, 0xa1100000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D3, 2, 0xa1000000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D3], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D5, 4, 0xe0000200, 0xe1f0ffc1, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D4, 4, 0xe0e00000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SB2, 4, 0xe0000600, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SB2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SB1, 4, 0xe1200000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SB1], ++ BFD_RELOC_AVR32_16S, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB1, 2, 0x01300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB2, 2, 0x01700000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB5, 4, 0xe0000700, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB3, 2, 0x01800000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB3], ++ BFD_RELOC_AVR32_3U, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB4, 4, 0xe1300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH1, 2, 0x01100000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH2, 2, 0x01500000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH5, 4, 0xe0000400, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH3, 2, 0x80000000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH3], ++ BFD_RELOC_AVR32_4UH, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH4, 4, 0xe1000000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH1, 2, 0x01200000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH2, 2, 0x01600000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH5, 4, 0xe0000500, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH3, 2, 0x80800000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH3], ++ BFD_RELOC_AVR32_4UH, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH4, 4, 0xe1100000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W1, 2, 0x01000000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W2, 2, 0x01400000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W5, 4, 0xe0000300, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W6, 4, 0xe0000f80, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W6], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W3, 2, 0x60000000, 0xe0000000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W3], ++ BFD_RELOC_AVR32_7UW, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W4, 4, 0xe0f00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_D1, 4, 0xe9a01000, 0xfff01100, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_D1], ++ BFD_RELOC_AVR32_10UW, 4, 3, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_D2, 4, 0xefa00050, 0xfff011ff, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_D2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_D3, 4, 0xefa01040, 0xfff011c0, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_D3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_W1, 4, 0xe9a00000, 0xfff01000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_W1], ++ BFD_RELOC_AVR32_10UW, 4, 3, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_W2, 4, 0xefa00040, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_W2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_W3, 4, 0xefa01000, 0xfff010c0, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_W3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC0_D, 4, 0xf3a00000, 0xfff00100, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC0_D], ++ BFD_RELOC_AVR32_14UW, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC0_W, 4, 0xf1a00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC0_W], ++ BFD_RELOC_AVR32_14UW, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_D, 4, 0xeda00400, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_D_PU, 4, 0xeda01400, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_D_PU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_W, 4, 0xeda00000, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_W_PU, 4, 0xeda01000, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_W_PU], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_LDDPC, 2, 0x48000000, 0xf8000000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDDPC], ++ BFD_RELOC_AVR32_9UW_PCREL, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K7C], ++ }, ++ }, ++ { ++ AVR32_OPC_LDDPC_EXT, 4, 0xfef00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDDPC_EXT], ++ BFD_RELOC_AVR32_16B_PCREL, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDDSP, 2, 0x40000000, 0xf8000000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDDSP], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K7C], ++ }, ++ }, ++ { ++ AVR32_OPC_LDINS_B, 4, 0xe1d04000, 0xe1f0c000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDINS_B], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_PART2_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDINS_H, 4, 0xe1d00000, 0xe1f0e000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDINS_H], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_PART1_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDM, 4, 0xe1c00000, 0xfdf00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDM], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_W], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDMTS, 4, 0xe5c00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDMTS], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDMTS_PU, 4, 0xe7c00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDMTS_PU], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDSWP_SH, 4, 0xe1d02000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDSWP_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDSWP_UH, 4, 0xe1d03000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDSWP_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDSWP_W, 4, 0xe1d08000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDSWP_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LSL1, 4, 0xe0000940, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSL1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LSL3, 4, 0xe0001500, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSL3], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_LSL2, 2, 0xa1600000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LSL2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_LSR1, 4, 0xe0000a40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSR1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LSR3, 4, 0xe0001600, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSR3], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_LSR2, 2, 0xa1800000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LSR2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_MAC, 4, 0xe0000340, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MAC], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MACHH_D, 4, 0xe0000580, 0xe1f0ffc1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACHH_D], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MACHH_W, 4, 0xe0000480, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MACHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MACS_D, 4, 0xe0000540, 0xe1f0fff1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACS_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MACSATHH_W, 4, 0xe0000680, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MACSATHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MACUD, 4, 0xe0000740, 0xe1f0fff1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACUD], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MACWH_D, 4, 0xe0000c80, 0xe1f0ffe1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACWH_D], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MAX, 4, 0xe0000c40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MAX], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MCALL, 4, 0xf0100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MCALL], ++ BFD_RELOC_AVR32_18W_PCREL, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_MFDR, 4, 0xe5b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MFDR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MFSR, 4, 0xe1b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MFSR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MIN, 4, 0xe0000d40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MIN], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MOV3, 2, 0x00900000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOV3], ++ BFD_RELOC_NONE, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOV1, 2, 0x30000000, 0xf0000000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOV1], ++ BFD_RELOC_AVR32_8S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_MOV2, 4, 0xe0600000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOV2], ++ BFD_RELOC_AVR32_21S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVEQ1, 4, 0xe0001700, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVEQ1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVNE1, 4, 0xe0001710, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVNE1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCC1, 4, 0xe0001720, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCS1, 4, 0xe0001730, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLO1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGE1, 4, 0xe0001740, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGE1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLT1, 4, 0xe0001750, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLT1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVMI1, 4, 0xe0001760, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVMI1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVPL1, 4, 0xe0001770, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVPL1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLS1, 4, 0xe0001780, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGT1, 4, 0xe0001790, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGT1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLE1, 4, 0xe00017a0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLE1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVHI1, 4, 0xe00017b0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHI1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVS1, 4, 0xe00017c0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVC1, 4, 0xe00017d0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVC1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVQS1, 4, 0xe00017e0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVQS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVAL1, 4, 0xe00017f0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVAL1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVEQ2, 4, 0xf9b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVEQ2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVNE2, 4, 0xf9b00100, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVNE2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCC2, 4, 0xf9b00200, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCS2, 4, 0xf9b00300, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLO2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGE2, 4, 0xf9b00400, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGE2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLT2, 4, 0xf9b00500, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLT2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVMI2, 4, 0xf9b00600, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVMI2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVPL2, 4, 0xf9b00700, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVPL2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLS2, 4, 0xf9b00800, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGT2, 4, 0xf9b00900, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGT2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLE2, 4, 0xf9b00a00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLE2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVHI2, 4, 0xf9b00b00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHI2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVS2, 4, 0xf9b00c00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVC2, 4, 0xf9b00d00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVC2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVQS2, 4, 0xf9b00e00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVQS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVAL2, 4, 0xf9b00f00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVAL2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MTDR, 4, 0xe7b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MTDR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MTSR, 4, 0xe3b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MTSR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MUL1, 2, 0xa1300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MUL1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MUL2, 4, 0xe0000240, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MUL2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MUL3, 4, 0xe0001000, 0xe1f0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MUL3], ++ BFD_RELOC_AVR32_8S_EXT, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MULHH_W, 4, 0xe0000780, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULNHH_W, 4, 0xe0000180, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULNHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULNWH_D, 4, 0xe0000280, 0xe1f0ffe1, ++ &avr32_syntax_table[AVR32_SYNTAX_MULNWH_D], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSD, 4, 0xe0000440, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSD], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATHH_H, 4, 0xe0000880, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATHH_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATHH_W, 4, 0xe0000980, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATRNDHH_H, 4, 0xe0000a80, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATRNDHH_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATRNDWH_W, 4, 0xe0000b80, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATRNDWH_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATWH_W, 4, 0xe0000e80, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATWH_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULU_D, 4, 0xe0000640, 0xe1f0fff1, ++ &avr32_syntax_table[AVR32_SYNTAX_MULU_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MULWH_D, 4, 0xe0000d80, 0xe1f0ffe1, ++ &avr32_syntax_table[AVR32_SYNTAX_MULWH_D], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MUSFR, 2, 0x5d300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MUSFR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_MUSTR, 2, 0x5d200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MUSTR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_MVCR_D, 4, 0xefa00010, 0xfff111ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVCR_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_MVCR_W, 4, 0xefa00000, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVCR_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_MVRC_D, 4, 0xefa00030, 0xfff111ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVRC_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_MVRC_W, 4, 0xefa00020, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVRC_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_NEG, 2, 0x5c300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_NEG], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_NOP, 2, 0xd7030000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_NOP], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_OR1, 2, 0x00400000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_OR1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_OR2, 4, 0xe1e01000, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_OR2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_OR3, 4, 0xe1e01200, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_OR3], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_ORH, 4, 0xea100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ORH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ORL, 4, 0xe8100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ORL], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_PABS_SB, 4, 0xe00023e0, 0xfff0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PABS_SB], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PABS_SH, 4, 0xe00023f0, 0xfff0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PABS_SH], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PACKSH_SB, 4, 0xe00024d0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PACKSH_SB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PACKSH_UB, 4, 0xe00024c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PACKSH_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PACKW_SH, 4, 0xe0002470, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PACKW_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADD_B, 4, 0xe0002300, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADD_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADD_H, 4, 0xe0002000, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADD_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDH_SH, 4, 0xe00020c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDH_UB, 4, 0xe0002360, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDH_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_SB, 4, 0xe0002320, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_SB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_SH, 4, 0xe0002040, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_UB, 4, 0xe0002340, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_UH, 4, 0xe0002080, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUB_H, 4, 0xe0002100, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUB_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUBH_SH, 4, 0xe0002280, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUBH_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUBS_SH, 4, 0xe0002180, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUBS_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUBS_UH, 4, 0xe0002200, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUBS_UH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDX_H, 4, 0xe0002020, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDX_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDXH_SH, 4, 0xe00020e0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDXH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDXS_SH, 4, 0xe0002060, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDXS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDXS_UH, 4, 0xe00020a0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDXS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PASR_B, 4, 0xe0002410, 0xe1f8fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PASR_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_COND3], ++ }, ++ }, ++ { ++ AVR32_OPC_PASR_H, 4, 0xe0002440, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PASR_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PAVG_SH, 4, 0xe00023d0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PAVG_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PAVG_UB, 4, 0xe00023c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PAVG_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSL_B, 4, 0xe0002420, 0xe1f8fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSL_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_COND3], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSL_H, 4, 0xe0002450, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSL_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSR_B, 4, 0xe0002430, 0xe1f8fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSR_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_COND3], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSR_H, 4, 0xe0002460, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSR_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMAX_SH, 4, 0xe0002390, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMAX_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMAX_UB, 4, 0xe0002380, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMAX_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMIN_SH, 4, 0xe00023b0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMIN_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMIN_UB, 4, 0xe00023a0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMIN_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_POPJC, 2, 0xd7130000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_POPJC], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_POPM, 2, 0xd0020000, 0xf0070000, ++ &avr32_syntax_table[AVR32_SYNTAX_POPM], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_POPM], ++ }, ++ }, ++ { ++ AVR32_OPC_POPM_E, 4, 0xe3cd0000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_POPM_E], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_PREF, 4, 0xf2100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_PREF], ++ BFD_RELOC_AVR32_16S, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_PSAD, 4, 0xe0002400, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSAD], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUB_B, 4, 0xe0002310, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUB_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUB_H, 4, 0xe0002010, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADD_H, 4, 0xe0002140, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADD_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADDH_SH, 4, 0xe00022c0, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADDH_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADDS_SH, 4, 0xe00021c0, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADDS_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADDS_UH, 4, 0xe0002240, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADDS_UH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBH_SH, 4, 0xe00020d0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBH_UB, 4, 0xe0002370, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBH_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_SB, 4, 0xe0002330, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_SB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_SH, 4, 0xe0002050, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_UB, 4, 0xe0002350, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_UH, 4, 0xe0002090, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBX_H, 4, 0xe0002030, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBX_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBXH_SH, 4, 0xe00020f0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBXH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBXS_SH, 4, 0xe0002070, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBXS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBXS_UH, 4, 0xe00020b0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBXS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PUNPCKSB_H, 4, 0xe00024a0, 0xe1ffffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_PUNPCKSB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PUNPCKUB_H, 4, 0xe0002480, 0xe1ffffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_PUNPCKUB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PUSHJC, 2, 0xd7230000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_PUSHJC], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_PUSHM, 2, 0xd0010000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_PUSHM], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_PUSHM_E, 4, 0xebcd0000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_PUSHM_E], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_RCALL1, 2, 0xc00c0000, 0xf00c0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RCALL1], ++ BFD_RELOC_AVR32_11H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K10], ++ }, ++ }, ++ { ++ AVR32_OPC_RCALL2, 4, 0xe0a00000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RCALL2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_RETEQ, 2, 0x5e000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETEQ], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETNE, 2, 0x5e100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETNE], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETCC, 2, 0x5e200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETHS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETCS, 2, 0x5e300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLO], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETGE, 2, 0x5e400000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETGE], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETLT, 2, 0x5e500000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLT], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETMI, 2, 0x5e600000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETMI], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETPL, 2, 0x5e700000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETPL], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETLS, 2, 0x5e800000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETGT, 2, 0x5e900000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETGT], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETLE, 2, 0x5ea00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLE], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETHI, 2, 0x5eb00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETHI], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETVS, 2, 0x5ec00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETVS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETVC, 2, 0x5ed00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETVC], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETQS, 2, 0x5ee00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETQS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETAL, 2, 0x5ef00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETAL], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETD, 2, 0xd6230000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETD], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETE, 2, 0xd6030000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETE], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETJ, 2, 0xd6330000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETJ], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETS, 2, 0xd6130000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETS], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RJMP, 2, 0xc0080000, 0xf00c0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RJMP], ++ BFD_RELOC_AVR32_11H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K10], ++ }, ++ }, ++ { ++ AVR32_OPC_ROL, 2, 0x5cf00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ROL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_ROR, 2, 0x5d000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ROR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_RSUB1, 2, 0x00200000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RSUB1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_RSUB2, 4, 0xe0001100, 0xe1f0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_RSUB2], ++ BFD_RELOC_AVR32_8S_EXT, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SATADD_H, 4, 0xe00002c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATADD_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATADD_W, 4, 0xe00000c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATADD_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATRNDS, 4, 0xf3b00000, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATRNDS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SATRNDU, 4, 0xf3b00400, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATRNDU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SATS, 4, 0xf1b00000, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SATSUB_H, 4, 0xe00003c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATSUB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATSUB_W1, 4, 0xe00001c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATSUB_W1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATSUB_W2, 4, 0xe0d00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SATSUB_W2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_SATU, 4, 0xf1b00400, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SBC, 4, 0xe0000140, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SBC], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SBR, 2, 0xa1a00000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SBR], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_SCALL, 2, 0xd7330000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SCALL], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_SCR, 2, 0x5c100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SCR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SLEEP, 4, 0xe9b00000, 0xffffff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SLEEP], ++ BFD_RELOC_AVR32_8S_EXT, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SREQ, 2, 0x5f000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SREQ], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRNE, 2, 0x5f100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRNE], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRCC, 2, 0x5f200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRHS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRCS, 2, 0x5f300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLO], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRGE, 2, 0x5f400000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRGE], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRLT, 2, 0x5f500000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLT], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRMI, 2, 0x5f600000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRMI], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRPL, 2, 0x5f700000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRPL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRLS, 2, 0x5f800000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRGT, 2, 0x5f900000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRGT], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRLE, 2, 0x5fa00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLE], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRHI, 2, 0x5fb00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRHI], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRVS, 2, 0x5fc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRVS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRVC, 2, 0x5fd00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRVC], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRQS, 2, 0x5fe00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRQS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRAL, 2, 0x5ff00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRAL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SSRF, 2, 0xd2030000, 0xfe0f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SSRF], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B1, 2, 0x00c00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B2, 2, 0x00f00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B5, 4, 0xe0000b00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B3, 2, 0xa0800000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B3], ++ BFD_RELOC_AVR32_3U, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B4, 4, 0xe1600000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D1, 2, 0xa1200000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D2, 2, 0xa1210000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D3, 2, 0xa1110000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D3], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D5, 4, 0xe0000800, 0xe1f0ffc1, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D4, 4, 0xe0e10000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H1, 2, 0x00b00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H2, 2, 0x00e00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H5, 4, 0xe0000a00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H3, 2, 0xa0000000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H3], ++ BFD_RELOC_AVR32_4UH, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H4, 4, 0xe1500000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W1, 2, 0x00a00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W2, 2, 0x00d00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W5, 4, 0xe0000900, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W3, 2, 0x81000000, 0xe1000000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W3], ++ BFD_RELOC_AVR32_6UW, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K4], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W4, 4, 0xe1400000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_D1, 4, 0xeba01000, 0xfff01100, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_D1], ++ BFD_RELOC_AVR32_10UW, 4, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_D2, 4, 0xefa00070, 0xfff011f0, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_D2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_D3, 4, 0xefa010c0, 0xfff011c0, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_D3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_W1, 4, 0xeba00000, 0xfff01000, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_W1], ++ BFD_RELOC_AVR32_10UW, 4, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_W2, 4, 0xefa00060, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_W2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_W3, 4, 0xefa01080, 0xfff010c0, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_W3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STC0_D, 4, 0xf7a00000, 0xfff00100, ++ &avr32_syntax_table[AVR32_SYNTAX_STC0_D], ++ BFD_RELOC_AVR32_14UW, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC0_W, 4, 0xf5a00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STC0_W], ++ BFD_RELOC_AVR32_14UW, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_D, 4, 0xeda00500, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_D_PU, 4, 0xeda01500, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_D_PU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_W, 4, 0xeda00200, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_W_PU, 4, 0xeda01200, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_W_PU], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_STCOND, 4, 0xe1700000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STCOND], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STDSP, 2, 0x50000000, 0xf8000000, ++ &avr32_syntax_table[AVR32_SYNTAX_STDSP], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K7C], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STHH_W2, 4, 0xe1e08000, 0xe1f0c0c0, ++ &avr32_syntax_table[AVR32_SYNTAX_STHH_W2], ++ BFD_RELOC_UNUSED, 7, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X2], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y2], ++ }, ++ }, ++ { ++ AVR32_OPC_STHH_W1, 4, 0xe1e0c000, 0xe1f0c000, ++ &avr32_syntax_table[AVR32_SYNTAX_STHH_W1], ++ BFD_RELOC_AVR32_STHH_W, 6, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K8E2], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X2], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y2], ++ }, ++ }, ++ { ++ AVR32_OPC_STM, 4, 0xe9c00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STM], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STM_PU, 4, 0xebc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STM_PU], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STMTS, 4, 0xedc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STMTS], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STMTS_PU, 4, 0xefc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STMTS_PU], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STSWP_H, 4, 0xe1d09000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_STSWP_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STSWP_W, 4, 0xe1d0a000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_STSWP_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB1, 2, 0x00100000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB2, 4, 0xe0000100, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB5, 4, 0xe0c00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB5], ++ BFD_RELOC_AVR32_SUB5, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB3_SP, 2, 0x200d0000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB3_SP], ++ BFD_RELOC_AVR32_10SW, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB3, 2, 0x20000000, 0xf0000000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB3], ++ BFD_RELOC_AVR32_8S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB4, 4, 0xe0200000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB4], ++ BFD_RELOC_AVR32_21S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBEQ, 4, 0xf7b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBEQ], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBNE, 4, 0xf7b00100, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBNE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBCC, 4, 0xf7b00200, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBHS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBCS, 4, 0xf7b00300, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLO], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBGE, 4, 0xf7b00400, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBGE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBLT, 4, 0xf7b00500, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBMI, 4, 0xf7b00600, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBMI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBPL, 4, 0xf7b00700, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBPL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBLS, 4, 0xf7b00800, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBGT, 4, 0xf7b00900, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBGT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBLE, 4, 0xf7b00a00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBHI, 4, 0xf7b00b00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBHI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBVS, 4, 0xf7b00c00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBVS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBVC, 4, 0xf7b00d00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBVC], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBQS, 4, 0xf7b00e00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBQS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBAL, 4, 0xf7b00f00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBAL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFEQ, 4, 0xf5b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFEQ], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFNE, 4, 0xf5b00100, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFNE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFCC, 4, 0xf5b00200, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFHS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFCS, 4, 0xf5b00300, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLO], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFGE, 4, 0xf5b00400, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFGE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFLT, 4, 0xf5b00500, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFMI, 4, 0xf5b00600, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFMI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFPL, 4, 0xf5b00700, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFPL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFLS, 4, 0xf5b00800, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFGT, 4, 0xf5b00900, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFGT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFLE, 4, 0xf5b00a00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFHI, 4, 0xf5b00b00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFHI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFVS, 4, 0xf5b00c00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFVS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFVC, 4, 0xf5b00d00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFVC], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFQS, 4, 0xf5b00e00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFQS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFAL, 4, 0xf5b00f00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFAL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBHH_W, 4, 0xe0000f00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_SWAP_B, 2, 0x5cb00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SWAP_B], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_SWAP_BH, 2, 0x5cc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SWAP_BH], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_SWAP_H, 2, 0x5ca00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SWAP_H], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_SYNC, 4, 0xebb00000, 0xffffff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SYNC], ++ BFD_RELOC_AVR32_8S_EXT, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ } ++ }, ++ { ++ AVR32_OPC_TLBR, 2, 0xd6430000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_TLBR], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_TLBS, 2, 0xd6530000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_TLBS], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_TLBW, 2, 0xd6630000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_TLBW], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_TNBZ, 2, 0x5ce00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_TNBZ], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_TST, 2, 0x00700000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_TST], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_XCHG, 4, 0xe0000b40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_XCHG], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MEMC, 4, 0xf6100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MEMC], ++ BFD_RELOC_AVR32_15S, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_MEM15], ++ &avr32_ifield_table[AVR32_IFIELD_MEMB5], ++ }, ++ }, ++ { ++ AVR32_OPC_MEMS, 4, 0xf8100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MEMS], ++ BFD_RELOC_AVR32_15S, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_MEM15], ++ &avr32_ifield_table[AVR32_IFIELD_MEMB5], ++ }, ++ }, ++ { ++ AVR32_OPC_MEMT, 4, 0xfa100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MEMT], ++ BFD_RELOC_AVR32_15S, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_MEM15], ++ &avr32_ifield_table[AVR32_IFIELD_MEMB5], ++ }, ++ }, ++ { ++ AVR32_OPC_BFEXTS, 4, 0xe1d0b000, 0xe1f0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_BFEXTS], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_BFEXTU, 4, 0xe1d0c000, 0xe1f0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_BFEXTU], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_BFINS, 4, 0xe1d0d000, 0xe1f0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_BFINS], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++#define AVR32_OPCODE_RSUBCOND(cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_RSUB ## cond_name , 4, \ ++ 0xfbb00000 | (cond_field << 8), 0xfff0ff00, \ ++ &avr32_syntax_table[AVR32_SYNTAX_RSUB ## cond_name ], \ ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ &avr32_ifield_table[AVR32_IFIELD_K8E], \ ++ }, \ ++ }, ++ ++ AVR32_OPCODE_RSUBCOND (EQ, 0) ++ AVR32_OPCODE_RSUBCOND (NE, 1) ++ AVR32_OPCODE_RSUBCOND (CC, 2) ++ AVR32_OPCODE_RSUBCOND (CS, 3) ++ AVR32_OPCODE_RSUBCOND (GE, 4) ++ AVR32_OPCODE_RSUBCOND (LT, 5) ++ AVR32_OPCODE_RSUBCOND (MI, 6) ++ AVR32_OPCODE_RSUBCOND (PL, 7) ++ AVR32_OPCODE_RSUBCOND (LS, 8) ++ AVR32_OPCODE_RSUBCOND (GT, 9) ++ AVR32_OPCODE_RSUBCOND (LE, 10) ++ AVR32_OPCODE_RSUBCOND (HI, 11) ++ AVR32_OPCODE_RSUBCOND (VS, 12) ++ AVR32_OPCODE_RSUBCOND (VC, 13) ++ AVR32_OPCODE_RSUBCOND (QS, 14) ++ AVR32_OPCODE_RSUBCOND (AL, 15) ++ ++#define AVR32_OPCODE_OP3_COND(op_name, op_field, cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_ ## op_name ## cond_name , 4, \ ++ 0xe1d0e000 | (cond_field << 8) | (op_field << 4), 0xe1f0fff0, \ ++ &avr32_syntax_table[AVR32_SYNTAX_ ## op_name ## cond_name ], \ ++ BFD_RELOC_UNUSED, 3, -1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], \ ++ &avr32_ifield_table[AVR32_IFIELD_RX], \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ }, \ ++ }, ++ ++ AVR32_OPCODE_OP3_COND (ADD, 0, EQ, 0) ++ AVR32_OPCODE_OP3_COND (ADD, 0, NE, 1) ++ AVR32_OPCODE_OP3_COND (ADD, 0, CC, 2) ++ AVR32_OPCODE_OP3_COND (ADD, 0, CS, 3) ++ AVR32_OPCODE_OP3_COND (ADD, 0, GE, 4) ++ AVR32_OPCODE_OP3_COND (ADD, 0, LT, 5) ++ AVR32_OPCODE_OP3_COND (ADD, 0, MI, 6) ++ AVR32_OPCODE_OP3_COND (ADD, 0, PL, 7) ++ AVR32_OPCODE_OP3_COND (ADD, 0, LS, 8) ++ AVR32_OPCODE_OP3_COND (ADD, 0, GT, 9) ++ AVR32_OPCODE_OP3_COND (ADD, 0, LE, 10) ++ AVR32_OPCODE_OP3_COND (ADD, 0, HI, 11) ++ AVR32_OPCODE_OP3_COND (ADD, 0, VS, 12) ++ AVR32_OPCODE_OP3_COND (ADD, 0, VC, 13) ++ AVR32_OPCODE_OP3_COND (ADD, 0, QS, 14) ++ AVR32_OPCODE_OP3_COND (ADD, 0, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (SUB2, 1, EQ, 0) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, NE, 1) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, CC, 2) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, CS, 3) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, GE, 4) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, LT, 5) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, MI, 6) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, PL, 7) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, LS, 8) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, GT, 9) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, LE, 10) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, HI, 11) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, VS, 12) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, VC, 13) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, QS, 14) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (AND, 2, EQ, 0) ++ AVR32_OPCODE_OP3_COND (AND, 2, NE, 1) ++ AVR32_OPCODE_OP3_COND (AND, 2, CC, 2) ++ AVR32_OPCODE_OP3_COND (AND, 2, CS, 3) ++ AVR32_OPCODE_OP3_COND (AND, 2, GE, 4) ++ AVR32_OPCODE_OP3_COND (AND, 2, LT, 5) ++ AVR32_OPCODE_OP3_COND (AND, 2, MI, 6) ++ AVR32_OPCODE_OP3_COND (AND, 2, PL, 7) ++ AVR32_OPCODE_OP3_COND (AND, 2, LS, 8) ++ AVR32_OPCODE_OP3_COND (AND, 2, GT, 9) ++ AVR32_OPCODE_OP3_COND (AND, 2, LE, 10) ++ AVR32_OPCODE_OP3_COND (AND, 2, HI, 11) ++ AVR32_OPCODE_OP3_COND (AND, 2, VS, 12) ++ AVR32_OPCODE_OP3_COND (AND, 2, VC, 13) ++ AVR32_OPCODE_OP3_COND (AND, 2, QS, 14) ++ AVR32_OPCODE_OP3_COND (AND, 2, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (OR, 3, EQ, 0) ++ AVR32_OPCODE_OP3_COND (OR, 3, NE, 1) ++ AVR32_OPCODE_OP3_COND (OR, 3, CC, 2) ++ AVR32_OPCODE_OP3_COND (OR, 3, CS, 3) ++ AVR32_OPCODE_OP3_COND (OR, 3, GE, 4) ++ AVR32_OPCODE_OP3_COND (OR, 3, LT, 5) ++ AVR32_OPCODE_OP3_COND (OR, 3, MI, 6) ++ AVR32_OPCODE_OP3_COND (OR, 3, PL, 7) ++ AVR32_OPCODE_OP3_COND (OR, 3, LS, 8) ++ AVR32_OPCODE_OP3_COND (OR, 3, GT, 9) ++ AVR32_OPCODE_OP3_COND (OR, 3, LE, 10) ++ AVR32_OPCODE_OP3_COND (OR, 3, HI, 11) ++ AVR32_OPCODE_OP3_COND (OR, 3, VS, 12) ++ AVR32_OPCODE_OP3_COND (OR, 3, VC, 13) ++ AVR32_OPCODE_OP3_COND (OR, 3, QS, 14) ++ AVR32_OPCODE_OP3_COND (OR, 3, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (EOR, 4, EQ, 0) ++ AVR32_OPCODE_OP3_COND (EOR, 4, NE, 1) ++ AVR32_OPCODE_OP3_COND (EOR, 4, CC, 2) ++ AVR32_OPCODE_OP3_COND (EOR, 4, CS, 3) ++ AVR32_OPCODE_OP3_COND (EOR, 4, GE, 4) ++ AVR32_OPCODE_OP3_COND (EOR, 4, LT, 5) ++ AVR32_OPCODE_OP3_COND (EOR, 4, MI, 6) ++ AVR32_OPCODE_OP3_COND (EOR, 4, PL, 7) ++ AVR32_OPCODE_OP3_COND (EOR, 4, LS, 8) ++ AVR32_OPCODE_OP3_COND (EOR, 4, GT, 9) ++ AVR32_OPCODE_OP3_COND (EOR, 4, LE, 10) ++ AVR32_OPCODE_OP3_COND (EOR, 4, HI, 11) ++ AVR32_OPCODE_OP3_COND (EOR, 4, VS, 12) ++ AVR32_OPCODE_OP3_COND (EOR, 4, VC, 13) ++ AVR32_OPCODE_OP3_COND (EOR, 4, QS, 14) ++ AVR32_OPCODE_OP3_COND (EOR, 4, AL, 15) ++ ++#define AVR32_OPCODE_LD_COND(op_name, op_field, cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_ ## op_name ## cond_name , 4, \ ++ 0xe1f00000 | (cond_field << 12) | (op_field << 9), 0xe1f0fe00, \ ++ &avr32_syntax_table[AVR32_SYNTAX_ ## op_name ## cond_name ], \ ++ BFD_RELOC_UNUSED, 3, -1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ &avr32_ifield_table[AVR32_IFIELD_RX], \ ++ &avr32_ifield_table[AVR32_IFIELD_K9E], \ ++ }, \ ++ }, ++ ++#define AVR32_OPCODE_ST_COND(op_name, op_field, cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_ ## op_name ## cond_name , 4, \ ++ 0xe1f00000 | (cond_field << 12) | (op_field << 9), 0xe1f0fe00, \ ++ &avr32_syntax_table[AVR32_SYNTAX_ ## op_name ## cond_name ], \ ++ BFD_RELOC_UNUSED, 3, -1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RX], \ ++ &avr32_ifield_table[AVR32_IFIELD_K9E], \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ }, \ ++ }, ++ ++ AVR32_OPCODE_LD_COND (LD_W, 0, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_W, 0, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_W, 0, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_W, 0, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_W, 0, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_W, 0, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_W, 0, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_W, 0, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_W, 0, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_W, 0, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_W, 0, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_W, 0, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_W, 0, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_W, 0, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_W, 0, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_W, 0, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_SH, 1, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_UH, 2, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_SB, 3, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_UB, 4, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, AL, 15) ++ ++ AVR32_OPCODE_ST_COND (ST_W, 5, EQ, 0) ++ AVR32_OPCODE_ST_COND (ST_W, 5, NE, 1) ++ AVR32_OPCODE_ST_COND (ST_W, 5, CC, 2) ++ AVR32_OPCODE_ST_COND (ST_W, 5, CS, 3) ++ AVR32_OPCODE_ST_COND (ST_W, 5, GE, 4) ++ AVR32_OPCODE_ST_COND (ST_W, 5, LT, 5) ++ AVR32_OPCODE_ST_COND (ST_W, 5, MI, 6) ++ AVR32_OPCODE_ST_COND (ST_W, 5, PL, 7) ++ AVR32_OPCODE_ST_COND (ST_W, 5, LS, 8) ++ AVR32_OPCODE_ST_COND (ST_W, 5, GT, 9) ++ AVR32_OPCODE_ST_COND (ST_W, 5, LE, 10) ++ AVR32_OPCODE_ST_COND (ST_W, 5, HI, 11) ++ AVR32_OPCODE_ST_COND (ST_W, 5, VS, 12) ++ AVR32_OPCODE_ST_COND (ST_W, 5, VC, 13) ++ AVR32_OPCODE_ST_COND (ST_W, 5, QS, 14) ++ AVR32_OPCODE_ST_COND (ST_W, 5, AL, 15) ++ ++ AVR32_OPCODE_ST_COND (ST_H, 6, EQ, 0) ++ AVR32_OPCODE_ST_COND (ST_H, 6, NE, 1) ++ AVR32_OPCODE_ST_COND (ST_H, 6, CC, 2) ++ AVR32_OPCODE_ST_COND (ST_H, 6, CS, 3) ++ AVR32_OPCODE_ST_COND (ST_H, 6, GE, 4) ++ AVR32_OPCODE_ST_COND (ST_H, 6, LT, 5) ++ AVR32_OPCODE_ST_COND (ST_H, 6, MI, 6) ++ AVR32_OPCODE_ST_COND (ST_H, 6, PL, 7) ++ AVR32_OPCODE_ST_COND (ST_H, 6, LS, 8) ++ AVR32_OPCODE_ST_COND (ST_H, 6, GT, 9) ++ AVR32_OPCODE_ST_COND (ST_H, 6, LE, 10) ++ AVR32_OPCODE_ST_COND (ST_H, 6, HI, 11) ++ AVR32_OPCODE_ST_COND (ST_H, 6, VS, 12) ++ AVR32_OPCODE_ST_COND (ST_H, 6, VC, 13) ++ AVR32_OPCODE_ST_COND (ST_H, 6, QS, 14) ++ AVR32_OPCODE_ST_COND (ST_H, 6, AL, 15) ++ ++ AVR32_OPCODE_ST_COND (ST_B, 7, EQ, 0) ++ AVR32_OPCODE_ST_COND (ST_B, 7, NE, 1) ++ AVR32_OPCODE_ST_COND (ST_B, 7, CC, 2) ++ AVR32_OPCODE_ST_COND (ST_B, 7, CS, 3) ++ AVR32_OPCODE_ST_COND (ST_B, 7, GE, 4) ++ AVR32_OPCODE_ST_COND (ST_B, 7, LT, 5) ++ AVR32_OPCODE_ST_COND (ST_B, 7, MI, 6) ++ AVR32_OPCODE_ST_COND (ST_B, 7, PL, 7) ++ AVR32_OPCODE_ST_COND (ST_B, 7, LS, 8) ++ AVR32_OPCODE_ST_COND (ST_B, 7, GT, 9) ++ AVR32_OPCODE_ST_COND (ST_B, 7, LE, 10) ++ AVR32_OPCODE_ST_COND (ST_B, 7, HI, 11) ++ AVR32_OPCODE_ST_COND (ST_B, 7, VS, 12) ++ AVR32_OPCODE_ST_COND (ST_B, 7, VC, 13) ++ AVR32_OPCODE_ST_COND (ST_B, 7, QS, 14) ++ AVR32_OPCODE_ST_COND (ST_B, 7, AL, 15) ++ ++ { ++ AVR32_OPC_MOVH, 4, 0xfc100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_SSCALL, 2, 0xd7530000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SSCALL], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETSS, 2, 0xd7630000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETSS], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ ++ }; ++ ++#define FPALIAS_DXY(name, opcode) \ ++ { \ ++ AVR32_ALIAS_##name##_S, \ ++ &avr32_opc_table[AVR32_OPC_COP], \ ++ { \ ++ { 0, 0 }, \ ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, \ ++ { 0, opcode }, \ ++ }, \ ++ }, { \ ++ AVR32_ALIAS_##name##_D, \ ++ &avr32_opc_table[AVR32_OPC_COP], \ ++ { \ ++ { 0, 0 }, \ ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, \ ++ { 0, (opcode) | 0x40 }, \ ++ }, \ ++ } ++#define FPALIAS_DX(name, opcode) \ ++ { \ ++ AVR32_ALIAS_##name##_S, \ ++ &avr32_opc_table[AVR32_OPC_COP], \ ++ { \ ++ { 0, 0 }, \ ++ { 1, 0 }, { 1, 1 }, { 0, 0 }, \ ++ { 0, opcode }, \ ++ }, \ ++ }, { \ ++ AVR32_ALIAS_##name##_D, \ ++ &avr32_opc_table[AVR32_OPC_COP], \ ++ { \ ++ { 0, 0 }, \ ++ { 1, 0 }, { 1, 1 }, { 0, 0 }, \ ++ { 0, (opcode) | 0x40 }, \ ++ }, \ ++ } ++#define FPALIAS_XY(name, opcode) \ ++ { \ ++ AVR32_ALIAS_##name##_S, \ ++ &avr32_opc_table[AVR32_OPC_COP], \ ++ { \ ++ { 0, 0 }, \ ++ { 0, 0 }, { 1, 0 }, { 1, 1 }, \ ++ { 0, opcode }, \ ++ }, \ ++ }, { \ ++ AVR32_ALIAS_##name##_D, \ ++ &avr32_opc_table[AVR32_OPC_COP], \ ++ { \ ++ { 0, 0 }, \ ++ { 0, 0 }, { 1, 0 }, { 1, 1 }, \ ++ { 0, (opcode) | 0x40 }, \ ++ }, \ ++ } ++ ++const struct avr32_alias avr32_alias_table[] = ++ { ++ FPALIAS_DXY(FMAC, 0x00), ++ FPALIAS_DXY(FNMAC, 0x01), ++ FPALIAS_DXY(FMSC, 0x02), ++ FPALIAS_DXY(FNMSC, 0x03), ++ FPALIAS_DXY(FADD, 0x04), ++ FPALIAS_DXY(FSUB, 0x05), ++ FPALIAS_DXY(FMUL, 0x06), ++ FPALIAS_DXY(FNMUL, 0x07), ++ FPALIAS_DX(FNEG, 0x08), ++ FPALIAS_DX(FABS, 0x09), ++ FPALIAS_XY(FCMP, 0x0d), ++ FPALIAS_DX(FMOV1, 0x0a), ++ { ++ AVR32_ALIAS_FMOV2_S, ++ &avr32_opc_table[AVR32_OPC_MVCR_W], ++ { { 0, 0 }, { 1, 0 }, { 1, 1 }, }, ++ }, ++ { ++ AVR32_ALIAS_FMOV2_D, ++ &avr32_opc_table[AVR32_OPC_MVCR_D], ++ { { 0, 0 }, { 1, 0 }, { 1, 1 }, }, ++ }, ++ { ++ AVR32_ALIAS_FMOV3_S, ++ &avr32_opc_table[AVR32_OPC_MVRC_W], ++ { { 0, 0 }, { 1, 0 }, { 1, 1 }, }, ++ }, ++ { ++ AVR32_ALIAS_FMOV3_D, ++ &avr32_opc_table[AVR32_OPC_MVRC_D], ++ { { 0, 0 }, { 1, 0 }, { 1, 1 }, }, ++ }, ++ { ++ AVR32_ALIAS_FCASTS_D, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, 0 }, ++ { 1, 0 }, { 1, 1 }, { 0, 0 }, ++ { 0, 0x0f }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_FCASTD_S, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, 0 }, ++ { 1, 0 }, { 1, 1 }, { 0, 0 }, ++ { 0, 0x10 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMAC0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0c }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMAC1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0d }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMAC2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0e }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMAC3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0f }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x08 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x09 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0a }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0b }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x04 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x05 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x06 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x07 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x00 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x01 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x02 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x03 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_D1, ++ &avr32_opc_table[AVR32_OPC_LDC_D1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_D2, ++ &avr32_opc_table[AVR32_OPC_LDC_D2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_D3, ++ &avr32_opc_table[AVR32_OPC_LDC_D3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_W1, ++ &avr32_opc_table[AVR32_OPC_LDC_W1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_W2, ++ &avr32_opc_table[AVR32_OPC_LDC_W2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_W3, ++ &avr32_opc_table[AVR32_OPC_LDC_W3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_D, ++ &avr32_opc_table[AVR32_OPC_LDCM_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_D_PU, ++ &avr32_opc_table[AVR32_OPC_LDCM_D_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_W, ++ &avr32_opc_table[AVR32_OPC_LDCM_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_W_PU, ++ &avr32_opc_table[AVR32_OPC_LDCM_W_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_D1, ++ &avr32_opc_table[AVR32_OPC_MVCR_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_D2, ++ &avr32_opc_table[AVR32_OPC_MVRC_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_W1, ++ &avr32_opc_table[AVR32_OPC_MVCR_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_W2, ++ &avr32_opc_table[AVR32_OPC_MVRC_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_D1, ++ &avr32_opc_table[AVR32_OPC_STC_D1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_D2, ++ &avr32_opc_table[AVR32_OPC_STC_D2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_D3, ++ &avr32_opc_table[AVR32_OPC_STC_D3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_W1, ++ &avr32_opc_table[AVR32_OPC_STC_W1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_W2, ++ &avr32_opc_table[AVR32_OPC_STC_W2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_W3, ++ &avr32_opc_table[AVR32_OPC_STC_W3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_D, ++ &avr32_opc_table[AVR32_OPC_STCM_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_D_PU, ++ &avr32_opc_table[AVR32_OPC_STCM_D_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_W, ++ &avr32_opc_table[AVR32_OPC_STCM_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_W_PU, ++ &avr32_opc_table[AVR32_OPC_STCM_W_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ }; ++ ++ ++#define SYNTAX_NORMAL0(id, mne, opc, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 0, { } \ ++ } ++#define SYNTAX_NORMAL1(id, mne, opc, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMALM1(id, mne, opc, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, -1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMAL2(id, mne, opc, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMALM2(id, mne, opc, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, -2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMAL3(id, mne, opc, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++#define SYNTAX_NORMALM3(id, mne, opc, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, -3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++#define SYNTAX_NORMAL4(id, mne, opc, op0, op1, op2, op3, arch)\ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 4, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, AVR32_OPERAND_##op3, \ ++ } \ ++ } ++#define SYNTAX_NORMAL5(id, mne, opc, op0, op1, op2, op3, op4, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 5, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, AVR32_OPERAND_##op3, \ ++ AVR32_OPERAND_##op4, \ ++ } \ ++ } ++ ++#define SYNTAX_NORMAL_C1(id, mne, opc, nxt, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], 1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_CM1(id, mne, opc, nxt, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], -1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_C2(id, mne, opc, nxt, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], 2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_CM2(id, mne, opc, nxt, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], -2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_C3(id, mne, opc, nxt, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], 3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_CM3(id, mne, opc, nxt, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], -3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++ ++#define SYNTAX_FP(name, nr_ops) \ ++ { \ ++ AVR32_SYNTAX_##name##_S, \ ++ AVR32_FP, NULL, AVR32_PARSER_ALIAS, \ ++ { .alias = &avr32_alias_table[AVR32_ALIAS_##name##_S] }, \ ++ NULL, nr_ops, \ ++ { \ ++ AVR32_OPERAND_FPREG_S, \ ++ AVR32_OPERAND_FPREG_S, \ ++ AVR32_OPERAND_FPREG_S, \ ++ }, \ ++ }, \ ++ { \ ++ AVR32_SYNTAX_##name##_D, \ ++ AVR32_FP, NULL, AVR32_PARSER_ALIAS, \ ++ { .alias = &avr32_alias_table[AVR32_ALIAS_##name##_D] }, \ ++ NULL, nr_ops, \ ++ { \ ++ AVR32_OPERAND_FPREG_D, \ ++ AVR32_OPERAND_FPREG_D, \ ++ AVR32_OPERAND_FPREG_D, \ ++ }, \ ++ } ++ ++const struct avr32_syntax avr32_syntax_table[] = ++ { ++ SYNTAX_NORMAL1(ABS, ABS, ABS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(ACALL, ACALL, ACALL, UNSIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL1(ACR, ACR, ACR, INTREG,AVR32_V1), ++ SYNTAX_NORMAL3(ADC, ADC, ADC, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ADD1, ADD, ADD1, ADD2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(ADD2, ADD, ADD2, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(ADDABS, ADDABS, ADDABS, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(ADDHH_W, ADDHH_W, ADDHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL_C2(AND1, AND, AND1, AND2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(AND2, AND, AND2, AND3, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(AND3, AND, AND3, INTREG, INTREG, INTREG_LSR, AVR32_V1), ++ SYNTAX_NORMAL_C2(ANDH, ANDH, ANDH, ANDH_COH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(ANDH_COH, ANDH, ANDH_COH, INTREG, UNSIGNED_CONST, COH, AVR32_V1), ++ SYNTAX_NORMAL_C2(ANDL, ANDL, ANDL, ANDL_COH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(ANDL_COH, ANDL, ANDL_COH, INTREG, UNSIGNED_CONST, COH, AVR32_V1), ++ SYNTAX_NORMAL2(ANDN, ANDN, ANDN, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(ASR1, ASR, ASR1, ASR3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(ASR3, ASR, ASR3, ASR2, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(ASR2, ASR, ASR2, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL4(BFEXTS, BFEXTS, BFEXTS, INTREG, INTREG, UNSIGNED_NUMBER, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL4(BFEXTU, BFEXTU, BFEXTU, INTREG, INTREG, UNSIGNED_NUMBER, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL4(BFINS, BFINS, BFINS, INTREG, INTREG, UNSIGNED_NUMBER, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(BLD, BLD, BLD, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL_C1(BREQ1, BREQ, BREQ1, BREQ2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRNE1, BRNE, BRNE1, BRNE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRCC1, BRCC, BRCC1, BRCC2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRCS1, BRCS, BRCS1, BRCS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRGE1, BRGE, BRGE1, BRGE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRLT1, BRLT, BRLT1, BRLT2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRMI1, BRMI, BRMI1, BRMI2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRPL1, BRPL, BRPL1, BRPL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRHS1, BRHS, BRCC1, BRHS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRLO1, BRLO, BRCS1, BRLO2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BREQ2, BREQ, BREQ2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRNE2, BRNE, BRNE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRCC2, BRCC, BRCC2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRCS2, BRCS, BRCS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRGE2, BRGE, BRGE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLT2, BRLT, BRLT2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRMI2, BRMI, BRMI2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRPL2, BRPL, BRPL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLS, BRLS, BRLS, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRGT, BRGT, BRGT, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLE, BRLE, BRLE, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRHI, BRHI, BRHI, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRVS, BRVS, BRVS, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRVC, BRVC, BRVC, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRQS, BRQS, BRQS, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRAL, BRAL, BRAL, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRHS2, BRHS, BRCC2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLO2, BRLO, BRCS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL0(BREAKPOINT, BREAKPOINT, BREAKPOINT, AVR32_V1), ++ SYNTAX_NORMAL1(BREV, BREV, BREV, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(BST, BST, BST, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(CACHE, CACHE, CACHE, INTREG_SDISP, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL1(CASTS_B, CASTS_B, CASTS_B, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CASTS_H, CASTS_H, CASTS_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CASTU_B, CASTU_B, CASTU_B, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CASTU_H, CASTU_H, CASTU_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(CBR, CBR, CBR, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(CLZ, CLZ, CLZ, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(COM, COM, COM, INTREG, AVR32_V1), ++ SYNTAX_NORMAL5(COP, COP, COP, CPNO, CPREG, CPREG, CPREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(CP_B, CP_B, CP_B, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(CP_H, CP_H, CP_H, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(CP_W1, CP_W, CP_W1, CP_W2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(CP_W2, CP_W, CP_W2, CP_W3, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(CP_W3, CP_W, CP_W3, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(CPC1, CPC, CPC1, CPC2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CPC2, CPC, CPC2, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CSRF, CSRF, CSRF, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL1(CSRFCZ, CSRFCZ, CSRFCZ, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL3(DIVS, DIVS, DIVS, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(DIVU, DIVU, DIVU, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(EOR1, EOR, EOR1, EOR2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(EOR2, EOR, EOR2, EOR3, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(EOR3, EOR, EOR3, INTREG, INTREG, INTREG_LSR, AVR32_V1), ++ SYNTAX_NORMAL2(EORL, EORL, EORL, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(EORH, EORH, EORH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL0(FRS, FRS, FRS, AVR32_V1), ++ SYNTAX_NORMAL0(SSCALL, SSCALL, SSCALL, AVR32_V3), ++ SYNTAX_NORMAL0(RETSS, RETSS, RETSS, AVR32_V3), ++ SYNTAX_NORMAL1(ICALL, ICALL, ICALL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(INCJOSP, INCJOSP, INCJOSP, JOSPINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D1, LD_D, LD_D1, LD_D2, DWREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D2, LD_D, LD_D2, LD_D3, DWREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D3, LD_D, LD_D3, LD_D5, DWREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D5, LD_D, LD_D5, LD_D4, DWREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL2(LD_D4, LD_D, LD_D4, DWREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SB2, LD_SB, LD_SB2, LD_SB1, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL2(LD_SB1, LD_SB, LD_SB1, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB1, LD_UB, LD_UB1, LD_UB2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB2, LD_UB, LD_UB2, LD_UB5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB5, LD_UB, LD_UB5, LD_UB3, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB3, LD_UB, LD_UB3, LD_UB4, INTREG, INTREG_UDISP, AVR32_V1), ++ SYNTAX_NORMAL2(LD_UB4, LD_UB, LD_UB4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH1, LD_SH, LD_SH1, LD_SH2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH2, LD_SH, LD_SH2, LD_SH5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH5, LD_SH, LD_SH5, LD_SH3, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH3, LD_SH, LD_SH3, LD_SH4, INTREG, INTREG_UDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LD_SH4, LD_SH, LD_SH4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH1, LD_UH, LD_UH1, LD_UH2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH2, LD_UH, LD_UH2, LD_UH5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH5, LD_UH, LD_UH5, LD_UH3, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH3, LD_UH, LD_UH3, LD_UH4, INTREG, INTREG_UDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LD_UH4, LD_UH, LD_UH4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W1, LD_W, LD_W1, LD_W2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W2, LD_W, LD_W2, LD_W5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W5, LD_W, LD_W5, LD_W6, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W6, LD_W, LD_W6, LD_W3, INTREG, INTREG_XINDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W3, LD_W, LD_W3, LD_W4, INTREG, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LD_W4, LD_W, LD_W4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL3(LDC_D1, LDC_D, LDC_D1, CPNO, CPREG_D, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_D2, LDC_D, LDC_D2, LDC_D1, CPNO, CPREG_D, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_D3, LDC_D, LDC_D3, LDC_D2, CPNO, CPREG_D, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL3(LDC_W1, LDC_W, LDC_W1, CPNO, CPREG, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_W2, LDC_W, LDC_W2, LDC_W1, CPNO, CPREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_W3, LDC_W, LDC_W3, LDC_W2, CPNO, CPREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL2(LDC0_D, LDC0_D, LDC0_D, CPREG_D, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LDC0_W, LDC0_W, LDC0_W, CPREG, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_CM3(LDCM_D, LDCM_D, LDCM_D, LDCM_D_PU, CPNO, INTREG, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMALM3(LDCM_D_PU, LDCM_D, LDCM_D_PU, CPNO, INTREG_POSTINC, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMAL_CM3(LDCM_W, LDCM_W, LDCM_W, LDCM_W_PU, CPNO, INTREG, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMALM3(LDCM_W_PU, LDCM_W, LDCM_W_PU, CPNO, INTREG_POSTINC, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMAL2(LDDPC, LDDPC, LDDPC, INTREG, PC_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LDDPC_EXT, LDDPC, LDDPC_EXT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(LDDSP, LDDSP, LDDSP, INTREG, SP_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LDINS_B, LDINS_B, LDINS_B, INTREG_BSEL, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL2(LDINS_H, LDINS_H, LDINS_H, INTREG_HSEL, INTREG_SDISP_H, AVR32_V1), ++ SYNTAX_NORMALM1(LDM, LDM, LDM, REGLIST_LDM, AVR32_V1), ++ SYNTAX_NORMAL_CM2(LDMTS, LDMTS, LDMTS, LDMTS_PU, INTREG, REGLIST16, AVR32_V1), ++ SYNTAX_NORMALM2(LDMTS_PU, LDMTS, LDMTS_PU, INTREG_POSTINC, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL2(LDSWP_SH, LDSWP_SH, LDSWP_SH, INTREG, INTREG_SDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LDSWP_UH, LDSWP_UH, LDSWP_UH, INTREG, INTREG_SDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LDSWP_W, LDSWP_W, LDSWP_W, INTREG, INTREG_SDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSL1, LSL, LSL1, LSL3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSL3, LSL, LSL3, LSL2, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(LSL2, LSL, LSL2, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSR1, LSR, LSR1, LSR3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSR3, LSR, LSR3, LSR2, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(LSR2, LSR, LSR2, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL3(MAC, MAC, MAC, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MACHH_D, MACHH_D, MACHH_D, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MACHH_W, MACHH_W, MACHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MACS_D, MACS_D, MACS_D, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MACSATHH_W, MACSATHH_W, MACSATHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MACUD, MACU_D, MACUD, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MACWH_D, MACWH_D, MACWH_D, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MAX, MAX, MAX, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(MCALL, MCALL, MCALL, MCALL, AVR32_V1), ++ SYNTAX_NORMAL2(MFDR, MFDR, MFDR, INTREG, UNSIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL2(MFSR, MFSR, MFSR, INTREG, UNSIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL3(MIN, MIN, MIN, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOV3, MOV, MOV3, MOV1, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOV1, MOV, MOV1, MOV2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOV2, MOV, MOV2,INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVEQ1, MOVEQ, MOVEQ1, MOVEQ2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVNE1, MOVNE, MOVNE1, MOVNE2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVCC1, MOVCC, MOVCC1, MOVCC2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVCS1, MOVCS, MOVCS1, MOVCS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVGE1, MOVGE, MOVGE1, MOVGE2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLT1, MOVLT, MOVLT1, MOVLT2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVMI1, MOVMI, MOVMI1, MOVMI2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVPL1, MOVPL, MOVPL1, MOVPL2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLS1, MOVLS, MOVLS1, MOVLS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVGT1, MOVGT, MOVGT1, MOVGT2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLE1, MOVLE, MOVLE1, MOVLE2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVHI1, MOVHI, MOVHI1, MOVHI2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVVS1, MOVVS, MOVVS1, MOVVS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVVC1, MOVVC, MOVVC1, MOVVC2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVQS1, MOVQS, MOVQS1, MOVQS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVAL1, MOVAL, MOVAL1, MOVAL2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVHS1, MOVHS, MOVCC1, MOVHS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLO1, MOVLO, MOVCS1, MOVLO2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(MOVEQ2, MOVEQ, MOVEQ2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVNE2, MOVNE, MOVNE2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVCC2, MOVCC, MOVCC2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVCS2, MOVCS, MOVCS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVGE2, MOVGE, MOVGE2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLT2, MOVLT, MOVLT2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVMI2, MOVMI, MOVMI2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVPL2, MOVPL, MOVPL2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLS2, MOVLS, MOVLS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVGT2, MOVGT, MOVGT2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLE2, MOVLE, MOVLE2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVHI2, MOVHI, MOVHI2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVVS2, MOVVS, MOVVS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVVC2, MOVVC, MOVVC2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVQS2, MOVQS, MOVQS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVAL2, MOVAL, MOVAL2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVHS2, MOVHS, MOVCC2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLO2, MOVLO, MOVCS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MTDR, MTDR, MTDR, UNSIGNED_CONST_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(MTSR, MTSR, MTSR, UNSIGNED_CONST_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MUL1, MUL, MUL1, MUL2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(MUL2, MUL, MUL2, MUL3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MUL3, MUL, MUL3, INTREG, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(MULHH_W, MULHH_W, MULHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULNHH_W, MULNHH_W, MULNHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULNWH_D, MULNWH_D, MULNWH_D, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSD, MULS_D, MULSD, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MULSATHH_H, MULSATHH_H, MULSATHH_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATHH_W, MULSATHH_W, MULSATHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATRNDHH_H, MULSATRNDHH_H, MULSATRNDHH_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATRNDWH_W, MULSATRNDWH_W, MULSATRNDWH_W, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATWH_W, MULSATWH_W, MULSATWH_W, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULU_D, MULU_D, MULU_D, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MULWH_D, MULWH_D, MULWH_D, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL1(MUSFR, MUSFR, MUSFR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(MUSTR, MUSTR, MUSTR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MVCR_D, MVCR_D, MVCR_D, CPNO, DWREG, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL3(MVCR_W, MVCR_W, MVCR_W, CPNO, INTREG, CPREG, AVR32_V1), ++ SYNTAX_NORMAL3(MVRC_D, MVRC_D, MVRC_D, CPNO, CPREG_D, DWREG, AVR32_V1), ++ SYNTAX_NORMAL3(MVRC_W, MVRC_W, MVRC_W, CPNO, CPREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(NEG, NEG, NEG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL0(NOP, NOP, NOP, AVR32_V1), ++ SYNTAX_NORMAL_C2(OR1, OR, OR1, OR2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(OR2, OR, OR2, OR3, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(OR3, OR, OR3, INTREG, INTREG, INTREG_LSR, AVR32_V1), ++ SYNTAX_NORMAL2(ORH, ORH, ORH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(ORL, ORL, ORL, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(PABS_SB, PABS_SB, PABS_SB, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL2(PABS_SH, PABS_SH, PABS_SH, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PACKSH_SB, PACKSH_SB, PACKSH_SB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PACKSH_UB, PACKSH_UB, PACKSH_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PACKW_SH, PACKW_SH, PACKW_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADD_B, PADD_B, PADD_B, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADD_H, PADD_H, PADD_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDH_SH, PADDH_SH, PADDH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDH_UB, PADDH_UB, PADDH_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_SB, PADDS_SB, PADDS_SB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_SH, PADDS_SH, PADDS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_UB, PADDS_UB, PADDS_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_UH, PADDS_UH, PADDS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUB_H, PADDSUB_H, PADDSUB_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUBH_SH, PADDSUBH_SH, PADDSUBH_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUBS_SH, PADDSUBS_SH, PADDSUBS_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUBS_UH, PADDSUBS_UH, PADDSUBS_UH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDX_H, PADDX_H, PADDX_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDXH_SH, PADDXH_SH, PADDXH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDXS_SH, PADDXS_SH, PADDXS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDXS_UH, PADDXS_UH, PADDXS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PASR_B, PASR_B, PASR_B, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PASR_H, PASR_H, PASR_H, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PAVG_SH, PAVG_SH, PAVG_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PAVG_UB, PAVG_UB, PAVG_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSL_B, PLSL_B, PLSL_B, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSL_H, PLSL_H, PLSL_H, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSR_B, PLSR_B, PLSR_B, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSR_H, PLSR_H, PLSR_H, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMAX_SH, PMAX_SH, PMAX_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMAX_UB, PMAX_UB, PMAX_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMIN_SH, PMIN_SH, PMIN_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMIN_UB, PMIN_UB, PMIN_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL0(POPJC, POPJC, POPJC, AVR32_V1), ++ SYNTAX_NORMAL_CM1(POPM, POPM, POPM, POPM_E, REGLIST9, AVR32_V1), ++ SYNTAX_NORMALM1(POPM_E, POPM, POPM_E, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL1(PREF, PREF, PREF, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL3(PSAD, PSAD, PSAD, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUB_B, PSUB_B, PSUB_B, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUB_H, PSUB_H, PSUB_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADD_H, PSUBADD_H, PSUBADD_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADDH_SH, PSUBADDH_SH, PSUBADDH_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADDS_SH, PSUBADDS_SH, PSUBADDS_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADDS_UH, PSUBADDS_UH, PSUBADDS_UH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBH_SH, PSUBH_SH, PSUBH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBH_UB, PSUBH_UB, PSUBH_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_SB, PSUBS_SB, PSUBS_SB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_SH, PSUBS_SH, PSUBS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_UB, PSUBS_UB, PSUBS_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_UH, PSUBS_UH, PSUBS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBX_H, PSUBX_H, PSUBX_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBXH_SH, PSUBXH_SH, PSUBXH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBXS_SH, PSUBXS_SH, PSUBXS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBXS_UH, PSUBXS_UH, PSUBXS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL2(PUNPCKSB_H, PUNPCKSB_H, PUNPCKSB_H, INTREG, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL2(PUNPCKUB_H, PUNPCKUB_H, PUNPCKUB_H, INTREG, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL0(PUSHJC, PUSHJC, PUSHJC, AVR32_V1), ++ SYNTAX_NORMAL_CM1(PUSHM, PUSHM, PUSHM, PUSHM_E, REGLIST8, AVR32_V1), ++ SYNTAX_NORMALM1(PUSHM_E, PUSHM, PUSHM_E, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL_C1(RCALL1, RCALL, RCALL1, RCALL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(RCALL2, RCALL, RCALL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(RETEQ, RETEQ, RETEQ, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETNE, RETNE, RETNE, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETCC, RETCC, RETCC, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETCS, RETCS, RETCS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETGE, RETGE, RETGE, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLT, RETLT, RETLT, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETMI, RETMI, RETMI, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETPL, RETPL, RETPL, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLS, RETLS, RETLS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETGT, RETGT, RETGT, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLE, RETLE, RETLE, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETHI, RETHI, RETHI, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETVS, RETVS, RETVS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETVC, RETVC, RETVC, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETQS, RETQS, RETQS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETAL, RETAL, RETAL, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETHS, RETHS, RETCC, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLO, RETLO, RETCS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL0(RETD, RETD, RETD, AVR32_V1), ++ SYNTAX_NORMAL0(RETE, RETE, RETE, AVR32_V1), ++ SYNTAX_NORMAL0(RETJ, RETJ, RETJ, AVR32_V1), ++ SYNTAX_NORMAL0(RETS, RETS, RETS, AVR32_V1), ++ SYNTAX_NORMAL1(RJMP, RJMP, RJMP, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(ROL, ROL, ROL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(ROR, ROR, ROR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(RSUB1, RSUB, RSUB1, RSUB2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(RSUB2, RSUB, RSUB2, INTREG, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(SATADD_H, SATADD_H, SATADD_H, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL3(SATADD_W, SATADD_W, SATADD_W, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL2(SATRNDS, SATRNDS, SATRNDS, INTREG_LSR, UNSIGNED_NUMBER, AVR32_DSP), ++ SYNTAX_NORMAL2(SATRNDU, SATRNDU, SATRNDU, INTREG_LSR, UNSIGNED_NUMBER, AVR32_DSP), ++ SYNTAX_NORMAL2(SATS, SATS, SATS, INTREG_LSR, UNSIGNED_NUMBER, AVR32_DSP), ++ SYNTAX_NORMAL3(SATSUB_H, SATSUB_H, SATSUB_H, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL_C3(SATSUB_W1, SATSUB_W, SATSUB_W1, SATSUB_W2, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL3(SATSUB_W2, SATSUB_W, SATSUB_W2, INTREG, INTREG, SIGNED_CONST, AVR32_DSP), ++ SYNTAX_NORMAL2(SATU, SATU, SATU, INTREG_LSR, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL3(SBC, SBC, SBC, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(SBR, SBR, SBR, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL0(SCALL, SCALL, SCALL, AVR32_V1), ++ SYNTAX_NORMAL1(SCR, SCR, SCR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SLEEP, SLEEP, SLEEP, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL1(SREQ, SREQ, SREQ, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRNE, SRNE, SRNE, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRCC, SRCC, SRCC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRCS, SRCS, SRCS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRGE, SRGE, SRGE, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLT, SRLT, SRLT, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRMI, SRMI, SRMI, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRPL, SRPL, SRPL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLS, SRLS, SRLS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRGT, SRGT, SRGT, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLE, SRLE, SRLE, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRHI, SRHI, SRHI, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRVS, SRVS, SRVS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRVC, SRVC, SRVC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRQS, SRQS, SRQS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRAL, SRAL, SRAL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRHS, SRHS, SRCC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLO, SRLO, SRCS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SSRF, SSRF, SSRF, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B1, ST_B, ST_B1, ST_B2, INTREG_POSTINC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B2, ST_B, ST_B2, ST_B5, INTREG_PREDEC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B5, ST_B, ST_B5, ST_B3, INTREG_INDEX, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B3, ST_B, ST_B3, ST_B4, INTREG_UDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_B4, ST_B, ST_B4, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D1, ST_D, ST_D1, ST_D2, INTREG_POSTINC, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D2, ST_D, ST_D2, ST_D3, INTREG_PREDEC, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D3, ST_D, ST_D3, ST_D5, INTREG, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D5, ST_D, ST_D5, ST_D4, INTREG_INDEX, DWREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_D4, ST_D, ST_D4, INTREG_SDISP, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H1, ST_H, ST_H1, ST_H2, INTREG_POSTINC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H2, ST_H, ST_H2, ST_H5, INTREG_PREDEC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H5, ST_H, ST_H5, ST_H3, INTREG_INDEX, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H3, ST_H, ST_H3, ST_H4, INTREG_UDISP_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_H4, ST_H, ST_H4, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W1, ST_W, ST_W1, ST_W2, INTREG_POSTINC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W2, ST_W, ST_W2, ST_W5, INTREG_PREDEC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W5, ST_W, ST_W5, ST_W3, INTREG_INDEX, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W3, ST_W, ST_W3, ST_W4, INTREG_UDISP_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_W4, ST_W, ST_W4, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(STC_D1, STC_D, STC_D1, CPNO, INTREG_UDISP_W, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_D2, STC_D, STC_D2, STC_D1, CPNO, INTREG_POSTINC, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_D3, STC_D, STC_D3, STC_D2, CPNO, INTREG_INDEX, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL3(STC_W1, STC_W, STC_W1, CPNO, INTREG_UDISP_W, CPREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_W2, STC_W, STC_W2, STC_W1, CPNO, INTREG_POSTINC, CPREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_W3, STC_W, STC_W3, STC_W2, CPNO, INTREG_INDEX, CPREG, AVR32_V1), ++ SYNTAX_NORMAL2(STC0_D, STC0_D, STC0_D, INTREG_UDISP_W, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL2(STC0_W, STC0_W, STC0_W, INTREG_UDISP_W, CPREG, AVR32_V1), ++ SYNTAX_NORMAL_CM3(STCM_D, STCM_D, STCM_D, STCM_D_PU, CPNO, INTREG, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMALM3(STCM_D_PU, STCM_D, STCM_D_PU, CPNO, INTREG_PREDEC, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMAL_CM3(STCM_W, STCM_W, STCM_W, STCM_W_PU, CPNO, INTREG, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMALM3(STCM_W_PU, STCM_W, STCM_W_PU, CPNO, INTREG_PREDEC, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMAL2(STCOND, STCOND, STCOND, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(STDSP, STDSP, STDSP, SP_UDISP_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(STHH_W2, STHH_W, STHH_W2, STHH_W1, INTREG_INDEX, INTREG_HSEL, INTREG_HSEL, AVR32_V1), ++ SYNTAX_NORMAL3(STHH_W1, STHH_W, STHH_W1, INTREG_UDISP_W, INTREG_HSEL, INTREG_HSEL, AVR32_V1), ++ SYNTAX_NORMAL_CM2(STM, STM, STM, STM_PU, INTREG, REGLIST16, AVR32_V1), ++ SYNTAX_NORMALM2(STM_PU, STM, STM_PU, INTREG_PREDEC, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL_CM2(STMTS, STMTS, STMTS, STMTS_PU, INTREG, REGLIST16, AVR32_V1), ++ SYNTAX_NORMALM2(STMTS_PU, STMTS, STMTS_PU, INTREG_PREDEC, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL2(STSWP_H, STSWP_H, STSWP_H, INTREG_SDISP_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(STSWP_W, STSWP_W, STSWP_W, INTREG_SDISP_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUB1, SUB, SUB1, SUB2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(SUB2, SUB, SUB2, SUB5, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL_C3(SUB5, SUB, SUB5, SUB3_SP, INTREG, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUB3_SP, SUB, SUB3_SP, SUB3, SP, SIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUB3, SUB, SUB3, SUB4, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUB4, SUB, SUB4, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBEQ, SUBEQ, SUBEQ, SUB2EQ, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBNE, SUBNE, SUBNE, SUB2NE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBCC, SUBCC, SUBCC, SUB2CC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBCS, SUBCS, SUBCS, SUB2CS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBGE, SUBGE, SUBGE, SUB2GE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLT, SUBLT, SUBLT, SUB2LT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBMI, SUBMI, SUBMI, SUB2MI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBPL, SUBPL, SUBPL, SUB2PL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLS, SUBLS, SUBLS, SUB2LS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBGT, SUBGT, SUBGT, SUB2GT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLE, SUBLE, SUBLE, SUB2LE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBHI, SUBHI, SUBHI, SUB2HI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBVS, SUBVS, SUBVS, SUB2VS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBVC, SUBVC, SUBVC, SUB2VC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBQS, SUBQS, SUBQS, SUB2QS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBAL, SUBAL, SUBAL, SUB2AL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBHS, SUBHS, SUBCC, SUB2CC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLO, SUBLO, SUBCS, SUB2CS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFEQ, SUBFEQ, SUBFEQ, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFNE, SUBFNE, SUBFNE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFCC, SUBFCC, SUBFCC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFCS, SUBFCS, SUBFCS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFGE, SUBFGE, SUBFGE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLT, SUBFLT, SUBFLT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFMI, SUBFMI, SUBFMI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFPL, SUBFPL, SUBFPL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLS, SUBFLS, SUBFLS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFGT, SUBFGT, SUBFGT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLE, SUBFLE, SUBFLE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFHI, SUBFHI, SUBFHI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFVS, SUBFVS, SUBFVS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFVC, SUBFVC, SUBFVC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFQS, SUBFQS, SUBFQS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFAL, SUBFAL, SUBFAL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFHS, SUBFHS, SUBFCC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLO, SUBFLO, SUBFCS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(SUBHH_W, SUBHH_W, SUBHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL1(SWAP_B, SWAP_B, SWAP_B, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SWAP_BH, SWAP_BH, SWAP_BH, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SWAP_H, SWAP_H, SWAP_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SYNC, SYNC, SYNC, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL0(TLBR, TLBR, TLBR, AVR32_V1), ++ SYNTAX_NORMAL0(TLBS, TLBS, TLBS, AVR32_V1), ++ SYNTAX_NORMAL0(TLBW, TLBW, TLBW, AVR32_V1), ++ SYNTAX_NORMAL1(TNBZ, TNBZ, TNBZ, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(TST, TST, TST, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(XCHG, XCHG, XCHG, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(MEMC, MEMC, MEMC, SIGNED_CONST_W, UNSIGNED_NUMBER, AVR32_RMW), ++ SYNTAX_NORMAL2(MEMS, MEMS, MEMS, SIGNED_CONST_W, UNSIGNED_NUMBER, AVR32_RMW), ++ SYNTAX_NORMAL2(MEMT, MEMT, MEMT, SIGNED_CONST_W, UNSIGNED_NUMBER, AVR32_RMW), ++ SYNTAX_FP(FADD, 3), ++ SYNTAX_FP(FSUB, 3), ++ SYNTAX_FP(FMAC, 3), ++ SYNTAX_FP(FNMAC, 3), ++ SYNTAX_FP(FMSC, 3), ++ SYNTAX_FP(FNMSC, 3), ++ SYNTAX_FP(FMUL, 3), ++ SYNTAX_FP(FNMUL, 3), ++ SYNTAX_FP(FNEG, 2), ++ SYNTAX_FP(FABS, 2), ++ SYNTAX_FP(FCMP, 2), ++ { ++ AVR32_SYNTAX_FMOV1_S, ++ AVR32_FP, NULL, AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_FMOV1_S] }, ++ &avr32_syntax_table[AVR32_SYNTAX_FMOV2_S], ++ 2, ++ { ++ AVR32_OPERAND_FPREG_S, ++ AVR32_OPERAND_FPREG_S, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_FMOV1_D, ++ AVR32_FP, NULL, AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_FMOV1_D] }, ++ &avr32_syntax_table[AVR32_SYNTAX_FMOV2_D], ++ 2, ++ { ++ AVR32_OPERAND_FPREG_D, ++ AVR32_OPERAND_FPREG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_FMOV2_S, ++ AVR32_FP, NULL, AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_FMOV2_S] }, ++ &avr32_syntax_table[AVR32_SYNTAX_FMOV3_S], ++ 2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_FPREG_S, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_FMOV2_D, ++ AVR32_FP, NULL, AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_FMOV2_D] }, ++ &avr32_syntax_table[AVR32_SYNTAX_FMOV3_D], ++ 2, ++ { ++ AVR32_OPERAND_DWREG, ++ AVR32_OPERAND_FPREG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_FMOV3_S, ++ AVR32_FP, NULL, AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_FMOV3_S] }, NULL, ++ 2, ++ { ++ AVR32_OPERAND_FPREG_S, ++ AVR32_OPERAND_INTREG, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_FMOV3_D, ++ AVR32_FP, NULL, AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_FMOV3_D] }, NULL, ++ 2, ++ { ++ AVR32_OPERAND_FPREG_D, ++ AVR32_OPERAND_DWREG, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_FCASTS_D, ++ AVR32_FP, NULL, AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_FCASTS_D] }, NULL, ++ 2, ++ { ++ AVR32_OPERAND_FPREG_S, ++ AVR32_OPERAND_FPREG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_FCASTD_S, ++ AVR32_FP, NULL, AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_FCASTD_S] }, NULL, ++ 2, ++ { ++ AVR32_OPERAND_FPREG_D, ++ AVR32_OPERAND_FPREG_S, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_LDA_W, ++ AVR32_V1, NULL, AVR32_PARSER_LDA, ++ { NULL }, NULL, ++ 2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_SIGNED_CONST, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_CALL, ++ AVR32_V1, NULL, AVR32_PARSER_CALL, ++ { NULL }, NULL, ++ 1, ++ { ++ AVR32_OPERAND_JMPLABEL, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMAC1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMAC2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMAC3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMUL1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMUL2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMUL3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMAC1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMAC2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMAC3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMUL1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMUL2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMUL3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_D2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_D2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_D3], 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_INTREG_PREDEC, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_D3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_D3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_D1], 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_INTREG_INDEX, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_D1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_D1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_INTREG_UDISP_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_W2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_W2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_W3], 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG_PREDEC, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_W3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_W3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_W1], 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG_INDEX, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_W1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_W1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG_UDISP_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_D, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_D] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLDM_D_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_D_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_D_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_W, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_W] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLDM_W_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_W_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_W_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_D1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_D1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOMV_D2], 2, ++ { ++ AVR32_OPERAND_DWREG, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_D2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_D2] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_DWREG, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_W1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_W1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOMV_W2], 2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_W2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_W2] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_D2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_D2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_D3], 2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_D3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_D3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_D1], 2, ++ { ++ AVR32_OPERAND_INTREG_INDEX, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_D1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_D1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_INTREG_UDISP_W, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_W2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_W2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_W3], 2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_W3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_W3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_W1], 2, ++ { ++ AVR32_OPERAND_INTREG_INDEX, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_W1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_W1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_INTREG_UDISP_W, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_D, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_D] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSTM_D_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_D_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_D_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_PREDEC, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_W, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_W] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSTM_W_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_W_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_W_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_PREDEC, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ SYNTAX_NORMAL2(RSUBEQ, RSUBEQ, RSUBEQ, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(RSUBNE, RSUBNE, RSUBNE, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBCC, RSUBCC, RSUBCC, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBCS, RSUBCS, RSUBCS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBGE, RSUBGE, RSUBGE, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLT, RSUBLT, RSUBLT, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBMI, RSUBMI, RSUBMI, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBPL, RSUBPL, RSUBPL, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLS, RSUBLS, RSUBLS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBGT, RSUBGT, RSUBGT, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLE, RSUBLE, RSUBLE, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBHI, RSUBHI, RSUBHI, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBVS, RSUBVS, RSUBVS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBVC, RSUBVC, RSUBVC, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBQS, RSUBQS, RSUBQS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBAL, RSUBAL, RSUBAL, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBHS, RSUBHS, RSUBCC, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLO, RSUBLO, RSUBCS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL3(ADDEQ, ADDEQ, ADDEQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDNE, ADDNE, ADDNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDCC, ADDCC, ADDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDCS, ADDCS, ADDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDGE, ADDGE, ADDGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLT, ADDLT, ADDLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDMI, ADDMI, ADDMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDPL, ADDPL, ADDPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLS, ADDLS, ADDLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDGT, ADDGT, ADDGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLE, ADDLE, ADDLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDHI, ADDHI, ADDHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDVS, ADDVS, ADDVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDVC, ADDVC, ADDVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDQS, ADDQS, ADDQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDAL, ADDAL, ADDAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDHS, ADDHS, ADDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLO, ADDLO, ADDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2EQ, SUBEQ, SUB2EQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2NE, SUBNE, SUB2NE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2CC, SUBCC, SUB2CC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2CS, SUBCS, SUB2CS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2GE, SUBGE, SUB2GE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LT, SUBLT, SUB2LT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2MI, SUBMI, SUB2MI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2PL, SUBPL, SUB2PL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LS, SUBLS, SUB2LS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2GT, SUBGT, SUB2GT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LE, SUBLE, SUB2LE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2HI, SUBHI, SUB2HI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2VS, SUBVS, SUB2VS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2VC, SUBVC, SUB2VC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2QS, SUBQS, SUB2QS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2AL, SUBAL, SUB2AL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2HS, SUBHS, SUB2CC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LO, SUBLO, SUB2CS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDEQ, ANDEQ, ANDEQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDNE, ANDNE, ANDNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDCC, ANDCC, ANDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDCS, ANDCS, ANDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDGE, ANDGE, ANDGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLT, ANDLT, ANDLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDMI, ANDMI, ANDMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDPL, ANDPL, ANDPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLS, ANDLS, ANDLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDGT, ANDGT, ANDGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLE, ANDLE, ANDLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDHI, ANDHI, ANDHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDVS, ANDVS, ANDVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDVC, ANDVC, ANDVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDQS, ANDQS, ANDQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDAL, ANDAL, ANDAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDHS, ANDHS, ANDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLO, ANDLO, ANDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(OREQ, OREQ, OREQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORNE, ORNE, ORNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORCC, ORCC, ORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORCS, ORCS, ORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORGE, ORGE, ORGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLT, ORLT, ORLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORMI, ORMI, ORMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORPL, ORPL, ORPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLS, ORLS, ORLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORGT, ORGT, ORGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLE, ORLE, ORLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORHI, ORHI, ORHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORVS, ORVS, ORVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORVC, ORVC, ORVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORQS, ORQS, ORQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORAL, ORAL, ORAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORHS, ORHS, ORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLO, ORLO, ORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EOREQ, EOREQ, EOREQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORNE, EORNE, EORNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORCC, EORCC, EORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORCS, EORCS, EORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORGE, EORGE, EORGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLT, EORLT, EORLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORMI, EORMI, EORMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORPL, EORPL, EORPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLS, EORLS, EORLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORGT, EORGT, EORGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLE, EORLE, EORLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORHI, EORHI, EORHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORVS, EORVS, EORVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORVC, EORVC, EORVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORQS, EORQS, EORQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORAL, EORAL, EORAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORHS, EORHS, EORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLO, EORLO, EORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WEQ, LD_WEQ, LD_WEQ, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WNE, LD_WNE, LD_WNE, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WCC, LD_WCC, LD_WCC, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WCS, LD_WCS, LD_WCS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WGE, LD_WGE, LD_WGE, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLT, LD_WLT, LD_WLT, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WMI, LD_WMI, LD_WMI, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WPL, LD_WPL, LD_WPL, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLS, LD_WLS, LD_WLS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WGT, LD_WGT, LD_WGT, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLE, LD_WLE, LD_WLE, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WHI, LD_WHI, LD_WHI, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WVS, LD_WVS, LD_WVS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WVC, LD_WVC, LD_WVC, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WQS, LD_WQS, LD_WQS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WAL, LD_WAL, LD_WAL, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WHS, LD_WHS, LD_WCC, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLO, LD_WLO, LD_WCS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHEQ, LD_SHEQ, LD_SHEQ, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHNE, LD_SHNE, LD_SHNE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHCC, LD_SHCC, LD_SHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHCS, LD_SHCS, LD_SHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHGE, LD_SHGE, LD_SHGE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLT, LD_SHLT, LD_SHLT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHMI, LD_SHMI, LD_SHMI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHPL, LD_SHPL, LD_SHPL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLS, LD_SHLS, LD_SHLS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHGT, LD_SHGT, LD_SHGT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLE, LD_SHLE, LD_SHLE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHHI, LD_SHHI, LD_SHHI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHVS, LD_SHVS, LD_SHVS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHVC, LD_SHVC, LD_SHVC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHQS, LD_SHQS, LD_SHQS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHAL, LD_SHAL, LD_SHAL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHHS, LD_SHHS, LD_SHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLO, LD_SHLO, LD_SHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHEQ, LD_UHEQ, LD_UHEQ, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHNE, LD_UHNE, LD_UHNE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHCC, LD_UHCC, LD_UHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHCS, LD_UHCS, LD_UHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHGE, LD_UHGE, LD_UHGE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLT, LD_UHLT, LD_UHLT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHMI, LD_UHMI, LD_UHMI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHPL, LD_UHPL, LD_UHPL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLS, LD_UHLS, LD_UHLS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHGT, LD_UHGT, LD_UHGT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLE, LD_UHLE, LD_UHLE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHHI, LD_UHHI, LD_UHHI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHVS, LD_UHVS, LD_UHVS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHVC, LD_UHVC, LD_UHVC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHQS, LD_UHQS, LD_UHQS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHAL, LD_UHAL, LD_UHAL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHHS, LD_UHHS, LD_UHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLO, LD_UHLO, LD_UHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBEQ, LD_SBEQ, LD_SBEQ, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBNE, LD_SBNE, LD_SBNE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBCC, LD_SBCC, LD_SBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBCS, LD_SBCS, LD_SBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBGE, LD_SBGE, LD_SBGE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLT, LD_SBLT, LD_SBLT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBMI, LD_SBMI, LD_SBMI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBPL, LD_SBPL, LD_SBPL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLS, LD_SBLS, LD_SBLS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBGT, LD_SBGT, LD_SBGT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLE, LD_SBLE, LD_SBLE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBHI, LD_SBHI, LD_SBHI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBVS, LD_SBVS, LD_SBVS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBVC, LD_SBVC, LD_SBVC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBQS, LD_SBQS, LD_SBQS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBAL, LD_SBAL, LD_SBAL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBHS, LD_SBHS, LD_SBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLO, LD_SBLO, LD_SBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBEQ, LD_UBEQ, LD_UBEQ, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBNE, LD_UBNE, LD_UBNE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBCC, LD_UBCC, LD_UBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBCS, LD_UBCS, LD_UBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBGE, LD_UBGE, LD_UBGE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLT, LD_UBLT, LD_UBLT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBMI, LD_UBMI, LD_UBMI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBPL, LD_UBPL, LD_UBPL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLS, LD_UBLS, LD_UBLS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBGT, LD_UBGT, LD_UBGT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLE, LD_UBLE, LD_UBLE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBHI, LD_UBHI, LD_UBHI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBVS, LD_UBVS, LD_UBVS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBVC, LD_UBVC, LD_UBVC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBQS, LD_UBQS, LD_UBQS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBAL, LD_UBAL, LD_UBAL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBHS, LD_UBHS, LD_UBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLO, LD_UBLO, LD_UBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WEQ, ST_WEQ, ST_WEQ, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WNE, ST_WNE, ST_WNE, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WCC, ST_WCC, ST_WCC, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WCS, ST_WCS, ST_WCS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WGE, ST_WGE, ST_WGE, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLT, ST_WLT, ST_WLT, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WMI, ST_WMI, ST_WMI, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WPL, ST_WPL, ST_WPL, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLS, ST_WLS, ST_WLS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WGT, ST_WGT, ST_WGT, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLE, ST_WLE, ST_WLE, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WHI, ST_WHI, ST_WHI, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WVS, ST_WVS, ST_WVS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WVC, ST_WVC, ST_WVC, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WQS, ST_WQS, ST_WQS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WAL, ST_WAL, ST_WAL, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WHS, ST_WHS, ST_WCC, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLO, ST_WLO, ST_WCS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HEQ, ST_HEQ, ST_HEQ, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HNE, ST_HNE, ST_HNE, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HCC, ST_HCC, ST_HCC, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HCS, ST_HCS, ST_HCS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HGE, ST_HGE, ST_HGE, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLT, ST_HLT, ST_HLT, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HMI, ST_HMI, ST_HMI, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HPL, ST_HPL, ST_HPL, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLS, ST_HLS, ST_HLS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HGT, ST_HGT, ST_HGT, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLE, ST_HLE, ST_HLE, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HHI, ST_HHI, ST_HHI, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HVS, ST_HVS, ST_HVS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HVC, ST_HVC, ST_HVC, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HQS, ST_HQS, ST_HQS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HAL, ST_HAL, ST_HAL, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HHS, ST_HHS, ST_HCC, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLO, ST_HLO, ST_HCS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BEQ, ST_BEQ, ST_BEQ, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BNE, ST_BNE, ST_BNE, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BCC, ST_BCC, ST_BCC, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BCS, ST_BCS, ST_BCS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BGE, ST_BGE, ST_BGE, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLT, ST_BLT, ST_BLT, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BMI, ST_BMI, ST_BMI, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BPL, ST_BPL, ST_BPL, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLS, ST_BLS, ST_BLS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BGT, ST_BGT, ST_BGT, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLE, ST_BLE, ST_BLE, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BHI, ST_BHI, ST_BHI, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BVS, ST_BVS, ST_BVS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BVC, ST_BVC, ST_BVC, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BQS, ST_BQS, ST_BQS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BAL, ST_BAL, ST_BAL, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BHS, ST_BHS, ST_BCC, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLO, ST_BLO, ST_BCS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(MOVH, MOVH, MOVH, INTREG, UNSIGNED_CONST, AVR32_V2), ++ ++ }; ++ ++#define NORMAL_MNEMONIC(name, syntax, str) \ ++ { \ ++ AVR32_MNEMONIC_##name, str, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##syntax], \ ++ } ++#define FP_MNEMONIC(name, syntax, str) \ ++ NORMAL_MNEMONIC(name##_S, syntax##_S, str ".s"), \ ++ NORMAL_MNEMONIC(name##_D, syntax##_D, str ".d") ++ ++const struct avr32_mnemonic avr32_mnemonic_table[] = ++ { ++ NORMAL_MNEMONIC(ABS, ABS, "abs"), ++ NORMAL_MNEMONIC(ACALL, ACALL, "acall"), ++ NORMAL_MNEMONIC(ACR, ACR, "acr"), ++ NORMAL_MNEMONIC(ADC, ADC, "adc"), ++ NORMAL_MNEMONIC(ADD, ADD1, "add"), ++ NORMAL_MNEMONIC(ADDABS, ADDABS, "addabs"), ++ NORMAL_MNEMONIC(ADDHH_W, ADDHH_W, "addhh.w"), ++ NORMAL_MNEMONIC(AND, AND1, "and"), ++ NORMAL_MNEMONIC(ANDH, ANDH, "andh"), ++ NORMAL_MNEMONIC(ANDL, ANDL, "andl"), ++ NORMAL_MNEMONIC(ANDN, ANDN, "andn"), ++ NORMAL_MNEMONIC(ASR, ASR1, "asr"), ++ NORMAL_MNEMONIC(BFEXTS, BFEXTS, "bfexts"), ++ NORMAL_MNEMONIC(BFEXTU, BFEXTU, "bfextu"), ++ NORMAL_MNEMONIC(BFINS, BFINS, "bfins"), ++ NORMAL_MNEMONIC(BLD, BLD, "bld"), ++ NORMAL_MNEMONIC(BREQ, BREQ1, "breq"), ++ NORMAL_MNEMONIC(BRNE, BRNE1, "brne"), ++ NORMAL_MNEMONIC(BRCC, BRCC1, "brcc"), ++ NORMAL_MNEMONIC(BRCS, BRCS1, "brcs"), ++ NORMAL_MNEMONIC(BRGE, BRGE1, "brge"), ++ NORMAL_MNEMONIC(BRLT, BRLT1, "brlt"), ++ NORMAL_MNEMONIC(BRMI, BRMI1, "brmi"), ++ NORMAL_MNEMONIC(BRPL, BRPL1, "brpl"), ++ NORMAL_MNEMONIC(BRHS, BRHS1, "brhs"), ++ NORMAL_MNEMONIC(BRLO, BRLO1, "brlo"), ++ NORMAL_MNEMONIC(BRLS, BRLS, "brls"), ++ NORMAL_MNEMONIC(BRGT, BRGT, "brgt"), ++ NORMAL_MNEMONIC(BRLE, BRLE, "brle"), ++ NORMAL_MNEMONIC(BRHI, BRHI, "brhi"), ++ NORMAL_MNEMONIC(BRVS, BRVS, "brvs"), ++ NORMAL_MNEMONIC(BRVC, BRVC, "brvc"), ++ NORMAL_MNEMONIC(BRQS, BRQS, "brqs"), ++ NORMAL_MNEMONIC(BRAL, BRAL, "bral"), ++ NORMAL_MNEMONIC(BREAKPOINT, BREAKPOINT, "breakpoint"), ++ NORMAL_MNEMONIC(BREV, BREV, "brev"), ++ NORMAL_MNEMONIC(BST, BST, "bst"), ++ NORMAL_MNEMONIC(CACHE, CACHE, "cache"), ++ NORMAL_MNEMONIC(CASTS_B, CASTS_B, "casts.b"), ++ NORMAL_MNEMONIC(CASTS_H, CASTS_H, "casts.h"), ++ NORMAL_MNEMONIC(CASTU_B, CASTU_B, "castu.b"), ++ NORMAL_MNEMONIC(CASTU_H, CASTU_H, "castu.h"), ++ NORMAL_MNEMONIC(CBR, CBR, "cbr"), ++ NORMAL_MNEMONIC(CLZ, CLZ, "clz"), ++ NORMAL_MNEMONIC(COM, COM, "com"), ++ NORMAL_MNEMONIC(COP, COP, "cop"), ++ NORMAL_MNEMONIC(CP_B, CP_B, "cp.b"), ++ NORMAL_MNEMONIC(CP_H, CP_H, "cp.h"), ++ NORMAL_MNEMONIC(CP_W, CP_W1, "cp.w"), ++ NORMAL_MNEMONIC(CP, CP_W1, "cp"), ++ NORMAL_MNEMONIC(CPC, CPC1, "cpc"), ++ NORMAL_MNEMONIC(CSRF, CSRF, "csrf"), ++ NORMAL_MNEMONIC(CSRFCZ, CSRFCZ, "csrfcz"), ++ NORMAL_MNEMONIC(DIVS, DIVS, "divs"), ++ NORMAL_MNEMONIC(DIVU, DIVU, "divu"), ++ NORMAL_MNEMONIC(EOR, EOR1, "eor"), ++ NORMAL_MNEMONIC(EORL, EORL, "eorl"), ++ NORMAL_MNEMONIC(EORH, EORH, "eorh"), ++ NORMAL_MNEMONIC(FRS, FRS, "frs"), ++ NORMAL_MNEMONIC(SSCALL, SSCALL, "sscall"), ++ NORMAL_MNEMONIC(RETSS, RETSS, "retss"), ++ NORMAL_MNEMONIC(ICALL, ICALL, "icall"), ++ NORMAL_MNEMONIC(INCJOSP, INCJOSP, "incjosp"), ++ NORMAL_MNEMONIC(LD_D, LD_D1, "ld.d"), ++ NORMAL_MNEMONIC(LD_SB, LD_SB2, "ld.sb"), ++ NORMAL_MNEMONIC(LD_UB, LD_UB1, "ld.ub"), ++ NORMAL_MNEMONIC(LD_SH, LD_SH1, "ld.sh"), ++ NORMAL_MNEMONIC(LD_UH, LD_UH1, "ld.uh"), ++ NORMAL_MNEMONIC(LD_W, LD_W1, "ld.w"), ++ NORMAL_MNEMONIC(LDC_D, LDC_D3, "ldc.d"), ++ NORMAL_MNEMONIC(LDC_W, LDC_W3, "ldc.w"), ++ NORMAL_MNEMONIC(LDC0_D, LDC0_D, "ldc0.d"), ++ NORMAL_MNEMONIC(LDC0_W, LDC0_W, "ldc0.w"), ++ NORMAL_MNEMONIC(LDCM_D, LDCM_D, "ldcm.d"), ++ NORMAL_MNEMONIC(LDCM_W, LDCM_W, "ldcm.w"), ++ NORMAL_MNEMONIC(LDDPC, LDDPC, "lddpc"), ++ NORMAL_MNEMONIC(LDDSP, LDDSP, "lddsp"), ++ NORMAL_MNEMONIC(LDINS_B, LDINS_B, "ldins.b"), ++ NORMAL_MNEMONIC(LDINS_H, LDINS_H, "ldins.h"), ++ NORMAL_MNEMONIC(LDM, LDM, "ldm"), ++ NORMAL_MNEMONIC(LDMTS, LDMTS, "ldmts"), ++ NORMAL_MNEMONIC(LDSWP_SH, LDSWP_SH, "ldswp.sh"), ++ NORMAL_MNEMONIC(LDSWP_UH, LDSWP_UH, "ldswp.uh"), ++ NORMAL_MNEMONIC(LDSWP_W, LDSWP_W, "ldswp.w"), ++ NORMAL_MNEMONIC(LSL, LSL1, "lsl"), ++ NORMAL_MNEMONIC(LSR, LSR1, "lsr"), ++ NORMAL_MNEMONIC(MAC, MAC, "mac"), ++ NORMAL_MNEMONIC(MACHH_D, MACHH_D, "machh.d"), ++ NORMAL_MNEMONIC(MACHH_W, MACHH_W, "machh.w"), ++ NORMAL_MNEMONIC(MACS_D, MACS_D, "macs.d"), ++ NORMAL_MNEMONIC(MACSATHH_W, MACSATHH_W, "macsathh.w"), ++ NORMAL_MNEMONIC(MACU_D, MACUD, "macu.d"), ++ NORMAL_MNEMONIC(MACWH_D, MACWH_D, "macwh.d"), ++ NORMAL_MNEMONIC(MAX, MAX, "max"), ++ NORMAL_MNEMONIC(MCALL, MCALL, "mcall"), ++ NORMAL_MNEMONIC(MFDR, MFDR, "mfdr"), ++ NORMAL_MNEMONIC(MFSR, MFSR, "mfsr"), ++ NORMAL_MNEMONIC(MIN, MIN, "min"), ++ NORMAL_MNEMONIC(MOV, MOV3, "mov"), ++ NORMAL_MNEMONIC(MOVEQ, MOVEQ1, "moveq"), ++ NORMAL_MNEMONIC(MOVNE, MOVNE1, "movne"), ++ NORMAL_MNEMONIC(MOVCC, MOVCC1, "movcc"), ++ NORMAL_MNEMONIC(MOVCS, MOVCS1, "movcs"), ++ NORMAL_MNEMONIC(MOVGE, MOVGE1, "movge"), ++ NORMAL_MNEMONIC(MOVLT, MOVLT1, "movlt"), ++ NORMAL_MNEMONIC(MOVMI, MOVMI1, "movmi"), ++ NORMAL_MNEMONIC(MOVPL, MOVPL1, "movpl"), ++ NORMAL_MNEMONIC(MOVLS, MOVLS1, "movls"), ++ NORMAL_MNEMONIC(MOVGT, MOVGT1, "movgt"), ++ NORMAL_MNEMONIC(MOVLE, MOVLE1, "movle"), ++ NORMAL_MNEMONIC(MOVHI, MOVHI1, "movhi"), ++ NORMAL_MNEMONIC(MOVVS, MOVVS1, "movvs"), ++ NORMAL_MNEMONIC(MOVVC, MOVVC1, "movvc"), ++ NORMAL_MNEMONIC(MOVQS, MOVQS1, "movqs"), ++ NORMAL_MNEMONIC(MOVAL, MOVAL1, "moval"), ++ NORMAL_MNEMONIC(MOVHS, MOVHS1, "movhs"), ++ NORMAL_MNEMONIC(MOVLO, MOVLO1, "movlo"), ++ NORMAL_MNEMONIC(MTDR, MTDR, "mtdr"), ++ NORMAL_MNEMONIC(MTSR, MTSR, "mtsr"), ++ NORMAL_MNEMONIC(MUL, MUL1, "mul"), ++ NORMAL_MNEMONIC(MULHH_W, MULHH_W, "mulhh.w"), ++ NORMAL_MNEMONIC(MULNHH_W, MULNHH_W, "mulnhh.w"), ++ NORMAL_MNEMONIC(MULNWH_D, MULNWH_D, "mulnwh.d"), ++ NORMAL_MNEMONIC(MULS_D, MULSD, "muls.d"), ++ NORMAL_MNEMONIC(MULSATHH_H, MULSATHH_H, "mulsathh.h"), ++ NORMAL_MNEMONIC(MULSATHH_W, MULSATHH_W, "mulsathh.w"), ++ NORMAL_MNEMONIC(MULSATRNDHH_H, MULSATRNDHH_H, "mulsatrndhh.h"), ++ NORMAL_MNEMONIC(MULSATRNDWH_W, MULSATRNDWH_W, "mulsatrndwh.w"), ++ NORMAL_MNEMONIC(MULSATWH_W, MULSATWH_W, "mulsatwh.w"), ++ NORMAL_MNEMONIC(MULU_D, MULU_D, "mulu.d"), ++ NORMAL_MNEMONIC(MULWH_D, MULWH_D, "mulwh.d"), ++ NORMAL_MNEMONIC(MUSFR, MUSFR, "musfr"), ++ NORMAL_MNEMONIC(MUSTR, MUSTR, "mustr"), ++ NORMAL_MNEMONIC(MVCR_D, MVCR_D, "mvcr.d"), ++ NORMAL_MNEMONIC(MVCR_W, MVCR_W, "mvcr.w"), ++ NORMAL_MNEMONIC(MVRC_D, MVRC_D, "mvrc.d"), ++ NORMAL_MNEMONIC(MVRC_W, MVRC_W, "mvrc.w"), ++ NORMAL_MNEMONIC(NEG, NEG, "neg"), ++ NORMAL_MNEMONIC(NOP, NOP, "nop"), ++ NORMAL_MNEMONIC(OR, OR1, "or"), ++ NORMAL_MNEMONIC(ORH, ORH, "orh"), ++ NORMAL_MNEMONIC(ORL, ORL, "orl"), ++ NORMAL_MNEMONIC(PABS_SB, PABS_SB, "pabs.sb"), ++ NORMAL_MNEMONIC(PABS_SH, PABS_SH, "pabs.sh"), ++ NORMAL_MNEMONIC(PACKSH_SB, PACKSH_SB, "packsh.sb"), ++ NORMAL_MNEMONIC(PACKSH_UB, PACKSH_UB, "packsh.ub"), ++ NORMAL_MNEMONIC(PACKW_SH, PACKW_SH, "packw.sh"), ++ NORMAL_MNEMONIC(PADD_B, PADD_B, "padd.b"), ++ NORMAL_MNEMONIC(PADD_H, PADD_H, "padd.h"), ++ NORMAL_MNEMONIC(PADDH_SH, PADDH_SH, "paddh.sh"), ++ NORMAL_MNEMONIC(PADDH_UB, PADDH_UB, "paddh.ub"), ++ NORMAL_MNEMONIC(PADDS_SB, PADDS_SB, "padds.sb"), ++ NORMAL_MNEMONIC(PADDS_SH, PADDS_SH, "padds.sh"), ++ NORMAL_MNEMONIC(PADDS_UB, PADDS_UB, "padds.ub"), ++ NORMAL_MNEMONIC(PADDS_UH, PADDS_UH, "padds.uh"), ++ NORMAL_MNEMONIC(PADDSUB_H, PADDSUB_H, "paddsub.h"), ++ NORMAL_MNEMONIC(PADDSUBH_SH, PADDSUBH_SH, "paddsubh.sh"), ++ NORMAL_MNEMONIC(PADDSUBS_SH, PADDSUBS_SH, "paddsubs.sh"), ++ NORMAL_MNEMONIC(PADDSUBS_UH, PADDSUBS_UH, "paddsubs.uh"), ++ NORMAL_MNEMONIC(PADDX_H, PADDX_H, "paddx.h"), ++ NORMAL_MNEMONIC(PADDXH_SH, PADDXH_SH, "paddxh.sh"), ++ NORMAL_MNEMONIC(PADDXS_SH, PADDXS_SH, "paddxs.sh"), ++ NORMAL_MNEMONIC(PADDXS_UH, PADDXS_UH, "paddxs.uh"), ++ NORMAL_MNEMONIC(PASR_B, PASR_B, "pasr.b"), ++ NORMAL_MNEMONIC(PASR_H, PASR_H, "pasr.h"), ++ NORMAL_MNEMONIC(PAVG_SH, PAVG_SH, "pavg.sh"), ++ NORMAL_MNEMONIC(PAVG_UB, PAVG_UB, "pavg.ub"), ++ NORMAL_MNEMONIC(PLSL_B, PLSL_B, "plsl.b"), ++ NORMAL_MNEMONIC(PLSL_H, PLSL_H, "plsl.h"), ++ NORMAL_MNEMONIC(PLSR_B, PLSR_B, "plsr.b"), ++ NORMAL_MNEMONIC(PLSR_H, PLSR_H, "plsr.h"), ++ NORMAL_MNEMONIC(PMAX_SH, PMAX_SH, "pmax.sh"), ++ NORMAL_MNEMONIC(PMAX_UB, PMAX_UB, "pmax.ub"), ++ NORMAL_MNEMONIC(PMIN_SH, PMIN_SH, "pmin.sh"), ++ NORMAL_MNEMONIC(PMIN_UB, PMIN_UB, "pmin.ub"), ++ NORMAL_MNEMONIC(POPJC, POPJC, "popjc"), ++ NORMAL_MNEMONIC(POPM, POPM, "popm"), ++ NORMAL_MNEMONIC(PREF, PREF, "pref"), ++ NORMAL_MNEMONIC(PSAD, PSAD, "psad"), ++ NORMAL_MNEMONIC(PSUB_B, PSUB_B, "psub.b"), ++ NORMAL_MNEMONIC(PSUB_H, PSUB_H, "psub.h"), ++ NORMAL_MNEMONIC(PSUBADD_H, PSUBADD_H, "psubadd.h"), ++ NORMAL_MNEMONIC(PSUBADDH_SH, PSUBADDH_SH, "psubaddh.sh"), ++ NORMAL_MNEMONIC(PSUBADDS_SH, PSUBADDS_SH, "psubadds.sh"), ++ NORMAL_MNEMONIC(PSUBADDS_UH, PSUBADDS_UH, "psubadds.uh"), ++ NORMAL_MNEMONIC(PSUBH_SH, PSUBH_SH, "psubh.sh"), ++ NORMAL_MNEMONIC(PSUBH_UB, PSUBH_UB, "psubh.ub"), ++ NORMAL_MNEMONIC(PSUBS_SB, PSUBS_SB, "psubs.sb"), ++ NORMAL_MNEMONIC(PSUBS_SH, PSUBS_SH, "psubs.sh"), ++ NORMAL_MNEMONIC(PSUBS_UB, PSUBS_UB, "psubs.ub"), ++ NORMAL_MNEMONIC(PSUBS_UH, PSUBS_UH, "psubs.uh"), ++ NORMAL_MNEMONIC(PSUBX_H, PSUBX_H, "psubx.h"), ++ NORMAL_MNEMONIC(PSUBXH_SH, PSUBXH_SH, "psubxh.sh"), ++ NORMAL_MNEMONIC(PSUBXS_SH, PSUBXS_SH, "psubxs.sh"), ++ NORMAL_MNEMONIC(PSUBXS_UH, PSUBXS_UH, "psubxs.uh"), ++ NORMAL_MNEMONIC(PUNPCKSB_H, PUNPCKSB_H, "punpcksb.h"), ++ NORMAL_MNEMONIC(PUNPCKUB_H, PUNPCKUB_H, "punpckub.h"), ++ NORMAL_MNEMONIC(PUSHJC, PUSHJC, "pushjc"), ++ NORMAL_MNEMONIC(PUSHM, PUSHM, "pushm"), ++ NORMAL_MNEMONIC(RCALL, RCALL1, "rcall"), ++ NORMAL_MNEMONIC(RETEQ, RETEQ, "reteq"), ++ NORMAL_MNEMONIC(RETNE, RETNE, "retne"), ++ NORMAL_MNEMONIC(RETCC, RETCC, "retcc"), ++ NORMAL_MNEMONIC(RETCS, RETCS, "retcs"), ++ NORMAL_MNEMONIC(RETGE, RETGE, "retge"), ++ NORMAL_MNEMONIC(RETLT, RETLT, "retlt"), ++ NORMAL_MNEMONIC(RETMI, RETMI, "retmi"), ++ NORMAL_MNEMONIC(RETPL, RETPL, "retpl"), ++ NORMAL_MNEMONIC(RETLS, RETLS, "retls"), ++ NORMAL_MNEMONIC(RETGT, RETGT, "retgt"), ++ NORMAL_MNEMONIC(RETLE, RETLE, "retle"), ++ NORMAL_MNEMONIC(RETHI, RETHI, "rethi"), ++ NORMAL_MNEMONIC(RETVS, RETVS, "retvs"), ++ NORMAL_MNEMONIC(RETVC, RETVC, "retvc"), ++ NORMAL_MNEMONIC(RETQS, RETQS, "retqs"), ++ NORMAL_MNEMONIC(RETAL, RETAL, "retal"), ++ NORMAL_MNEMONIC(RETHS, RETHS, "reths"), ++ NORMAL_MNEMONIC(RETLO, RETLO, "retlo"), ++ NORMAL_MNEMONIC(RET, RETAL, "ret"), ++ NORMAL_MNEMONIC(RETD, RETD, "retd"), ++ NORMAL_MNEMONIC(RETE, RETE, "rete"), ++ NORMAL_MNEMONIC(RETJ, RETJ, "retj"), ++ NORMAL_MNEMONIC(RETS, RETS, "rets"), ++ NORMAL_MNEMONIC(RJMP, RJMP, "rjmp"), ++ NORMAL_MNEMONIC(ROL, ROL, "rol"), ++ NORMAL_MNEMONIC(ROR, ROR, "ror"), ++ NORMAL_MNEMONIC(RSUB, RSUB1, "rsub"), ++ NORMAL_MNEMONIC(SATADD_H, SATADD_H, "satadd.h"), ++ NORMAL_MNEMONIC(SATADD_W, SATADD_W, "satadd.w"), ++ NORMAL_MNEMONIC(SATRNDS, SATRNDS, "satrnds"), ++ NORMAL_MNEMONIC(SATRNDU, SATRNDU, "satrndu"), ++ NORMAL_MNEMONIC(SATS, SATS, "sats"), ++ NORMAL_MNEMONIC(SATSUB_H, SATSUB_H, "satsub.h"), ++ NORMAL_MNEMONIC(SATSUB_W, SATSUB_W1, "satsub.w"), ++ NORMAL_MNEMONIC(SATU, SATU, "satu"), ++ NORMAL_MNEMONIC(SBC, SBC, "sbc"), ++ NORMAL_MNEMONIC(SBR, SBR, "sbr"), ++ NORMAL_MNEMONIC(SCALL, SCALL, "scall"), ++ NORMAL_MNEMONIC(SCR, SCR, "scr"), ++ NORMAL_MNEMONIC(SLEEP, SLEEP, "sleep"), ++ NORMAL_MNEMONIC(SREQ, SREQ, "sreq"), ++ NORMAL_MNEMONIC(SRNE, SRNE, "srne"), ++ NORMAL_MNEMONIC(SRCC, SRCC, "srcc"), ++ NORMAL_MNEMONIC(SRCS, SRCS, "srcs"), ++ NORMAL_MNEMONIC(SRGE, SRGE, "srge"), ++ NORMAL_MNEMONIC(SRLT, SRLT, "srlt"), ++ NORMAL_MNEMONIC(SRMI, SRMI, "srmi"), ++ NORMAL_MNEMONIC(SRPL, SRPL, "srpl"), ++ NORMAL_MNEMONIC(SRLS, SRLS, "srls"), ++ NORMAL_MNEMONIC(SRGT, SRGT, "srgt"), ++ NORMAL_MNEMONIC(SRLE, SRLE, "srle"), ++ NORMAL_MNEMONIC(SRHI, SRHI, "srhi"), ++ NORMAL_MNEMONIC(SRVS, SRVS, "srvs"), ++ NORMAL_MNEMONIC(SRVC, SRVC, "srvc"), ++ NORMAL_MNEMONIC(SRQS, SRQS, "srqs"), ++ NORMAL_MNEMONIC(SRAL, SRAL, "sral"), ++ NORMAL_MNEMONIC(SRHS, SRHS, "srhs"), ++ NORMAL_MNEMONIC(SRLO, SRLO, "srlo"), ++ NORMAL_MNEMONIC(SSRF, SSRF, "ssrf"), ++ NORMAL_MNEMONIC(ST_B, ST_B1, "st.b"), ++ NORMAL_MNEMONIC(ST_D, ST_D1, "st.d"), ++ NORMAL_MNEMONIC(ST_H, ST_H1, "st.h"), ++ NORMAL_MNEMONIC(ST_W, ST_W1, "st.w"), ++ NORMAL_MNEMONIC(STC_D, STC_D3, "stc.d"), ++ NORMAL_MNEMONIC(STC_W, STC_W3, "stc.w"), ++ NORMAL_MNEMONIC(STC0_D, STC0_D, "stc0.d"), ++ NORMAL_MNEMONIC(STC0_W, STC0_W, "stc0.w"), ++ NORMAL_MNEMONIC(STCM_D, STCM_D, "stcm.d"), ++ NORMAL_MNEMONIC(STCM_W, STCM_W, "stcm.w"), ++ NORMAL_MNEMONIC(STCOND, STCOND, "stcond"), ++ NORMAL_MNEMONIC(STDSP, STDSP, "stdsp"), ++ NORMAL_MNEMONIC(STHH_W, STHH_W2, "sthh.w"), ++ NORMAL_MNEMONIC(STM, STM, "stm"), ++ NORMAL_MNEMONIC(STMTS, STMTS, "stmts"), ++ NORMAL_MNEMONIC(STSWP_H, STSWP_H, "stswp.h"), ++ NORMAL_MNEMONIC(STSWP_W, STSWP_W, "stswp.w"), ++ NORMAL_MNEMONIC(SUB, SUB1, "sub"), ++ NORMAL_MNEMONIC(SUBEQ, SUBEQ, "subeq"), ++ NORMAL_MNEMONIC(SUBNE, SUBNE, "subne"), ++ NORMAL_MNEMONIC(SUBCC, SUBCC, "subcc"), ++ NORMAL_MNEMONIC(SUBCS, SUBCS, "subcs"), ++ NORMAL_MNEMONIC(SUBGE, SUBGE, "subge"), ++ NORMAL_MNEMONIC(SUBLT, SUBLT, "sublt"), ++ NORMAL_MNEMONIC(SUBMI, SUBMI, "submi"), ++ NORMAL_MNEMONIC(SUBPL, SUBPL, "subpl"), ++ NORMAL_MNEMONIC(SUBLS, SUBLS, "subls"), ++ NORMAL_MNEMONIC(SUBGT, SUBGT, "subgt"), ++ NORMAL_MNEMONIC(SUBLE, SUBLE, "suble"), ++ NORMAL_MNEMONIC(SUBHI, SUBHI, "subhi"), ++ NORMAL_MNEMONIC(SUBVS, SUBVS, "subvs"), ++ NORMAL_MNEMONIC(SUBVC, SUBVC, "subvc"), ++ NORMAL_MNEMONIC(SUBQS, SUBQS, "subqs"), ++ NORMAL_MNEMONIC(SUBAL, SUBAL, "subal"), ++ NORMAL_MNEMONIC(SUBHS, SUBHS, "subhs"), ++ NORMAL_MNEMONIC(SUBLO, SUBLO, "sublo"), ++ NORMAL_MNEMONIC(SUBFEQ, SUBFEQ, "subfeq"), ++ NORMAL_MNEMONIC(SUBFNE, SUBFNE, "subfne"), ++ NORMAL_MNEMONIC(SUBFCC, SUBFCC, "subfcc"), ++ NORMAL_MNEMONIC(SUBFCS, SUBFCS, "subfcs"), ++ NORMAL_MNEMONIC(SUBFGE, SUBFGE, "subfge"), ++ NORMAL_MNEMONIC(SUBFLT, SUBFLT, "subflt"), ++ NORMAL_MNEMONIC(SUBFMI, SUBFMI, "subfmi"), ++ NORMAL_MNEMONIC(SUBFPL, SUBFPL, "subfpl"), ++ NORMAL_MNEMONIC(SUBFLS, SUBFLS, "subfls"), ++ NORMAL_MNEMONIC(SUBFGT, SUBFGT, "subfgt"), ++ NORMAL_MNEMONIC(SUBFLE, SUBFLE, "subfle"), ++ NORMAL_MNEMONIC(SUBFHI, SUBFHI, "subfhi"), ++ NORMAL_MNEMONIC(SUBFVS, SUBFVS, "subfvs"), ++ NORMAL_MNEMONIC(SUBFVC, SUBFVC, "subfvc"), ++ NORMAL_MNEMONIC(SUBFQS, SUBFQS, "subfqs"), ++ NORMAL_MNEMONIC(SUBFAL, SUBFAL, "subfal"), ++ NORMAL_MNEMONIC(SUBFHS, SUBFHS, "subfhs"), ++ NORMAL_MNEMONIC(SUBFLO, SUBFLO, "subflo"), ++ NORMAL_MNEMONIC(SUBHH_W, SUBHH_W, "subhh.w"), ++ NORMAL_MNEMONIC(SWAP_B, SWAP_B, "swap.b"), ++ NORMAL_MNEMONIC(SWAP_BH, SWAP_BH, "swap.bh"), ++ NORMAL_MNEMONIC(SWAP_H, SWAP_H, "swap.h"), ++ NORMAL_MNEMONIC(SYNC, SYNC, "sync"), ++ NORMAL_MNEMONIC(TLBR, TLBR, "tlbr"), ++ NORMAL_MNEMONIC(TLBS, TLBS, "tlbs"), ++ NORMAL_MNEMONIC(TLBW, TLBW, "tlbw"), ++ NORMAL_MNEMONIC(TNBZ, TNBZ, "tnbz"), ++ NORMAL_MNEMONIC(TST, TST, "tst"), ++ NORMAL_MNEMONIC(XCHG, XCHG, "xchg"), ++ NORMAL_MNEMONIC(MEMC, MEMC, "memc"), ++ NORMAL_MNEMONIC(MEMS, MEMS, "mems"), ++ NORMAL_MNEMONIC(MEMT, MEMT, "memt"), ++ FP_MNEMONIC(FADD, FADD, "fadd"), ++ FP_MNEMONIC(FSUB, FSUB, "fsub"), ++ FP_MNEMONIC(FMAC, FMAC, "fmac"), ++ FP_MNEMONIC(FNMAC, FNMAC, "fnmac"), ++ FP_MNEMONIC(FMSC, FMSC, "fmsc"), ++ FP_MNEMONIC(FNMSC, FNMSC, "fnmsc"), ++ FP_MNEMONIC(FMUL, FMUL, "fmul"), ++ FP_MNEMONIC(FNMUL, FNMUL, "fnmul"), ++ FP_MNEMONIC(FNEG, FNEG, "fneg"), ++ FP_MNEMONIC(FABS, FABS, "fabs"), ++ FP_MNEMONIC(FCMP, FCMP, "fcmp"), ++ FP_MNEMONIC(FMOV, FMOV1, "fmov"), ++ NORMAL_MNEMONIC(FCASTS_D, FCASTS_D, "fcasts.d"), ++ NORMAL_MNEMONIC(FCASTD_S, FCASTD_S, "fcastd.s"), ++ NORMAL_MNEMONIC(LDA_W, LDA_W, "lda.w"), ++ NORMAL_MNEMONIC(CALL, CALL, "call"), ++ NORMAL_MNEMONIC(PICOSVMAC, PICOSVMAC0, "picosvmac"), ++ NORMAL_MNEMONIC(PICOSVMUL, PICOSVMUL0, "picosvmul"), ++ NORMAL_MNEMONIC(PICOVMAC, PICOVMAC0, "picovmac"), ++ NORMAL_MNEMONIC(PICOVMUL, PICOVMUL0, "picovmul"), ++ NORMAL_MNEMONIC(PICOLD_D, PICOLD_D2, "picold.d"), ++ NORMAL_MNEMONIC(PICOLD_W, PICOLD_W2, "picold.w"), ++ NORMAL_MNEMONIC(PICOLDM_D, PICOLDM_D, "picoldm.d"), ++ NORMAL_MNEMONIC(PICOLDM_W, PICOLDM_W, "picoldm.w"), ++ NORMAL_MNEMONIC(PICOMV_D, PICOMV_D1, "picomv.d"), ++ NORMAL_MNEMONIC(PICOMV_W, PICOMV_W1, "picomv.w"), ++ NORMAL_MNEMONIC(PICOST_D, PICOST_D2, "picost.d"), ++ NORMAL_MNEMONIC(PICOST_W, PICOST_W2, "picost.w"), ++ NORMAL_MNEMONIC(PICOSTM_D, PICOSTM_D, "picostm.d"), ++ NORMAL_MNEMONIC(PICOSTM_W, PICOSTM_W, "picostm.w"), ++ NORMAL_MNEMONIC(RSUBEQ, RSUBEQ, "rsubeq"), ++ NORMAL_MNEMONIC(RSUBNE, RSUBNE, "rsubne"), ++ NORMAL_MNEMONIC(RSUBCC, RSUBCC, "rsubcc"), ++ NORMAL_MNEMONIC(RSUBCS, RSUBCS, "rsubcs"), ++ NORMAL_MNEMONIC(RSUBGE, RSUBGE, "rsubge"), ++ NORMAL_MNEMONIC(RSUBLT, RSUBLT, "rsublt"), ++ NORMAL_MNEMONIC(RSUBMI, RSUBMI, "rsubmi"), ++ NORMAL_MNEMONIC(RSUBPL, RSUBPL, "rsubpl"), ++ NORMAL_MNEMONIC(RSUBLS, RSUBLS, "rsubls"), ++ NORMAL_MNEMONIC(RSUBGT, RSUBGT, "rsubgt"), ++ NORMAL_MNEMONIC(RSUBLE, RSUBLE, "rsuble"), ++ NORMAL_MNEMONIC(RSUBHI, RSUBHI, "rsubhi"), ++ NORMAL_MNEMONIC(RSUBVS, RSUBVS, "rsubvs"), ++ NORMAL_MNEMONIC(RSUBVC, RSUBVC, "rsubvc"), ++ NORMAL_MNEMONIC(RSUBQS, RSUBQS, "rsubqs"), ++ NORMAL_MNEMONIC(RSUBAL, RSUBAL, "rsubal"), ++ NORMAL_MNEMONIC(RSUBHS, RSUBHS, "rsubhs"), ++ NORMAL_MNEMONIC(RSUBLO, RSUBLO, "rsublo"), ++ NORMAL_MNEMONIC(ADDEQ, ADDEQ, "addeq"), ++ NORMAL_MNEMONIC(ADDNE, ADDNE, "addne"), ++ NORMAL_MNEMONIC(ADDCC, ADDCC, "addcc"), ++ NORMAL_MNEMONIC(ADDCS, ADDCS, "addcs"), ++ NORMAL_MNEMONIC(ADDGE, ADDGE, "addge"), ++ NORMAL_MNEMONIC(ADDLT, ADDLT, "addlt"), ++ NORMAL_MNEMONIC(ADDMI, ADDMI, "addmi"), ++ NORMAL_MNEMONIC(ADDPL, ADDPL, "addpl"), ++ NORMAL_MNEMONIC(ADDLS, ADDLS, "addls"), ++ NORMAL_MNEMONIC(ADDGT, ADDGT, "addgt"), ++ NORMAL_MNEMONIC(ADDLE, ADDLE, "addle"), ++ NORMAL_MNEMONIC(ADDHI, ADDHI, "addhi"), ++ NORMAL_MNEMONIC(ADDVS, ADDVS, "addvs"), ++ NORMAL_MNEMONIC(ADDVC, ADDVC, "addvc"), ++ NORMAL_MNEMONIC(ADDQS, ADDQS, "addqs"), ++ NORMAL_MNEMONIC(ADDAL, ADDAL, "addal"), ++ NORMAL_MNEMONIC(ADDHS, ADDHS, "addhs"), ++ NORMAL_MNEMONIC(ADDLO, ADDLO, "addlo"), ++ NORMAL_MNEMONIC(ANDEQ, ANDEQ, "andeq"), ++ NORMAL_MNEMONIC(ANDNE, ANDNE, "andne"), ++ NORMAL_MNEMONIC(ANDCC, ANDCC, "andcc"), ++ NORMAL_MNEMONIC(ANDCS, ANDCS, "andcs"), ++ NORMAL_MNEMONIC(ANDGE, ANDGE, "andge"), ++ NORMAL_MNEMONIC(ANDLT, ANDLT, "andlt"), ++ NORMAL_MNEMONIC(ANDMI, ANDMI, "andmi"), ++ NORMAL_MNEMONIC(ANDPL, ANDPL, "andpl"), ++ NORMAL_MNEMONIC(ANDLS, ANDLS, "andls"), ++ NORMAL_MNEMONIC(ANDGT, ANDGT, "andgt"), ++ NORMAL_MNEMONIC(ANDLE, ANDLE, "andle"), ++ NORMAL_MNEMONIC(ANDHI, ANDHI, "andhi"), ++ NORMAL_MNEMONIC(ANDVS, ANDVS, "andvs"), ++ NORMAL_MNEMONIC(ANDVC, ANDVC, "andvc"), ++ NORMAL_MNEMONIC(ANDQS, ANDQS, "andqs"), ++ NORMAL_MNEMONIC(ANDAL, ANDAL, "andal"), ++ NORMAL_MNEMONIC(ANDHS, ANDHS, "andhs"), ++ NORMAL_MNEMONIC(ANDLO, ANDLO, "andlo"), ++ NORMAL_MNEMONIC(OREQ, OREQ, "oreq"), ++ NORMAL_MNEMONIC(ORNE, ORNE, "orne"), ++ NORMAL_MNEMONIC(ORCC, ORCC, "orcc"), ++ NORMAL_MNEMONIC(ORCS, ORCS, "orcs"), ++ NORMAL_MNEMONIC(ORGE, ORGE, "orge"), ++ NORMAL_MNEMONIC(ORLT, ORLT, "orlt"), ++ NORMAL_MNEMONIC(ORMI, ORMI, "ormi"), ++ NORMAL_MNEMONIC(ORPL, ORPL, "orpl"), ++ NORMAL_MNEMONIC(ORLS, ORLS, "orls"), ++ NORMAL_MNEMONIC(ORGT, ORGT, "orgt"), ++ NORMAL_MNEMONIC(ORLE, ORLE, "orle"), ++ NORMAL_MNEMONIC(ORHI, ORHI, "orhi"), ++ NORMAL_MNEMONIC(ORVS, ORVS, "orvs"), ++ NORMAL_MNEMONIC(ORVC, ORVC, "orvc"), ++ NORMAL_MNEMONIC(ORQS, ORQS, "orqs"), ++ NORMAL_MNEMONIC(ORAL, ORAL, "oral"), ++ NORMAL_MNEMONIC(ORHS, ORHS, "orhs"), ++ NORMAL_MNEMONIC(ORLO, ORLO, "orlo"), ++ NORMAL_MNEMONIC(EOREQ, EOREQ, "eoreq"), ++ NORMAL_MNEMONIC(EORNE, EORNE, "eorne"), ++ NORMAL_MNEMONIC(EORCC, EORCC, "eorcc"), ++ NORMAL_MNEMONIC(EORCS, EORCS, "eorcs"), ++ NORMAL_MNEMONIC(EORGE, EORGE, "eorge"), ++ NORMAL_MNEMONIC(EORLT, EORLT, "eorlt"), ++ NORMAL_MNEMONIC(EORMI, EORMI, "eormi"), ++ NORMAL_MNEMONIC(EORPL, EORPL, "eorpl"), ++ NORMAL_MNEMONIC(EORLS, EORLS, "eorls"), ++ NORMAL_MNEMONIC(EORGT, EORGT, "eorgt"), ++ NORMAL_MNEMONIC(EORLE, EORLE, "eorle"), ++ NORMAL_MNEMONIC(EORHI, EORHI, "eorhi"), ++ NORMAL_MNEMONIC(EORVS, EORVS, "eorvs"), ++ NORMAL_MNEMONIC(EORVC, EORVC, "eorvc"), ++ NORMAL_MNEMONIC(EORQS, EORQS, "eorqs"), ++ NORMAL_MNEMONIC(EORAL, EORAL, "eoral"), ++ NORMAL_MNEMONIC(EORHS, EORHS, "eorhs"), ++ NORMAL_MNEMONIC(EORLO, EORLO, "eorlo"), ++ NORMAL_MNEMONIC(LD_WEQ, LD_WEQ, "ld.weq"), ++ NORMAL_MNEMONIC(LD_WNE, LD_WNE, "ld.wne"), ++ NORMAL_MNEMONIC(LD_WCC, LD_WCC, "ld.wcc"), ++ NORMAL_MNEMONIC(LD_WCS, LD_WCS, "ld.wcs"), ++ NORMAL_MNEMONIC(LD_WGE, LD_WGE, "ld.wge"), ++ NORMAL_MNEMONIC(LD_WLT, LD_WLT, "ld.wlt"), ++ NORMAL_MNEMONIC(LD_WMI, LD_WMI, "ld.wmi"), ++ NORMAL_MNEMONIC(LD_WPL, LD_WPL, "ld.wpl"), ++ NORMAL_MNEMONIC(LD_WLS, LD_WLS, "ld.wls"), ++ NORMAL_MNEMONIC(LD_WGT, LD_WGT, "ld.wgt"), ++ NORMAL_MNEMONIC(LD_WLE, LD_WLE, "ld.wle"), ++ NORMAL_MNEMONIC(LD_WHI, LD_WHI, "ld.whi"), ++ NORMAL_MNEMONIC(LD_WVS, LD_WVS, "ld.wvs"), ++ NORMAL_MNEMONIC(LD_WVC, LD_WVC, "ld.wvc"), ++ NORMAL_MNEMONIC(LD_WQS, LD_WQS, "ld.wqs"), ++ NORMAL_MNEMONIC(LD_WAL, LD_WAL, "ld.wal"), ++ NORMAL_MNEMONIC(LD_WHS, LD_WHS, "ld.whs"), ++ NORMAL_MNEMONIC(LD_WLO, LD_WLO, "ld.wlo"), ++ NORMAL_MNEMONIC(LD_SHEQ, LD_SHEQ, "ld.sheq"), ++ NORMAL_MNEMONIC(LD_SHNE, LD_SHNE, "ld.shne"), ++ NORMAL_MNEMONIC(LD_SHCC, LD_SHCC, "ld.shcc"), ++ NORMAL_MNEMONIC(LD_SHCS, LD_SHCS, "ld.shcs"), ++ NORMAL_MNEMONIC(LD_SHGE, LD_SHGE, "ld.shge"), ++ NORMAL_MNEMONIC(LD_SHLT, LD_SHLT, "ld.shlt"), ++ NORMAL_MNEMONIC(LD_SHMI, LD_SHMI, "ld.shmi"), ++ NORMAL_MNEMONIC(LD_SHPL, LD_SHPL, "ld.shpl"), ++ NORMAL_MNEMONIC(LD_SHLS, LD_SHLS, "ld.shls"), ++ NORMAL_MNEMONIC(LD_SHGT, LD_SHGT, "ld.shgt"), ++ NORMAL_MNEMONIC(LD_SHLE, LD_SHLE, "ld.shle"), ++ NORMAL_MNEMONIC(LD_SHHI, LD_SHHI, "ld.shhi"), ++ NORMAL_MNEMONIC(LD_SHVS, LD_SHVS, "ld.shvs"), ++ NORMAL_MNEMONIC(LD_SHVC, LD_SHVC, "ld.shvc"), ++ NORMAL_MNEMONIC(LD_SHQS, LD_SHQS, "ld.shqs"), ++ NORMAL_MNEMONIC(LD_SHAL, LD_SHAL, "ld.shal"), ++ NORMAL_MNEMONIC(LD_SHHS, LD_SHHS, "ld.shhs"), ++ NORMAL_MNEMONIC(LD_SHLO, LD_SHLO, "ld.shlo"), ++ NORMAL_MNEMONIC(LD_UHEQ, LD_UHEQ, "ld.uheq"), ++ NORMAL_MNEMONIC(LD_UHNE, LD_UHNE, "ld.uhne"), ++ NORMAL_MNEMONIC(LD_UHCC, LD_UHCC, "ld.uhcc"), ++ NORMAL_MNEMONIC(LD_UHCS, LD_UHCS, "ld.uhcs"), ++ NORMAL_MNEMONIC(LD_UHGE, LD_UHGE, "ld.uhge"), ++ NORMAL_MNEMONIC(LD_UHLT, LD_UHLT, "ld.uhlt"), ++ NORMAL_MNEMONIC(LD_UHMI, LD_UHMI, "ld.uhmi"), ++ NORMAL_MNEMONIC(LD_UHPL, LD_UHPL, "ld.uhpl"), ++ NORMAL_MNEMONIC(LD_UHLS, LD_UHLS, "ld.uhls"), ++ NORMAL_MNEMONIC(LD_UHGT, LD_UHGT, "ld.uhgt"), ++ NORMAL_MNEMONIC(LD_UHLE, LD_UHLE, "ld.uhle"), ++ NORMAL_MNEMONIC(LD_UHHI, LD_UHHI, "ld.uhhi"), ++ NORMAL_MNEMONIC(LD_UHVS, LD_UHVS, "ld.uhvs"), ++ NORMAL_MNEMONIC(LD_UHVC, LD_UHVC, "ld.uhvc"), ++ NORMAL_MNEMONIC(LD_UHQS, LD_UHQS, "ld.uhqs"), ++ NORMAL_MNEMONIC(LD_UHAL, LD_UHAL, "ld.uhal"), ++ NORMAL_MNEMONIC(LD_UHHS, LD_UHHS, "ld.uhhs"), ++ NORMAL_MNEMONIC(LD_UHLO, LD_UHLO, "ld.uhlo"), ++ NORMAL_MNEMONIC(LD_SBEQ, LD_SBEQ, "ld.sbeq"), ++ NORMAL_MNEMONIC(LD_SBNE, LD_SBNE, "ld.sbne"), ++ NORMAL_MNEMONIC(LD_SBCC, LD_SBCC, "ld.sbcc"), ++ NORMAL_MNEMONIC(LD_SBCS, LD_SBCS, "ld.sbcs"), ++ NORMAL_MNEMONIC(LD_SBGE, LD_SBGE, "ld.sbge"), ++ NORMAL_MNEMONIC(LD_SBLT, LD_SBLT, "ld.sblt"), ++ NORMAL_MNEMONIC(LD_SBMI, LD_SBMI, "ld.sbmi"), ++ NORMAL_MNEMONIC(LD_SBPL, LD_SBPL, "ld.sbpl"), ++ NORMAL_MNEMONIC(LD_SBLS, LD_SBLS, "ld.sbls"), ++ NORMAL_MNEMONIC(LD_SBGT, LD_SBGT, "ld.sbgt"), ++ NORMAL_MNEMONIC(LD_SBLE, LD_SBLE, "ld.sble"), ++ NORMAL_MNEMONIC(LD_SBHI, LD_SBHI, "ld.sbhi"), ++ NORMAL_MNEMONIC(LD_SBVS, LD_SBVS, "ld.sbvs"), ++ NORMAL_MNEMONIC(LD_SBVC, LD_SBVC, "ld.sbvc"), ++ NORMAL_MNEMONIC(LD_SBQS, LD_SBQS, "ld.sbqs"), ++ NORMAL_MNEMONIC(LD_SBAL, LD_SBAL, "ld.sbal"), ++ NORMAL_MNEMONIC(LD_SBHS, LD_SBHS, "ld.sbhs"), ++ NORMAL_MNEMONIC(LD_SBLO, LD_SBLO, "ld.sblo"), ++ NORMAL_MNEMONIC(LD_UBEQ, LD_UBEQ, "ld.ubeq"), ++ NORMAL_MNEMONIC(LD_UBNE, LD_UBNE, "ld.ubne"), ++ NORMAL_MNEMONIC(LD_UBCC, LD_UBCC, "ld.ubcc"), ++ NORMAL_MNEMONIC(LD_UBCS, LD_UBCS, "ld.ubcs"), ++ NORMAL_MNEMONIC(LD_UBGE, LD_UBGE, "ld.ubge"), ++ NORMAL_MNEMONIC(LD_UBLT, LD_UBLT, "ld.ublt"), ++ NORMAL_MNEMONIC(LD_UBMI, LD_UBMI, "ld.ubmi"), ++ NORMAL_MNEMONIC(LD_UBPL, LD_UBPL, "ld.ubpl"), ++ NORMAL_MNEMONIC(LD_UBLS, LD_UBLS, "ld.ubls"), ++ NORMAL_MNEMONIC(LD_UBGT, LD_UBGT, "ld.ubgt"), ++ NORMAL_MNEMONIC(LD_UBLE, LD_UBLE, "ld.uble"), ++ NORMAL_MNEMONIC(LD_UBHI, LD_UBHI, "ld.ubhi"), ++ NORMAL_MNEMONIC(LD_UBVS, LD_UBVS, "ld.ubvs"), ++ NORMAL_MNEMONIC(LD_UBVC, LD_UBVC, "ld.ubvc"), ++ NORMAL_MNEMONIC(LD_UBQS, LD_UBQS, "ld.ubqs"), ++ NORMAL_MNEMONIC(LD_UBAL, LD_UBAL, "ld.ubal"), ++ NORMAL_MNEMONIC(LD_UBHS, LD_UBHS, "ld.ubhs"), ++ NORMAL_MNEMONIC(LD_UBLO, LD_UBLO, "ld.ublo"), ++ NORMAL_MNEMONIC(ST_WEQ, ST_WEQ, "st.weq"), ++ NORMAL_MNEMONIC(ST_WNE, ST_WNE, "st.wne"), ++ NORMAL_MNEMONIC(ST_WCC, ST_WCC, "st.wcc"), ++ NORMAL_MNEMONIC(ST_WCS, ST_WCS, "st.wcs"), ++ NORMAL_MNEMONIC(ST_WGE, ST_WGE, "st.wge"), ++ NORMAL_MNEMONIC(ST_WLT, ST_WLT, "st.wlt"), ++ NORMAL_MNEMONIC(ST_WMI, ST_WMI, "st.wmi"), ++ NORMAL_MNEMONIC(ST_WPL, ST_WPL, "st.wpl"), ++ NORMAL_MNEMONIC(ST_WLS, ST_WLS, "st.wls"), ++ NORMAL_MNEMONIC(ST_WGT, ST_WGT, "st.wgt"), ++ NORMAL_MNEMONIC(ST_WLE, ST_WLE, "st.wle"), ++ NORMAL_MNEMONIC(ST_WHI, ST_WHI, "st.whi"), ++ NORMAL_MNEMONIC(ST_WVS, ST_WVS, "st.wvs"), ++ NORMAL_MNEMONIC(ST_WVC, ST_WVC, "st.wvc"), ++ NORMAL_MNEMONIC(ST_WQS, ST_WQS, "st.wqs"), ++ NORMAL_MNEMONIC(ST_WAL, ST_WAL, "st.wal"), ++ NORMAL_MNEMONIC(ST_WHS, ST_WHS, "st.whs"), ++ NORMAL_MNEMONIC(ST_WLO, ST_WLO, "st.wlo"), ++ NORMAL_MNEMONIC(ST_HEQ, ST_HEQ, "st.heq"), ++ NORMAL_MNEMONIC(ST_HNE, ST_HNE, "st.hne"), ++ NORMAL_MNEMONIC(ST_HCC, ST_HCC, "st.hcc"), ++ NORMAL_MNEMONIC(ST_HCS, ST_HCS, "st.hcs"), ++ NORMAL_MNEMONIC(ST_HGE, ST_HGE, "st.hge"), ++ NORMAL_MNEMONIC(ST_HLT, ST_HLT, "st.hlt"), ++ NORMAL_MNEMONIC(ST_HMI, ST_HMI, "st.hmi"), ++ NORMAL_MNEMONIC(ST_HPL, ST_HPL, "st.hpl"), ++ NORMAL_MNEMONIC(ST_HLS, ST_HLS, "st.hls"), ++ NORMAL_MNEMONIC(ST_HGT, ST_HGT, "st.hgt"), ++ NORMAL_MNEMONIC(ST_HLE, ST_HLE, "st.hle"), ++ NORMAL_MNEMONIC(ST_HHI, ST_HHI, "st.hhi"), ++ NORMAL_MNEMONIC(ST_HVS, ST_HVS, "st.hvs"), ++ NORMAL_MNEMONIC(ST_HVC, ST_HVC, "st.hvc"), ++ NORMAL_MNEMONIC(ST_HQS, ST_HQS, "st.hqs"), ++ NORMAL_MNEMONIC(ST_HAL, ST_HAL, "st.hal"), ++ NORMAL_MNEMONIC(ST_HHS, ST_HHS, "st.hhs"), ++ NORMAL_MNEMONIC(ST_HLO, ST_HLO, "st.hlo"), ++ NORMAL_MNEMONIC(ST_BEQ, ST_BEQ, "st.beq"), ++ NORMAL_MNEMONIC(ST_BNE, ST_BNE, "st.bne"), ++ NORMAL_MNEMONIC(ST_BCC, ST_BCC, "st.bcc"), ++ NORMAL_MNEMONIC(ST_BCS, ST_BCS, "st.bcs"), ++ NORMAL_MNEMONIC(ST_BGE, ST_BGE, "st.bge"), ++ NORMAL_MNEMONIC(ST_BLT, ST_BLT, "st.blt"), ++ NORMAL_MNEMONIC(ST_BMI, ST_BMI, "st.bmi"), ++ NORMAL_MNEMONIC(ST_BPL, ST_BPL, "st.bpl"), ++ NORMAL_MNEMONIC(ST_BLS, ST_BLS, "st.bls"), ++ NORMAL_MNEMONIC(ST_BGT, ST_BGT, "st.bgt"), ++ NORMAL_MNEMONIC(ST_BLE, ST_BLE, "st.ble"), ++ NORMAL_MNEMONIC(ST_BHI, ST_BHI, "st.bhi"), ++ NORMAL_MNEMONIC(ST_BVS, ST_BVS, "st.bvs"), ++ NORMAL_MNEMONIC(ST_BVC, ST_BVC, "st.bvc"), ++ NORMAL_MNEMONIC(ST_BQS, ST_BQS, "st.bqs"), ++ NORMAL_MNEMONIC(ST_BAL, ST_BAL, "st.bal"), ++ NORMAL_MNEMONIC(ST_BHS, ST_BHS, "st.bhs"), ++ NORMAL_MNEMONIC(ST_BLO, ST_BLO, "st.blo"), ++ NORMAL_MNEMONIC(MOVH, MOVH, "movh"), ++ ++ }; ++#undef NORMAL_MNEMONIC ++#undef ALIAS_MNEMONIC ++#undef FP_MNEMONIC +--- /dev/null ++++ b/opcodes/avr32-opc.h +@@ -0,0 +1,2377 @@ ++/* Opcode tables for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include "bfd.h" ++ ++#define AVR32_MAX_OPERANDS 8 ++#define AVR32_MAX_FIELDS 8 ++ ++#define AVR32_V1 (1 << 1) ++#define AVR32_SIMD (1 << 2) ++#define AVR32_DSP (1 << 3) ++#define AVR32_RMW (1 << 4) ++#define AVR32_V2 (1 << 5) ++#define AVR32_V3 (1 << 6) ++#define AVR32_FP (1 << 16) ++#define AVR32_PICO (1 << 17) ++ ++/* Registers we commonly refer to */ ++#define AVR32_REG_R12 12 ++#define AVR32_REG_SP 13 ++#define AVR32_REG_LR 14 ++#define AVR32_REG_PC 15 ++ ++struct avr32_ifield ++{ ++ int id; ++ unsigned short bitsize; ++ unsigned short shift; ++ unsigned long mask; ++ ++ /* If the value doesn't fit, it will be truncated with no warning */ ++ void (*insert)(const struct avr32_ifield *, void *, unsigned long); ++ void (*extract)(const struct avr32_ifield *, void *, unsigned long *); ++}; ++ ++struct avr32_opcode ++{ ++ int id; ++ int size; ++ unsigned long value; ++ unsigned long mask; ++ const struct avr32_syntax *syntax; ++ bfd_reloc_code_real_type reloc_type; ++ unsigned int nr_fields; ++ /* if relaxable, which field is variable, otherwise -1 */ ++ int var_field; ++ const struct avr32_ifield *fields[AVR32_MAX_FIELDS]; ++}; ++ ++struct avr32_alias ++{ ++ int id; ++ const struct avr32_opcode *opc; ++ struct { ++ int is_opindex; ++ unsigned long value; ++ } operand_map[AVR32_MAX_OPERANDS]; ++}; ++ ++struct avr32_syntax ++{ ++ int id; ++ unsigned long isa_flags; ++ const struct avr32_mnemonic *mnemonic; ++ int type; ++ union { ++ const struct avr32_opcode *opc; ++ const struct avr32_alias *alias; ++ } u; ++ const struct avr32_syntax *next; ++ /* negative means "vararg" */ ++ int nr_operands; ++ int operand[AVR32_MAX_OPERANDS]; ++}; ++ ++#if 0 ++#define AVR32_ALIAS_MAKE_CONST(val) ((val) | 0x80000000UL) ++#define AVR32_ALIAS_IS_CONST(mapval) (((mapval) & 0x80000000UL) != 0) ++#define AVR32_ALIAS_GET_CONST(mapval) ((mapval) & ~0x80000000UL) ++#endif ++ ++struct avr32_mnemonic ++{ ++ int id; ++ const char *name; ++ const struct avr32_syntax *syntax; ++}; ++ ++extern const struct avr32_ifield avr32_ifield_table[]; ++extern struct avr32_opcode avr32_opc_table[]; ++extern const struct avr32_syntax avr32_syntax_table[]; ++extern const struct avr32_alias avr32_alias_table[]; ++extern const struct avr32_mnemonic avr32_mnemonic_table[]; ++ ++extern void avr32_insert_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_bit5c(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_k10(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_k21(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_cpop(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_k12cp(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++ ++extern void avr32_extract_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_bit5c(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_k10(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_k21(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_cpop(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_k12cp(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++ ++enum avr32_operand_type ++{ ++ AVR32_OPERAND_INTREG, /* just a register */ ++ AVR32_OPERAND_INTREG_PREDEC, /* register with pre-decrement */ ++ AVR32_OPERAND_INTREG_POSTINC, /* register with post-increment */ ++ AVR32_OPERAND_INTREG_LSL, /* register with left shift */ ++ AVR32_OPERAND_INTREG_LSR, /* register with right shift */ ++ AVR32_OPERAND_INTREG_BSEL, /* register with byte selector */ ++ AVR32_OPERAND_INTREG_HSEL, /* register with halfword selector */ ++ AVR32_OPERAND_INTREG_SDISP, /* Rp[signed disp] */ ++ AVR32_OPERAND_INTREG_SDISP_H, /* Rp[signed hword-aligned disp] */ ++ AVR32_OPERAND_INTREG_SDISP_W, /* Rp[signed word-aligned disp] */ ++ AVR32_OPERAND_INTREG_UDISP, /* Rp[unsigned disp] */ ++ AVR32_OPERAND_INTREG_UDISP_H, /* Rp[unsigned hword-aligned disp] */ ++ AVR32_OPERAND_INTREG_UDISP_W, /* Rp[unsigned word-aligned disp] */ ++ AVR32_OPERAND_INTREG_INDEX, /* Rp[Ri << sa] */ ++ AVR32_OPERAND_INTREG_XINDEX, /* Rp[Ri:bytesel << 2] */ ++ AVR32_OPERAND_DWREG, /* Even-numbered register */ ++ AVR32_OPERAND_PC_UDISP_W, /* PC[unsigned word-aligned disp] or label */ ++ AVR32_OPERAND_SP, /* Just SP */ ++ AVR32_OPERAND_SP_UDISP_W, /* SP[unsigned word-aligned disp] */ ++ AVR32_OPERAND_CPNO, ++ AVR32_OPERAND_CPREG, ++ AVR32_OPERAND_CPREG_D, ++ AVR32_OPERAND_UNSIGNED_CONST, ++ AVR32_OPERAND_UNSIGNED_CONST_W, ++ AVR32_OPERAND_SIGNED_CONST, ++ AVR32_OPERAND_SIGNED_CONST_W, ++ AVR32_OPERAND_JMPLABEL, ++ AVR32_OPERAND_UNSIGNED_NUMBER, ++ AVR32_OPERAND_UNSIGNED_NUMBER_W, ++ AVR32_OPERAND_REGLIST8, ++ AVR32_OPERAND_REGLIST9, ++ AVR32_OPERAND_REGLIST16, ++ AVR32_OPERAND_REGLIST_LDM, ++ AVR32_OPERAND_REGLIST_CP8, ++ AVR32_OPERAND_REGLIST_CPD8, ++ AVR32_OPERAND_RETVAL, ++ AVR32_OPERAND_MCALL, ++ AVR32_OPERAND_JOSPINC, ++ AVR32_OPERAND_COH, ++ AVR32_OPERAND_FPREG_S, ++ AVR32_OPERAND_FPREG_D, ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND__END_ ++}; ++#define AVR32_OPERAND_UNKNOWN AVR32_OPERAND__END_ ++#define AVR32_NR_OPERANDS AVR32_OPERAND__END_ ++ ++enum avr32_ifield_type ++{ ++ AVR32_IFIELD_RX, ++ AVR32_IFIELD_RY, ++ AVR32_IFIELD_COND4C, ++ AVR32_IFIELD_K8C, ++ AVR32_IFIELD_K7C, ++ AVR32_IFIELD_K5C, ++ AVR32_IFIELD_K3, ++ AVR32_IFIELD_RY_DW, ++ AVR32_IFIELD_COND4E, ++ AVR32_IFIELD_K8E, ++ AVR32_IFIELD_BIT5C, ++ AVR32_IFIELD_COND3, ++ AVR32_IFIELD_K10, ++ AVR32_IFIELD_POPM, ++ AVR32_IFIELD_K2, ++ AVR32_IFIELD_RD_E, ++ AVR32_IFIELD_RD_DW, ++ AVR32_IFIELD_X, ++ AVR32_IFIELD_Y, ++ AVR32_IFIELD_X2, ++ AVR32_IFIELD_Y2, ++ AVR32_IFIELD_K5E, ++ AVR32_IFIELD_PART2, ++ AVR32_IFIELD_PART1, ++ AVR32_IFIELD_K16, ++ AVR32_IFIELD_CACHEOP, ++ AVR32_IFIELD_K11, ++ AVR32_IFIELD_K21, ++ AVR32_IFIELD_CPOP, ++ AVR32_IFIELD_CPNO, ++ AVR32_IFIELD_CRD_RI, ++ AVR32_IFIELD_CRX, ++ AVR32_IFIELD_CRY, ++ AVR32_IFIELD_K7E, ++ AVR32_IFIELD_CRD_DW, ++ AVR32_IFIELD_PART1_K12, ++ AVR32_IFIELD_PART2_K12, ++ AVR32_IFIELD_K12, ++ AVR32_IFIELD_S5, ++ AVR32_IFIELD_K5E2, ++ AVR32_IFIELD_K4, ++ AVR32_IFIELD_COND4E2, ++ AVR32_IFIELD_K8E2, ++ AVR32_IFIELD_K6, ++ AVR32_IFIELD_MEM15, ++ AVR32_IFIELD_MEMB5, ++ AVR32_IFIELD_W, ++ AVR32_IFIELD_CM_HL, ++ AVR32_IFIELD_K12CP, ++ AVR32_IFIELD_K9E, ++ AVR32_IFIELD__END_, ++}; ++#define AVR32_NR_IFIELDS AVR32_IFIELD__END_ ++ ++enum avr32_opc_type ++{ ++ AVR32_OPC_ABS, ++ AVR32_OPC_ACALL, ++ AVR32_OPC_ACR, ++ AVR32_OPC_ADC, ++ AVR32_OPC_ADD1, ++ AVR32_OPC_ADD2, ++ AVR32_OPC_ADDABS, ++ AVR32_OPC_ADDHH_W, ++ AVR32_OPC_AND1, ++ AVR32_OPC_AND2, ++ AVR32_OPC_AND3, ++ AVR32_OPC_ANDH, ++ AVR32_OPC_ANDH_COH, ++ AVR32_OPC_ANDL, ++ AVR32_OPC_ANDL_COH, ++ AVR32_OPC_ANDN, ++ AVR32_OPC_ASR1, ++ AVR32_OPC_ASR3, ++ AVR32_OPC_ASR2, ++ AVR32_OPC_BLD, ++ AVR32_OPC_BREQ1, ++ AVR32_OPC_BRNE1, ++ AVR32_OPC_BRCC1, ++ AVR32_OPC_BRCS1, ++ AVR32_OPC_BRGE1, ++ AVR32_OPC_BRLT1, ++ AVR32_OPC_BRMI1, ++ AVR32_OPC_BRPL1, ++ AVR32_OPC_BREQ2, ++ AVR32_OPC_BRNE2, ++ AVR32_OPC_BRCC2, ++ AVR32_OPC_BRCS2, ++ AVR32_OPC_BRGE2, ++ AVR32_OPC_BRLT2, ++ AVR32_OPC_BRMI2, ++ AVR32_OPC_BRPL2, ++ AVR32_OPC_BRLS, ++ AVR32_OPC_BRGT, ++ AVR32_OPC_BRLE, ++ AVR32_OPC_BRHI, ++ AVR32_OPC_BRVS, ++ AVR32_OPC_BRVC, ++ AVR32_OPC_BRQS, ++ AVR32_OPC_BRAL, ++ AVR32_OPC_BREAKPOINT, ++ AVR32_OPC_BREV, ++ AVR32_OPC_BST, ++ AVR32_OPC_CACHE, ++ AVR32_OPC_CASTS_B, ++ AVR32_OPC_CASTS_H, ++ AVR32_OPC_CASTU_B, ++ AVR32_OPC_CASTU_H, ++ AVR32_OPC_CBR, ++ AVR32_OPC_CLZ, ++ AVR32_OPC_COM, ++ AVR32_OPC_COP, ++ AVR32_OPC_CP_B, ++ AVR32_OPC_CP_H, ++ AVR32_OPC_CP_W1, ++ AVR32_OPC_CP_W2, ++ AVR32_OPC_CP_W3, ++ AVR32_OPC_CPC1, ++ AVR32_OPC_CPC2, ++ AVR32_OPC_CSRF, ++ AVR32_OPC_CSRFCZ, ++ AVR32_OPC_DIVS, ++ AVR32_OPC_DIVU, ++ AVR32_OPC_EOR1, ++ AVR32_OPC_EOR2, ++ AVR32_OPC_EOR3, ++ AVR32_OPC_EORL, ++ AVR32_OPC_EORH, ++ AVR32_OPC_FRS, ++ AVR32_OPC_ICALL, ++ AVR32_OPC_INCJOSP, ++ AVR32_OPC_LD_D1, ++ AVR32_OPC_LD_D2, ++ AVR32_OPC_LD_D3, ++ AVR32_OPC_LD_D5, ++ AVR32_OPC_LD_D4, ++ AVR32_OPC_LD_SB2, ++ AVR32_OPC_LD_SB1, ++ AVR32_OPC_LD_UB1, ++ AVR32_OPC_LD_UB2, ++ AVR32_OPC_LD_UB5, ++ AVR32_OPC_LD_UB3, ++ AVR32_OPC_LD_UB4, ++ AVR32_OPC_LD_SH1, ++ AVR32_OPC_LD_SH2, ++ AVR32_OPC_LD_SH5, ++ AVR32_OPC_LD_SH3, ++ AVR32_OPC_LD_SH4, ++ AVR32_OPC_LD_UH1, ++ AVR32_OPC_LD_UH2, ++ AVR32_OPC_LD_UH5, ++ AVR32_OPC_LD_UH3, ++ AVR32_OPC_LD_UH4, ++ AVR32_OPC_LD_W1, ++ AVR32_OPC_LD_W2, ++ AVR32_OPC_LD_W5, ++ AVR32_OPC_LD_W6, ++ AVR32_OPC_LD_W3, ++ AVR32_OPC_LD_W4, ++ AVR32_OPC_LDC_D1, ++ AVR32_OPC_LDC_D2, ++ AVR32_OPC_LDC_D3, ++ AVR32_OPC_LDC_W1, ++ AVR32_OPC_LDC_W2, ++ AVR32_OPC_LDC_W3, ++ AVR32_OPC_LDC0_D, ++ AVR32_OPC_LDC0_W, ++ AVR32_OPC_LDCM_D, ++ AVR32_OPC_LDCM_D_PU, ++ AVR32_OPC_LDCM_W, ++ AVR32_OPC_LDCM_W_PU, ++ AVR32_OPC_LDDPC, ++ AVR32_OPC_LDDPC_EXT, ++ AVR32_OPC_LDDSP, ++ AVR32_OPC_LDINS_B, ++ AVR32_OPC_LDINS_H, ++ AVR32_OPC_LDM, ++ AVR32_OPC_LDMTS, ++ AVR32_OPC_LDMTS_PU, ++ AVR32_OPC_LDSWP_SH, ++ AVR32_OPC_LDSWP_UH, ++ AVR32_OPC_LDSWP_W, ++ AVR32_OPC_LSL1, ++ AVR32_OPC_LSL3, ++ AVR32_OPC_LSL2, ++ AVR32_OPC_LSR1, ++ AVR32_OPC_LSR3, ++ AVR32_OPC_LSR2, ++ AVR32_OPC_MAC, ++ AVR32_OPC_MACHH_D, ++ AVR32_OPC_MACHH_W, ++ AVR32_OPC_MACS_D, ++ AVR32_OPC_MACSATHH_W, ++ AVR32_OPC_MACUD, ++ AVR32_OPC_MACWH_D, ++ AVR32_OPC_MAX, ++ AVR32_OPC_MCALL, ++ AVR32_OPC_MFDR, ++ AVR32_OPC_MFSR, ++ AVR32_OPC_MIN, ++ AVR32_OPC_MOV3, ++ AVR32_OPC_MOV1, ++ AVR32_OPC_MOV2, ++ AVR32_OPC_MOVEQ1, ++ AVR32_OPC_MOVNE1, ++ AVR32_OPC_MOVCC1, ++ AVR32_OPC_MOVCS1, ++ AVR32_OPC_MOVGE1, ++ AVR32_OPC_MOVLT1, ++ AVR32_OPC_MOVMI1, ++ AVR32_OPC_MOVPL1, ++ AVR32_OPC_MOVLS1, ++ AVR32_OPC_MOVGT1, ++ AVR32_OPC_MOVLE1, ++ AVR32_OPC_MOVHI1, ++ AVR32_OPC_MOVVS1, ++ AVR32_OPC_MOVVC1, ++ AVR32_OPC_MOVQS1, ++ AVR32_OPC_MOVAL1, ++ AVR32_OPC_MOVEQ2, ++ AVR32_OPC_MOVNE2, ++ AVR32_OPC_MOVCC2, ++ AVR32_OPC_MOVCS2, ++ AVR32_OPC_MOVGE2, ++ AVR32_OPC_MOVLT2, ++ AVR32_OPC_MOVMI2, ++ AVR32_OPC_MOVPL2, ++ AVR32_OPC_MOVLS2, ++ AVR32_OPC_MOVGT2, ++ AVR32_OPC_MOVLE2, ++ AVR32_OPC_MOVHI2, ++ AVR32_OPC_MOVVS2, ++ AVR32_OPC_MOVVC2, ++ AVR32_OPC_MOVQS2, ++ AVR32_OPC_MOVAL2, ++ AVR32_OPC_MTDR, ++ AVR32_OPC_MTSR, ++ AVR32_OPC_MUL1, ++ AVR32_OPC_MUL2, ++ AVR32_OPC_MUL3, ++ AVR32_OPC_MULHH_W, ++ AVR32_OPC_MULNHH_W, ++ AVR32_OPC_MULNWH_D, ++ AVR32_OPC_MULSD, ++ AVR32_OPC_MULSATHH_H, ++ AVR32_OPC_MULSATHH_W, ++ AVR32_OPC_MULSATRNDHH_H, ++ AVR32_OPC_MULSATRNDWH_W, ++ AVR32_OPC_MULSATWH_W, ++ AVR32_OPC_MULU_D, ++ AVR32_OPC_MULWH_D, ++ AVR32_OPC_MUSFR, ++ AVR32_OPC_MUSTR, ++ AVR32_OPC_MVCR_D, ++ AVR32_OPC_MVCR_W, ++ AVR32_OPC_MVRC_D, ++ AVR32_OPC_MVRC_W, ++ AVR32_OPC_NEG, ++ AVR32_OPC_NOP, ++ AVR32_OPC_OR1, ++ AVR32_OPC_OR2, ++ AVR32_OPC_OR3, ++ AVR32_OPC_ORH, ++ AVR32_OPC_ORL, ++ AVR32_OPC_PABS_SB, ++ AVR32_OPC_PABS_SH, ++ AVR32_OPC_PACKSH_SB, ++ AVR32_OPC_PACKSH_UB, ++ AVR32_OPC_PACKW_SH, ++ AVR32_OPC_PADD_B, ++ AVR32_OPC_PADD_H, ++ AVR32_OPC_PADDH_SH, ++ AVR32_OPC_PADDH_UB, ++ AVR32_OPC_PADDS_SB, ++ AVR32_OPC_PADDS_SH, ++ AVR32_OPC_PADDS_UB, ++ AVR32_OPC_PADDS_UH, ++ AVR32_OPC_PADDSUB_H, ++ AVR32_OPC_PADDSUBH_SH, ++ AVR32_OPC_PADDSUBS_SH, ++ AVR32_OPC_PADDSUBS_UH, ++ AVR32_OPC_PADDX_H, ++ AVR32_OPC_PADDXH_SH, ++ AVR32_OPC_PADDXS_SH, ++ AVR32_OPC_PADDXS_UH, ++ AVR32_OPC_PASR_B, ++ AVR32_OPC_PASR_H, ++ AVR32_OPC_PAVG_SH, ++ AVR32_OPC_PAVG_UB, ++ AVR32_OPC_PLSL_B, ++ AVR32_OPC_PLSL_H, ++ AVR32_OPC_PLSR_B, ++ AVR32_OPC_PLSR_H, ++ AVR32_OPC_PMAX_SH, ++ AVR32_OPC_PMAX_UB, ++ AVR32_OPC_PMIN_SH, ++ AVR32_OPC_PMIN_UB, ++ AVR32_OPC_POPJC, ++ AVR32_OPC_POPM, ++ AVR32_OPC_POPM_E, ++ AVR32_OPC_PREF, ++ AVR32_OPC_PSAD, ++ AVR32_OPC_PSUB_B, ++ AVR32_OPC_PSUB_H, ++ AVR32_OPC_PSUBADD_H, ++ AVR32_OPC_PSUBADDH_SH, ++ AVR32_OPC_PSUBADDS_SH, ++ AVR32_OPC_PSUBADDS_UH, ++ AVR32_OPC_PSUBH_SH, ++ AVR32_OPC_PSUBH_UB, ++ AVR32_OPC_PSUBS_SB, ++ AVR32_OPC_PSUBS_SH, ++ AVR32_OPC_PSUBS_UB, ++ AVR32_OPC_PSUBS_UH, ++ AVR32_OPC_PSUBX_H, ++ AVR32_OPC_PSUBXH_SH, ++ AVR32_OPC_PSUBXS_SH, ++ AVR32_OPC_PSUBXS_UH, ++ AVR32_OPC_PUNPCKSB_H, ++ AVR32_OPC_PUNPCKUB_H, ++ AVR32_OPC_PUSHJC, ++ AVR32_OPC_PUSHM, ++ AVR32_OPC_PUSHM_E, ++ AVR32_OPC_RCALL1, ++ AVR32_OPC_RCALL2, ++ AVR32_OPC_RETEQ, ++ AVR32_OPC_RETNE, ++ AVR32_OPC_RETCC, ++ AVR32_OPC_RETCS, ++ AVR32_OPC_RETGE, ++ AVR32_OPC_RETLT, ++ AVR32_OPC_RETMI, ++ AVR32_OPC_RETPL, ++ AVR32_OPC_RETLS, ++ AVR32_OPC_RETGT, ++ AVR32_OPC_RETLE, ++ AVR32_OPC_RETHI, ++ AVR32_OPC_RETVS, ++ AVR32_OPC_RETVC, ++ AVR32_OPC_RETQS, ++ AVR32_OPC_RETAL, ++ AVR32_OPC_RETD, ++ AVR32_OPC_RETE, ++ AVR32_OPC_RETJ, ++ AVR32_OPC_RETS, ++ AVR32_OPC_RJMP, ++ AVR32_OPC_ROL, ++ AVR32_OPC_ROR, ++ AVR32_OPC_RSUB1, ++ AVR32_OPC_RSUB2, ++ AVR32_OPC_SATADD_H, ++ AVR32_OPC_SATADD_W, ++ AVR32_OPC_SATRNDS, ++ AVR32_OPC_SATRNDU, ++ AVR32_OPC_SATS, ++ AVR32_OPC_SATSUB_H, ++ AVR32_OPC_SATSUB_W1, ++ AVR32_OPC_SATSUB_W2, ++ AVR32_OPC_SATU, ++ AVR32_OPC_SBC, ++ AVR32_OPC_SBR, ++ AVR32_OPC_SCALL, ++ AVR32_OPC_SCR, ++ AVR32_OPC_SLEEP, ++ AVR32_OPC_SREQ, ++ AVR32_OPC_SRNE, ++ AVR32_OPC_SRCC, ++ AVR32_OPC_SRCS, ++ AVR32_OPC_SRGE, ++ AVR32_OPC_SRLT, ++ AVR32_OPC_SRMI, ++ AVR32_OPC_SRPL, ++ AVR32_OPC_SRLS, ++ AVR32_OPC_SRGT, ++ AVR32_OPC_SRLE, ++ AVR32_OPC_SRHI, ++ AVR32_OPC_SRVS, ++ AVR32_OPC_SRVC, ++ AVR32_OPC_SRQS, ++ AVR32_OPC_SRAL, ++ AVR32_OPC_SSRF, ++ AVR32_OPC_ST_B1, ++ AVR32_OPC_ST_B2, ++ AVR32_OPC_ST_B5, ++ AVR32_OPC_ST_B3, ++ AVR32_OPC_ST_B4, ++ AVR32_OPC_ST_D1, ++ AVR32_OPC_ST_D2, ++ AVR32_OPC_ST_D3, ++ AVR32_OPC_ST_D5, ++ AVR32_OPC_ST_D4, ++ AVR32_OPC_ST_H1, ++ AVR32_OPC_ST_H2, ++ AVR32_OPC_ST_H5, ++ AVR32_OPC_ST_H3, ++ AVR32_OPC_ST_H4, ++ AVR32_OPC_ST_W1, ++ AVR32_OPC_ST_W2, ++ AVR32_OPC_ST_W5, ++ AVR32_OPC_ST_W3, ++ AVR32_OPC_ST_W4, ++ AVR32_OPC_STC_D1, ++ AVR32_OPC_STC_D2, ++ AVR32_OPC_STC_D3, ++ AVR32_OPC_STC_W1, ++ AVR32_OPC_STC_W2, ++ AVR32_OPC_STC_W3, ++ AVR32_OPC_STC0_D, ++ AVR32_OPC_STC0_W, ++ AVR32_OPC_STCM_D, ++ AVR32_OPC_STCM_D_PU, ++ AVR32_OPC_STCM_W, ++ AVR32_OPC_STCM_W_PU, ++ AVR32_OPC_STCOND, ++ AVR32_OPC_STDSP, ++ AVR32_OPC_STHH_W2, ++ AVR32_OPC_STHH_W1, ++ AVR32_OPC_STM, ++ AVR32_OPC_STM_PU, ++ AVR32_OPC_STMTS, ++ AVR32_OPC_STMTS_PU, ++ AVR32_OPC_STSWP_H, ++ AVR32_OPC_STSWP_W, ++ AVR32_OPC_SUB1, ++ AVR32_OPC_SUB2, ++ AVR32_OPC_SUB5, ++ AVR32_OPC_SUB3_SP, ++ AVR32_OPC_SUB3, ++ AVR32_OPC_SUB4, ++ AVR32_OPC_SUBEQ, ++ AVR32_OPC_SUBNE, ++ AVR32_OPC_SUBCC, ++ AVR32_OPC_SUBCS, ++ AVR32_OPC_SUBGE, ++ AVR32_OPC_SUBLT, ++ AVR32_OPC_SUBMI, ++ AVR32_OPC_SUBPL, ++ AVR32_OPC_SUBLS, ++ AVR32_OPC_SUBGT, ++ AVR32_OPC_SUBLE, ++ AVR32_OPC_SUBHI, ++ AVR32_OPC_SUBVS, ++ AVR32_OPC_SUBVC, ++ AVR32_OPC_SUBQS, ++ AVR32_OPC_SUBAL, ++ AVR32_OPC_SUBFEQ, ++ AVR32_OPC_SUBFNE, ++ AVR32_OPC_SUBFCC, ++ AVR32_OPC_SUBFCS, ++ AVR32_OPC_SUBFGE, ++ AVR32_OPC_SUBFLT, ++ AVR32_OPC_SUBFMI, ++ AVR32_OPC_SUBFPL, ++ AVR32_OPC_SUBFLS, ++ AVR32_OPC_SUBFGT, ++ AVR32_OPC_SUBFLE, ++ AVR32_OPC_SUBFHI, ++ AVR32_OPC_SUBFVS, ++ AVR32_OPC_SUBFVC, ++ AVR32_OPC_SUBFQS, ++ AVR32_OPC_SUBFAL, ++ AVR32_OPC_SUBHH_W, ++ AVR32_OPC_SWAP_B, ++ AVR32_OPC_SWAP_BH, ++ AVR32_OPC_SWAP_H, ++ AVR32_OPC_SYNC, ++ AVR32_OPC_TLBR, ++ AVR32_OPC_TLBS, ++ AVR32_OPC_TLBW, ++ AVR32_OPC_TNBZ, ++ AVR32_OPC_TST, ++ AVR32_OPC_XCHG, ++ AVR32_OPC_MEMC, ++ AVR32_OPC_MEMS, ++ AVR32_OPC_MEMT, ++ AVR32_OPC_BFEXTS, ++ AVR32_OPC_BFEXTU, ++ AVR32_OPC_BFINS, ++ AVR32_OPC_RSUBEQ, ++ AVR32_OPC_RSUBNE, ++ AVR32_OPC_RSUBCC, ++ AVR32_OPC_RSUBCS, ++ AVR32_OPC_RSUBGE, ++ AVR32_OPC_RSUBLT, ++ AVR32_OPC_RSUBMI, ++ AVR32_OPC_RSUBPL, ++ AVR32_OPC_RSUBLS, ++ AVR32_OPC_RSUBGT, ++ AVR32_OPC_RSUBLE, ++ AVR32_OPC_RSUBHI, ++ AVR32_OPC_RSUBVS, ++ AVR32_OPC_RSUBVC, ++ AVR32_OPC_RSUBQS, ++ AVR32_OPC_RSUBAL, ++ AVR32_OPC_ADDEQ, ++ AVR32_OPC_ADDNE, ++ AVR32_OPC_ADDCC, ++ AVR32_OPC_ADDCS, ++ AVR32_OPC_ADDGE, ++ AVR32_OPC_ADDLT, ++ AVR32_OPC_ADDMI, ++ AVR32_OPC_ADDPL, ++ AVR32_OPC_ADDLS, ++ AVR32_OPC_ADDGT, ++ AVR32_OPC_ADDLE, ++ AVR32_OPC_ADDHI, ++ AVR32_OPC_ADDVS, ++ AVR32_OPC_ADDVC, ++ AVR32_OPC_ADDQS, ++ AVR32_OPC_ADDAL, ++ AVR32_OPC_SUB2EQ, ++ AVR32_OPC_SUB2NE, ++ AVR32_OPC_SUB2CC, ++ AVR32_OPC_SUB2CS, ++ AVR32_OPC_SUB2GE, ++ AVR32_OPC_SUB2LT, ++ AVR32_OPC_SUB2MI, ++ AVR32_OPC_SUB2PL, ++ AVR32_OPC_SUB2LS, ++ AVR32_OPC_SUB2GT, ++ AVR32_OPC_SUB2LE, ++ AVR32_OPC_SUB2HI, ++ AVR32_OPC_SUB2VS, ++ AVR32_OPC_SUB2VC, ++ AVR32_OPC_SUB2QS, ++ AVR32_OPC_SUB2AL, ++ AVR32_OPC_ANDEQ, ++ AVR32_OPC_ANDNE, ++ AVR32_OPC_ANDCC, ++ AVR32_OPC_ANDCS, ++ AVR32_OPC_ANDGE, ++ AVR32_OPC_ANDLT, ++ AVR32_OPC_ANDMI, ++ AVR32_OPC_ANDPL, ++ AVR32_OPC_ANDLS, ++ AVR32_OPC_ANDGT, ++ AVR32_OPC_ANDLE, ++ AVR32_OPC_ANDHI, ++ AVR32_OPC_ANDVS, ++ AVR32_OPC_ANDVC, ++ AVR32_OPC_ANDQS, ++ AVR32_OPC_ANDAL, ++ AVR32_OPC_OREQ, ++ AVR32_OPC_ORNE, ++ AVR32_OPC_ORCC, ++ AVR32_OPC_ORCS, ++ AVR32_OPC_ORGE, ++ AVR32_OPC_ORLT, ++ AVR32_OPC_ORMI, ++ AVR32_OPC_ORPL, ++ AVR32_OPC_ORLS, ++ AVR32_OPC_ORGT, ++ AVR32_OPC_ORLE, ++ AVR32_OPC_ORHI, ++ AVR32_OPC_ORVS, ++ AVR32_OPC_ORVC, ++ AVR32_OPC_ORQS, ++ AVR32_OPC_ORAL, ++ AVR32_OPC_EOREQ, ++ AVR32_OPC_EORNE, ++ AVR32_OPC_EORCC, ++ AVR32_OPC_EORCS, ++ AVR32_OPC_EORGE, ++ AVR32_OPC_EORLT, ++ AVR32_OPC_EORMI, ++ AVR32_OPC_EORPL, ++ AVR32_OPC_EORLS, ++ AVR32_OPC_EORGT, ++ AVR32_OPC_EORLE, ++ AVR32_OPC_EORHI, ++ AVR32_OPC_EORVS, ++ AVR32_OPC_EORVC, ++ AVR32_OPC_EORQS, ++ AVR32_OPC_EORAL, ++ AVR32_OPC_LD_WEQ, ++ AVR32_OPC_LD_WNE, ++ AVR32_OPC_LD_WCC, ++ AVR32_OPC_LD_WCS, ++ AVR32_OPC_LD_WGE, ++ AVR32_OPC_LD_WLT, ++ AVR32_OPC_LD_WMI, ++ AVR32_OPC_LD_WPL, ++ AVR32_OPC_LD_WLS, ++ AVR32_OPC_LD_WGT, ++ AVR32_OPC_LD_WLE, ++ AVR32_OPC_LD_WHI, ++ AVR32_OPC_LD_WVS, ++ AVR32_OPC_LD_WVC, ++ AVR32_OPC_LD_WQS, ++ AVR32_OPC_LD_WAL, ++ AVR32_OPC_LD_SHEQ, ++ AVR32_OPC_LD_SHNE, ++ AVR32_OPC_LD_SHCC, ++ AVR32_OPC_LD_SHCS, ++ AVR32_OPC_LD_SHGE, ++ AVR32_OPC_LD_SHLT, ++ AVR32_OPC_LD_SHMI, ++ AVR32_OPC_LD_SHPL, ++ AVR32_OPC_LD_SHLS, ++ AVR32_OPC_LD_SHGT, ++ AVR32_OPC_LD_SHLE, ++ AVR32_OPC_LD_SHHI, ++ AVR32_OPC_LD_SHVS, ++ AVR32_OPC_LD_SHVC, ++ AVR32_OPC_LD_SHQS, ++ AVR32_OPC_LD_SHAL, ++ AVR32_OPC_LD_UHEQ, ++ AVR32_OPC_LD_UHNE, ++ AVR32_OPC_LD_UHCC, ++ AVR32_OPC_LD_UHCS, ++ AVR32_OPC_LD_UHGE, ++ AVR32_OPC_LD_UHLT, ++ AVR32_OPC_LD_UHMI, ++ AVR32_OPC_LD_UHPL, ++ AVR32_OPC_LD_UHLS, ++ AVR32_OPC_LD_UHGT, ++ AVR32_OPC_LD_UHLE, ++ AVR32_OPC_LD_UHHI, ++ AVR32_OPC_LD_UHVS, ++ AVR32_OPC_LD_UHVC, ++ AVR32_OPC_LD_UHQS, ++ AVR32_OPC_LD_UHAL, ++ AVR32_OPC_LD_SBEQ, ++ AVR32_OPC_LD_SBNE, ++ AVR32_OPC_LD_SBCC, ++ AVR32_OPC_LD_SBCS, ++ AVR32_OPC_LD_SBGE, ++ AVR32_OPC_LD_SBLT, ++ AVR32_OPC_LD_SBMI, ++ AVR32_OPC_LD_SBPL, ++ AVR32_OPC_LD_SBLS, ++ AVR32_OPC_LD_SBGT, ++ AVR32_OPC_LD_SBLE, ++ AVR32_OPC_LD_SBHI, ++ AVR32_OPC_LD_SBVS, ++ AVR32_OPC_LD_SBVC, ++ AVR32_OPC_LD_SBQS, ++ AVR32_OPC_LD_SBAL, ++ AVR32_OPC_LD_UBEQ, ++ AVR32_OPC_LD_UBNE, ++ AVR32_OPC_LD_UBCC, ++ AVR32_OPC_LD_UBCS, ++ AVR32_OPC_LD_UBGE, ++ AVR32_OPC_LD_UBLT, ++ AVR32_OPC_LD_UBMI, ++ AVR32_OPC_LD_UBPL, ++ AVR32_OPC_LD_UBLS, ++ AVR32_OPC_LD_UBGT, ++ AVR32_OPC_LD_UBLE, ++ AVR32_OPC_LD_UBHI, ++ AVR32_OPC_LD_UBVS, ++ AVR32_OPC_LD_UBVC, ++ AVR32_OPC_LD_UBQS, ++ AVR32_OPC_LD_UBAL, ++ AVR32_OPC_ST_WEQ, ++ AVR32_OPC_ST_WNE, ++ AVR32_OPC_ST_WCC, ++ AVR32_OPC_ST_WCS, ++ AVR32_OPC_ST_WGE, ++ AVR32_OPC_ST_WLT, ++ AVR32_OPC_ST_WMI, ++ AVR32_OPC_ST_WPL, ++ AVR32_OPC_ST_WLS, ++ AVR32_OPC_ST_WGT, ++ AVR32_OPC_ST_WLE, ++ AVR32_OPC_ST_WHI, ++ AVR32_OPC_ST_WVS, ++ AVR32_OPC_ST_WVC, ++ AVR32_OPC_ST_WQS, ++ AVR32_OPC_ST_WAL, ++ AVR32_OPC_ST_HEQ, ++ AVR32_OPC_ST_HNE, ++ AVR32_OPC_ST_HCC, ++ AVR32_OPC_ST_HCS, ++ AVR32_OPC_ST_HGE, ++ AVR32_OPC_ST_HLT, ++ AVR32_OPC_ST_HMI, ++ AVR32_OPC_ST_HPL, ++ AVR32_OPC_ST_HLS, ++ AVR32_OPC_ST_HGT, ++ AVR32_OPC_ST_HLE, ++ AVR32_OPC_ST_HHI, ++ AVR32_OPC_ST_HVS, ++ AVR32_OPC_ST_HVC, ++ AVR32_OPC_ST_HQS, ++ AVR32_OPC_ST_HAL, ++ AVR32_OPC_ST_BEQ, ++ AVR32_OPC_ST_BNE, ++ AVR32_OPC_ST_BCC, ++ AVR32_OPC_ST_BCS, ++ AVR32_OPC_ST_BGE, ++ AVR32_OPC_ST_BLT, ++ AVR32_OPC_ST_BMI, ++ AVR32_OPC_ST_BPL, ++ AVR32_OPC_ST_BLS, ++ AVR32_OPC_ST_BGT, ++ AVR32_OPC_ST_BLE, ++ AVR32_OPC_ST_BHI, ++ AVR32_OPC_ST_BVS, ++ AVR32_OPC_ST_BVC, ++ AVR32_OPC_ST_BQS, ++ AVR32_OPC_ST_BAL, ++ AVR32_OPC_MOVH, ++ AVR32_OPC_SSCALL, ++ AVR32_OPC_RETSS, ++ AVR32_OPC__END_ ++}; ++#define AVR32_NR_OPCODES AVR32_OPC__END_ ++ ++enum avr32_syntax_type ++{ ++ AVR32_SYNTAX_ABS, ++ AVR32_SYNTAX_ACALL, ++ AVR32_SYNTAX_ACR, ++ AVR32_SYNTAX_ADC, ++ AVR32_SYNTAX_ADD1, ++ AVR32_SYNTAX_ADD2, ++ AVR32_SYNTAX_ADDABS, ++ AVR32_SYNTAX_ADDHH_W, ++ AVR32_SYNTAX_AND1, ++ AVR32_SYNTAX_AND2, ++ AVR32_SYNTAX_AND3, ++ AVR32_SYNTAX_ANDH, ++ AVR32_SYNTAX_ANDH_COH, ++ AVR32_SYNTAX_ANDL, ++ AVR32_SYNTAX_ANDL_COH, ++ AVR32_SYNTAX_ANDN, ++ AVR32_SYNTAX_ASR1, ++ AVR32_SYNTAX_ASR3, ++ AVR32_SYNTAX_ASR2, ++ AVR32_SYNTAX_BFEXTS, ++ AVR32_SYNTAX_BFEXTU, ++ AVR32_SYNTAX_BFINS, ++ AVR32_SYNTAX_BLD, ++ AVR32_SYNTAX_BREQ1, ++ AVR32_SYNTAX_BRNE1, ++ AVR32_SYNTAX_BRCC1, ++ AVR32_SYNTAX_BRCS1, ++ AVR32_SYNTAX_BRGE1, ++ AVR32_SYNTAX_BRLT1, ++ AVR32_SYNTAX_BRMI1, ++ AVR32_SYNTAX_BRPL1, ++ AVR32_SYNTAX_BRHS1, ++ AVR32_SYNTAX_BRLO1, ++ AVR32_SYNTAX_BREQ2, ++ AVR32_SYNTAX_BRNE2, ++ AVR32_SYNTAX_BRCC2, ++ AVR32_SYNTAX_BRCS2, ++ AVR32_SYNTAX_BRGE2, ++ AVR32_SYNTAX_BRLT2, ++ AVR32_SYNTAX_BRMI2, ++ AVR32_SYNTAX_BRPL2, ++ AVR32_SYNTAX_BRLS, ++ AVR32_SYNTAX_BRGT, ++ AVR32_SYNTAX_BRLE, ++ AVR32_SYNTAX_BRHI, ++ AVR32_SYNTAX_BRVS, ++ AVR32_SYNTAX_BRVC, ++ AVR32_SYNTAX_BRQS, ++ AVR32_SYNTAX_BRAL, ++ AVR32_SYNTAX_BRHS2, ++ AVR32_SYNTAX_BRLO2, ++ AVR32_SYNTAX_BREAKPOINT, ++ AVR32_SYNTAX_BREV, ++ AVR32_SYNTAX_BST, ++ AVR32_SYNTAX_CACHE, ++ AVR32_SYNTAX_CASTS_B, ++ AVR32_SYNTAX_CASTS_H, ++ AVR32_SYNTAX_CASTU_B, ++ AVR32_SYNTAX_CASTU_H, ++ AVR32_SYNTAX_CBR, ++ AVR32_SYNTAX_CLZ, ++ AVR32_SYNTAX_COM, ++ AVR32_SYNTAX_COP, ++ AVR32_SYNTAX_CP_B, ++ AVR32_SYNTAX_CP_H, ++ AVR32_SYNTAX_CP_W1, ++ AVR32_SYNTAX_CP_W2, ++ AVR32_SYNTAX_CP_W3, ++ AVR32_SYNTAX_CPC1, ++ AVR32_SYNTAX_CPC2, ++ AVR32_SYNTAX_CSRF, ++ AVR32_SYNTAX_CSRFCZ, ++ AVR32_SYNTAX_DIVS, ++ AVR32_SYNTAX_DIVU, ++ AVR32_SYNTAX_EOR1, ++ AVR32_SYNTAX_EOR2, ++ AVR32_SYNTAX_EOR3, ++ AVR32_SYNTAX_EORL, ++ AVR32_SYNTAX_EORH, ++ AVR32_SYNTAX_FRS, ++ AVR32_SYNTAX_SSCALL, ++ AVR32_SYNTAX_RETSS, ++ AVR32_SYNTAX_ICALL, ++ AVR32_SYNTAX_INCJOSP, ++ AVR32_SYNTAX_LD_D1, ++ AVR32_SYNTAX_LD_D2, ++ AVR32_SYNTAX_LD_D3, ++ AVR32_SYNTAX_LD_D5, ++ AVR32_SYNTAX_LD_D4, ++ AVR32_SYNTAX_LD_SB2, ++ AVR32_SYNTAX_LD_SB1, ++ AVR32_SYNTAX_LD_UB1, ++ AVR32_SYNTAX_LD_UB2, ++ AVR32_SYNTAX_LD_UB5, ++ AVR32_SYNTAX_LD_UB3, ++ AVR32_SYNTAX_LD_UB4, ++ AVR32_SYNTAX_LD_SH1, ++ AVR32_SYNTAX_LD_SH2, ++ AVR32_SYNTAX_LD_SH5, ++ AVR32_SYNTAX_LD_SH3, ++ AVR32_SYNTAX_LD_SH4, ++ AVR32_SYNTAX_LD_UH1, ++ AVR32_SYNTAX_LD_UH2, ++ AVR32_SYNTAX_LD_UH5, ++ AVR32_SYNTAX_LD_UH3, ++ AVR32_SYNTAX_LD_UH4, ++ AVR32_SYNTAX_LD_W1, ++ AVR32_SYNTAX_LD_W2, ++ AVR32_SYNTAX_LD_W5, ++ AVR32_SYNTAX_LD_W6, ++ AVR32_SYNTAX_LD_W3, ++ AVR32_SYNTAX_LD_W4, ++ AVR32_SYNTAX_LDC_D1, ++ AVR32_SYNTAX_LDC_D2, ++ AVR32_SYNTAX_LDC_D3, ++ AVR32_SYNTAX_LDC_W1, ++ AVR32_SYNTAX_LDC_W2, ++ AVR32_SYNTAX_LDC_W3, ++ AVR32_SYNTAX_LDC0_D, ++ AVR32_SYNTAX_LDC0_W, ++ AVR32_SYNTAX_LDCM_D, ++ AVR32_SYNTAX_LDCM_D_PU, ++ AVR32_SYNTAX_LDCM_W, ++ AVR32_SYNTAX_LDCM_W_PU, ++ AVR32_SYNTAX_LDDPC, ++ AVR32_SYNTAX_LDDPC_EXT, ++ AVR32_SYNTAX_LDDSP, ++ AVR32_SYNTAX_LDINS_B, ++ AVR32_SYNTAX_LDINS_H, ++ AVR32_SYNTAX_LDM, ++ AVR32_SYNTAX_LDMTS, ++ AVR32_SYNTAX_LDMTS_PU, ++ AVR32_SYNTAX_LDSWP_SH, ++ AVR32_SYNTAX_LDSWP_UH, ++ AVR32_SYNTAX_LDSWP_W, ++ AVR32_SYNTAX_LSL1, ++ AVR32_SYNTAX_LSL3, ++ AVR32_SYNTAX_LSL2, ++ AVR32_SYNTAX_LSR1, ++ AVR32_SYNTAX_LSR3, ++ AVR32_SYNTAX_LSR2, ++ AVR32_SYNTAX_MAC, ++ AVR32_SYNTAX_MACHH_D, ++ AVR32_SYNTAX_MACHH_W, ++ AVR32_SYNTAX_MACS_D, ++ AVR32_SYNTAX_MACSATHH_W, ++ AVR32_SYNTAX_MACUD, ++ AVR32_SYNTAX_MACWH_D, ++ AVR32_SYNTAX_MAX, ++ AVR32_SYNTAX_MCALL, ++ AVR32_SYNTAX_MFDR, ++ AVR32_SYNTAX_MFSR, ++ AVR32_SYNTAX_MIN, ++ AVR32_SYNTAX_MOV3, ++ AVR32_SYNTAX_MOV1, ++ AVR32_SYNTAX_MOV2, ++ AVR32_SYNTAX_MOVEQ1, ++ AVR32_SYNTAX_MOVNE1, ++ AVR32_SYNTAX_MOVCC1, ++ AVR32_SYNTAX_MOVCS1, ++ AVR32_SYNTAX_MOVGE1, ++ AVR32_SYNTAX_MOVLT1, ++ AVR32_SYNTAX_MOVMI1, ++ AVR32_SYNTAX_MOVPL1, ++ AVR32_SYNTAX_MOVLS1, ++ AVR32_SYNTAX_MOVGT1, ++ AVR32_SYNTAX_MOVLE1, ++ AVR32_SYNTAX_MOVHI1, ++ AVR32_SYNTAX_MOVVS1, ++ AVR32_SYNTAX_MOVVC1, ++ AVR32_SYNTAX_MOVQS1, ++ AVR32_SYNTAX_MOVAL1, ++ AVR32_SYNTAX_MOVHS1, ++ AVR32_SYNTAX_MOVLO1, ++ AVR32_SYNTAX_MOVEQ2, ++ AVR32_SYNTAX_MOVNE2, ++ AVR32_SYNTAX_MOVCC2, ++ AVR32_SYNTAX_MOVCS2, ++ AVR32_SYNTAX_MOVGE2, ++ AVR32_SYNTAX_MOVLT2, ++ AVR32_SYNTAX_MOVMI2, ++ AVR32_SYNTAX_MOVPL2, ++ AVR32_SYNTAX_MOVLS2, ++ AVR32_SYNTAX_MOVGT2, ++ AVR32_SYNTAX_MOVLE2, ++ AVR32_SYNTAX_MOVHI2, ++ AVR32_SYNTAX_MOVVS2, ++ AVR32_SYNTAX_MOVVC2, ++ AVR32_SYNTAX_MOVQS2, ++ AVR32_SYNTAX_MOVAL2, ++ AVR32_SYNTAX_MOVHS2, ++ AVR32_SYNTAX_MOVLO2, ++ AVR32_SYNTAX_MTDR, ++ AVR32_SYNTAX_MTSR, ++ AVR32_SYNTAX_MUL1, ++ AVR32_SYNTAX_MUL2, ++ AVR32_SYNTAX_MUL3, ++ AVR32_SYNTAX_MULHH_W, ++ AVR32_SYNTAX_MULNHH_W, ++ AVR32_SYNTAX_MULNWH_D, ++ AVR32_SYNTAX_MULSD, ++ AVR32_SYNTAX_MULSATHH_H, ++ AVR32_SYNTAX_MULSATHH_W, ++ AVR32_SYNTAX_MULSATRNDHH_H, ++ AVR32_SYNTAX_MULSATRNDWH_W, ++ AVR32_SYNTAX_MULSATWH_W, ++ AVR32_SYNTAX_MULU_D, ++ AVR32_SYNTAX_MULWH_D, ++ AVR32_SYNTAX_MUSFR, ++ AVR32_SYNTAX_MUSTR, ++ AVR32_SYNTAX_MVCR_D, ++ AVR32_SYNTAX_MVCR_W, ++ AVR32_SYNTAX_MVRC_D, ++ AVR32_SYNTAX_MVRC_W, ++ AVR32_SYNTAX_NEG, ++ AVR32_SYNTAX_NOP, ++ AVR32_SYNTAX_OR1, ++ AVR32_SYNTAX_OR2, ++ AVR32_SYNTAX_OR3, ++ AVR32_SYNTAX_ORH, ++ AVR32_SYNTAX_ORL, ++ AVR32_SYNTAX_PABS_SB, ++ AVR32_SYNTAX_PABS_SH, ++ AVR32_SYNTAX_PACKSH_SB, ++ AVR32_SYNTAX_PACKSH_UB, ++ AVR32_SYNTAX_PACKW_SH, ++ AVR32_SYNTAX_PADD_B, ++ AVR32_SYNTAX_PADD_H, ++ AVR32_SYNTAX_PADDH_SH, ++ AVR32_SYNTAX_PADDH_UB, ++ AVR32_SYNTAX_PADDS_SB, ++ AVR32_SYNTAX_PADDS_SH, ++ AVR32_SYNTAX_PADDS_UB, ++ AVR32_SYNTAX_PADDS_UH, ++ AVR32_SYNTAX_PADDSUB_H, ++ AVR32_SYNTAX_PADDSUBH_SH, ++ AVR32_SYNTAX_PADDSUBS_SH, ++ AVR32_SYNTAX_PADDSUBS_UH, ++ AVR32_SYNTAX_PADDX_H, ++ AVR32_SYNTAX_PADDXH_SH, ++ AVR32_SYNTAX_PADDXS_SH, ++ AVR32_SYNTAX_PADDXS_UH, ++ AVR32_SYNTAX_PASR_B, ++ AVR32_SYNTAX_PASR_H, ++ AVR32_SYNTAX_PAVG_SH, ++ AVR32_SYNTAX_PAVG_UB, ++ AVR32_SYNTAX_PLSL_B, ++ AVR32_SYNTAX_PLSL_H, ++ AVR32_SYNTAX_PLSR_B, ++ AVR32_SYNTAX_PLSR_H, ++ AVR32_SYNTAX_PMAX_SH, ++ AVR32_SYNTAX_PMAX_UB, ++ AVR32_SYNTAX_PMIN_SH, ++ AVR32_SYNTAX_PMIN_UB, ++ AVR32_SYNTAX_POPJC, ++ AVR32_SYNTAX_POPM, ++ AVR32_SYNTAX_POPM_E, ++ AVR32_SYNTAX_PREF, ++ AVR32_SYNTAX_PSAD, ++ AVR32_SYNTAX_PSUB_B, ++ AVR32_SYNTAX_PSUB_H, ++ AVR32_SYNTAX_PSUBADD_H, ++ AVR32_SYNTAX_PSUBADDH_SH, ++ AVR32_SYNTAX_PSUBADDS_SH, ++ AVR32_SYNTAX_PSUBADDS_UH, ++ AVR32_SYNTAX_PSUBH_SH, ++ AVR32_SYNTAX_PSUBH_UB, ++ AVR32_SYNTAX_PSUBS_SB, ++ AVR32_SYNTAX_PSUBS_SH, ++ AVR32_SYNTAX_PSUBS_UB, ++ AVR32_SYNTAX_PSUBS_UH, ++ AVR32_SYNTAX_PSUBX_H, ++ AVR32_SYNTAX_PSUBXH_SH, ++ AVR32_SYNTAX_PSUBXS_SH, ++ AVR32_SYNTAX_PSUBXS_UH, ++ AVR32_SYNTAX_PUNPCKSB_H, ++ AVR32_SYNTAX_PUNPCKUB_H, ++ AVR32_SYNTAX_PUSHJC, ++ AVR32_SYNTAX_PUSHM, ++ AVR32_SYNTAX_PUSHM_E, ++ AVR32_SYNTAX_RCALL1, ++ AVR32_SYNTAX_RCALL2, ++ AVR32_SYNTAX_RETEQ, ++ AVR32_SYNTAX_RETNE, ++ AVR32_SYNTAX_RETCC, ++ AVR32_SYNTAX_RETCS, ++ AVR32_SYNTAX_RETGE, ++ AVR32_SYNTAX_RETLT, ++ AVR32_SYNTAX_RETMI, ++ AVR32_SYNTAX_RETPL, ++ AVR32_SYNTAX_RETLS, ++ AVR32_SYNTAX_RETGT, ++ AVR32_SYNTAX_RETLE, ++ AVR32_SYNTAX_RETHI, ++ AVR32_SYNTAX_RETVS, ++ AVR32_SYNTAX_RETVC, ++ AVR32_SYNTAX_RETQS, ++ AVR32_SYNTAX_RETAL, ++ AVR32_SYNTAX_RETHS, ++ AVR32_SYNTAX_RETLO, ++ AVR32_SYNTAX_RETD, ++ AVR32_SYNTAX_RETE, ++ AVR32_SYNTAX_RETJ, ++ AVR32_SYNTAX_RETS, ++ AVR32_SYNTAX_RJMP, ++ AVR32_SYNTAX_ROL, ++ AVR32_SYNTAX_ROR, ++ AVR32_SYNTAX_RSUB1, ++ AVR32_SYNTAX_RSUB2, ++ AVR32_SYNTAX_SATADD_H, ++ AVR32_SYNTAX_SATADD_W, ++ AVR32_SYNTAX_SATRNDS, ++ AVR32_SYNTAX_SATRNDU, ++ AVR32_SYNTAX_SATS, ++ AVR32_SYNTAX_SATSUB_H, ++ AVR32_SYNTAX_SATSUB_W1, ++ AVR32_SYNTAX_SATSUB_W2, ++ AVR32_SYNTAX_SATU, ++ AVR32_SYNTAX_SBC, ++ AVR32_SYNTAX_SBR, ++ AVR32_SYNTAX_SCALL, ++ AVR32_SYNTAX_SCR, ++ AVR32_SYNTAX_SLEEP, ++ AVR32_SYNTAX_SREQ, ++ AVR32_SYNTAX_SRNE, ++ AVR32_SYNTAX_SRCC, ++ AVR32_SYNTAX_SRCS, ++ AVR32_SYNTAX_SRGE, ++ AVR32_SYNTAX_SRLT, ++ AVR32_SYNTAX_SRMI, ++ AVR32_SYNTAX_SRPL, ++ AVR32_SYNTAX_SRLS, ++ AVR32_SYNTAX_SRGT, ++ AVR32_SYNTAX_SRLE, ++ AVR32_SYNTAX_SRHI, ++ AVR32_SYNTAX_SRVS, ++ AVR32_SYNTAX_SRVC, ++ AVR32_SYNTAX_SRQS, ++ AVR32_SYNTAX_SRAL, ++ AVR32_SYNTAX_SRHS, ++ AVR32_SYNTAX_SRLO, ++ AVR32_SYNTAX_SSRF, ++ AVR32_SYNTAX_ST_B1, ++ AVR32_SYNTAX_ST_B2, ++ AVR32_SYNTAX_ST_B5, ++ AVR32_SYNTAX_ST_B3, ++ AVR32_SYNTAX_ST_B4, ++ AVR32_SYNTAX_ST_D1, ++ AVR32_SYNTAX_ST_D2, ++ AVR32_SYNTAX_ST_D3, ++ AVR32_SYNTAX_ST_D5, ++ AVR32_SYNTAX_ST_D4, ++ AVR32_SYNTAX_ST_H1, ++ AVR32_SYNTAX_ST_H2, ++ AVR32_SYNTAX_ST_H5, ++ AVR32_SYNTAX_ST_H3, ++ AVR32_SYNTAX_ST_H4, ++ AVR32_SYNTAX_ST_W1, ++ AVR32_SYNTAX_ST_W2, ++ AVR32_SYNTAX_ST_W5, ++ AVR32_SYNTAX_ST_W3, ++ AVR32_SYNTAX_ST_W4, ++ AVR32_SYNTAX_STC_D1, ++ AVR32_SYNTAX_STC_D2, ++ AVR32_SYNTAX_STC_D3, ++ AVR32_SYNTAX_STC_W1, ++ AVR32_SYNTAX_STC_W2, ++ AVR32_SYNTAX_STC_W3, ++ AVR32_SYNTAX_STC0_D, ++ AVR32_SYNTAX_STC0_W, ++ AVR32_SYNTAX_STCM_D, ++ AVR32_SYNTAX_STCM_D_PU, ++ AVR32_SYNTAX_STCM_W, ++ AVR32_SYNTAX_STCM_W_PU, ++ AVR32_SYNTAX_STCOND, ++ AVR32_SYNTAX_STDSP, ++ AVR32_SYNTAX_STHH_W2, ++ AVR32_SYNTAX_STHH_W1, ++ AVR32_SYNTAX_STM, ++ AVR32_SYNTAX_STM_PU, ++ AVR32_SYNTAX_STMTS, ++ AVR32_SYNTAX_STMTS_PU, ++ AVR32_SYNTAX_STSWP_H, ++ AVR32_SYNTAX_STSWP_W, ++ AVR32_SYNTAX_SUB1, ++ AVR32_SYNTAX_SUB2, ++ AVR32_SYNTAX_SUB5, ++ AVR32_SYNTAX_SUB3_SP, ++ AVR32_SYNTAX_SUB3, ++ AVR32_SYNTAX_SUB4, ++ AVR32_SYNTAX_SUBEQ, ++ AVR32_SYNTAX_SUBNE, ++ AVR32_SYNTAX_SUBCC, ++ AVR32_SYNTAX_SUBCS, ++ AVR32_SYNTAX_SUBGE, ++ AVR32_SYNTAX_SUBLT, ++ AVR32_SYNTAX_SUBMI, ++ AVR32_SYNTAX_SUBPL, ++ AVR32_SYNTAX_SUBLS, ++ AVR32_SYNTAX_SUBGT, ++ AVR32_SYNTAX_SUBLE, ++ AVR32_SYNTAX_SUBHI, ++ AVR32_SYNTAX_SUBVS, ++ AVR32_SYNTAX_SUBVC, ++ AVR32_SYNTAX_SUBQS, ++ AVR32_SYNTAX_SUBAL, ++ AVR32_SYNTAX_SUBHS, ++ AVR32_SYNTAX_SUBLO, ++ AVR32_SYNTAX_SUBFEQ, ++ AVR32_SYNTAX_SUBFNE, ++ AVR32_SYNTAX_SUBFCC, ++ AVR32_SYNTAX_SUBFCS, ++ AVR32_SYNTAX_SUBFGE, ++ AVR32_SYNTAX_SUBFLT, ++ AVR32_SYNTAX_SUBFMI, ++ AVR32_SYNTAX_SUBFPL, ++ AVR32_SYNTAX_SUBFLS, ++ AVR32_SYNTAX_SUBFGT, ++ AVR32_SYNTAX_SUBFLE, ++ AVR32_SYNTAX_SUBFHI, ++ AVR32_SYNTAX_SUBFVS, ++ AVR32_SYNTAX_SUBFVC, ++ AVR32_SYNTAX_SUBFQS, ++ AVR32_SYNTAX_SUBFAL, ++ AVR32_SYNTAX_SUBFHS, ++ AVR32_SYNTAX_SUBFLO, ++ AVR32_SYNTAX_SUBHH_W, ++ AVR32_SYNTAX_SWAP_B, ++ AVR32_SYNTAX_SWAP_BH, ++ AVR32_SYNTAX_SWAP_H, ++ AVR32_SYNTAX_SYNC, ++ AVR32_SYNTAX_TLBR, ++ AVR32_SYNTAX_TLBS, ++ AVR32_SYNTAX_TLBW, ++ AVR32_SYNTAX_TNBZ, ++ AVR32_SYNTAX_TST, ++ AVR32_SYNTAX_XCHG, ++ AVR32_SYNTAX_MEMC, ++ AVR32_SYNTAX_MEMS, ++ AVR32_SYNTAX_MEMT, ++ AVR32_SYNTAX_FADD_S, ++ AVR32_SYNTAX_FADD_D, ++ AVR32_SYNTAX_FSUB_S, ++ AVR32_SYNTAX_FSUB_D, ++ AVR32_SYNTAX_FMAC_S, ++ AVR32_SYNTAX_FMAC_D, ++ AVR32_SYNTAX_FNMAC_S, ++ AVR32_SYNTAX_FNMAC_D, ++ AVR32_SYNTAX_FMSC_S, ++ AVR32_SYNTAX_FMSC_D, ++ AVR32_SYNTAX_FNMSC_S, ++ AVR32_SYNTAX_FNMSC_D, ++ AVR32_SYNTAX_FMUL_S, ++ AVR32_SYNTAX_FMUL_D, ++ AVR32_SYNTAX_FNMUL_S, ++ AVR32_SYNTAX_FNMUL_D, ++ AVR32_SYNTAX_FNEG_S, ++ AVR32_SYNTAX_FNEG_D, ++ AVR32_SYNTAX_FABS_S, ++ AVR32_SYNTAX_FABS_D, ++ AVR32_SYNTAX_FCMP_S, ++ AVR32_SYNTAX_FCMP_D, ++ AVR32_SYNTAX_FMOV1_S, ++ AVR32_SYNTAX_FMOV1_D, ++ AVR32_SYNTAX_FMOV2_S, ++ AVR32_SYNTAX_FMOV2_D, ++ AVR32_SYNTAX_FMOV3_S, ++ AVR32_SYNTAX_FMOV3_D, ++ AVR32_SYNTAX_FCASTS_D, ++ AVR32_SYNTAX_FCASTD_S, ++ AVR32_SYNTAX_LDA_W, ++ AVR32_SYNTAX_CALL, ++ AVR32_SYNTAX_PICOSVMAC0, ++ AVR32_SYNTAX_PICOSVMAC1, ++ AVR32_SYNTAX_PICOSVMAC2, ++ AVR32_SYNTAX_PICOSVMAC3, ++ AVR32_SYNTAX_PICOSVMUL0, ++ AVR32_SYNTAX_PICOSVMUL1, ++ AVR32_SYNTAX_PICOSVMUL2, ++ AVR32_SYNTAX_PICOSVMUL3, ++ AVR32_SYNTAX_PICOVMAC0, ++ AVR32_SYNTAX_PICOVMAC1, ++ AVR32_SYNTAX_PICOVMAC2, ++ AVR32_SYNTAX_PICOVMAC3, ++ AVR32_SYNTAX_PICOVMUL0, ++ AVR32_SYNTAX_PICOVMUL1, ++ AVR32_SYNTAX_PICOVMUL2, ++ AVR32_SYNTAX_PICOVMUL3, ++ AVR32_SYNTAX_PICOLD_D2, ++ AVR32_SYNTAX_PICOLD_D3, ++ AVR32_SYNTAX_PICOLD_D1, ++ AVR32_SYNTAX_PICOLD_W2, ++ AVR32_SYNTAX_PICOLD_W3, ++ AVR32_SYNTAX_PICOLD_W1, ++ AVR32_SYNTAX_PICOLDM_D, ++ AVR32_SYNTAX_PICOLDM_D_PU, ++ AVR32_SYNTAX_PICOLDM_W, ++ AVR32_SYNTAX_PICOLDM_W_PU, ++ AVR32_SYNTAX_PICOMV_D1, ++ AVR32_SYNTAX_PICOMV_D2, ++ AVR32_SYNTAX_PICOMV_W1, ++ AVR32_SYNTAX_PICOMV_W2, ++ AVR32_SYNTAX_PICOST_D2, ++ AVR32_SYNTAX_PICOST_D3, ++ AVR32_SYNTAX_PICOST_D1, ++ AVR32_SYNTAX_PICOST_W2, ++ AVR32_SYNTAX_PICOST_W3, ++ AVR32_SYNTAX_PICOST_W1, ++ AVR32_SYNTAX_PICOSTM_D, ++ AVR32_SYNTAX_PICOSTM_D_PU, ++ AVR32_SYNTAX_PICOSTM_W, ++ AVR32_SYNTAX_PICOSTM_W_PU, ++ AVR32_SYNTAX_RSUBEQ, ++ AVR32_SYNTAX_RSUBNE, ++ AVR32_SYNTAX_RSUBCC, ++ AVR32_SYNTAX_RSUBCS, ++ AVR32_SYNTAX_RSUBGE, ++ AVR32_SYNTAX_RSUBLT, ++ AVR32_SYNTAX_RSUBMI, ++ AVR32_SYNTAX_RSUBPL, ++ AVR32_SYNTAX_RSUBLS, ++ AVR32_SYNTAX_RSUBGT, ++ AVR32_SYNTAX_RSUBLE, ++ AVR32_SYNTAX_RSUBHI, ++ AVR32_SYNTAX_RSUBVS, ++ AVR32_SYNTAX_RSUBVC, ++ AVR32_SYNTAX_RSUBQS, ++ AVR32_SYNTAX_RSUBAL, ++ AVR32_SYNTAX_RSUBHS, ++ AVR32_SYNTAX_RSUBLO, ++ AVR32_SYNTAX_ADDEQ, ++ AVR32_SYNTAX_ADDNE, ++ AVR32_SYNTAX_ADDCC, ++ AVR32_SYNTAX_ADDCS, ++ AVR32_SYNTAX_ADDGE, ++ AVR32_SYNTAX_ADDLT, ++ AVR32_SYNTAX_ADDMI, ++ AVR32_SYNTAX_ADDPL, ++ AVR32_SYNTAX_ADDLS, ++ AVR32_SYNTAX_ADDGT, ++ AVR32_SYNTAX_ADDLE, ++ AVR32_SYNTAX_ADDHI, ++ AVR32_SYNTAX_ADDVS, ++ AVR32_SYNTAX_ADDVC, ++ AVR32_SYNTAX_ADDQS, ++ AVR32_SYNTAX_ADDAL, ++ AVR32_SYNTAX_ADDHS, ++ AVR32_SYNTAX_ADDLO, ++ AVR32_SYNTAX_SUB2EQ, ++ AVR32_SYNTAX_SUB2NE, ++ AVR32_SYNTAX_SUB2CC, ++ AVR32_SYNTAX_SUB2CS, ++ AVR32_SYNTAX_SUB2GE, ++ AVR32_SYNTAX_SUB2LT, ++ AVR32_SYNTAX_SUB2MI, ++ AVR32_SYNTAX_SUB2PL, ++ AVR32_SYNTAX_SUB2LS, ++ AVR32_SYNTAX_SUB2GT, ++ AVR32_SYNTAX_SUB2LE, ++ AVR32_SYNTAX_SUB2HI, ++ AVR32_SYNTAX_SUB2VS, ++ AVR32_SYNTAX_SUB2VC, ++ AVR32_SYNTAX_SUB2QS, ++ AVR32_SYNTAX_SUB2AL, ++ AVR32_SYNTAX_SUB2HS, ++ AVR32_SYNTAX_SUB2LO, ++ AVR32_SYNTAX_ANDEQ, ++ AVR32_SYNTAX_ANDNE, ++ AVR32_SYNTAX_ANDCC, ++ AVR32_SYNTAX_ANDCS, ++ AVR32_SYNTAX_ANDGE, ++ AVR32_SYNTAX_ANDLT, ++ AVR32_SYNTAX_ANDMI, ++ AVR32_SYNTAX_ANDPL, ++ AVR32_SYNTAX_ANDLS, ++ AVR32_SYNTAX_ANDGT, ++ AVR32_SYNTAX_ANDLE, ++ AVR32_SYNTAX_ANDHI, ++ AVR32_SYNTAX_ANDVS, ++ AVR32_SYNTAX_ANDVC, ++ AVR32_SYNTAX_ANDQS, ++ AVR32_SYNTAX_ANDAL, ++ AVR32_SYNTAX_ANDHS, ++ AVR32_SYNTAX_ANDLO, ++ AVR32_SYNTAX_OREQ, ++ AVR32_SYNTAX_ORNE, ++ AVR32_SYNTAX_ORCC, ++ AVR32_SYNTAX_ORCS, ++ AVR32_SYNTAX_ORGE, ++ AVR32_SYNTAX_ORLT, ++ AVR32_SYNTAX_ORMI, ++ AVR32_SYNTAX_ORPL, ++ AVR32_SYNTAX_ORLS, ++ AVR32_SYNTAX_ORGT, ++ AVR32_SYNTAX_ORLE, ++ AVR32_SYNTAX_ORHI, ++ AVR32_SYNTAX_ORVS, ++ AVR32_SYNTAX_ORVC, ++ AVR32_SYNTAX_ORQS, ++ AVR32_SYNTAX_ORAL, ++ AVR32_SYNTAX_ORHS, ++ AVR32_SYNTAX_ORLO, ++ AVR32_SYNTAX_EOREQ, ++ AVR32_SYNTAX_EORNE, ++ AVR32_SYNTAX_EORCC, ++ AVR32_SYNTAX_EORCS, ++ AVR32_SYNTAX_EORGE, ++ AVR32_SYNTAX_EORLT, ++ AVR32_SYNTAX_EORMI, ++ AVR32_SYNTAX_EORPL, ++ AVR32_SYNTAX_EORLS, ++ AVR32_SYNTAX_EORGT, ++ AVR32_SYNTAX_EORLE, ++ AVR32_SYNTAX_EORHI, ++ AVR32_SYNTAX_EORVS, ++ AVR32_SYNTAX_EORVC, ++ AVR32_SYNTAX_EORQS, ++ AVR32_SYNTAX_EORAL, ++ AVR32_SYNTAX_EORHS, ++ AVR32_SYNTAX_EORLO, ++ AVR32_SYNTAX_LD_WEQ, ++ AVR32_SYNTAX_LD_WNE, ++ AVR32_SYNTAX_LD_WCC, ++ AVR32_SYNTAX_LD_WCS, ++ AVR32_SYNTAX_LD_WGE, ++ AVR32_SYNTAX_LD_WLT, ++ AVR32_SYNTAX_LD_WMI, ++ AVR32_SYNTAX_LD_WPL, ++ AVR32_SYNTAX_LD_WLS, ++ AVR32_SYNTAX_LD_WGT, ++ AVR32_SYNTAX_LD_WLE, ++ AVR32_SYNTAX_LD_WHI, ++ AVR32_SYNTAX_LD_WVS, ++ AVR32_SYNTAX_LD_WVC, ++ AVR32_SYNTAX_LD_WQS, ++ AVR32_SYNTAX_LD_WAL, ++ AVR32_SYNTAX_LD_WHS, ++ AVR32_SYNTAX_LD_WLO, ++ AVR32_SYNTAX_LD_SHEQ, ++ AVR32_SYNTAX_LD_SHNE, ++ AVR32_SYNTAX_LD_SHCC, ++ AVR32_SYNTAX_LD_SHCS, ++ AVR32_SYNTAX_LD_SHGE, ++ AVR32_SYNTAX_LD_SHLT, ++ AVR32_SYNTAX_LD_SHMI, ++ AVR32_SYNTAX_LD_SHPL, ++ AVR32_SYNTAX_LD_SHLS, ++ AVR32_SYNTAX_LD_SHGT, ++ AVR32_SYNTAX_LD_SHLE, ++ AVR32_SYNTAX_LD_SHHI, ++ AVR32_SYNTAX_LD_SHVS, ++ AVR32_SYNTAX_LD_SHVC, ++ AVR32_SYNTAX_LD_SHQS, ++ AVR32_SYNTAX_LD_SHAL, ++ AVR32_SYNTAX_LD_SHHS, ++ AVR32_SYNTAX_LD_SHLO, ++ AVR32_SYNTAX_LD_UHEQ, ++ AVR32_SYNTAX_LD_UHNE, ++ AVR32_SYNTAX_LD_UHCC, ++ AVR32_SYNTAX_LD_UHCS, ++ AVR32_SYNTAX_LD_UHGE, ++ AVR32_SYNTAX_LD_UHLT, ++ AVR32_SYNTAX_LD_UHMI, ++ AVR32_SYNTAX_LD_UHPL, ++ AVR32_SYNTAX_LD_UHLS, ++ AVR32_SYNTAX_LD_UHGT, ++ AVR32_SYNTAX_LD_UHLE, ++ AVR32_SYNTAX_LD_UHHI, ++ AVR32_SYNTAX_LD_UHVS, ++ AVR32_SYNTAX_LD_UHVC, ++ AVR32_SYNTAX_LD_UHQS, ++ AVR32_SYNTAX_LD_UHAL, ++ AVR32_SYNTAX_LD_UHHS, ++ AVR32_SYNTAX_LD_UHLO, ++ AVR32_SYNTAX_LD_SBEQ, ++ AVR32_SYNTAX_LD_SBNE, ++ AVR32_SYNTAX_LD_SBCC, ++ AVR32_SYNTAX_LD_SBCS, ++ AVR32_SYNTAX_LD_SBGE, ++ AVR32_SYNTAX_LD_SBLT, ++ AVR32_SYNTAX_LD_SBMI, ++ AVR32_SYNTAX_LD_SBPL, ++ AVR32_SYNTAX_LD_SBLS, ++ AVR32_SYNTAX_LD_SBGT, ++ AVR32_SYNTAX_LD_SBLE, ++ AVR32_SYNTAX_LD_SBHI, ++ AVR32_SYNTAX_LD_SBVS, ++ AVR32_SYNTAX_LD_SBVC, ++ AVR32_SYNTAX_LD_SBQS, ++ AVR32_SYNTAX_LD_SBAL, ++ AVR32_SYNTAX_LD_SBHS, ++ AVR32_SYNTAX_LD_SBLO, ++ AVR32_SYNTAX_LD_UBEQ, ++ AVR32_SYNTAX_LD_UBNE, ++ AVR32_SYNTAX_LD_UBCC, ++ AVR32_SYNTAX_LD_UBCS, ++ AVR32_SYNTAX_LD_UBGE, ++ AVR32_SYNTAX_LD_UBLT, ++ AVR32_SYNTAX_LD_UBMI, ++ AVR32_SYNTAX_LD_UBPL, ++ AVR32_SYNTAX_LD_UBLS, ++ AVR32_SYNTAX_LD_UBGT, ++ AVR32_SYNTAX_LD_UBLE, ++ AVR32_SYNTAX_LD_UBHI, ++ AVR32_SYNTAX_LD_UBVS, ++ AVR32_SYNTAX_LD_UBVC, ++ AVR32_SYNTAX_LD_UBQS, ++ AVR32_SYNTAX_LD_UBAL, ++ AVR32_SYNTAX_LD_UBHS, ++ AVR32_SYNTAX_LD_UBLO, ++ AVR32_SYNTAX_ST_WEQ, ++ AVR32_SYNTAX_ST_WNE, ++ AVR32_SYNTAX_ST_WCC, ++ AVR32_SYNTAX_ST_WCS, ++ AVR32_SYNTAX_ST_WGE, ++ AVR32_SYNTAX_ST_WLT, ++ AVR32_SYNTAX_ST_WMI, ++ AVR32_SYNTAX_ST_WPL, ++ AVR32_SYNTAX_ST_WLS, ++ AVR32_SYNTAX_ST_WGT, ++ AVR32_SYNTAX_ST_WLE, ++ AVR32_SYNTAX_ST_WHI, ++ AVR32_SYNTAX_ST_WVS, ++ AVR32_SYNTAX_ST_WVC, ++ AVR32_SYNTAX_ST_WQS, ++ AVR32_SYNTAX_ST_WAL, ++ AVR32_SYNTAX_ST_WHS, ++ AVR32_SYNTAX_ST_WLO, ++ AVR32_SYNTAX_ST_HEQ, ++ AVR32_SYNTAX_ST_HNE, ++ AVR32_SYNTAX_ST_HCC, ++ AVR32_SYNTAX_ST_HCS, ++ AVR32_SYNTAX_ST_HGE, ++ AVR32_SYNTAX_ST_HLT, ++ AVR32_SYNTAX_ST_HMI, ++ AVR32_SYNTAX_ST_HPL, ++ AVR32_SYNTAX_ST_HLS, ++ AVR32_SYNTAX_ST_HGT, ++ AVR32_SYNTAX_ST_HLE, ++ AVR32_SYNTAX_ST_HHI, ++ AVR32_SYNTAX_ST_HVS, ++ AVR32_SYNTAX_ST_HVC, ++ AVR32_SYNTAX_ST_HQS, ++ AVR32_SYNTAX_ST_HAL, ++ AVR32_SYNTAX_ST_HHS, ++ AVR32_SYNTAX_ST_HLO, ++ AVR32_SYNTAX_ST_BEQ, ++ AVR32_SYNTAX_ST_BNE, ++ AVR32_SYNTAX_ST_BCC, ++ AVR32_SYNTAX_ST_BCS, ++ AVR32_SYNTAX_ST_BGE, ++ AVR32_SYNTAX_ST_BLT, ++ AVR32_SYNTAX_ST_BMI, ++ AVR32_SYNTAX_ST_BPL, ++ AVR32_SYNTAX_ST_BLS, ++ AVR32_SYNTAX_ST_BGT, ++ AVR32_SYNTAX_ST_BLE, ++ AVR32_SYNTAX_ST_BHI, ++ AVR32_SYNTAX_ST_BVS, ++ AVR32_SYNTAX_ST_BVC, ++ AVR32_SYNTAX_ST_BQS, ++ AVR32_SYNTAX_ST_BAL, ++ AVR32_SYNTAX_ST_BHS, ++ AVR32_SYNTAX_ST_BLO, ++ AVR32_SYNTAX_MOVH, ++ AVR32_SYNTAX__END_ ++}; ++#define AVR32_NR_SYNTAX AVR32_SYNTAX__END_ ++ ++enum avr32_alias_type ++ { ++ AVR32_ALIAS_FMAC_S, ++ AVR32_ALIAS_FMAC_D, ++ AVR32_ALIAS_FNMAC_S, ++ AVR32_ALIAS_FNMAC_D, ++ AVR32_ALIAS_FMSC_S, ++ AVR32_ALIAS_FMSC_D, ++ AVR32_ALIAS_FNMSC_S, ++ AVR32_ALIAS_FNMSC_D, ++ AVR32_ALIAS_FADD_S, ++ AVR32_ALIAS_FADD_D, ++ AVR32_ALIAS_FSUB_S, ++ AVR32_ALIAS_FSUB_D, ++ AVR32_ALIAS_FMUL_S, ++ AVR32_ALIAS_FMUL_D, ++ AVR32_ALIAS_FNMUL_S, ++ AVR32_ALIAS_FNMUL_D, ++ AVR32_ALIAS_FNEG_S, ++ AVR32_ALIAS_FNEG_D, ++ AVR32_ALIAS_FABS_S, ++ AVR32_ALIAS_FABS_D, ++ AVR32_ALIAS_FCMP_S, ++ AVR32_ALIAS_FCMP_D, ++ AVR32_ALIAS_FMOV1_S, ++ AVR32_ALIAS_FMOV1_D, ++ AVR32_ALIAS_FMOV2_S, ++ AVR32_ALIAS_FMOV2_D, ++ AVR32_ALIAS_FMOV3_S, ++ AVR32_ALIAS_FMOV3_D, ++ AVR32_ALIAS_FCASTS_D, ++ AVR32_ALIAS_FCASTD_S, ++ AVR32_ALIAS_PICOSVMAC0, ++ AVR32_ALIAS_PICOSVMAC1, ++ AVR32_ALIAS_PICOSVMAC2, ++ AVR32_ALIAS_PICOSVMAC3, ++ AVR32_ALIAS_PICOSVMUL0, ++ AVR32_ALIAS_PICOSVMUL1, ++ AVR32_ALIAS_PICOSVMUL2, ++ AVR32_ALIAS_PICOSVMUL3, ++ AVR32_ALIAS_PICOVMAC0, ++ AVR32_ALIAS_PICOVMAC1, ++ AVR32_ALIAS_PICOVMAC2, ++ AVR32_ALIAS_PICOVMAC3, ++ AVR32_ALIAS_PICOVMUL0, ++ AVR32_ALIAS_PICOVMUL1, ++ AVR32_ALIAS_PICOVMUL2, ++ AVR32_ALIAS_PICOVMUL3, ++ AVR32_ALIAS_PICOLD_D1, ++ AVR32_ALIAS_PICOLD_D2, ++ AVR32_ALIAS_PICOLD_D3, ++ AVR32_ALIAS_PICOLD_W1, ++ AVR32_ALIAS_PICOLD_W2, ++ AVR32_ALIAS_PICOLD_W3, ++ AVR32_ALIAS_PICOLDM_D, ++ AVR32_ALIAS_PICOLDM_D_PU, ++ AVR32_ALIAS_PICOLDM_W, ++ AVR32_ALIAS_PICOLDM_W_PU, ++ AVR32_ALIAS_PICOMV_D1, ++ AVR32_ALIAS_PICOMV_D2, ++ AVR32_ALIAS_PICOMV_W1, ++ AVR32_ALIAS_PICOMV_W2, ++ AVR32_ALIAS_PICOST_D1, ++ AVR32_ALIAS_PICOST_D2, ++ AVR32_ALIAS_PICOST_D3, ++ AVR32_ALIAS_PICOST_W1, ++ AVR32_ALIAS_PICOST_W2, ++ AVR32_ALIAS_PICOST_W3, ++ AVR32_ALIAS_PICOSTM_D, ++ AVR32_ALIAS_PICOSTM_D_PU, ++ AVR32_ALIAS_PICOSTM_W, ++ AVR32_ALIAS_PICOSTM_W_PU, ++ AVR32_ALIAS__END_ ++ }; ++#define AVR32_NR_ALIAS AVR32_ALIAS__END_ ++ ++enum avr32_mnemonic_type ++{ ++ AVR32_MNEMONIC_ABS, ++ AVR32_MNEMONIC_ACALL, ++ AVR32_MNEMONIC_ACR, ++ AVR32_MNEMONIC_ADC, ++ AVR32_MNEMONIC_ADD, ++ AVR32_MNEMONIC_ADDABS, ++ AVR32_MNEMONIC_ADDHH_W, ++ AVR32_MNEMONIC_AND, ++ AVR32_MNEMONIC_ANDH, ++ AVR32_MNEMONIC_ANDL, ++ AVR32_MNEMONIC_ANDN, ++ AVR32_MNEMONIC_ASR, ++ AVR32_MNEMONIC_BFEXTS, ++ AVR32_MNEMONIC_BFEXTU, ++ AVR32_MNEMONIC_BFINS, ++ AVR32_MNEMONIC_BLD, ++ AVR32_MNEMONIC_BREQ, ++ AVR32_MNEMONIC_BRNE, ++ AVR32_MNEMONIC_BRCC, ++ AVR32_MNEMONIC_BRCS, ++ AVR32_MNEMONIC_BRGE, ++ AVR32_MNEMONIC_BRLT, ++ AVR32_MNEMONIC_BRMI, ++ AVR32_MNEMONIC_BRPL, ++ AVR32_MNEMONIC_BRHS, ++ AVR32_MNEMONIC_BRLO, ++ AVR32_MNEMONIC_BRLS, ++ AVR32_MNEMONIC_BRGT, ++ AVR32_MNEMONIC_BRLE, ++ AVR32_MNEMONIC_BRHI, ++ AVR32_MNEMONIC_BRVS, ++ AVR32_MNEMONIC_BRVC, ++ AVR32_MNEMONIC_BRQS, ++ AVR32_MNEMONIC_BRAL, ++ AVR32_MNEMONIC_BREAKPOINT, ++ AVR32_MNEMONIC_BREV, ++ AVR32_MNEMONIC_BST, ++ AVR32_MNEMONIC_CACHE, ++ AVR32_MNEMONIC_CASTS_B, ++ AVR32_MNEMONIC_CASTS_H, ++ AVR32_MNEMONIC_CASTU_B, ++ AVR32_MNEMONIC_CASTU_H, ++ AVR32_MNEMONIC_CBR, ++ AVR32_MNEMONIC_CLZ, ++ AVR32_MNEMONIC_COM, ++ AVR32_MNEMONIC_COP, ++ AVR32_MNEMONIC_CP_B, ++ AVR32_MNEMONIC_CP_H, ++ AVR32_MNEMONIC_CP_W, ++ AVR32_MNEMONIC_CP, ++ AVR32_MNEMONIC_CPC, ++ AVR32_MNEMONIC_CSRF, ++ AVR32_MNEMONIC_CSRFCZ, ++ AVR32_MNEMONIC_DIVS, ++ AVR32_MNEMONIC_DIVU, ++ AVR32_MNEMONIC_EOR, ++ AVR32_MNEMONIC_EORL, ++ AVR32_MNEMONIC_EORH, ++ AVR32_MNEMONIC_FRS, ++ AVR32_MNEMONIC_SSCALL, ++ AVR32_MNEMONIC_RETSS, ++ AVR32_MNEMONIC_ICALL, ++ AVR32_MNEMONIC_INCJOSP, ++ AVR32_MNEMONIC_LD_D, ++ AVR32_MNEMONIC_LD_SB, ++ AVR32_MNEMONIC_LD_UB, ++ AVR32_MNEMONIC_LD_SH, ++ AVR32_MNEMONIC_LD_UH, ++ AVR32_MNEMONIC_LD_W, ++ AVR32_MNEMONIC_LDC_D, ++ AVR32_MNEMONIC_LDC_W, ++ AVR32_MNEMONIC_LDC0_D, ++ AVR32_MNEMONIC_LDC0_W, ++ AVR32_MNEMONIC_LDCM_D, ++ AVR32_MNEMONIC_LDCM_W, ++ AVR32_MNEMONIC_LDDPC, ++ AVR32_MNEMONIC_LDDSP, ++ AVR32_MNEMONIC_LDINS_B, ++ AVR32_MNEMONIC_LDINS_H, ++ AVR32_MNEMONIC_LDM, ++ AVR32_MNEMONIC_LDMTS, ++ AVR32_MNEMONIC_LDSWP_SH, ++ AVR32_MNEMONIC_LDSWP_UH, ++ AVR32_MNEMONIC_LDSWP_W, ++ AVR32_MNEMONIC_LSL, ++ AVR32_MNEMONIC_LSR, ++ AVR32_MNEMONIC_MAC, ++ AVR32_MNEMONIC_MACHH_D, ++ AVR32_MNEMONIC_MACHH_W, ++ AVR32_MNEMONIC_MACS_D, ++ AVR32_MNEMONIC_MACSATHH_W, ++ AVR32_MNEMONIC_MACU_D, ++ AVR32_MNEMONIC_MACWH_D, ++ AVR32_MNEMONIC_MAX, ++ AVR32_MNEMONIC_MCALL, ++ AVR32_MNEMONIC_MFDR, ++ AVR32_MNEMONIC_MFSR, ++ AVR32_MNEMONIC_MIN, ++ AVR32_MNEMONIC_MOV, ++ AVR32_MNEMONIC_MOVEQ, ++ AVR32_MNEMONIC_MOVNE, ++ AVR32_MNEMONIC_MOVCC, ++ AVR32_MNEMONIC_MOVCS, ++ AVR32_MNEMONIC_MOVGE, ++ AVR32_MNEMONIC_MOVLT, ++ AVR32_MNEMONIC_MOVMI, ++ AVR32_MNEMONIC_MOVPL, ++ AVR32_MNEMONIC_MOVLS, ++ AVR32_MNEMONIC_MOVGT, ++ AVR32_MNEMONIC_MOVLE, ++ AVR32_MNEMONIC_MOVHI, ++ AVR32_MNEMONIC_MOVVS, ++ AVR32_MNEMONIC_MOVVC, ++ AVR32_MNEMONIC_MOVQS, ++ AVR32_MNEMONIC_MOVAL, ++ AVR32_MNEMONIC_MOVHS, ++ AVR32_MNEMONIC_MOVLO, ++ AVR32_MNEMONIC_MTDR, ++ AVR32_MNEMONIC_MTSR, ++ AVR32_MNEMONIC_MUL, ++ AVR32_MNEMONIC_MULHH_W, ++ AVR32_MNEMONIC_MULNHH_W, ++ AVR32_MNEMONIC_MULNWH_D, ++ AVR32_MNEMONIC_MULS_D, ++ AVR32_MNEMONIC_MULSATHH_H, ++ AVR32_MNEMONIC_MULSATHH_W, ++ AVR32_MNEMONIC_MULSATRNDHH_H, ++ AVR32_MNEMONIC_MULSATRNDWH_W, ++ AVR32_MNEMONIC_MULSATWH_W, ++ AVR32_MNEMONIC_MULU_D, ++ AVR32_MNEMONIC_MULWH_D, ++ AVR32_MNEMONIC_MUSFR, ++ AVR32_MNEMONIC_MUSTR, ++ AVR32_MNEMONIC_MVCR_D, ++ AVR32_MNEMONIC_MVCR_W, ++ AVR32_MNEMONIC_MVRC_D, ++ AVR32_MNEMONIC_MVRC_W, ++ AVR32_MNEMONIC_NEG, ++ AVR32_MNEMONIC_NOP, ++ AVR32_MNEMONIC_OR, ++ AVR32_MNEMONIC_ORH, ++ AVR32_MNEMONIC_ORL, ++ AVR32_MNEMONIC_PABS_SB, ++ AVR32_MNEMONIC_PABS_SH, ++ AVR32_MNEMONIC_PACKSH_SB, ++ AVR32_MNEMONIC_PACKSH_UB, ++ AVR32_MNEMONIC_PACKW_SH, ++ AVR32_MNEMONIC_PADD_B, ++ AVR32_MNEMONIC_PADD_H, ++ AVR32_MNEMONIC_PADDH_SH, ++ AVR32_MNEMONIC_PADDH_UB, ++ AVR32_MNEMONIC_PADDS_SB, ++ AVR32_MNEMONIC_PADDS_SH, ++ AVR32_MNEMONIC_PADDS_UB, ++ AVR32_MNEMONIC_PADDS_UH, ++ AVR32_MNEMONIC_PADDSUB_H, ++ AVR32_MNEMONIC_PADDSUBH_SH, ++ AVR32_MNEMONIC_PADDSUBS_SH, ++ AVR32_MNEMONIC_PADDSUBS_UH, ++ AVR32_MNEMONIC_PADDX_H, ++ AVR32_MNEMONIC_PADDXH_SH, ++ AVR32_MNEMONIC_PADDXS_SH, ++ AVR32_MNEMONIC_PADDXS_UH, ++ AVR32_MNEMONIC_PASR_B, ++ AVR32_MNEMONIC_PASR_H, ++ AVR32_MNEMONIC_PAVG_SH, ++ AVR32_MNEMONIC_PAVG_UB, ++ AVR32_MNEMONIC_PLSL_B, ++ AVR32_MNEMONIC_PLSL_H, ++ AVR32_MNEMONIC_PLSR_B, ++ AVR32_MNEMONIC_PLSR_H, ++ AVR32_MNEMONIC_PMAX_SH, ++ AVR32_MNEMONIC_PMAX_UB, ++ AVR32_MNEMONIC_PMIN_SH, ++ AVR32_MNEMONIC_PMIN_UB, ++ AVR32_MNEMONIC_POPJC, ++ AVR32_MNEMONIC_POPM, ++ AVR32_MNEMONIC_PREF, ++ AVR32_MNEMONIC_PSAD, ++ AVR32_MNEMONIC_PSUB_B, ++ AVR32_MNEMONIC_PSUB_H, ++ AVR32_MNEMONIC_PSUBADD_H, ++ AVR32_MNEMONIC_PSUBADDH_SH, ++ AVR32_MNEMONIC_PSUBADDS_SH, ++ AVR32_MNEMONIC_PSUBADDS_UH, ++ AVR32_MNEMONIC_PSUBH_SH, ++ AVR32_MNEMONIC_PSUBH_UB, ++ AVR32_MNEMONIC_PSUBS_SB, ++ AVR32_MNEMONIC_PSUBS_SH, ++ AVR32_MNEMONIC_PSUBS_UB, ++ AVR32_MNEMONIC_PSUBS_UH, ++ AVR32_MNEMONIC_PSUBX_H, ++ AVR32_MNEMONIC_PSUBXH_SH, ++ AVR32_MNEMONIC_PSUBXS_SH, ++ AVR32_MNEMONIC_PSUBXS_UH, ++ AVR32_MNEMONIC_PUNPCKSB_H, ++ AVR32_MNEMONIC_PUNPCKUB_H, ++ AVR32_MNEMONIC_PUSHJC, ++ AVR32_MNEMONIC_PUSHM, ++ AVR32_MNEMONIC_RCALL, ++ AVR32_MNEMONIC_RETEQ, ++ AVR32_MNEMONIC_RETNE, ++ AVR32_MNEMONIC_RETCC, ++ AVR32_MNEMONIC_RETCS, ++ AVR32_MNEMONIC_RETGE, ++ AVR32_MNEMONIC_RETLT, ++ AVR32_MNEMONIC_RETMI, ++ AVR32_MNEMONIC_RETPL, ++ AVR32_MNEMONIC_RETLS, ++ AVR32_MNEMONIC_RETGT, ++ AVR32_MNEMONIC_RETLE, ++ AVR32_MNEMONIC_RETHI, ++ AVR32_MNEMONIC_RETVS, ++ AVR32_MNEMONIC_RETVC, ++ AVR32_MNEMONIC_RETQS, ++ AVR32_MNEMONIC_RETAL, ++ AVR32_MNEMONIC_RETHS, ++ AVR32_MNEMONIC_RETLO, ++ AVR32_MNEMONIC_RET, ++ AVR32_MNEMONIC_RETD, ++ AVR32_MNEMONIC_RETE, ++ AVR32_MNEMONIC_RETJ, ++ AVR32_MNEMONIC_RETS, ++ AVR32_MNEMONIC_RJMP, ++ AVR32_MNEMONIC_ROL, ++ AVR32_MNEMONIC_ROR, ++ AVR32_MNEMONIC_RSUB, ++ AVR32_MNEMONIC_SATADD_H, ++ AVR32_MNEMONIC_SATADD_W, ++ AVR32_MNEMONIC_SATRNDS, ++ AVR32_MNEMONIC_SATRNDU, ++ AVR32_MNEMONIC_SATS, ++ AVR32_MNEMONIC_SATSUB_H, ++ AVR32_MNEMONIC_SATSUB_W, ++ AVR32_MNEMONIC_SATU, ++ AVR32_MNEMONIC_SBC, ++ AVR32_MNEMONIC_SBR, ++ AVR32_MNEMONIC_SCALL, ++ AVR32_MNEMONIC_SCR, ++ AVR32_MNEMONIC_SLEEP, ++ AVR32_MNEMONIC_SREQ, ++ AVR32_MNEMONIC_SRNE, ++ AVR32_MNEMONIC_SRCC, ++ AVR32_MNEMONIC_SRCS, ++ AVR32_MNEMONIC_SRGE, ++ AVR32_MNEMONIC_SRLT, ++ AVR32_MNEMONIC_SRMI, ++ AVR32_MNEMONIC_SRPL, ++ AVR32_MNEMONIC_SRLS, ++ AVR32_MNEMONIC_SRGT, ++ AVR32_MNEMONIC_SRLE, ++ AVR32_MNEMONIC_SRHI, ++ AVR32_MNEMONIC_SRVS, ++ AVR32_MNEMONIC_SRVC, ++ AVR32_MNEMONIC_SRQS, ++ AVR32_MNEMONIC_SRAL, ++ AVR32_MNEMONIC_SRHS, ++ AVR32_MNEMONIC_SRLO, ++ AVR32_MNEMONIC_SSRF, ++ AVR32_MNEMONIC_ST_B, ++ AVR32_MNEMONIC_ST_D, ++ AVR32_MNEMONIC_ST_H, ++ AVR32_MNEMONIC_ST_W, ++ AVR32_MNEMONIC_STC_D, ++ AVR32_MNEMONIC_STC_W, ++ AVR32_MNEMONIC_STC0_D, ++ AVR32_MNEMONIC_STC0_W, ++ AVR32_MNEMONIC_STCM_D, ++ AVR32_MNEMONIC_STCM_W, ++ AVR32_MNEMONIC_STCOND, ++ AVR32_MNEMONIC_STDSP, ++ AVR32_MNEMONIC_STHH_W, ++ AVR32_MNEMONIC_STM, ++ AVR32_MNEMONIC_STMTS, ++ AVR32_MNEMONIC_STSWP_H, ++ AVR32_MNEMONIC_STSWP_W, ++ AVR32_MNEMONIC_SUB, ++ AVR32_MNEMONIC_SUBEQ, ++ AVR32_MNEMONIC_SUBNE, ++ AVR32_MNEMONIC_SUBCC, ++ AVR32_MNEMONIC_SUBCS, ++ AVR32_MNEMONIC_SUBGE, ++ AVR32_MNEMONIC_SUBLT, ++ AVR32_MNEMONIC_SUBMI, ++ AVR32_MNEMONIC_SUBPL, ++ AVR32_MNEMONIC_SUBLS, ++ AVR32_MNEMONIC_SUBGT, ++ AVR32_MNEMONIC_SUBLE, ++ AVR32_MNEMONIC_SUBHI, ++ AVR32_MNEMONIC_SUBVS, ++ AVR32_MNEMONIC_SUBVC, ++ AVR32_MNEMONIC_SUBQS, ++ AVR32_MNEMONIC_SUBAL, ++ AVR32_MNEMONIC_SUBHS, ++ AVR32_MNEMONIC_SUBLO, ++ AVR32_MNEMONIC_SUBFEQ, ++ AVR32_MNEMONIC_SUBFNE, ++ AVR32_MNEMONIC_SUBFCC, ++ AVR32_MNEMONIC_SUBFCS, ++ AVR32_MNEMONIC_SUBFGE, ++ AVR32_MNEMONIC_SUBFLT, ++ AVR32_MNEMONIC_SUBFMI, ++ AVR32_MNEMONIC_SUBFPL, ++ AVR32_MNEMONIC_SUBFLS, ++ AVR32_MNEMONIC_SUBFGT, ++ AVR32_MNEMONIC_SUBFLE, ++ AVR32_MNEMONIC_SUBFHI, ++ AVR32_MNEMONIC_SUBFVS, ++ AVR32_MNEMONIC_SUBFVC, ++ AVR32_MNEMONIC_SUBFQS, ++ AVR32_MNEMONIC_SUBFAL, ++ AVR32_MNEMONIC_SUBFHS, ++ AVR32_MNEMONIC_SUBFLO, ++ AVR32_MNEMONIC_SUBHH_W, ++ AVR32_MNEMONIC_SWAP_B, ++ AVR32_MNEMONIC_SWAP_BH, ++ AVR32_MNEMONIC_SWAP_H, ++ AVR32_MNEMONIC_SYNC, ++ AVR32_MNEMONIC_TLBR, ++ AVR32_MNEMONIC_TLBS, ++ AVR32_MNEMONIC_TLBW, ++ AVR32_MNEMONIC_TNBZ, ++ AVR32_MNEMONIC_TST, ++ AVR32_MNEMONIC_XCHG, ++ AVR32_MNEMONIC_MEMC, ++ AVR32_MNEMONIC_MEMS, ++ AVR32_MNEMONIC_MEMT, ++ AVR32_MNEMONIC_FADD_S, ++ AVR32_MNEMONIC_FADD_D, ++ AVR32_MNEMONIC_FSUB_S, ++ AVR32_MNEMONIC_FSUB_D, ++ AVR32_MNEMONIC_FMAC_S, ++ AVR32_MNEMONIC_FMAC_D, ++ AVR32_MNEMONIC_FNMAC_S, ++ AVR32_MNEMONIC_FNMAC_D, ++ AVR32_MNEMONIC_FMSC_S, ++ AVR32_MNEMONIC_FMSC_D, ++ AVR32_MNEMONIC_FNMSC_S, ++ AVR32_MNEMONIC_FNMSC_D, ++ AVR32_MNEMONIC_FMUL_S, ++ AVR32_MNEMONIC_FMUL_D, ++ AVR32_MNEMONIC_FNMUL_S, ++ AVR32_MNEMONIC_FNMUL_D, ++ AVR32_MNEMONIC_FNEG_S, ++ AVR32_MNEMONIC_FNEG_D, ++ AVR32_MNEMONIC_FABS_S, ++ AVR32_MNEMONIC_FABS_D, ++ AVR32_MNEMONIC_FCMP_S, ++ AVR32_MNEMONIC_FCMP_D, ++ AVR32_MNEMONIC_FMOV_S, ++ AVR32_MNEMONIC_FMOV_D, ++ AVR32_MNEMONIC_FCASTS_D, ++ AVR32_MNEMONIC_FCASTD_S, ++ /* AVR32_MNEMONIC_FLD_S, ++ AVR32_MNEMONIC_FLD_D, ++ AVR32_MNEMONIC_FST_S, ++ AVR32_MNEMONIC_FST_D, */ ++ AVR32_MNEMONIC_LDA_W, ++ AVR32_MNEMONIC_CALL, ++ AVR32_MNEMONIC_PICOSVMAC, ++ AVR32_MNEMONIC_PICOSVMUL, ++ AVR32_MNEMONIC_PICOVMAC, ++ AVR32_MNEMONIC_PICOVMUL, ++ AVR32_MNEMONIC_PICOLD_D, ++ AVR32_MNEMONIC_PICOLD_W, ++ AVR32_MNEMONIC_PICOLDM_D, ++ AVR32_MNEMONIC_PICOLDM_W, ++ AVR32_MNEMONIC_PICOMV_D, ++ AVR32_MNEMONIC_PICOMV_W, ++ AVR32_MNEMONIC_PICOST_D, ++ AVR32_MNEMONIC_PICOST_W, ++ AVR32_MNEMONIC_PICOSTM_D, ++ AVR32_MNEMONIC_PICOSTM_W, ++ AVR32_MNEMONIC_RSUBEQ, ++ AVR32_MNEMONIC_RSUBNE, ++ AVR32_MNEMONIC_RSUBCC, ++ AVR32_MNEMONIC_RSUBCS, ++ AVR32_MNEMONIC_RSUBGE, ++ AVR32_MNEMONIC_RSUBLT, ++ AVR32_MNEMONIC_RSUBMI, ++ AVR32_MNEMONIC_RSUBPL, ++ AVR32_MNEMONIC_RSUBLS, ++ AVR32_MNEMONIC_RSUBGT, ++ AVR32_MNEMONIC_RSUBLE, ++ AVR32_MNEMONIC_RSUBHI, ++ AVR32_MNEMONIC_RSUBVS, ++ AVR32_MNEMONIC_RSUBVC, ++ AVR32_MNEMONIC_RSUBQS, ++ AVR32_MNEMONIC_RSUBAL, ++ AVR32_MNEMONIC_RSUBHS, ++ AVR32_MNEMONIC_RSUBLO, ++ AVR32_MNEMONIC_ADDEQ, ++ AVR32_MNEMONIC_ADDNE, ++ AVR32_MNEMONIC_ADDCC, ++ AVR32_MNEMONIC_ADDCS, ++ AVR32_MNEMONIC_ADDGE, ++ AVR32_MNEMONIC_ADDLT, ++ AVR32_MNEMONIC_ADDMI, ++ AVR32_MNEMONIC_ADDPL, ++ AVR32_MNEMONIC_ADDLS, ++ AVR32_MNEMONIC_ADDGT, ++ AVR32_MNEMONIC_ADDLE, ++ AVR32_MNEMONIC_ADDHI, ++ AVR32_MNEMONIC_ADDVS, ++ AVR32_MNEMONIC_ADDVC, ++ AVR32_MNEMONIC_ADDQS, ++ AVR32_MNEMONIC_ADDAL, ++ AVR32_MNEMONIC_ADDHS, ++ AVR32_MNEMONIC_ADDLO, ++ AVR32_MNEMONIC_ANDEQ, ++ AVR32_MNEMONIC_ANDNE, ++ AVR32_MNEMONIC_ANDCC, ++ AVR32_MNEMONIC_ANDCS, ++ AVR32_MNEMONIC_ANDGE, ++ AVR32_MNEMONIC_ANDLT, ++ AVR32_MNEMONIC_ANDMI, ++ AVR32_MNEMONIC_ANDPL, ++ AVR32_MNEMONIC_ANDLS, ++ AVR32_MNEMONIC_ANDGT, ++ AVR32_MNEMONIC_ANDLE, ++ AVR32_MNEMONIC_ANDHI, ++ AVR32_MNEMONIC_ANDVS, ++ AVR32_MNEMONIC_ANDVC, ++ AVR32_MNEMONIC_ANDQS, ++ AVR32_MNEMONIC_ANDAL, ++ AVR32_MNEMONIC_ANDHS, ++ AVR32_MNEMONIC_ANDLO, ++ AVR32_MNEMONIC_OREQ, ++ AVR32_MNEMONIC_ORNE, ++ AVR32_MNEMONIC_ORCC, ++ AVR32_MNEMONIC_ORCS, ++ AVR32_MNEMONIC_ORGE, ++ AVR32_MNEMONIC_ORLT, ++ AVR32_MNEMONIC_ORMI, ++ AVR32_MNEMONIC_ORPL, ++ AVR32_MNEMONIC_ORLS, ++ AVR32_MNEMONIC_ORGT, ++ AVR32_MNEMONIC_ORLE, ++ AVR32_MNEMONIC_ORHI, ++ AVR32_MNEMONIC_ORVS, ++ AVR32_MNEMONIC_ORVC, ++ AVR32_MNEMONIC_ORQS, ++ AVR32_MNEMONIC_ORAL, ++ AVR32_MNEMONIC_ORHS, ++ AVR32_MNEMONIC_ORLO, ++ AVR32_MNEMONIC_EOREQ, ++ AVR32_MNEMONIC_EORNE, ++ AVR32_MNEMONIC_EORCC, ++ AVR32_MNEMONIC_EORCS, ++ AVR32_MNEMONIC_EORGE, ++ AVR32_MNEMONIC_EORLT, ++ AVR32_MNEMONIC_EORMI, ++ AVR32_MNEMONIC_EORPL, ++ AVR32_MNEMONIC_EORLS, ++ AVR32_MNEMONIC_EORGT, ++ AVR32_MNEMONIC_EORLE, ++ AVR32_MNEMONIC_EORHI, ++ AVR32_MNEMONIC_EORVS, ++ AVR32_MNEMONIC_EORVC, ++ AVR32_MNEMONIC_EORQS, ++ AVR32_MNEMONIC_EORAL, ++ AVR32_MNEMONIC_EORHS, ++ AVR32_MNEMONIC_EORLO, ++ AVR32_MNEMONIC_LD_WEQ, ++ AVR32_MNEMONIC_LD_WNE, ++ AVR32_MNEMONIC_LD_WCC, ++ AVR32_MNEMONIC_LD_WCS, ++ AVR32_MNEMONIC_LD_WGE, ++ AVR32_MNEMONIC_LD_WLT, ++ AVR32_MNEMONIC_LD_WMI, ++ AVR32_MNEMONIC_LD_WPL, ++ AVR32_MNEMONIC_LD_WLS, ++ AVR32_MNEMONIC_LD_WGT, ++ AVR32_MNEMONIC_LD_WLE, ++ AVR32_MNEMONIC_LD_WHI, ++ AVR32_MNEMONIC_LD_WVS, ++ AVR32_MNEMONIC_LD_WVC, ++ AVR32_MNEMONIC_LD_WQS, ++ AVR32_MNEMONIC_LD_WAL, ++ AVR32_MNEMONIC_LD_WHS, ++ AVR32_MNEMONIC_LD_WLO, ++ AVR32_MNEMONIC_LD_SHEQ, ++ AVR32_MNEMONIC_LD_SHNE, ++ AVR32_MNEMONIC_LD_SHCC, ++ AVR32_MNEMONIC_LD_SHCS, ++ AVR32_MNEMONIC_LD_SHGE, ++ AVR32_MNEMONIC_LD_SHLT, ++ AVR32_MNEMONIC_LD_SHMI, ++ AVR32_MNEMONIC_LD_SHPL, ++ AVR32_MNEMONIC_LD_SHLS, ++ AVR32_MNEMONIC_LD_SHGT, ++ AVR32_MNEMONIC_LD_SHLE, ++ AVR32_MNEMONIC_LD_SHHI, ++ AVR32_MNEMONIC_LD_SHVS, ++ AVR32_MNEMONIC_LD_SHVC, ++ AVR32_MNEMONIC_LD_SHQS, ++ AVR32_MNEMONIC_LD_SHAL, ++ AVR32_MNEMONIC_LD_SHHS, ++ AVR32_MNEMONIC_LD_SHLO, ++ AVR32_MNEMONIC_LD_UHEQ, ++ AVR32_MNEMONIC_LD_UHNE, ++ AVR32_MNEMONIC_LD_UHCC, ++ AVR32_MNEMONIC_LD_UHCS, ++ AVR32_MNEMONIC_LD_UHGE, ++ AVR32_MNEMONIC_LD_UHLT, ++ AVR32_MNEMONIC_LD_UHMI, ++ AVR32_MNEMONIC_LD_UHPL, ++ AVR32_MNEMONIC_LD_UHLS, ++ AVR32_MNEMONIC_LD_UHGT, ++ AVR32_MNEMONIC_LD_UHLE, ++ AVR32_MNEMONIC_LD_UHHI, ++ AVR32_MNEMONIC_LD_UHVS, ++ AVR32_MNEMONIC_LD_UHVC, ++ AVR32_MNEMONIC_LD_UHQS, ++ AVR32_MNEMONIC_LD_UHAL, ++ AVR32_MNEMONIC_LD_UHHS, ++ AVR32_MNEMONIC_LD_UHLO, ++ AVR32_MNEMONIC_LD_SBEQ, ++ AVR32_MNEMONIC_LD_SBNE, ++ AVR32_MNEMONIC_LD_SBCC, ++ AVR32_MNEMONIC_LD_SBCS, ++ AVR32_MNEMONIC_LD_SBGE, ++ AVR32_MNEMONIC_LD_SBLT, ++ AVR32_MNEMONIC_LD_SBMI, ++ AVR32_MNEMONIC_LD_SBPL, ++ AVR32_MNEMONIC_LD_SBLS, ++ AVR32_MNEMONIC_LD_SBGT, ++ AVR32_MNEMONIC_LD_SBLE, ++ AVR32_MNEMONIC_LD_SBHI, ++ AVR32_MNEMONIC_LD_SBVS, ++ AVR32_MNEMONIC_LD_SBVC, ++ AVR32_MNEMONIC_LD_SBQS, ++ AVR32_MNEMONIC_LD_SBAL, ++ AVR32_MNEMONIC_LD_SBHS, ++ AVR32_MNEMONIC_LD_SBLO, ++ AVR32_MNEMONIC_LD_UBEQ, ++ AVR32_MNEMONIC_LD_UBNE, ++ AVR32_MNEMONIC_LD_UBCC, ++ AVR32_MNEMONIC_LD_UBCS, ++ AVR32_MNEMONIC_LD_UBGE, ++ AVR32_MNEMONIC_LD_UBLT, ++ AVR32_MNEMONIC_LD_UBMI, ++ AVR32_MNEMONIC_LD_UBPL, ++ AVR32_MNEMONIC_LD_UBLS, ++ AVR32_MNEMONIC_LD_UBGT, ++ AVR32_MNEMONIC_LD_UBLE, ++ AVR32_MNEMONIC_LD_UBHI, ++ AVR32_MNEMONIC_LD_UBVS, ++ AVR32_MNEMONIC_LD_UBVC, ++ AVR32_MNEMONIC_LD_UBQS, ++ AVR32_MNEMONIC_LD_UBAL, ++ AVR32_MNEMONIC_LD_UBHS, ++ AVR32_MNEMONIC_LD_UBLO, ++ AVR32_MNEMONIC_ST_WEQ, ++ AVR32_MNEMONIC_ST_WNE, ++ AVR32_MNEMONIC_ST_WCC, ++ AVR32_MNEMONIC_ST_WCS, ++ AVR32_MNEMONIC_ST_WGE, ++ AVR32_MNEMONIC_ST_WLT, ++ AVR32_MNEMONIC_ST_WMI, ++ AVR32_MNEMONIC_ST_WPL, ++ AVR32_MNEMONIC_ST_WLS, ++ AVR32_MNEMONIC_ST_WGT, ++ AVR32_MNEMONIC_ST_WLE, ++ AVR32_MNEMONIC_ST_WHI, ++ AVR32_MNEMONIC_ST_WVS, ++ AVR32_MNEMONIC_ST_WVC, ++ AVR32_MNEMONIC_ST_WQS, ++ AVR32_MNEMONIC_ST_WAL, ++ AVR32_MNEMONIC_ST_WHS, ++ AVR32_MNEMONIC_ST_WLO, ++ AVR32_MNEMONIC_ST_HEQ, ++ AVR32_MNEMONIC_ST_HNE, ++ AVR32_MNEMONIC_ST_HCC, ++ AVR32_MNEMONIC_ST_HCS, ++ AVR32_MNEMONIC_ST_HGE, ++ AVR32_MNEMONIC_ST_HLT, ++ AVR32_MNEMONIC_ST_HMI, ++ AVR32_MNEMONIC_ST_HPL, ++ AVR32_MNEMONIC_ST_HLS, ++ AVR32_MNEMONIC_ST_HGT, ++ AVR32_MNEMONIC_ST_HLE, ++ AVR32_MNEMONIC_ST_HHI, ++ AVR32_MNEMONIC_ST_HVS, ++ AVR32_MNEMONIC_ST_HVC, ++ AVR32_MNEMONIC_ST_HQS, ++ AVR32_MNEMONIC_ST_HAL, ++ AVR32_MNEMONIC_ST_HHS, ++ AVR32_MNEMONIC_ST_HLO, ++ AVR32_MNEMONIC_ST_BEQ, ++ AVR32_MNEMONIC_ST_BNE, ++ AVR32_MNEMONIC_ST_BCC, ++ AVR32_MNEMONIC_ST_BCS, ++ AVR32_MNEMONIC_ST_BGE, ++ AVR32_MNEMONIC_ST_BLT, ++ AVR32_MNEMONIC_ST_BMI, ++ AVR32_MNEMONIC_ST_BPL, ++ AVR32_MNEMONIC_ST_BLS, ++ AVR32_MNEMONIC_ST_BGT, ++ AVR32_MNEMONIC_ST_BLE, ++ AVR32_MNEMONIC_ST_BHI, ++ AVR32_MNEMONIC_ST_BVS, ++ AVR32_MNEMONIC_ST_BVC, ++ AVR32_MNEMONIC_ST_BQS, ++ AVR32_MNEMONIC_ST_BAL, ++ AVR32_MNEMONIC_ST_BHS, ++ AVR32_MNEMONIC_ST_BLO, ++ AVR32_MNEMONIC_MOVH, ++ AVR32_MNEMONIC__END_ ++}; ++#define AVR32_NR_MNEMONICS AVR32_MNEMONIC__END_ ++ ++enum avr32_syntax_parser ++ { ++ AVR32_PARSER_NORMAL, ++ AVR32_PARSER_ALIAS, ++ AVR32_PARSER_LDA, ++ AVR32_PARSER_CALL, ++ AVR32_PARSER__END_ ++ }; ++#define AVR32_NR_PARSERS AVR32_PARSER__END_ +--- a/opcodes/configure ++++ b/opcodes/configure +@@ -11817,6 +11817,7 @@ if test x${all_targets} = xfalse ; then + bfd_arc_arch) ta="$ta arc-dis.lo arc-opc.lo arc-ext.lo" ;; + bfd_arm_arch) ta="$ta arm-dis.lo" ;; + bfd_avr_arch) ta="$ta avr-dis.lo" ;; ++ bfd_avr32_arch) ta="$ta avr32-asm.lo avr32-dis.lo avr32-opc.lo" ;; + bfd_bfin_arch) ta="$ta bfin-dis.lo" ;; + bfd_cr16_arch) ta="$ta cr16-dis.lo cr16-opc.lo" ;; + bfd_cris_arch) ta="$ta cris-dis.lo cris-opc.lo cgen-bitset.lo" ;; +--- a/opcodes/configure.in ++++ b/opcodes/configure.in +@@ -177,6 +177,7 @@ if test x${all_targets} = xfalse ; then + bfd_arc_arch) ta="$ta arc-dis.lo arc-opc.lo arc-ext.lo" ;; + bfd_arm_arch) ta="$ta arm-dis.lo" ;; + bfd_avr_arch) ta="$ta avr-dis.lo" ;; ++ bfd_avr32_arch) ta="$ta avr32-asm.lo avr32-dis.lo avr32-opc.lo" ;; + bfd_bfin_arch) ta="$ta bfin-dis.lo" ;; + bfd_cr16_arch) ta="$ta cr16-dis.lo cr16-opc.lo" ;; + bfd_cris_arch) ta="$ta cris-dis.lo cris-opc.lo cgen-bitset.lo" ;; +--- a/opcodes/disassemble.c ++++ b/opcodes/disassemble.c +@@ -27,6 +27,7 @@ + #define ARCH_arc + #define ARCH_arm + #define ARCH_avr ++#define ARCH_avr32 + #define ARCH_bfin + #define ARCH_cr16 + #define ARCH_cris +@@ -129,6 +130,11 @@ disassembler (abfd) + disassemble = print_insn_avr; + break; + #endif ++#ifdef ARCH_avr32 ++ case bfd_arch_avr32: ++ disassemble = print_insn_avr32; ++ break; ++#endif + #ifdef ARCH_bfin + case bfd_arch_bfin: + disassemble = print_insn_bfin; +@@ -472,6 +478,9 @@ disassembler_usage (stream) + #ifdef ARCH_i386 + print_i386_disassembler_options (stream); + #endif ++#ifdef ARCH_avr32 ++ print_avr32_disassembler_options (stream); ++#endif + #ifdef ARCH_s390 + print_s390_disassembler_options (stream); + #endif diff --git a/toolchain/binutils/patches/2.20.1/110-arm-eabi-conf.patch b/toolchain/binutils/patches/2.20.1/110-arm-eabi-conf.patch new file mode 100644 index 000000000..74c9653e5 --- /dev/null +++ b/toolchain/binutils/patches/2.20.1/110-arm-eabi-conf.patch @@ -0,0 +1,22 @@ +--- a/configure ++++ b/configure +@@ -3086,7 +3086,7 @@ case "${target}" in + noconfigdirs="$noconfigdirs target-libffi target-qthreads" + libgloss_dir=arm + ;; +- arm*-*-linux-gnueabi) ++ arm*-*-linux-*gnueabi) + noconfigdirs="$noconfigdirs target-qthreads" + case ${with_newlib} in + no) noconfigdirs="$noconfigdirs target-newlib target-libgloss" +--- a/configure.ac ++++ b/configure.ac +@@ -573,7 +573,7 @@ case "${target}" in + noconfigdirs="$noconfigdirs target-libffi target-qthreads" + libgloss_dir=arm + ;; +- arm*-*-linux-gnueabi) ++ arm*-*-linux-*gnueabi) + noconfigdirs="$noconfigdirs target-qthreads" + case ${with_newlib} in + no) noconfigdirs="$noconfigdirs target-newlib target-libgloss" diff --git a/toolchain/binutils/patches/2.20.1/111-pr7093.elf32-arm.c.patch b/toolchain/binutils/patches/2.20.1/111-pr7093.elf32-arm.c.patch new file mode 100644 index 000000000..76aa34372 --- /dev/null +++ b/toolchain/binutils/patches/2.20.1/111-pr7093.elf32-arm.c.patch @@ -0,0 +1,13 @@ +--- a/bfd/elf32-arm.c ++++ b/bfd/elf32-arm.c +@@ -5511,6 +5511,10 @@ bfd_elf32_arm_init_maps (bfd *abfd) + if (! is_arm_elf (abfd)) + return; + ++ /* PR 7093: Make sure that we are dealing with an arm elf binary. */ ++ if (! is_arm_elf (abfd)) ++ return; ++ + if ((abfd->flags & DYNAMIC) != 0) + return; + diff --git a/toolchain/binutils/patches/2.20.1/112-arm-uclibc-gas-needs-libm.patch b/toolchain/binutils/patches/2.20.1/112-arm-uclibc-gas-needs-libm.patch new file mode 100644 index 000000000..636639221 --- /dev/null +++ b/toolchain/binutils/patches/2.20.1/112-arm-uclibc-gas-needs-libm.patch @@ -0,0 +1,35 @@ +Source: Khem Raj +Disposition: submit upstream. + +Description: + +We do not need to have the libtool patch anymore for binutils after +libtool has been updated upstream it include support for it. However +for building gas natively on uclibc systems we have to link it with +-lm so that it picks up missing symbols. + +/local/build_area/BUILD/arm_v5t_le_uclibc/binutils-2.17.50/objdir/libiberty/pic/libiberty.a(floatformat.o): In function `floatformat_from_double': +floatformat.c:(.text+0x1ec): undefined reference to `frexp' +floatformat.c:(.text+0x2f8): undefined reference to `ldexp' +/local/build_area/BUILD/arm_v5t_le_uclibc/binutils-2.17.50/objdir/libiberty/pic/libiberty.a(floatformat.o): In function `floatformat_to_double': +floatformat.c:(.text+0x38a): undefined reference to `ldexp' +floatformat.c:(.text+0x3d2): undefined reference to `ldexp' +floatformat.c:(.text+0x43e): undefined reference to `ldexp' floatformat.c:(.text+0x4e2): undefined reference to `ldexp' +collect2: ld returned 1 exit status +make[4]: *** [as-new] Error 1 + +--- a/gas/configure.tgt ++++ b/gas/configure.tgt +@@ -431,6 +431,12 @@ case ${generic_target} in + *-*-netware) fmt=elf em=netware ;; + esac + ++case ${generic_target} in ++ arm-*-*uclibc*) ++ need_libm=yes ++ ;; ++esac ++ + case ${cpu_type} in + alpha | arm | i386 | ia64 | microblaze | mips | ns32k | pdp11 | ppc | sparc | z80 | z8k) + bfd_gas=yes diff --git a/toolchain/binutils/patches/2.20.1/120-sh-conf.patch b/toolchain/binutils/patches/2.20.1/120-sh-conf.patch new file mode 100644 index 000000000..030fff375 --- /dev/null +++ b/toolchain/binutils/patches/2.20.1/120-sh-conf.patch @@ -0,0 +1,40 @@ +--- a/configure ++++ b/configure +@@ -3054,7 +3054,7 @@ case "${target}" in + am33_2.0-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; +- sh-*-linux*) ++ sh*-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; + sh*-*-pe|mips*-*-pe|*arm-wince-pe) +@@ -3390,7 +3390,7 @@ case "${target}" in + romp-*-*) + noconfigdirs="$noconfigdirs bfd binutils ld gas opcodes target-libgloss ${libgcj}" + ;; +- sh-*-* | sh64-*-*) ++ sh*-*-* | sh64-*-*) + case "${host}" in + i[3456789]86-*-vsta) ;; # don't add gprof back in + i[3456789]86-*-go32*) ;; # don't add gprof back in +--- a/configure.ac ++++ b/configure.ac +@@ -541,7 +541,7 @@ case "${target}" in + am33_2.0-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; +- sh-*-linux*) ++ sh*-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; + sh*-*-pe|mips*-*-pe|*arm-wince-pe) +@@ -877,7 +877,7 @@ case "${target}" in + romp-*-*) + noconfigdirs="$noconfigdirs bfd binutils ld gas opcodes target-libgloss ${libgcj}" + ;; +- sh-*-* | sh64-*-*) ++ sh*-*-* | sh64-*-*) + case "${host}" in + i[[3456789]]86-*-vsta) ;; # don't add gprof back in + i[[3456789]]86-*-go32*) ;; # don't add gprof back in diff --git a/toolchain/binutils/patches/2.20.1/200-mips_non_pic.patch b/toolchain/binutils/patches/2.20.1/200-mips_non_pic.patch new file mode 100644 index 000000000..fd14fa1b3 --- /dev/null +++ b/toolchain/binutils/patches/2.20.1/200-mips_non_pic.patch @@ -0,0 +1,209 @@ +--- a/bfd/elf32-mips.c ++++ b/bfd/elf32-mips.c +@@ -1663,6 +1663,15 @@ static const struct ecoff_debug_swap mip + #define elf_backend_plt_readonly 1 + #define elf_backend_plt_sym_val _bfd_mips_elf_plt_sym_val + ++/* Most MIPS ELF files do not contain a traditional PLT; only VxWorks ++ and non-PIC dynamic executables do. These settings only affect ++ _bfd_elf_create_dynamic_sections, which is only called when we ++ do want a traditional PLT. */ ++#undef elf_backend_want_plt_sym ++#define elf_backend_want_plt_sym 1 ++#undef elf_backend_plt_readonly ++#define elf_backend_plt_readonly 1 ++ + #define elf_backend_discard_info _bfd_mips_elf_discard_info + #define elf_backend_ignore_discarded_relocs \ + _bfd_mips_elf_ignore_discarded_relocs +@@ -1687,6 +1696,8 @@ static const struct ecoff_debug_swap mip + #define bfd_elf32_bfd_print_private_bfd_data \ + _bfd_mips_elf_print_private_bfd_data + ++#define elf_backend_plt_sym_val _bfd_mips_elf_plt_sym_val ++ + /* Support for SGI-ish mips targets. */ + #define TARGET_LITTLE_SYM bfd_elf32_littlemips_vec + #define TARGET_LITTLE_NAME "elf32-littlemips" +@@ -1790,6 +1801,7 @@ mips_vxworks_final_write_processing (bfd + #undef elf_backend_additional_program_headers + #undef elf_backend_modify_segment_map + #undef elf_backend_symbol_processing ++#undef elf_backend_plt_sym_val + /* NOTE: elf_backend_rela_normal is not defined for MIPS. */ + + #include "elf32-target.h" +--- a/bfd/elfxx-mips.c ++++ b/bfd/elfxx-mips.c +@@ -694,6 +694,11 @@ static bfd *reldyn_sorting_bfd; + /* Nonzero if ABFD is using NewABI conventions. */ + #define NEWABI_P(abfd) (ABI_N32_P (abfd) || ABI_64_P (abfd)) + ++/* Nonzero if ABFD is a non-PIC object. */ ++#define NON_PIC_P(abfd) \ ++ (((elf_elfheader (abfd)->e_flags & EF_MIPS_PIC) == 0) \ ++ && ((elf_elfheader (abfd)->e_flags & EF_MIPS_CPIC) == EF_MIPS_CPIC)) ++ + /* The IRIX compatibility level we are striving for. */ + #define IRIX_COMPAT(abfd) \ + (get_elf_backend_data (abfd)->elf_backend_mips_irix_compat (abfd)) +@@ -706,6 +711,9 @@ static bfd *reldyn_sorting_bfd; + #define MIPS_ELF_OPTIONS_SECTION_NAME(abfd) \ + (NEWABI_P (abfd) ? ".MIPS.options" : ".options") + ++/* The name of the section holding non-PIC to PIC call stubs. */ ++#define NON_PIC_TO_PIC_STUB_SECTION_NAME ".MIPS.pic_stubs" ++ + /* True if NAME is the recognized name of any SHT_MIPS_OPTIONS section. + Some IRIX system files do not use MIPS_ELF_OPTIONS_SECTION_NAME. */ + #define MIPS_ELF_OPTIONS_SECTION_NAME_P(NAME) \ +@@ -7619,7 +7627,9 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + + /* We need a stub, not a plt entry for the undefined + function. But we record it as if it needs plt. See +- _bfd_elf_adjust_dynamic_symbol. */ ++ _bfd_elf_adjust_dynamic_symbol. Note that these relocations ++ are always used for PIC calls, even when using the new ++ non-PIC ABI. */ + h->needs_plt = 1; + h->type = STT_FUNC; + } +@@ -7725,6 +7735,8 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + case R_MIPS_32: + case R_MIPS_REL32: + case R_MIPS_64: ++ if (h != NULL) ++ h->non_got_ref = TRUE; + /* In VxWorks executables, references to external symbols + are handled using copy relocs or PLT stubs, so there's + no need to add a .rela.dyn entry for this relocation. */ +@@ -7780,11 +7792,21 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + case R_MIPS_GPREL16: + case R_MIPS_LITERAL: + case R_MIPS_GPREL32: ++ if (h != NULL ++ && (r_type == R_MIPS_GPREL16 || r_type == R_MIPS_GPREL32)) ++ h->non_got_ref = TRUE; ++ + if (SGI_COMPAT (abfd)) + mips_elf_hash_table (info)->compact_rel_size += + sizeof (Elf32_External_crinfo); + break; + ++ case R_MIPS_HI16: ++ case R_MIPS_LO16: ++ if (h != NULL && strcmp (h->root.root.string, "_gp_disp") != 0) ++ h->non_got_ref = TRUE; ++ break; ++ + /* This relocation describes the C++ object vtable hierarchy. + Reconstruct it for later use during GC. */ + case R_MIPS_GNU_VTINHERIT: +@@ -7807,20 +7829,20 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + + /* We must not create a stub for a symbol that has relocations + related to taking the function's address. This doesn't apply to +- VxWorks, where CALL relocs refer to a .got.plt entry instead of +- a normal .got entry. */ ++ VxWorks or the non-PIC ABI, where CALL relocs refer to a ++ .got.plt entry instead of a normal .got entry. */ + if (!htab->is_vxworks && h != NULL) + switch (r_type) + { +- default: +- ((struct mips_elf_link_hash_entry *) h)->no_fn_stub = TRUE; +- break; + case R_MIPS16_CALL16: + case R_MIPS_CALL16: + case R_MIPS_CALL_HI16: + case R_MIPS_CALL_LO16: + case R_MIPS_JALR: + break; ++ default: ++ ((struct mips_elf_link_hash_entry *) h)->no_fn_stub = TRUE; ++ break; + } + + /* See if this reloc would need to refer to a MIPS16 hard-float stub, +@@ -12514,7 +12536,9 @@ _bfd_mips_elf_merge_private_bfd_data (bf + break; + } + } +- if (null_input_bfd) ++ /* Dynamic objects normally have no sections, and do not reach ++ here - but they might if used as DYNOBJ. */ ++ if (null_input_bfd || (ibfd->flags & DYNAMIC) != 0) + return TRUE; + + ok = TRUE; +--- a/bfd/elfxx-mips.h ++++ b/bfd/elfxx-mips.h +@@ -63,6 +63,9 @@ extern bfd_boolean _bfd_mips_elf_finish_ + extern bfd_boolean _bfd_mips_vxworks_finish_dynamic_symbol + (bfd *, struct bfd_link_info *, struct elf_link_hash_entry *, + Elf_Internal_Sym *); ++extern bfd_boolean _bfd_mips_nonpic_finish_dynamic_symbol ++ (bfd *, struct bfd_link_info *, struct elf_link_hash_entry *, ++ Elf_Internal_Sym *); + extern bfd_boolean _bfd_mips_elf_finish_dynamic_sections + (bfd *, struct bfd_link_info *); + extern void _bfd_mips_elf_final_write_processing +@@ -153,6 +156,15 @@ extern const struct bfd_elf_special_sect + + extern bfd_boolean _bfd_mips_elf_common_definition (Elf_Internal_Sym *); + ++extern bfd_vma _bfd_mips_elf_plt_sym_val ++ (bfd_vma, const asection *, const arelent *); ++extern void _bfd_mips_elf_begin_write_processing ++ (bfd *abfd, struct bfd_link_info *link_info); ++extern bfd_boolean bfd_mips_elf_maybe_create_non_pic_to_pic_stubs_section ++ (struct bfd_link_info *); ++extern void _bfd_mips_post_process_headers ++ (bfd *abfd, struct bfd_link_info *link_info); ++ + #define elf_backend_common_definition _bfd_mips_elf_common_definition + #define elf_backend_name_local_section_symbols \ + _bfd_mips_elf_name_local_section_symbols +--- a/gas/config/tc-mips.c ++++ b/gas/config/tc-mips.c +@@ -1891,6 +1891,12 @@ md_begin (void) + as_bad (_("-G may not be used in position-independent code")); + g_switch_value = 0; + } ++ else if (mips_abicalls) ++ { ++ if (g_switch_seen && g_switch_value != 0) ++ as_bad (_("-G may not be used with abicalls")); ++ g_switch_value = 0; ++ } + + if (! bfd_set_arch_mach (stdoutput, bfd_arch_mips, file_mips_arch)) + as_warn (_("Could not set architecture and machine")); +@@ -11258,6 +11264,7 @@ enum options + OPTION_PDR, + OPTION_NO_PDR, + OPTION_MVXWORKS_PIC, ++ OPTION_NON_PIC_ABICALLS, + #endif /* OBJ_ELF */ + OPTION_END_OF_ENUM + }; +@@ -11359,6 +11366,7 @@ struct option md_longopts[] = + {"mpdr", no_argument, NULL, OPTION_PDR}, + {"mno-pdr", no_argument, NULL, OPTION_NO_PDR}, + {"mvxworks-pic", no_argument, NULL, OPTION_MVXWORKS_PIC}, ++ {"mnon-pic-abicalls", no_argument, NULL, OPTION_NON_PIC_ABICALLS}, + #endif /* OBJ_ELF */ + + {NULL, no_argument, NULL, 0} +@@ -11783,6 +11791,11 @@ md_parse_option (int c, char *arg) + case OPTION_MVXWORKS_PIC: + mips_pic = VXWORKS_PIC; + break; ++ ++ case OPTION_NON_PIC_ABICALLS: ++ mips_pic = NO_PIC; ++ mips_abicalls = TRUE; ++ break; + #endif /* OBJ_ELF */ + + default: diff --git a/toolchain/binutils/patches/2.20.1/300-001_ld_makefile_patch.patch b/toolchain/binutils/patches/2.20.1/300-001_ld_makefile_patch.patch new file mode 100644 index 000000000..3ca4a5866 --- /dev/null +++ b/toolchain/binutils/patches/2.20.1/300-001_ld_makefile_patch.patch @@ -0,0 +1,22 @@ +--- a/ld/Makefile.am ++++ b/ld/Makefile.am +@@ -24,7 +24,7 @@ AM_CFLAGS = $(WARN_CFLAGS) + # We put the scripts in the directory $(scriptdir)/ldscripts. + # We can't put the scripts in $(datadir) because the SEARCH_DIR + # directives need to be different for native and cross linkers. +-scriptdir = $(tooldir)/lib ++scriptdir = $(libdir) + + EMUL = @EMUL@ + EMULATION_OFILES = @EMULATION_OFILES@ +--- a/ld/Makefile.in ++++ b/ld/Makefile.in +@@ -333,7 +333,7 @@ AM_CFLAGS = $(WARN_CFLAGS) + # We put the scripts in the directory $(scriptdir)/ldscripts. + # We can't put the scripts in $(datadir) because the SEARCH_DIR + # directives need to be different for native and cross linkers. +-scriptdir = $(tooldir)/lib ++scriptdir = $(libdir) + BASEDIR = $(srcdir)/.. + BFDDIR = $(BASEDIR)/bfd + INCDIR = $(BASEDIR)/include diff --git a/toolchain/binutils/patches/2.20.1/300-012_check_ldrunpath_length.patch b/toolchain/binutils/patches/2.20.1/300-012_check_ldrunpath_length.patch new file mode 100644 index 000000000..08072a429 --- /dev/null +++ b/toolchain/binutils/patches/2.20.1/300-012_check_ldrunpath_length.patch @@ -0,0 +1,20 @@ +--- a/ld/emultempl/elf32.em ++++ b/ld/emultempl/elf32.em +@@ -1233,6 +1233,8 @@ fragment <root.def_regular +- || (info->shared && !info->symbolic && !h->root.forced_local))) ++ if (!(h == NULL ++ || (h->root.def_regular ++ && (info->executable || info->symbolic || h->root.forced_local)))) + { + indx = h->root.dynindx; + if (SGI_COMPAT (output_bfd)) diff --git a/toolchain/binutils/patches/2.20.1/400-autoreconf-compat.patch b/toolchain/binutils/patches/2.20.1/400-autoreconf-compat.patch new file mode 100644 index 000000000..d5451e812 --- /dev/null +++ b/toolchain/binutils/patches/2.20.1/400-autoreconf-compat.patch @@ -0,0 +1,84 @@ +--- a/config/override.m4 ++++ b/config/override.m4 +@@ -32,31 +32,6 @@ dnl Redefine AC_CONFIG_SUBDIRS so acloca + dnl when needed. + + ifdef([m4_PACKAGE_VERSION], +-[dnl AC_DEFUN a commonly used macro so this file is picked up. +-m4_copy([AC_PREREQ], [_AC_PREREQ]) +-AC_DEFUN([AC_PREREQ], [frob]) +-m4_copy_force([_AC_PREREQ], [AC_PREREQ]) +- +- +-dnl Ensure exactly this Autoconf version is used +-m4_ifndef([_GCC_AUTOCONF_VERSION], +- [m4_define([_GCC_AUTOCONF_VERSION], [2.64])]) +- +-dnl Test for the exact version when AC_INIT is expanded. +-dnl This allows to update the tree in steps (for testing) +-dnl by putting +-dnl m4_define([_GCC_AUTOCONF_VERSION], [X.Y]) +-dnl in configure.ac before AC_INIT, +-dnl without rewriting this file. +-dnl Or for updating the whole tree at once with the definition above. +-AC_DEFUN([_GCC_AUTOCONF_VERSION_CHECK], +-[m4_if(m4_defn([_GCC_AUTOCONF_VERSION]), +- m4_defn([m4_PACKAGE_VERSION]), [], +- [m4_fatal([Please use exactly Autoconf ]_GCC_AUTOCONF_VERSION[ instead of ]m4_defn([m4_PACKAGE_VERSION])[.])]) +-]) +-m4_define([AC_INIT], m4_defn([AC_INIT])[ +-_GCC_AUTOCONF_VERSION_CHECK +-]) + + + dnl Turn AC_DISABLE_OPTION_CHECKING into a no-op if not defined. +--- a/gas/aclocal.m4 ++++ b/gas/aclocal.m4 +@@ -998,7 +998,6 @@ m4_include([../config/nls.m4]) + m4_include([../config/override.m4]) + m4_include([../config/po.m4]) + m4_include([../config/progtest.m4]) +-m4_include([../libtool.m4]) + m4_include([../ltoptions.m4]) + m4_include([../ltsugar.m4]) + m4_include([../ltversion.m4]) +--- a/bfd/aclocal.m4 ++++ b/bfd/aclocal.m4 +@@ -978,7 +978,6 @@ m4_include([../config/plugins.m4]) + m4_include([../config/po.m4]) + m4_include([../config/progtest.m4]) + m4_include([../config/stdint.m4]) +-m4_include([../libtool.m4]) + m4_include([../ltoptions.m4]) + m4_include([../ltsugar.m4]) + m4_include([../ltversion.m4]) +--- a/binutils/aclocal.m4 ++++ b/binutils/aclocal.m4 +@@ -1003,7 +1003,6 @@ m4_include([../config/override.m4]) + m4_include([../config/plugins.m4]) + m4_include([../config/po.m4]) + m4_include([../config/progtest.m4]) +-m4_include([../libtool.m4]) + m4_include([../ltoptions.m4]) + m4_include([../ltsugar.m4]) + m4_include([../ltversion.m4]) +--- a/ld/aclocal.m4 ++++ b/ld/aclocal.m4 +@@ -999,7 +999,6 @@ m4_include([../config/nls.m4]) + m4_include([../config/override.m4]) + m4_include([../config/po.m4]) + m4_include([../config/progtest.m4]) +-m4_include([../libtool.m4]) + m4_include([../ltoptions.m4]) + m4_include([../ltsugar.m4]) + m4_include([../ltversion.m4]) +--- a/opcodes/aclocal.m4 ++++ b/opcodes/aclocal.m4 +@@ -978,7 +978,6 @@ m4_include([../config/nls.m4]) + m4_include([../config/override.m4]) + m4_include([../config/po.m4]) + m4_include([../config/progtest.m4]) +-m4_include([../libtool.m4]) + m4_include([../ltoptions.m4]) + m4_include([../ltsugar.m4]) + m4_include([../ltversion.m4]) diff --git a/toolchain/binutils/patches/2.20.1/700-avr32.patch b/toolchain/binutils/patches/2.20.1/700-avr32.patch new file mode 100644 index 000000000..646049cc0 --- /dev/null +++ b/toolchain/binutils/patches/2.20.1/700-avr32.patch @@ -0,0 +1,30797 @@ +--- a/bfd/archures.c ++++ b/bfd/archures.c +@@ -368,6 +368,12 @@ DESCRIPTION + .#define bfd_mach_avr5 5 + .#define bfd_mach_avr51 51 + .#define bfd_mach_avr6 6 ++. bfd_arch_avr32, {* Atmel AVR32 *} ++.#define bfd_mach_avr32_ap 7000 ++.#define bfd_mach_avr32_uc 3000 ++.#define bfd_mach_avr32_ucr1 3001 ++.#define bfd_mach_avr32_ucr2 3002 ++.#define bfd_mach_avr32_ucr3 3003 + . bfd_arch_bfin, {* ADI Blackfin *} + .#define bfd_mach_bfin 1 + . bfd_arch_cr16, {* National Semiconductor CompactRISC (ie CR16). *} +@@ -465,6 +471,7 @@ extern const bfd_arch_info_type bfd_alph + extern const bfd_arch_info_type bfd_arc_arch; + extern const bfd_arch_info_type bfd_arm_arch; + extern const bfd_arch_info_type bfd_avr_arch; ++extern const bfd_arch_info_type bfd_avr32_arch; + extern const bfd_arch_info_type bfd_bfin_arch; + extern const bfd_arch_info_type bfd_cr16_arch; + extern const bfd_arch_info_type bfd_cr16c_arch; +@@ -541,6 +548,7 @@ static const bfd_arch_info_type * const + &bfd_arc_arch, + &bfd_arm_arch, + &bfd_avr_arch, ++ &bfd_avr32_arch, + &bfd_bfin_arch, + &bfd_cr16_arch, + &bfd_cr16c_arch, +--- a/bfd/config.bfd ++++ b/bfd/config.bfd +@@ -347,6 +347,10 @@ case "${targ}" in + targ_underscore=yes + ;; + ++ avr32-*-*) ++ targ_defvec=bfd_elf32_avr32_vec ++ ;; ++ + c30-*-*aout* | tic30-*-*aout*) + targ_defvec=tic30_aout_vec + ;; +--- a/bfd/configure.in ++++ b/bfd/configure.in +@@ -675,6 +675,7 @@ do + bfd_pei_ia64_vec) tb="$tb pei-ia64.lo pepigen.lo cofflink.lo"; target_size=64 ;; + bfd_elf32_am33lin_vec) tb="$tb elf32-am33lin.lo elf32.lo $elf" ;; + bfd_elf32_avr_vec) tb="$tb elf32-avr.lo elf32.lo $elf" ;; ++ bfd_elf32_avr32_vec) tb="$tb elf32-avr32.lo elf32.lo $elf" ;; + bfd_elf32_bfin_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_bfinfdpic_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_big_generic_vec) tb="$tb elf32-gen.lo elf32.lo $elf" ;; +--- /dev/null ++++ b/bfd/cpu-avr32.c +@@ -0,0 +1,52 @@ ++/* BFD library support routines for AVR32. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2 of the License, or ++ (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, ++ but WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ GNU General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ ++ ++#include "bfd.h" ++#include "sysdep.h" ++#include "libbfd.h" ++ ++#define N(machine, print, default, next) \ ++ { \ ++ 32, /* 32 bits in a word */ \ ++ 32, /* 32 bits in an address */ \ ++ 8, /* 8 bits in a byte */ \ ++ bfd_arch_avr32, /* architecture */ \ ++ machine, /* machine */ \ ++ "avr32", /* arch name */ \ ++ print, /* printable name */ \ ++ 1, /* section align power */ \ ++ default, /* the default machine? */ \ ++ bfd_default_compatible, \ ++ bfd_default_scan, \ ++ next, \ ++ } ++ ++static const bfd_arch_info_type cpu_info[] = ++{ ++ N(bfd_mach_avr32_ap, "avr32:ap", FALSE, &cpu_info[1]), ++ N(bfd_mach_avr32_uc, "avr32:uc", FALSE, &cpu_info[2]), ++ N(bfd_mach_avr32_ucr1, "avr32:ucr1", FALSE, &cpu_info[3]), ++ N(bfd_mach_avr32_ucr2, "avr32:ucr2", FALSE, &cpu_info[4]), ++ N(bfd_mach_avr32_ucr3, "avr32:ucr3", FALSE, NULL), ++}; ++ ++const bfd_arch_info_type bfd_avr32_arch = ++ N(bfd_mach_avr32_ap, "avr32", TRUE, &cpu_info[0]); +--- /dev/null ++++ b/bfd/elf32-avr32.c +@@ -0,0 +1,3915 @@ ++/* AVR32-specific support for 32-bit ELF. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2 of the License, or ++ (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, ++ but WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ GNU General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ ++ ++#include "bfd.h" ++#include "sysdep.h" ++#include "bfdlink.h" ++#include "libbfd.h" ++#include "elf-bfd.h" ++#include "elf/avr32.h" ++#include "elf32-avr32.h" ++ ++#define xDEBUG ++#define xRELAX_DEBUG ++ ++#ifdef DEBUG ++# define pr_debug(fmt, args...) fprintf(stderr, fmt, ##args) ++#else ++# define pr_debug(fmt, args...) do { } while (0) ++#endif ++ ++#ifdef RELAX_DEBUG ++# define RDBG(fmt, args...) fprintf(stderr, fmt, ##args) ++#else ++# define RDBG(fmt, args...) do { } while (0) ++#endif ++ ++/* When things go wrong, we want it to blow up, damnit! */ ++#undef BFD_ASSERT ++#undef abort ++#define BFD_ASSERT(expr) \ ++ do \ ++ { \ ++ if (!(expr)) \ ++ { \ ++ bfd_assert(__FILE__, __LINE__); \ ++ abort(); \ ++ } \ ++ } \ ++ while (0) ++ ++/* The name of the dynamic interpreter. This is put in the .interp section. */ ++#define ELF_DYNAMIC_INTERPRETER "/lib/ld.so.1" ++ ++#define AVR32_GOT_HEADER_SIZE 8 ++#define AVR32_FUNCTION_STUB_SIZE 8 ++ ++#define ELF_R_INFO(x, y) ELF32_R_INFO(x, y) ++#define ELF_R_TYPE(x) ELF32_R_TYPE(x) ++#define ELF_R_SYM(x) ELF32_R_SYM(x) ++ ++#define NOP_OPCODE 0xd703 ++ ++ ++/* Mapping between BFD relocations and ELF relocations */ ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_type_lookup(bfd *abfd, bfd_reloc_code_real_type code); ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_name_lookup(bfd *abfd, const char *r_name); ++ ++static void ++avr32_info_to_howto (bfd *abfd, arelent *cache_ptr, Elf_Internal_Rela *dst); ++ ++/* Generic HOWTO */ ++#define GENH(name, align, size, bitsize, pcrel, bitpos, complain, mask) \ ++ HOWTO(name, align, size, bitsize, pcrel, bitpos, \ ++ complain_overflow_##complain, bfd_elf_generic_reloc, #name, \ ++ FALSE, 0, mask, pcrel) ++ ++static reloc_howto_type elf_avr32_howto_table[] = { ++ /* NAME ALN SZ BSZ PCREL BP COMPLAIN MASK */ ++ GENH(R_AVR32_NONE, 0, 0, 0, FALSE, 0, dont, 0x00000000), ++ ++ GENH(R_AVR32_32, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_16, 0, 1, 16, FALSE, 0, bitfield, 0x0000ffff), ++ GENH(R_AVR32_8, 0, 0, 8, FALSE, 0, bitfield, 0x000000ff), ++ GENH(R_AVR32_32_PCREL, 0, 2, 32, TRUE, 0, signed, 0xffffffff), ++ GENH(R_AVR32_16_PCREL, 0, 1, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_8_PCREL, 0, 0, 8, TRUE, 0, signed, 0x000000ff), ++ ++ /* Difference between two symbol (sym2 - sym1). The reloc encodes ++ the value of sym1. The field contains the difference before any ++ relaxing is done. */ ++ GENH(R_AVR32_DIFF32, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_DIFF16, 0, 1, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_DIFF8, 0, 0, 8, FALSE, 0, signed, 0x000000ff), ++ ++ GENH(R_AVR32_GOT32, 0, 2, 32, FALSE, 0, signed, 0xffffffff), ++ GENH(R_AVR32_GOT16, 0, 1, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_GOT8, 0, 0, 8, FALSE, 0, signed, 0x000000ff), ++ ++ GENH(R_AVR32_21S, 0, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_16U, 0, 2, 16, FALSE, 0, unsigned, 0x0000ffff), ++ GENH(R_AVR32_16S, 0, 2, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_8S, 0, 1, 8, FALSE, 4, signed, 0x00000ff0), ++ GENH(R_AVR32_8S_EXT, 0, 2, 8, FALSE, 0, signed, 0x000000ff), ++ ++ GENH(R_AVR32_22H_PCREL, 1, 2, 21, TRUE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_18W_PCREL, 2, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_16B_PCREL, 0, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_16N_PCREL, 0, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_14UW_PCREL, 2, 2, 12, TRUE, 0, unsigned, 0x0000f0ff), ++ GENH(R_AVR32_11H_PCREL, 1, 1, 10, TRUE, 4, signed, 0x00000ff3), ++ GENH(R_AVR32_10UW_PCREL, 2, 2, 8, TRUE, 0, unsigned, 0x000000ff), ++ GENH(R_AVR32_9H_PCREL, 1, 1, 8, TRUE, 4, signed, 0x00000ff0), ++ GENH(R_AVR32_9UW_PCREL, 2, 1, 7, TRUE, 4, unsigned, 0x000007f0), ++ ++ GENH(R_AVR32_HI16, 16, 2, 16, FALSE, 0, dont, 0x0000ffff), ++ GENH(R_AVR32_LO16, 0, 2, 16, FALSE, 0, dont, 0x0000ffff), ++ ++ GENH(R_AVR32_GOTPC, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_GOTCALL, 2, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_LDA_GOT, 2, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_GOT21S, 0, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_GOT18SW, 2, 2, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_GOT16S, 0, 2, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_GOT7UW, 2, 1, 5, FALSE, 4, unsigned, 0x000001f0), ++ ++ GENH(R_AVR32_32_CPENT, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_CPCALL, 2, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_16_CP, 0, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_9W_CP, 2, 1, 7, TRUE, 4, unsigned, 0x000007f0), ++ ++ GENH(R_AVR32_RELATIVE, 0, 2, 32, FALSE, 0, signed, 0xffffffff), ++ GENH(R_AVR32_GLOB_DAT, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_JMP_SLOT, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ ++ GENH(R_AVR32_ALIGN, 0, 1, 0, FALSE, 0, unsigned, 0x00000000), ++ ++ GENH(R_AVR32_15S, 2, 2, 15, FALSE, 0, signed, 0x00007fff), ++}; ++ ++struct elf_reloc_map ++{ ++ bfd_reloc_code_real_type bfd_reloc_val; ++ unsigned char elf_reloc_val; ++}; ++ ++static const struct elf_reloc_map avr32_reloc_map[] = ++{ ++ { BFD_RELOC_NONE, R_AVR32_NONE }, ++ ++ { BFD_RELOC_32, R_AVR32_32 }, ++ { BFD_RELOC_16, R_AVR32_16 }, ++ { BFD_RELOC_8, R_AVR32_8 }, ++ { BFD_RELOC_32_PCREL, R_AVR32_32_PCREL }, ++ { BFD_RELOC_16_PCREL, R_AVR32_16_PCREL }, ++ { BFD_RELOC_8_PCREL, R_AVR32_8_PCREL }, ++ { BFD_RELOC_AVR32_DIFF32, R_AVR32_DIFF32 }, ++ { BFD_RELOC_AVR32_DIFF16, R_AVR32_DIFF16 }, ++ { BFD_RELOC_AVR32_DIFF8, R_AVR32_DIFF8 }, ++ { BFD_RELOC_AVR32_GOT32, R_AVR32_GOT32 }, ++ { BFD_RELOC_AVR32_GOT16, R_AVR32_GOT16 }, ++ { BFD_RELOC_AVR32_GOT8, R_AVR32_GOT8 }, ++ ++ { BFD_RELOC_AVR32_21S, R_AVR32_21S }, ++ { BFD_RELOC_AVR32_16U, R_AVR32_16U }, ++ { BFD_RELOC_AVR32_16S, R_AVR32_16S }, ++ { BFD_RELOC_AVR32_SUB5, R_AVR32_16S }, ++ { BFD_RELOC_AVR32_8S_EXT, R_AVR32_8S_EXT }, ++ { BFD_RELOC_AVR32_8S, R_AVR32_8S }, ++ ++ { BFD_RELOC_AVR32_22H_PCREL, R_AVR32_22H_PCREL }, ++ { BFD_RELOC_AVR32_18W_PCREL, R_AVR32_18W_PCREL }, ++ { BFD_RELOC_AVR32_16B_PCREL, R_AVR32_16B_PCREL }, ++ { BFD_RELOC_AVR32_16N_PCREL, R_AVR32_16N_PCREL }, ++ { BFD_RELOC_AVR32_11H_PCREL, R_AVR32_11H_PCREL }, ++ { BFD_RELOC_AVR32_10UW_PCREL, R_AVR32_10UW_PCREL }, ++ { BFD_RELOC_AVR32_9H_PCREL, R_AVR32_9H_PCREL }, ++ { BFD_RELOC_AVR32_9UW_PCREL, R_AVR32_9UW_PCREL }, ++ ++ { BFD_RELOC_HI16, R_AVR32_HI16 }, ++ { BFD_RELOC_LO16, R_AVR32_LO16 }, ++ ++ { BFD_RELOC_AVR32_GOTPC, R_AVR32_GOTPC }, ++ { BFD_RELOC_AVR32_GOTCALL, R_AVR32_GOTCALL }, ++ { BFD_RELOC_AVR32_LDA_GOT, R_AVR32_LDA_GOT }, ++ { BFD_RELOC_AVR32_GOT21S, R_AVR32_GOT21S }, ++ { BFD_RELOC_AVR32_GOT18SW, R_AVR32_GOT18SW }, ++ { BFD_RELOC_AVR32_GOT16S, R_AVR32_GOT16S }, ++ /* GOT7UW should never be generated by the assembler */ ++ ++ { BFD_RELOC_AVR32_32_CPENT, R_AVR32_32_CPENT }, ++ { BFD_RELOC_AVR32_CPCALL, R_AVR32_CPCALL }, ++ { BFD_RELOC_AVR32_16_CP, R_AVR32_16_CP }, ++ { BFD_RELOC_AVR32_9W_CP, R_AVR32_9W_CP }, ++ ++ { BFD_RELOC_AVR32_ALIGN, R_AVR32_ALIGN }, ++ ++ { BFD_RELOC_AVR32_15S, R_AVR32_15S }, ++}; ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_type_lookup (bfd *abfd ATTRIBUTE_UNUSED, ++ bfd_reloc_code_real_type code) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < sizeof(avr32_reloc_map) / sizeof(struct elf_reloc_map); i++) ++ { ++ if (avr32_reloc_map[i].bfd_reloc_val == code) ++ return &elf_avr32_howto_table[avr32_reloc_map[i].elf_reloc_val]; ++ } ++ ++ return NULL; ++} ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_name_lookup (bfd *abfd ATTRIBUTE_UNUSED, ++ const char *r_name) ++{ ++ unsigned int i; ++ ++ for (i = 0; ++ i < sizeof (elf_avr32_howto_table) / sizeof (elf_avr32_howto_table[0]); ++ i++) ++ if (elf_avr32_howto_table[i].name != NULL ++ && strcasecmp (elf_avr32_howto_table[i].name, r_name) == 0) ++ return &elf_avr32_howto_table[i]; ++ ++ return NULL; ++} ++ ++/* Set the howto pointer for an AVR32 ELF reloc. */ ++static void ++avr32_info_to_howto (bfd *abfd ATTRIBUTE_UNUSED, ++ arelent *cache_ptr, ++ Elf_Internal_Rela *dst) ++{ ++ unsigned int r_type; ++ ++ r_type = ELF32_R_TYPE (dst->r_info); ++ BFD_ASSERT (r_type < (unsigned int) R_AVR32_max); ++ cache_ptr->howto = &elf_avr32_howto_table[r_type]; ++} ++ ++ ++/* AVR32 ELF linker hash table and associated hash entries. */ ++ ++static struct bfd_hash_entry * ++avr32_elf_link_hash_newfunc(struct bfd_hash_entry *entry, ++ struct bfd_hash_table *table, ++ const char *string); ++static void ++avr32_elf_copy_indirect_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *dir, ++ struct elf_link_hash_entry *ind); ++static struct bfd_link_hash_table * ++avr32_elf_link_hash_table_create(bfd *abfd); ++ ++/* ++ Try to limit memory usage to something reasonable when sorting the ++ GOT. If just a couple of entries end up getting more references ++ than this, it won't affect performance at all, but if there are many ++ of them, we could end up with the wrong symbols being assigned the ++ first GOT entries. ++*/ ++#define MAX_NR_GOT_HOLES 2048 ++ ++/* ++ AVR32 GOT entry. We need to keep track of refcounts and offsets ++ simultaneously, since we need the offsets during relaxation, and we ++ also want to be able to drop GOT entries during relaxation. In ++ addition to this, we want to keep the list of GOT entries sorted so ++ that we can keep the most-used entries at the lowest offsets. ++*/ ++struct got_entry ++{ ++ struct got_entry *next; ++ struct got_entry **pprev; ++ int refcount; ++ bfd_signed_vma offset; ++}; ++ ++struct elf_avr32_link_hash_entry ++{ ++ struct elf_link_hash_entry root; ++ ++ /* Number of runtime relocations against this symbol. */ ++ unsigned int possibly_dynamic_relocs; ++ ++ /* If there are anything but R_AVR32_GOT18 relocations against this ++ symbol, it means that someone may be taking the address of the ++ function, and we should therefore not create a stub. */ ++ bfd_boolean no_fn_stub; ++ ++ /* If there is a R_AVR32_32 relocation in a read-only section ++ against this symbol, we could be in trouble. If we're linking a ++ shared library or this symbol is defined in one, it means we must ++ emit a run-time reloc for it and that's not allowed in read-only ++ sections. */ ++ asection *readonly_reloc_sec; ++ bfd_vma readonly_reloc_offset; ++ ++ /* Record which frag (if any) contains the symbol. This is used ++ during relaxation in order to avoid having to update all symbols ++ whenever we move something. For local symbols, this information ++ is in the local_sym_frag member of struct elf_obj_tdata. */ ++ struct fragment *sym_frag; ++}; ++#define avr32_elf_hash_entry(ent) ((struct elf_avr32_link_hash_entry *)(ent)) ++ ++struct elf_avr32_link_hash_table ++{ ++ struct elf_link_hash_table root; ++ ++ /* Shortcuts to get to dynamic linker sections. */ ++ asection *sgot; ++ asection *srelgot; ++ asection *sstub; ++ ++ /* We use a variation of Pigeonhole Sort to sort the GOT. After the ++ initial refcounts have been determined, we initialize ++ nr_got_holes to the highest refcount ever seen and allocate an ++ array of nr_got_holes entries for got_hole. Each GOT entry is ++ then stored in this array at the index given by its refcount. ++ ++ When a GOT entry has its refcount decremented during relaxation, ++ it is moved to a lower index in the got_hole array. ++ */ ++ struct got_entry **got_hole; ++ int nr_got_holes; ++ ++ /* Dynamic relocations to local symbols. Only used when linking a ++ shared library and -Bsymbolic is not given. */ ++ unsigned int local_dynamic_relocs; ++ ++ bfd_boolean relocations_analyzed; ++ bfd_boolean symbols_adjusted; ++ bfd_boolean repeat_pass; ++ bfd_boolean direct_data_refs; ++ unsigned int relax_iteration; ++ unsigned int relax_pass; ++}; ++#define avr32_elf_hash_table(p) \ ++ ((struct elf_avr32_link_hash_table *)((p)->hash)) ++ ++static struct bfd_hash_entry * ++avr32_elf_link_hash_newfunc(struct bfd_hash_entry *entry, ++ struct bfd_hash_table *table, ++ const char *string) ++{ ++ struct elf_avr32_link_hash_entry *ret = avr32_elf_hash_entry(entry); ++ ++ /* Allocate the structure if it hasn't already been allocated by a ++ subclass */ ++ if (ret == NULL) ++ ret = (struct elf_avr32_link_hash_entry *) ++ bfd_hash_allocate(table, sizeof(struct elf_avr32_link_hash_entry)); ++ ++ if (ret == NULL) ++ return NULL; ++ ++ memset(ret, 0, sizeof(struct elf_avr32_link_hash_entry)); ++ ++ /* Give the superclass a chance */ ++ ret = (struct elf_avr32_link_hash_entry *) ++ _bfd_elf_link_hash_newfunc((struct bfd_hash_entry *)ret, table, string); ++ ++ return (struct bfd_hash_entry *)ret; ++} ++ ++/* Copy data from an indirect symbol to its direct symbol, hiding the ++ old indirect symbol. Process additional relocation information. ++ Also called for weakdefs, in which case we just let ++ _bfd_elf_link_hash_copy_indirect copy the flags for us. */ ++ ++static void ++avr32_elf_copy_indirect_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *dir, ++ struct elf_link_hash_entry *ind) ++{ ++ struct elf_avr32_link_hash_entry *edir, *eind; ++ ++ _bfd_elf_link_hash_copy_indirect (info, dir, ind); ++ ++ if (ind->root.type != bfd_link_hash_indirect) ++ return; ++ ++ edir = (struct elf_avr32_link_hash_entry *)dir; ++ eind = (struct elf_avr32_link_hash_entry *)ind; ++ ++ edir->possibly_dynamic_relocs += eind->possibly_dynamic_relocs; ++ edir->no_fn_stub = edir->no_fn_stub || eind->no_fn_stub; ++} ++ ++static struct bfd_link_hash_table * ++avr32_elf_link_hash_table_create(bfd *abfd) ++{ ++ struct elf_avr32_link_hash_table *ret; ++ ++ ret = bfd_zmalloc(sizeof(*ret)); ++ if (ret == NULL) ++ return NULL; ++ ++ if (! _bfd_elf_link_hash_table_init(&ret->root, abfd, ++ avr32_elf_link_hash_newfunc, ++ sizeof (struct elf_avr32_link_hash_entry))) ++ { ++ free(ret); ++ return NULL; ++ } ++ ++ /* Prevent the BFD core from creating bogus got_entry pointers */ ++ ret->root.init_got_refcount.glist = NULL; ++ ret->root.init_plt_refcount.glist = NULL; ++ ret->root.init_got_offset.glist = NULL; ++ ret->root.init_plt_offset.glist = NULL; ++ ++ return &ret->root.root; ++} ++ ++ ++/* Initial analysis and creation of dynamic sections and symbols */ ++ ++static asection * ++create_dynamic_section(bfd *dynobj, const char *name, flagword flags, ++ unsigned int align_power); ++static struct elf_link_hash_entry * ++create_dynamic_symbol(bfd *dynobj, struct bfd_link_info *info, ++ const char *name, asection *sec, ++ bfd_vma offset); ++static bfd_boolean ++avr32_elf_create_got_section (bfd *dynobj, struct bfd_link_info *info); ++static bfd_boolean ++avr32_elf_create_dynamic_sections (bfd *dynobj, struct bfd_link_info *info); ++static bfd_boolean ++avr32_check_relocs (bfd *abfd, struct bfd_link_info *info, asection *sec, ++ const Elf_Internal_Rela *relocs); ++static bfd_boolean ++avr32_elf_adjust_dynamic_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *h); ++ ++static asection * ++create_dynamic_section(bfd *dynobj, const char *name, flagword flags, ++ unsigned int align_power) ++{ ++ asection *sec; ++ ++ sec = bfd_make_section(dynobj, name); ++ if (!sec ++ || !bfd_set_section_flags(dynobj, sec, flags) ++ || !bfd_set_section_alignment(dynobj, sec, align_power)) ++ return NULL; ++ ++ return sec; ++} ++ ++static struct elf_link_hash_entry * ++create_dynamic_symbol(bfd *dynobj, struct bfd_link_info *info, ++ const char *name, asection *sec, ++ bfd_vma offset) ++{ ++ struct bfd_link_hash_entry *bh = NULL; ++ struct elf_link_hash_entry *h; ++ const struct elf_backend_data *bed = get_elf_backend_data (dynobj); ++ ++ if (!(_bfd_generic_link_add_one_symbol ++ (info, dynobj, name, BSF_GLOBAL, sec, offset, NULL, FALSE, ++ bed->collect, &bh))) ++ return NULL; ++ ++ h = (struct elf_link_hash_entry *)bh; ++ h->def_regular = 1; ++ h->type = STT_OBJECT; ++ h->other = STV_HIDDEN; ++ ++ return h; ++} ++ ++static bfd_boolean ++avr32_elf_create_got_section (bfd *dynobj, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ flagword flags; ++ const struct elf_backend_data *bed = get_elf_backend_data (dynobj); ++ ++ htab = avr32_elf_hash_table(info); ++ flags = bed->dynamic_sec_flags; ++ ++ if (htab->sgot) ++ return TRUE; ++ ++ htab->sgot = create_dynamic_section(dynobj, ".got", flags, 2); ++ if (!htab->srelgot) ++ htab->srelgot = create_dynamic_section(dynobj, ".rela.got", ++ flags | SEC_READONLY, 2); ++ ++ if (!htab->sgot || !htab->srelgot) ++ return FALSE; ++ ++ htab->root.hgot = create_dynamic_symbol(dynobj, info, "_GLOBAL_OFFSET_TABLE_", ++ htab->sgot, 0); ++ if (!htab->root.hgot) ++ return FALSE; ++ ++ /* Make room for the GOT header */ ++ htab->sgot->size += bed->got_header_size; ++ ++ return TRUE; ++} ++ ++/* (1) Create all dynamic (i.e. linker generated) sections that we may ++ need during the link */ ++ ++static bfd_boolean ++avr32_elf_create_dynamic_sections (bfd *dynobj, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ flagword flags; ++ const struct elf_backend_data *bed = get_elf_backend_data (dynobj); ++ ++ pr_debug("(1) create dynamic sections\n"); ++ ++ htab = avr32_elf_hash_table(info); ++ flags = bed->dynamic_sec_flags; ++ ++ if (!avr32_elf_create_got_section (dynobj, info)) ++ return FALSE; ++ ++ if (!htab->sstub) ++ htab->sstub = create_dynamic_section(dynobj, ".stub", ++ flags | SEC_READONLY | SEC_CODE, 2); ++ ++ if (!htab->sstub) ++ return FALSE; ++ ++ return TRUE; ++} ++ ++/* (2) Go through all the relocs and count any potential GOT- or ++ PLT-references to each symbol */ ++ ++static bfd_boolean ++avr32_check_relocs (bfd *abfd, struct bfd_link_info *info, asection *sec, ++ const Elf_Internal_Rela *relocs) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ struct elf_avr32_link_hash_table *htab; ++ struct elf_link_hash_entry **sym_hashes; ++ const Elf_Internal_Rela *rel, *rel_end; ++ struct got_entry **local_got_ents; ++ struct got_entry *got; ++ const struct elf_backend_data *bed = get_elf_backend_data (abfd); ++ asection *sgot; ++ bfd *dynobj; ++ ++ pr_debug("(2) check relocs for %s:<%s> (size 0x%lx)\n", ++ abfd->filename, sec->name, sec->size); ++ ++ if (info->relocatable) ++ return TRUE; ++ ++ dynobj = elf_hash_table(info)->dynobj; ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ sym_hashes = elf_sym_hashes(abfd); ++ htab = avr32_elf_hash_table(info); ++ local_got_ents = elf_local_got_ents(abfd); ++ sgot = htab->sgot; ++ ++ rel_end = relocs + sec->reloc_count; ++ for (rel = relocs; rel < rel_end; rel++) ++ { ++ unsigned long r_symndx, r_type; ++ struct elf_avr32_link_hash_entry *h; ++ ++ r_symndx = ELF32_R_SYM(rel->r_info); ++ r_type = ELF32_R_TYPE(rel->r_info); ++ ++ /* Local symbols use local_got_ents, while others store the same ++ information in the hash entry */ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ pr_debug(" (2a) processing local symbol %lu\n", r_symndx); ++ h = NULL; ++ } ++ else ++ { ++ h = (struct elf_avr32_link_hash_entry *) ++ sym_hashes[r_symndx - symtab_hdr->sh_info]; ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_avr32_link_hash_entry *)h->root.root.u.i.link; ++ pr_debug(" (2a) processing symbol %s\n", h->root.root.root.string); ++ } ++ ++ /* Some relocs require special sections to be created. */ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ if (rel->r_addend) ++ { ++ if (info->callbacks->reloc_dangerous ++ (info, _("Non-zero addend on GOT-relative relocation"), ++ abfd, sec, rel->r_offset) == FALSE) ++ return FALSE; ++ } ++ /* fall through */ ++ case R_AVR32_GOTPC: ++ if (dynobj == NULL) ++ elf_hash_table(info)->dynobj = dynobj = abfd; ++ if (sgot == NULL && !avr32_elf_create_got_section(dynobj, info)) ++ return FALSE; ++ break; ++ case R_AVR32_32: ++ /* We may need to create .rela.dyn later on. */ ++ if (dynobj == NULL ++ && (info->shared || h != NULL) ++ && (sec->flags & SEC_ALLOC)) ++ elf_hash_table(info)->dynobj = dynobj = abfd; ++ break; ++ } ++ ++ if (h != NULL && r_type != R_AVR32_GOT18SW) ++ h->no_fn_stub = TRUE; ++ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ if (h != NULL) ++ { ++ got = h->root.got.glist; ++ if (!got) ++ { ++ got = bfd_zalloc(abfd, sizeof(struct got_entry)); ++ if (!got) ++ return FALSE; ++ h->root.got.glist = got; ++ } ++ } ++ else ++ { ++ if (!local_got_ents) ++ { ++ bfd_size_type size; ++ bfd_size_type i; ++ struct got_entry *tmp_entry; ++ ++ size = symtab_hdr->sh_info; ++ size *= sizeof(struct got_entry *) + sizeof(struct got_entry); ++ local_got_ents = bfd_zalloc(abfd, size); ++ if (!local_got_ents) ++ return FALSE; ++ ++ elf_local_got_ents(abfd) = local_got_ents; ++ ++ tmp_entry = (struct got_entry *)(local_got_ents ++ + symtab_hdr->sh_info); ++ for (i = 0; i < symtab_hdr->sh_info; i++) ++ local_got_ents[i] = &tmp_entry[i]; ++ } ++ ++ got = local_got_ents[r_symndx]; ++ } ++ ++ got->refcount++; ++ if (got->refcount > htab->nr_got_holes) ++ htab->nr_got_holes = got->refcount; ++ break; ++ ++ case R_AVR32_32: ++ if ((info->shared || h != NULL) ++ && (sec->flags & SEC_ALLOC)) ++ { ++ if (htab->srelgot == NULL) ++ { ++ htab->srelgot = create_dynamic_section(dynobj, ".rela.got", ++ bed->dynamic_sec_flags ++ | SEC_READONLY, 2); ++ if (htab->srelgot == NULL) ++ return FALSE; ++ } ++ ++ if (sec->flags & SEC_READONLY ++ && !h->readonly_reloc_sec) ++ { ++ h->readonly_reloc_sec = sec; ++ h->readonly_reloc_offset = rel->r_offset; ++ } ++ ++ if (h != NULL) ++ { ++ pr_debug("Non-GOT reference to symbol %s\n", ++ h->root.root.root.string); ++ h->possibly_dynamic_relocs++; ++ } ++ else ++ { ++ pr_debug("Non-GOT reference to local symbol %lu\n", ++ r_symndx); ++ htab->local_dynamic_relocs++; ++ } ++ } ++ ++ break; ++ ++ /* TODO: GNU_VTINHERIT and GNU_VTENTRY */ ++ } ++ } ++ ++ return TRUE; ++} ++ ++/* (3) Adjust a symbol defined by a dynamic object and referenced by a ++ regular object. The current definition is in some section of the ++ dynamic object, but we're not including those sections. We have to ++ change the definition to something the rest of the link can ++ understand. */ ++ ++static bfd_boolean ++avr32_elf_adjust_dynamic_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *h) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct elf_avr32_link_hash_entry *havr; ++ bfd *dynobj; ++ ++ pr_debug("(3) adjust dynamic symbol %s\n", h->root.root.string); ++ ++ htab = avr32_elf_hash_table(info); ++ havr = (struct elf_avr32_link_hash_entry *)h; ++ dynobj = elf_hash_table(info)->dynobj; ++ ++ /* Make sure we know what is going on here. */ ++ BFD_ASSERT (dynobj != NULL ++ && (h->u.weakdef != NULL ++ || (h->def_dynamic ++ && h->ref_regular ++ && !h->def_regular))); ++ ++ /* We don't want dynamic relocations in read-only sections. */ ++ if (havr->readonly_reloc_sec) ++ { ++ if (info->callbacks->reloc_dangerous ++ (info, _("dynamic relocation in read-only section"), ++ havr->readonly_reloc_sec->owner, havr->readonly_reloc_sec, ++ havr->readonly_reloc_offset) == FALSE) ++ return FALSE; ++ } ++ ++ /* If this is a function, create a stub if possible and set the ++ symbol to the stub location. */ ++ if (0 && !havr->no_fn_stub) ++ { ++ if (!h->def_regular) ++ { ++ asection *s = htab->sstub; ++ ++ BFD_ASSERT(s != NULL); ++ ++ h->root.u.def.section = s; ++ h->root.u.def.value = s->size; ++ h->plt.offset = s->size; ++ s->size += AVR32_FUNCTION_STUB_SIZE; ++ ++ return TRUE; ++ } ++ } ++ else if (h->type == STT_FUNC) ++ { ++ /* This will set the entry for this symbol in the GOT to 0, and ++ the dynamic linker will take care of this. */ ++ h->root.u.def.value = 0; ++ return TRUE; ++ } ++ ++ /* If this is a weak symbol, and there is a real definition, the ++ processor independent code will have arranged for us to see the ++ real definition first, and we can just use the same value. */ ++ if (h->u.weakdef != NULL) ++ { ++ BFD_ASSERT(h->u.weakdef->root.type == bfd_link_hash_defined ++ || h->u.weakdef->root.type == bfd_link_hash_defweak); ++ h->root.u.def.section = h->u.weakdef->root.u.def.section; ++ h->root.u.def.value = h->u.weakdef->root.u.def.value; ++ return TRUE; ++ } ++ ++ /* This is a reference to a symbol defined by a dynamic object which ++ is not a function. */ ++ ++ return TRUE; ++} ++ ++ ++/* Garbage-collection of unused sections */ ++ ++static asection * ++avr32_elf_gc_mark_hook(asection *sec, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED, ++ Elf_Internal_Rela *rel, ++ struct elf_link_hash_entry *h, ++ Elf_Internal_Sym *sym) ++{ ++ if (h) ++ { ++ switch (ELF32_R_TYPE(rel->r_info)) ++ { ++ /* TODO: VTINHERIT/VTENTRY */ ++ default: ++ switch (h->root.type) ++ { ++ case bfd_link_hash_defined: ++ case bfd_link_hash_defweak: ++ return h->root.u.def.section; ++ ++ case bfd_link_hash_common: ++ return h->root.u.c.p->section; ++ ++ default: ++ break; ++ } ++ } ++ } ++ else ++ return bfd_section_from_elf_index(sec->owner, sym->st_shndx); ++ ++ return NULL; ++} ++ ++/* Update the GOT entry reference counts for the section being removed. */ ++static bfd_boolean ++avr32_elf_gc_sweep_hook(bfd *abfd, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED, ++ asection *sec, ++ const Elf_Internal_Rela *relocs) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ struct elf_avr32_link_hash_entry **sym_hashes; ++ struct got_entry **local_got_ents; ++ const Elf_Internal_Rela *rel, *relend; ++ ++ if (!(sec->flags & SEC_ALLOC)) ++ return TRUE; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ sym_hashes = (struct elf_avr32_link_hash_entry **)elf_sym_hashes(abfd); ++ local_got_ents = elf_local_got_ents(abfd); ++ ++ relend = relocs + sec->reloc_count; ++ for (rel = relocs; rel < relend; rel++) ++ { ++ unsigned long r_symndx; ++ unsigned int r_type; ++ struct elf_avr32_link_hash_entry *h = NULL; ++ ++ r_symndx = ELF32_R_SYM(rel->r_info); ++ if (r_symndx >= symtab_hdr->sh_info) ++ { ++ h = sym_hashes[r_symndx - symtab_hdr->sh_info]; ++ while (h->root.root.type == bfd_link_hash_indirect ++ || h->root.root.type == bfd_link_hash_warning) ++ h = (struct elf_avr32_link_hash_entry *)h->root.root.u.i.link; ++ } ++ ++ r_type = ELF32_R_TYPE(rel->r_info); ++ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ if (h) ++ h->root.got.glist->refcount--; ++ else ++ local_got_ents[r_symndx]->refcount--; ++ break; ++ ++ case R_AVR32_32: ++ if (info->shared || h) ++ { ++ if (h) ++ h->possibly_dynamic_relocs--; ++ else ++ avr32_elf_hash_table(info)->local_dynamic_relocs--; ++ } ++ ++ default: ++ break; ++ } ++ } ++ ++ return TRUE; ++} ++ ++/* Sizing and refcounting of dynamic sections */ ++ ++static void ++insert_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got); ++static void ++unref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got); ++static void ++ref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got); ++static bfd_boolean ++assign_got_offsets(struct elf_avr32_link_hash_table *htab); ++static bfd_boolean ++allocate_dynrelocs(struct elf_link_hash_entry *h, void *_info); ++static bfd_boolean ++avr32_elf_size_dynamic_sections (bfd *output_bfd, ++ struct bfd_link_info *info); ++ ++static void ++insert_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got) ++{ ++ /* Any entries with got_refcount > htab->nr_got_holes end up in the ++ * last pigeonhole without any sorting. We expect the number of such ++ * entries to be small, so it is very unlikely to affect ++ * performance. */ ++ int entry = got->refcount; ++ ++ if (entry > htab->nr_got_holes) ++ entry = htab->nr_got_holes; ++ ++ got->pprev = &htab->got_hole[entry]; ++ got->next = htab->got_hole[entry]; ++ ++ if (got->next) ++ got->next->pprev = &got->next; ++ ++ htab->got_hole[entry] = got; ++} ++ ++/* Decrement the refcount of a GOT entry and update its position in ++ the pigeonhole array. */ ++static void ++unref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got) ++{ ++ BFD_ASSERT(got->refcount > 0); ++ ++ if (got->next) ++ got->next->pprev = got->pprev; ++ ++ *(got->pprev) = got->next; ++ got->refcount--; ++ insert_got_entry(htab, got); ++} ++ ++static void ++ref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got) ++{ ++ if (got->next) ++ got->next->pprev = got->pprev; ++ ++ *(got->pprev) = got->next; ++ got->refcount++; ++ insert_got_entry(htab, got); ++ ++ BFD_ASSERT(got->refcount > 0); ++} ++ ++/* Assign offsets to all GOT entries we intend to keep. The entries ++ that are referenced most often are placed at low offsets so that we ++ can use compact instructions as much as possible. ++ ++ Returns TRUE if any offsets or the total size of the GOT changed. */ ++ ++static bfd_boolean ++assign_got_offsets(struct elf_avr32_link_hash_table *htab) ++{ ++ struct got_entry *got; ++ bfd_size_type got_size = 0; ++ bfd_boolean changed = FALSE; ++ bfd_signed_vma offset; ++ int i; ++ ++ /* The GOT header provides the address of the DYNAMIC segment, so ++ we need that even if the GOT is otherwise empty. */ ++ if (htab->root.dynamic_sections_created) ++ got_size = AVR32_GOT_HEADER_SIZE; ++ ++ for (i = htab->nr_got_holes; i > 0; i--) ++ { ++ got = htab->got_hole[i]; ++ while (got) ++ { ++ if (got->refcount > 0) ++ { ++ offset = got_size; ++ if (got->offset != offset) ++ { ++ RDBG("GOT offset changed: %ld -> %ld\n", ++ got->offset, offset); ++ changed = TRUE; ++ } ++ got->offset = offset; ++ got_size += 4; ++ } ++ got = got->next; ++ } ++ } ++ ++ if (htab->sgot->size != got_size) ++ { ++ RDBG("GOT size changed: %lu -> %lu\n", htab->sgot->size, ++ got_size); ++ changed = TRUE; ++ } ++ htab->sgot->size = got_size; ++ ++ RDBG("assign_got_offsets: total size %lu (%s)\n", ++ got_size, changed ? "changed" : "no change"); ++ ++ return changed; ++} ++ ++static bfd_boolean ++allocate_dynrelocs(struct elf_link_hash_entry *h, void *_info) ++{ ++ struct bfd_link_info *info = _info; ++ struct elf_avr32_link_hash_table *htab; ++ struct elf_avr32_link_hash_entry *havr; ++ struct got_entry *got; ++ ++ pr_debug(" (4b) allocate_dynrelocs: %s\n", h->root.root.string); ++ ++ if (h->root.type == bfd_link_hash_indirect) ++ return TRUE; ++ ++ if (h->root.type == bfd_link_hash_warning) ++ /* When warning symbols are created, they **replace** the "real" ++ entry in the hash table, thus we never get to see the real ++ symbol in a hash traversal. So look at it now. */ ++ h = (struct elf_link_hash_entry *) h->root.u.i.link; ++ ++ htab = avr32_elf_hash_table(info); ++ havr = (struct elf_avr32_link_hash_entry *)h; ++ ++ got = h->got.glist; ++ ++ /* If got is NULL, the symbol is never referenced through the GOT */ ++ if (got && got->refcount > 0) ++ { ++ insert_got_entry(htab, got); ++ ++ /* Shared libraries need relocs for all GOT entries unless the ++ symbol is forced local or -Bsymbolic is used. Others need ++ relocs for everything that is not guaranteed to be defined in ++ a regular object. */ ++ if ((info->shared ++ && !info->symbolic ++ && h->dynindx != -1) ++ || (htab->root.dynamic_sections_created ++ && h->def_dynamic ++ && !h->def_regular)) ++ htab->srelgot->size += sizeof(Elf32_External_Rela); ++ } ++ ++ if (havr->possibly_dynamic_relocs ++ && (info->shared ++ || (elf_hash_table(info)->dynamic_sections_created ++ && h->def_dynamic ++ && !h->def_regular))) ++ { ++ pr_debug("Allocating %d dynamic reloc against symbol %s...\n", ++ havr->possibly_dynamic_relocs, h->root.root.string); ++ htab->srelgot->size += (havr->possibly_dynamic_relocs ++ * sizeof(Elf32_External_Rela)); ++ } ++ ++ return TRUE; ++} ++ ++/* (4) Calculate the sizes of the linker-generated sections and ++ allocate memory for them. */ ++ ++static bfd_boolean ++avr32_elf_size_dynamic_sections (bfd *output_bfd, ++ struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ bfd *dynobj; ++ asection *s; ++ bfd *ibfd; ++ bfd_boolean relocs; ++ ++ pr_debug("(4) size dynamic sections\n"); ++ ++ htab = avr32_elf_hash_table(info); ++ dynobj = htab->root.dynobj; ++ BFD_ASSERT(dynobj != NULL); ++ ++ if (htab->root.dynamic_sections_created) ++ { ++ /* Initialize the contents of the .interp section to the name of ++ the dynamic loader */ ++ if (info->executable) ++ { ++ s = bfd_get_section_by_name(dynobj, ".interp"); ++ BFD_ASSERT(s != NULL); ++ s->size = sizeof(ELF_DYNAMIC_INTERPRETER); ++ s->contents = (unsigned char *)ELF_DYNAMIC_INTERPRETER; ++ } ++ } ++ ++ if (htab->nr_got_holes > 0) ++ { ++ /* Allocate holes for the pigeonhole sort algorithm */ ++ pr_debug("Highest GOT refcount: %d\n", htab->nr_got_holes); ++ ++ /* Limit the memory usage by clipping the number of pigeonholes ++ * at a predefined maximum. All entries with a higher refcount ++ * will end up in the last pigeonhole. */ ++ if (htab->nr_got_holes >= MAX_NR_GOT_HOLES) ++ { ++ htab->nr_got_holes = MAX_NR_GOT_HOLES - 1; ++ ++ pr_debug("Limiting maximum number of GOT pigeonholes to %u\n", ++ htab->nr_got_holes); ++ } ++ htab->got_hole = bfd_zalloc(output_bfd, ++ sizeof(struct got_entry *) ++ * (htab->nr_got_holes + 1)); ++ if (!htab->got_hole) ++ return FALSE; ++ ++ /* Set up .got offsets for local syms. */ ++ for (ibfd = info->input_bfds; ibfd != NULL; ibfd = ibfd->link_next) ++ { ++ struct got_entry **local_got; ++ struct got_entry **end_local_got; ++ Elf_Internal_Shdr *symtab_hdr; ++ bfd_size_type locsymcount; ++ ++ pr_debug(" (4a) processing file %s...\n", ibfd->filename); ++ ++ BFD_ASSERT(bfd_get_flavour(ibfd) == bfd_target_elf_flavour); ++ ++ local_got = elf_local_got_ents(ibfd); ++ if (!local_got) ++ continue; ++ ++ symtab_hdr = &elf_tdata(ibfd)->symtab_hdr; ++ locsymcount = symtab_hdr->sh_info; ++ end_local_got = local_got + locsymcount; ++ ++ for (; local_got < end_local_got; ++local_got) ++ insert_got_entry(htab, *local_got); ++ } ++ } ++ ++ /* Allocate global sym .got entries and space for global sym ++ dynamic relocs */ ++ elf_link_hash_traverse(&htab->root, allocate_dynrelocs, info); ++ ++ /* Now that we have sorted the GOT entries, we are ready to ++ assign offsets and determine the initial size of the GOT. */ ++ if (htab->sgot) ++ assign_got_offsets(htab); ++ ++ /* Allocate space for local sym dynamic relocs */ ++ BFD_ASSERT(htab->local_dynamic_relocs == 0 || info->shared); ++ if (htab->local_dynamic_relocs) ++ htab->srelgot->size += (htab->local_dynamic_relocs ++ * sizeof(Elf32_External_Rela)); ++ ++ /* We now have determined the sizes of the various dynamic ++ sections. Allocate memory for them. */ ++ relocs = FALSE; ++ for (s = dynobj->sections; s; s = s->next) ++ { ++ if ((s->flags & SEC_LINKER_CREATED) == 0) ++ continue; ++ ++ if (s == htab->sgot ++ || s == htab->sstub) ++ { ++ /* Strip this section if we don't need it */ ++ } ++ else if (strncmp (bfd_get_section_name(dynobj, s), ".rela", 5) == 0) ++ { ++ if (s->size != 0) ++ relocs = TRUE; ++ ++ s->reloc_count = 0; ++ } ++ else ++ { ++ /* It's not one of our sections */ ++ continue; ++ } ++ ++ if (s->size == 0) ++ { ++ /* Strip unneeded sections */ ++ pr_debug("Stripping section %s from output...\n", s->name); ++ /* deleted function in 2.17 ++ _bfd_strip_section_from_output(info, s); ++ */ ++ continue; ++ } ++ ++ s->contents = bfd_zalloc(dynobj, s->size); ++ if (s->contents == NULL) ++ return FALSE; ++ } ++ ++ if (htab->root.dynamic_sections_created) ++ { ++ /* Add some entries to the .dynamic section. We fill in the ++ values later, in sh_elf_finish_dynamic_sections, but we ++ must add the entries now so that we get the correct size for ++ the .dynamic section. The DT_DEBUG entry is filled in by the ++ dynamic linker and used by the debugger. */ ++#define add_dynamic_entry(TAG, VAL) _bfd_elf_add_dynamic_entry(info, TAG, VAL) ++ ++ if (!add_dynamic_entry(DT_PLTGOT, 0)) ++ return FALSE; ++ if (!add_dynamic_entry(DT_AVR32_GOTSZ, 0)) ++ return FALSE; ++ ++ if (info->executable) ++ { ++ if (!add_dynamic_entry(DT_DEBUG, 0)) ++ return FALSE; ++ } ++ if (relocs) ++ { ++ if (!add_dynamic_entry(DT_RELA, 0) ++ || !add_dynamic_entry(DT_RELASZ, 0) ++ || !add_dynamic_entry(DT_RELAENT, ++ sizeof(Elf32_External_Rela))) ++ return FALSE; ++ } ++ } ++#undef add_dynamic_entry ++ ++ return TRUE; ++} ++ ++ ++/* Access to internal relocations, section contents and symbols. ++ (stolen from the xtensa port) */ ++ ++static Elf_Internal_Rela * ++retrieve_internal_relocs (bfd *abfd, asection *sec, bfd_boolean keep_memory); ++static void ++pin_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs); ++static void ++release_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs); ++static bfd_byte * ++retrieve_contents (bfd *abfd, asection *sec, bfd_boolean keep_memory); ++/* ++static void ++pin_contents (asection *sec, bfd_byte *contents); ++*/ ++static void ++release_contents (asection *sec, bfd_byte *contents); ++static Elf_Internal_Sym * ++retrieve_local_syms (bfd *input_bfd, bfd_boolean keep_memory); ++/* ++static void ++pin_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf); ++*/ ++static void ++release_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf); ++ ++/* During relaxation, we need to modify relocations, section contents, ++ and symbol definitions, and we need to keep the original values from ++ being reloaded from the input files, i.e., we need to "pin" the ++ modified values in memory. We also want to continue to observe the ++ setting of the "keep-memory" flag. The following functions wrap the ++ standard BFD functions to take care of this for us. */ ++ ++static Elf_Internal_Rela * ++retrieve_internal_relocs (bfd *abfd, asection *sec, bfd_boolean keep_memory) ++{ ++ /* _bfd_elf_link_read_relocs knows about caching, so no need for us ++ to be clever here. */ ++ return _bfd_elf_link_read_relocs(abfd, sec, NULL, NULL, keep_memory); ++} ++ ++static void ++pin_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs) ++{ ++ elf_section_data (sec)->relocs = internal_relocs; ++} ++ ++static void ++release_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs) ++{ ++ if (internal_relocs ++ && elf_section_data (sec)->relocs != internal_relocs) ++ free (internal_relocs); ++} ++ ++static bfd_byte * ++retrieve_contents (bfd *abfd, asection *sec, bfd_boolean keep_memory) ++{ ++ bfd_byte *contents; ++ bfd_size_type sec_size; ++ ++ sec_size = bfd_get_section_limit (abfd, sec); ++ contents = elf_section_data (sec)->this_hdr.contents; ++ ++ if (contents == NULL && sec_size != 0) ++ { ++ if (!bfd_malloc_and_get_section (abfd, sec, &contents)) ++ { ++ if (contents) ++ free (contents); ++ return NULL; ++ } ++ if (keep_memory) ++ elf_section_data (sec)->this_hdr.contents = contents; ++ } ++ return contents; ++} ++ ++/* ++static void ++pin_contents (asection *sec, bfd_byte *contents) ++{ ++ elf_section_data (sec)->this_hdr.contents = contents; ++} ++*/ ++static void ++release_contents (asection *sec, bfd_byte *contents) ++{ ++ if (contents && elf_section_data (sec)->this_hdr.contents != contents) ++ free (contents); ++} ++ ++static Elf_Internal_Sym * ++retrieve_local_syms (bfd *input_bfd, bfd_boolean keep_memory) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Sym *isymbuf; ++ size_t locsymcount; ++ ++ symtab_hdr = &elf_tdata (input_bfd)->symtab_hdr; ++ locsymcount = symtab_hdr->sh_info; ++ ++ isymbuf = (Elf_Internal_Sym *) symtab_hdr->contents; ++ if (isymbuf == NULL && locsymcount != 0) ++ { ++ isymbuf = bfd_elf_get_elf_syms (input_bfd, symtab_hdr, locsymcount, 0, ++ NULL, NULL, NULL); ++ if (isymbuf && keep_memory) ++ symtab_hdr->contents = (unsigned char *) isymbuf; ++ } ++ ++ return isymbuf; ++} ++ ++/* ++static void ++pin_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf) ++{ ++ elf_tdata (input_bfd)->symtab_hdr.contents = (unsigned char *)isymbuf; ++} ++ ++*/ ++static void ++release_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf) ++{ ++ if (isymbuf && (elf_tdata (input_bfd)->symtab_hdr.contents ++ != (unsigned char *)isymbuf)) ++ free (isymbuf); ++} ++ ++ /* Data structures used during relaxation. */ ++ ++enum relax_state_id { ++ RS_ERROR = -1, ++ RS_NONE = 0, ++ RS_ALIGN, ++ RS_CPENT, ++ RS_PIC_CALL, ++ RS_PIC_MCALL, ++ RS_PIC_RCALL2, ++ RS_PIC_RCALL1, ++ RS_PIC_LDA, ++ RS_PIC_LDW4, ++ RS_PIC_LDW3, ++ RS_PIC_SUB5, ++ RS_NOPIC_MCALL, ++ RS_NOPIC_RCALL2, ++ RS_NOPIC_RCALL1, ++ RS_NOPIC_LDW4, ++ RS_NOPIC_LDDPC, ++ RS_NOPIC_SUB5, ++ RS_NOPIC_MOV2, ++ RS_NOPIC_MOV1, ++ RS_RCALL2, ++ RS_RCALL1, ++ RS_BRC2, ++ RS_BRC1, ++ RS_BRAL, ++ RS_RJMP, ++ RS_MAX, ++}; ++ ++enum reference_type { ++ REF_ABSOLUTE, ++ REF_PCREL, ++ REF_CPOOL, ++ REF_GOT, ++}; ++ ++struct relax_state ++{ ++ const char *name; ++ enum relax_state_id id; ++ enum relax_state_id direct; ++ enum relax_state_id next; ++ enum relax_state_id prev; ++ ++ enum reference_type reftype; ++ ++ unsigned int r_type; ++ ++ bfd_vma opcode; ++ bfd_vma opcode_mask; ++ ++ bfd_signed_vma range_min; ++ bfd_signed_vma range_max; ++ ++ bfd_size_type size; ++}; ++ ++/* ++ * This is for relocs that ++ * a) has an addend or is of type R_AVR32_DIFF32, and ++ * b) references a different section than it's in, and ++ * c) references a section that is relaxable ++ * ++ * as well as relocs that references the constant pool, in which case ++ * the add_frag member points to the frag containing the constant pool ++ * entry. ++ * ++ * Such relocs must be fixed up whenever we delete any code. Sections ++ * that don't have any relocs with all of the above properties don't ++ * have any additional reloc data, but sections that do will have ++ * additional data for all its relocs. ++ */ ++struct avr32_reloc_data ++{ ++ struct fragment *add_frag; ++ struct fragment *sub_frag; ++}; ++ ++/* ++ * A 'fragment' is a relaxable entity, that is, code may be added or ++ * deleted at the end of a fragment. When this happens, all subsequent ++ * fragments in the list will have their offsets updated. ++ */ ++struct fragment ++{ ++ enum relax_state_id state; ++ enum relax_state_id initial_state; ++ ++ Elf_Internal_Rela *rela; ++ bfd_size_type size; ++ bfd_vma offset; ++ int size_adjust; ++ int offset_adjust; ++ bfd_boolean has_grown; ++ ++ /* Only used by constant pool entries. When this drops to zero, the ++ frag is discarded (i.e. size_adjust is set to -4.) */ ++ int refcount; ++}; ++ ++struct avr32_relax_data ++{ ++ unsigned int frag_count; ++ struct fragment *frag; ++ struct avr32_reloc_data *reloc_data; ++ ++ /* TRUE if this section has one or more relaxable relocations */ ++ bfd_boolean is_relaxable; ++ unsigned int iteration; ++}; ++ ++struct avr32_section_data ++{ ++ struct bfd_elf_section_data elf; ++ struct avr32_relax_data relax_data; ++}; ++ ++ /* Relax state definitions */ ++ ++#define PIC_MOV2_OPCODE 0xe0600000 ++#define PIC_MOV2_MASK 0xe1e00000 ++#define PIC_MOV2_RANGE_MIN (-1048576 * 4) ++#define PIC_MOV2_RANGE_MAX (1048575 * 4) ++#define PIC_MCALL_OPCODE 0xf0160000 ++#define PIC_MCALL_MASK 0xffff0000 ++#define PIC_MCALL_RANGE_MIN (-131072) ++#define PIC_MCALL_RANGE_MAX (131068) ++#define RCALL2_OPCODE 0xe0a00000 ++#define RCALL2_MASK 0xe1ef0000 ++#define RCALL2_RANGE_MIN (-2097152) ++#define RCALL2_RANGE_MAX (2097150) ++#define RCALL1_OPCODE 0xc00c0000 ++#define RCALL1_MASK 0xf00c0000 ++#define RCALL1_RANGE_MIN (-1024) ++#define RCALL1_RANGE_MAX (1022) ++#define PIC_LDW4_OPCODE 0xecf00000 ++#define PIC_LDW4_MASK 0xfff00000 ++#define PIC_LDW4_RANGE_MIN (-32768) ++#define PIC_LDW4_RANGE_MAX (32767) ++#define PIC_LDW3_OPCODE 0x6c000000 ++#define PIC_LDW3_MASK 0xfe000000 ++#define PIC_LDW3_RANGE_MIN (0) ++#define PIC_LDW3_RANGE_MAX (124) ++#define SUB5_PC_OPCODE 0xfec00000 ++#define SUB5_PC_MASK 0xfff00000 ++#define SUB5_PC_RANGE_MIN (-32768) ++#define SUB5_PC_RANGE_MAX (32767) ++#define NOPIC_MCALL_OPCODE 0xf01f0000 ++#define NOPIC_MCALL_MASK 0xffff0000 ++#define NOPIC_MCALL_RANGE_MIN PIC_MCALL_RANGE_MIN ++#define NOPIC_MCALL_RANGE_MAX PIC_MCALL_RANGE_MAX ++#define NOPIC_LDW4_OPCODE 0xfef00000 ++#define NOPIC_LDW4_MASK 0xfff00000 ++#define NOPIC_LDW4_RANGE_MIN PIC_LDW4_RANGE_MIN ++#define NOPIC_LDW4_RANGE_MAX PIC_LDW4_RANGE_MAX ++#define LDDPC_OPCODE 0x48000000 ++#define LDDPC_MASK 0xf8000000 ++#define LDDPC_RANGE_MIN 0 ++#define LDDPC_RANGE_MAX 508 ++ ++#define NOPIC_MOV2_OPCODE 0xe0600000 ++#define NOPIC_MOV2_MASK 0xe1e00000 ++#define NOPIC_MOV2_RANGE_MIN (-1048576) ++#define NOPIC_MOV2_RANGE_MAX (1048575) ++#define NOPIC_MOV1_OPCODE 0x30000000 ++#define NOPIC_MOV1_MASK 0xf0000000 ++#define NOPIC_MOV1_RANGE_MIN (-128) ++#define NOPIC_MOV1_RANGE_MAX (127) ++ ++/* Only brc2 variants with cond[3] == 0 is considered, since the ++ others are not relaxable. bral is a special case and is handled ++ separately. */ ++#define BRC2_OPCODE 0xe0800000 ++#define BRC2_MASK 0xe1e80000 ++#define BRC2_RANGE_MIN (-2097152) ++#define BRC2_RANGE_MAX (2097150) ++#define BRC1_OPCODE 0xc0000000 ++#define BRC1_MASK 0xf0080000 ++#define BRC1_RANGE_MIN (-256) ++#define BRC1_RANGE_MAX (254) ++#define BRAL_OPCODE 0xe08f0000 ++#define BRAL_MASK 0xe1ef0000 ++#define BRAL_RANGE_MIN BRC2_RANGE_MIN ++#define BRAL_RANGE_MAX BRC2_RANGE_MAX ++#define RJMP_OPCODE 0xc0080000 ++#define RJMP_MASK 0xf00c0000 ++#define RJMP_RANGE_MIN (-1024) ++#define RJMP_RANGE_MAX (1022) ++ ++/* Define a relax state using the GOT */ ++#define RG(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_GOT, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++/* Define a relax state using the Constant Pool */ ++#define RC(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_CPOOL, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++ ++/* Define a relax state using pc-relative direct reference */ ++#define RP(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_PCREL, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++ ++/* Define a relax state using non-pc-relative direct reference */ ++#define RD(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_ABSOLUTE, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++ ++/* Define a relax state that will be handled specially */ ++#define RS(id, r_type, size) \ ++ { "RS_"#id, RS_##id, RS_NONE, RS_NONE, RS_NONE, REF_ABSOLUTE, \ ++ R_AVR32_##r_type, 0, 0, 0, 0, size } ++ ++const struct relax_state relax_state[RS_MAX] = { ++ RS(NONE, NONE, 0), ++ RS(ALIGN, ALIGN, 0), ++ RS(CPENT, 32_CPENT, 4), ++ ++ RG(PIC_CALL, PIC_RCALL1, PIC_MCALL, NONE, GOTCALL, PIC_MOV2, 10), ++ RG(PIC_MCALL, PIC_RCALL1, NONE, PIC_CALL, GOT18SW, PIC_MCALL, 4), ++ RP(PIC_RCALL2, NONE, PIC_RCALL1, PIC_MCALL, 22H_PCREL, RCALL2, 4), ++ RP(PIC_RCALL1, NONE, NONE, PIC_RCALL2, 11H_PCREL, RCALL1, 2), ++ ++ RG(PIC_LDA, PIC_SUB5, PIC_LDW4, NONE, LDA_GOT, PIC_MOV2, 8), ++ RG(PIC_LDW4, PIC_SUB5, PIC_LDW3, PIC_LDA, GOT16S, PIC_LDW4, 4), ++ RG(PIC_LDW3, PIC_SUB5, NONE, PIC_LDW4, GOT7UW, PIC_LDW3, 2), ++ RP(PIC_SUB5, NONE, NONE, PIC_LDW3, 16N_PCREL, SUB5_PC, 4), ++ ++ RC(NOPIC_MCALL, NOPIC_RCALL1, NONE, NONE, CPCALL, NOPIC_MCALL, 4), ++ RP(NOPIC_RCALL2, NONE, NOPIC_RCALL1, NOPIC_MCALL, 22H_PCREL, RCALL2, 4), ++ RP(NOPIC_RCALL1, NONE, NONE, NOPIC_RCALL2, 11H_PCREL, RCALL1, 2), ++ ++ RC(NOPIC_LDW4, NOPIC_MOV1, NOPIC_LDDPC, NONE, 16_CP, NOPIC_LDW4, 4), ++ RC(NOPIC_LDDPC, NOPIC_MOV1, NONE, NOPIC_LDW4, 9W_CP, LDDPC, 2), ++ RP(NOPIC_SUB5, NOPIC_MOV1, NONE, NOPIC_LDDPC, 16N_PCREL, SUB5_PC, 4), ++ RD(NOPIC_MOV2, NONE, NOPIC_MOV1, NOPIC_SUB5, 21S, NOPIC_MOV2, 4), ++ RD(NOPIC_MOV1, NONE, NONE, NOPIC_MOV2, 8S, NOPIC_MOV1, 2), ++ ++ RP(RCALL2, NONE, RCALL1, NONE, 22H_PCREL, RCALL2, 4), ++ RP(RCALL1, NONE, NONE, RCALL2, 11H_PCREL, RCALL1, 2), ++ RP(BRC2, NONE, BRC1, NONE, 22H_PCREL, BRC2, 4), ++ RP(BRC1, NONE, NONE, BRC2, 9H_PCREL, BRC1, 2), ++ RP(BRAL, NONE, RJMP, NONE, 22H_PCREL, BRAL, 4), ++ RP(RJMP, NONE, NONE, BRAL, 11H_PCREL, RJMP, 2), ++}; ++ ++static bfd_boolean ++avr32_elf_new_section_hook(bfd *abfd, asection *sec) ++{ ++ struct avr32_section_data *sdata; ++ ++ sdata = bfd_zalloc(abfd, sizeof(struct avr32_section_data)); ++ if (!sdata) ++ return FALSE; ++ ++ sec->used_by_bfd = sdata; ++ return _bfd_elf_new_section_hook(abfd, sec); ++} ++ ++static struct avr32_relax_data * ++avr32_relax_data(asection *sec) ++{ ++ struct avr32_section_data *sdata; ++ ++ BFD_ASSERT(sec->used_by_bfd); ++ ++ sdata = (struct avr32_section_data *)elf_section_data(sec); ++ return &sdata->relax_data; ++} ++ ++ /* Link-time relaxation */ ++ ++static bfd_boolean ++avr32_elf_relax_section(bfd *abfd, asection *sec, ++ struct bfd_link_info *info, bfd_boolean *again); ++ ++enum relax_pass_id { ++ RELAX_PASS_SIZE_FRAGS, ++ RELAX_PASS_MOVE_DATA, ++}; ++ ++/* Stolen from the xtensa port */ ++static int ++internal_reloc_compare (const void *ap, const void *bp) ++{ ++ const Elf_Internal_Rela *a = (const Elf_Internal_Rela *) ap; ++ const Elf_Internal_Rela *b = (const Elf_Internal_Rela *) bp; ++ ++ if (a->r_offset != b->r_offset) ++ return (a->r_offset - b->r_offset); ++ ++ /* We don't need to sort on these criteria for correctness, ++ but enforcing a more strict ordering prevents unstable qsort ++ from behaving differently with different implementations. ++ Without the code below we get correct but different results ++ on Solaris 2.7 and 2.8. We would like to always produce the ++ same results no matter the host. */ ++ ++ if (a->r_info != b->r_info) ++ return (a->r_info - b->r_info); ++ ++ return (a->r_addend - b->r_addend); ++} ++ ++static enum relax_state_id ++get_pcrel22_relax_state(bfd *abfd, asection *sec, struct bfd_link_info *info, ++ const Elf_Internal_Rela *rela) ++{ ++ bfd_byte *contents; ++ bfd_vma insn; ++ enum relax_state_id rs = RS_NONE; ++ ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ return RS_ERROR; ++ ++ insn = bfd_get_32(abfd, contents + rela->r_offset); ++ if ((insn & RCALL2_MASK) == RCALL2_OPCODE) ++ rs = RS_RCALL2; ++ else if ((insn & BRAL_MASK) == BRAL_OPCODE) ++ /* Optimizing bral -> rjmp gets us into all kinds of ++ trouble with jump tables. Better not do it. */ ++ rs = RS_NONE; ++ else if ((insn & BRC2_MASK) == BRC2_OPCODE) ++ rs = RS_BRC2; ++ ++ release_contents(sec, contents); ++ ++ return rs; ++} ++ ++static enum relax_state_id ++get_initial_relax_state(bfd *abfd, asection *sec, struct bfd_link_info *info, ++ const Elf_Internal_Rela *rela) ++{ ++ switch (ELF_R_TYPE(rela->r_info)) ++ { ++ case R_AVR32_GOTCALL: ++ return RS_PIC_CALL; ++ case R_AVR32_GOT18SW: ++ return RS_PIC_MCALL; ++ case R_AVR32_LDA_GOT: ++ return RS_PIC_LDA; ++ case R_AVR32_GOT16S: ++ return RS_PIC_LDW4; ++ case R_AVR32_CPCALL: ++ return RS_NOPIC_MCALL; ++ case R_AVR32_16_CP: ++ return RS_NOPIC_LDW4; ++ case R_AVR32_9W_CP: ++ return RS_NOPIC_LDDPC; ++ case R_AVR32_ALIGN: ++ return RS_ALIGN; ++ case R_AVR32_32_CPENT: ++ return RS_CPENT; ++ case R_AVR32_22H_PCREL: ++ return get_pcrel22_relax_state(abfd, sec, info, rela); ++ case R_AVR32_9H_PCREL: ++ return RS_BRC1; ++ default: ++ return RS_NONE; ++ } ++} ++ ++static bfd_boolean ++reloc_is_cpool_ref(const Elf_Internal_Rela *rela) ++{ ++ switch (ELF_R_TYPE(rela->r_info)) ++ { ++ case R_AVR32_CPCALL: ++ case R_AVR32_16_CP: ++ case R_AVR32_9W_CP: ++ return TRUE; ++ default: ++ return FALSE; ++ } ++} ++ ++static struct fragment * ++new_frag(bfd *abfd ATTRIBUTE_UNUSED, asection *sec, ++ struct avr32_relax_data *rd, enum relax_state_id state, ++ Elf_Internal_Rela *rela) ++{ ++ struct fragment *frag; ++ bfd_size_type r_size; ++ bfd_vma r_offset; ++ unsigned int i = rd->frag_count; ++ ++ BFD_ASSERT(state >= RS_NONE && state < RS_MAX); ++ ++ rd->frag_count++; ++ frag = bfd_realloc(rd->frag, sizeof(struct fragment) * rd->frag_count); ++ if (!frag) ++ return NULL; ++ rd->frag = frag; ++ ++ frag += i; ++ memset(frag, 0, sizeof(struct fragment)); ++ ++ if (state == RS_ALIGN) ++ r_size = (((rela->r_offset + (1 << rela->r_addend) - 1) ++ & ~((1 << rela->r_addend) - 1)) - rela->r_offset); ++ else ++ r_size = relax_state[state].size; ++ ++ if (rela) ++ r_offset = rela->r_offset; ++ else ++ r_offset = sec->size; ++ ++ if (i == 0) ++ { ++ frag->offset = 0; ++ frag->size = r_offset + r_size; ++ } ++ else ++ { ++ frag->offset = rd->frag[i - 1].offset + rd->frag[i - 1].size; ++ frag->size = r_offset + r_size - frag->offset; ++ } ++ ++ if (state != RS_CPENT) ++ /* Make sure we don't discard this frag */ ++ frag->refcount = 1; ++ ++ frag->initial_state = frag->state = state; ++ frag->rela = rela; ++ ++ return frag; ++} ++ ++static struct fragment * ++find_frag(asection *sec, bfd_vma offset) ++{ ++ struct fragment *first, *last; ++ struct avr32_relax_data *rd = avr32_relax_data(sec); ++ ++ if (rd->frag_count == 0) ++ return NULL; ++ ++ first = &rd->frag[0]; ++ last = &rd->frag[rd->frag_count - 1]; ++ ++ /* This may be a reloc referencing the end of a section. The last ++ frag will never have a reloc associated with it, so its size will ++ never change, thus the offset adjustment of the last frag will ++ always be the same as the offset adjustment of the end of the ++ section. */ ++ if (offset == sec->size) ++ { ++ BFD_ASSERT(last->offset + last->size == sec->size); ++ BFD_ASSERT(!last->rela); ++ return last; ++ } ++ ++ while (first <= last) ++ { ++ struct fragment *mid; ++ ++ mid = (last - first) / 2 + first; ++ if ((mid->offset + mid->size) <= offset) ++ first = mid + 1; ++ else if (mid->offset > offset) ++ last = mid - 1; ++ else ++ return mid; ++ } ++ ++ return NULL; ++} ++ ++/* Look through all relocs in a section and determine if any relocs ++ may be affected by relaxation in other sections. If so, allocate ++ an array of additional relocation data which links the affected ++ relocations to the frag(s) where the relaxation may occur. ++ ++ This function also links cpool references to cpool entries and ++ increments the refcount of the latter when this happens. */ ++ ++static bfd_boolean ++allocate_reloc_data(bfd *abfd, asection *sec, Elf_Internal_Rela *relocs, ++ struct bfd_link_info *info) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Sym *isymbuf = NULL; ++ struct avr32_relax_data *rd; ++ unsigned int i; ++ bfd_boolean ret = FALSE; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ rd = avr32_relax_data(sec); ++ ++ RDBG("%s<%s>: allocate_reloc_data\n", abfd->filename, sec->name); ++ ++ for (i = 0; i < sec->reloc_count; i++) ++ { ++ Elf_Internal_Rela *rel = &relocs[i]; ++ asection *sym_sec; ++ unsigned long r_symndx; ++ bfd_vma sym_value; ++ ++ if (!rel->r_addend && ELF_R_TYPE(rel->r_info) != R_AVR32_DIFF32 ++ && !reloc_is_cpool_ref(rel)) ++ continue; ++ ++ r_symndx = ELF_R_SYM(rel->r_info); ++ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ Elf_Internal_Sym *isym; ++ ++ if (!isymbuf) ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ return FALSE; ++ ++ isym = &isymbuf[r_symndx]; ++ sym_sec = bfd_section_from_elf_index(abfd, isym->st_shndx); ++ sym_value = isym->st_value; ++ } ++ else ++ { ++ struct elf_link_hash_entry *h; ++ ++ h = elf_sym_hashes(abfd)[r_symndx - symtab_hdr->sh_info]; ++ ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ if (h->root.type != bfd_link_hash_defined ++ && h->root.type != bfd_link_hash_defweak) ++ continue; ++ ++ sym_sec = h->root.u.def.section; ++ sym_value = h->root.u.def.value; ++ } ++ ++ if (sym_sec && avr32_relax_data(sym_sec)->is_relaxable) ++ { ++ bfd_size_type size; ++ struct fragment *frag; ++ ++ if (!rd->reloc_data) ++ { ++ size = sizeof(struct avr32_reloc_data) * sec->reloc_count; ++ rd->reloc_data = bfd_zalloc(abfd, size); ++ if (!rd->reloc_data) ++ goto out; ++ } ++ ++ RDBG("[%3d] 0x%04lx: target: 0x%lx + 0x%lx", ++ i, rel->r_offset, sym_value, rel->r_addend); ++ ++ frag = find_frag(sym_sec, sym_value + rel->r_addend); ++ BFD_ASSERT(frag); ++ rd->reloc_data[i].add_frag = frag; ++ ++ RDBG(" -> %s<%s>:%04lx\n", sym_sec->owner->filename, sym_sec->name, ++ frag->rela ? frag->rela->r_offset : sym_sec->size); ++ ++ if (reloc_is_cpool_ref(rel)) ++ { ++ BFD_ASSERT(ELF_R_TYPE(frag->rela->r_info) == R_AVR32_32_CPENT); ++ frag->refcount++; ++ } ++ ++ if (ELF_R_TYPE(rel->r_info) == R_AVR32_DIFF32) ++ { ++ bfd_byte *contents; ++ bfd_signed_vma diff; ++ ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ goto out; ++ ++ diff = bfd_get_signed_32(abfd, contents + rel->r_offset); ++ frag = find_frag(sym_sec, sym_value + rel->r_addend + diff); ++ BFD_ASSERT(frag); ++ rd->reloc_data[i].sub_frag = frag; ++ ++ release_contents(sec, contents); ++ } ++ } ++ } ++ ++ ret = TRUE; ++ ++ out: ++ release_local_syms(abfd, isymbuf); ++ return ret; ++} ++ ++static bfd_boolean ++global_sym_set_frag(struct elf_avr32_link_hash_entry *havr, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED) ++{ ++ struct fragment *frag; ++ asection *sec; ++ ++ if (havr->root.root.type != bfd_link_hash_defined ++ && havr->root.root.type != bfd_link_hash_defweak) ++ return TRUE; ++ ++ sec = havr->root.root.u.def.section; ++ if (bfd_is_const_section(sec) ++ || !avr32_relax_data(sec)->is_relaxable) ++ return TRUE; ++ ++ frag = find_frag(sec, havr->root.root.u.def.value); ++ if (!frag) ++ { ++ unsigned int i; ++ struct avr32_relax_data *rd = avr32_relax_data(sec); ++ ++ RDBG("In %s: No frag for %s <%s+%lu> (limit %lu)\n", ++ sec->owner->filename, havr->root.root.root.string, ++ sec->name, havr->root.root.u.def.value, sec->size); ++ for (i = 0; i < rd->frag_count; i++) ++ RDBG(" %8lu - %8lu\n", rd->frag[i].offset, ++ rd->frag[i].offset + rd->frag[i].size); ++ } ++ BFD_ASSERT(frag); ++ ++ havr->sym_frag = frag; ++ return TRUE; ++} ++ ++static bfd_boolean ++analyze_relocations(struct bfd_link_info *info) ++{ ++ bfd *abfd; ++ asection *sec; ++ ++ /* Divide all relaxable sections into fragments */ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ { ++ if (!(elf_elfheader(abfd)->e_flags & EF_AVR32_LINKRELAX)) ++ { ++ if (!(*info->callbacks->warning) ++ (info, _("input is not relaxable"), NULL, abfd, NULL, 0)) ++ return FALSE; ++ continue; ++ } ++ ++ for (sec = abfd->sections; sec; sec = sec->next) ++ { ++ struct avr32_relax_data *rd; ++ struct fragment *frag; ++ Elf_Internal_Rela *relocs; ++ unsigned int i; ++ bfd_boolean ret = TRUE; ++ ++ if (!(sec->flags & SEC_RELOC) || sec->reloc_count == 0) ++ continue; ++ ++ rd = avr32_relax_data(sec); ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ return FALSE; ++ ++ qsort(relocs, sec->reloc_count, sizeof(Elf_Internal_Rela), ++ internal_reloc_compare); ++ ++ for (i = 0; i < sec->reloc_count; i++) ++ { ++ enum relax_state_id state; ++ ++ ret = FALSE; ++ state = get_initial_relax_state(abfd, sec, info, &relocs[i]); ++ if (state == RS_ERROR) ++ break; ++ ++ if (state) ++ { ++ frag = new_frag(abfd, sec, rd, state, &relocs[i]); ++ if (!frag) ++ break; ++ ++ pin_internal_relocs(sec, relocs); ++ rd->is_relaxable = TRUE; ++ } ++ ++ ret = TRUE; ++ } ++ ++ release_internal_relocs(sec, relocs); ++ if (!ret) ++ return ret; ++ ++ if (rd->is_relaxable) ++ { ++ frag = new_frag(abfd, sec, rd, RS_NONE, NULL); ++ if (!frag) ++ return FALSE; ++ } ++ } ++ } ++ ++ /* Link each global symbol to the fragment where it's defined. */ ++ elf_link_hash_traverse(elf_hash_table(info), global_sym_set_frag, info); ++ ++ /* Do the same for local symbols. */ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ { ++ Elf_Internal_Sym *isymbuf, *isym; ++ struct fragment **local_sym_frag; ++ unsigned int i, sym_count; ++ ++ sym_count = elf_tdata(abfd)->symtab_hdr.sh_info; ++ if (sym_count == 0) ++ continue; ++ ++ local_sym_frag = bfd_zalloc(abfd, sym_count * sizeof(struct fragment *)); ++ if (!local_sym_frag) ++ return FALSE; ++ elf_tdata(abfd)->local_sym_frag = local_sym_frag; ++ ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ return FALSE; ++ ++ for (i = 0; i < sym_count; i++) ++ { ++ struct avr32_relax_data *rd; ++ struct fragment *frag; ++ asection *sec; ++ ++ isym = &isymbuf[i]; ++ ++ sec = bfd_section_from_elf_index(abfd, isym->st_shndx); ++ if (!sec) ++ continue; ++ ++ rd = avr32_relax_data(sec); ++ if (!rd->is_relaxable) ++ continue; ++ ++ frag = find_frag(sec, isym->st_value); ++ BFD_ASSERT(frag); ++ ++ local_sym_frag[i] = frag; ++ } ++ ++ release_local_syms(abfd, isymbuf); ++ } ++ ++ /* And again for relocs with addends and constant pool references */ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ for (sec = abfd->sections; sec; sec = sec->next) ++ { ++ Elf_Internal_Rela *relocs; ++ bfd_boolean ret; ++ ++ if (!(sec->flags & SEC_RELOC) || sec->reloc_count == 0) ++ continue; ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ return FALSE; ++ ++ ret = allocate_reloc_data(abfd, sec, relocs, info); ++ ++ release_internal_relocs(sec, relocs); ++ if (ret == FALSE) ++ return ret; ++ } ++ ++ return TRUE; ++} ++ ++static bfd_boolean ++rs_is_good_enough(const struct relax_state *rs, struct fragment *frag, ++ bfd_vma symval, bfd_vma addr, struct got_entry *got, ++ struct avr32_reloc_data *ind_data, ++ bfd_signed_vma offset_adjust) ++{ ++ bfd_signed_vma target = 0; ++ ++ switch (rs->reftype) ++ { ++ case REF_ABSOLUTE: ++ target = symval; ++ break; ++ case REF_PCREL: ++ target = symval - addr; ++ break; ++ case REF_CPOOL: ++ /* cpool frags are always in the same section and always after ++ all frags referring to it. So it's always correct to add in ++ offset_adjust here. */ ++ target = (ind_data->add_frag->offset + ind_data->add_frag->offset_adjust ++ + offset_adjust - frag->offset - frag->offset_adjust); ++ break; ++ case REF_GOT: ++ target = got->offset; ++ break; ++ default: ++ abort(); ++ } ++ ++ if (target >= rs->range_min && target <= rs->range_max) ++ return TRUE; ++ else ++ return FALSE; ++} ++ ++static bfd_boolean ++avr32_size_frags(bfd *abfd, asection *sec, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct avr32_relax_data *rd; ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Rela *relocs = NULL; ++ Elf_Internal_Sym *isymbuf = NULL; ++ struct got_entry **local_got_ents; ++ struct fragment **local_sym_frag; ++ bfd_boolean ret = FALSE; ++ bfd_signed_vma delta = 0; ++ unsigned int i; ++ ++ htab = avr32_elf_hash_table(info); ++ rd = avr32_relax_data(sec); ++ ++ if (sec == htab->sgot) ++ { ++ RDBG("Relaxing GOT section (vma: 0x%lx)\n", ++ sec->output_section->vma + sec->output_offset); ++ if (assign_got_offsets(htab)) ++ htab->repeat_pass = TRUE; ++ return TRUE; ++ } ++ ++ if (!rd->is_relaxable) ++ return TRUE; ++ ++ if (!sec->rawsize) ++ sec->rawsize = sec->size; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ goto out; ++ ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ goto out; ++ ++ local_got_ents = elf_local_got_ents(abfd); ++ local_sym_frag = elf_tdata(abfd)->local_sym_frag; ++ ++ RDBG("size_frags: %s<%s>\n vma: 0x%08lx, size: 0x%08lx\n", ++ abfd->filename, sec->name, ++ sec->output_section->vma + sec->output_offset, sec->size); ++ ++ for (i = 0; i < rd->frag_count; i++) ++ { ++ struct fragment *frag = &rd->frag[i]; ++ struct avr32_reloc_data *r_data = NULL, *ind_data = NULL; ++ const struct relax_state *state, *next_state; ++ struct fragment *target_frag = NULL; ++ asection *sym_sec = NULL; ++ Elf_Internal_Rela *rela; ++ struct got_entry *got; ++ bfd_vma symval, r_offset, addend, addr; ++ bfd_signed_vma size_adjust = 0, distance; ++ unsigned long r_symndx; ++ bfd_boolean defined = TRUE, dynamic = FALSE; ++ unsigned char sym_type; ++ ++ frag->offset_adjust += delta; ++ state = next_state = &relax_state[frag->state]; ++ rela = frag->rela; ++ ++ BFD_ASSERT(state->id == frag->state); ++ ++ RDBG(" 0x%04lx%c%d: %s [size %ld]", rela ? rela->r_offset : sec->rawsize, ++ (frag->offset_adjust < 0)?'-':'+', ++ abs(frag->offset_adjust), state->name, state->size); ++ ++ if (!rela) ++ { ++ RDBG(": no reloc, ignoring\n"); ++ continue; ++ } ++ ++ BFD_ASSERT((unsigned int)(rela - relocs) < sec->reloc_count); ++ BFD_ASSERT(state != RS_NONE); ++ ++ r_offset = rela->r_offset + frag->offset_adjust; ++ addr = sec->output_section->vma + sec->output_offset + r_offset; ++ ++ switch (frag->state) ++ { ++ case RS_ALIGN: ++ size_adjust = ((addr + (1 << rela->r_addend) - 1) ++ & ~((1 << rela->r_addend) - 1)); ++ size_adjust -= (sec->output_section->vma + sec->output_offset ++ + frag->offset + frag->offset_adjust ++ + frag->size + frag->size_adjust); ++ ++ RDBG(": adjusting size %lu -> %lu\n", frag->size + frag->size_adjust, ++ frag->size + frag->size_adjust + size_adjust); ++ break; ++ ++ case RS_CPENT: ++ if (frag->refcount == 0 && frag->size_adjust == 0) ++ { ++ RDBG(": discarding frag\n"); ++ size_adjust = -4; ++ } ++ else if (frag->refcount > 0 && frag->size_adjust < 0) ++ { ++ RDBG(": un-discarding frag\n"); ++ size_adjust = 4; ++ } ++ break; ++ ++ default: ++ if (rd->reloc_data) ++ r_data = &rd->reloc_data[frag->rela - relocs]; ++ ++ /* If this is a cpool reference, we want the symbol that the ++ cpool entry refers to, not the symbol for the cpool entry ++ itself, as we already know what frag it's in. */ ++ if (relax_state[frag->initial_state].reftype == REF_CPOOL) ++ { ++ Elf_Internal_Rela *irela = r_data->add_frag->rela; ++ ++ r_symndx = ELF_R_SYM(irela->r_info); ++ addend = irela->r_addend; ++ ++ /* The constant pool must be in the same section as the ++ reloc referring to it. */ ++ BFD_ASSERT((unsigned long)(irela - relocs) < sec->reloc_count); ++ ++ ind_data = r_data; ++ r_data = &rd->reloc_data[irela - relocs]; ++ } ++ else ++ { ++ r_symndx = ELF_R_SYM(rela->r_info); ++ addend = rela->r_addend; ++ } ++ ++ /* Get the value of the symbol referred to by the reloc. */ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ Elf_Internal_Sym *isym; ++ ++ isym = isymbuf + r_symndx; ++ symval = 0; ++ ++ RDBG(" local sym %lu: ", r_symndx); ++ ++ if (isym->st_shndx == SHN_UNDEF) ++ defined = FALSE; ++ else if (isym->st_shndx == SHN_ABS) ++ sym_sec = bfd_abs_section_ptr; ++ else if (isym->st_shndx == SHN_COMMON) ++ sym_sec = bfd_com_section_ptr; ++ else ++ sym_sec = bfd_section_from_elf_index(abfd, isym->st_shndx); ++ ++ symval = isym->st_value; ++ sym_type = ELF_ST_TYPE(isym->st_info); ++ target_frag = local_sym_frag[r_symndx]; ++ ++ if (local_got_ents) ++ got = local_got_ents[r_symndx]; ++ else ++ got = NULL; ++ } ++ else ++ { ++ /* Global symbol */ ++ unsigned long index; ++ struct elf_link_hash_entry *h; ++ struct elf_avr32_link_hash_entry *havr; ++ ++ index = r_symndx - symtab_hdr->sh_info; ++ h = elf_sym_hashes(abfd)[index]; ++ BFD_ASSERT(h != NULL); ++ ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ havr = (struct elf_avr32_link_hash_entry *)h; ++ got = h->got.glist; ++ ++ symval = 0; ++ ++ RDBG(" %s: ", h->root.root.string); ++ ++ if (h->root.type != bfd_link_hash_defined ++ && h->root.type != bfd_link_hash_defweak) ++ { ++ RDBG("(undef)"); ++ defined = FALSE; ++ } ++ else if ((info->shared && !info->symbolic && h->dynindx != -1) ++ || (htab->root.dynamic_sections_created ++ && h->def_dynamic && !h->def_regular)) ++ { ++ RDBG("(dynamic)"); ++ dynamic = TRUE; ++ sym_sec = h->root.u.def.section; ++ } ++ else ++ { ++ sym_sec = h->root.u.def.section; ++ symval = h->root.u.def.value; ++ target_frag = havr->sym_frag; ++ } ++ ++ sym_type = h->type; ++ } ++ ++ /* Thanks to elf32-ppc for this one. */ ++ if (sym_sec && sym_sec->sec_info_type == ELF_INFO_TYPE_MERGE) ++ { ++ /* At this stage in linking, no SEC_MERGE symbol has been ++ adjusted, so all references to such symbols need to be ++ passed through _bfd_merged_section_offset. (Later, in ++ relocate_section, all SEC_MERGE symbols *except* for ++ section symbols have been adjusted.) ++ ++ SEC_MERGE sections are not relaxed by us, as they ++ shouldn't contain any code. */ ++ ++ BFD_ASSERT(!target_frag && !(r_data && r_data->add_frag)); ++ ++ /* gas may reduce relocations against symbols in SEC_MERGE ++ sections to a relocation against the section symbol when ++ the original addend was zero. When the reloc is against ++ a section symbol we should include the addend in the ++ offset passed to _bfd_merged_section_offset, since the ++ location of interest is the original symbol. On the ++ other hand, an access to "sym+addend" where "sym" is not ++ a section symbol should not include the addend; Such an ++ access is presumed to be an offset from "sym"; The ++ location of interest is just "sym". */ ++ RDBG("\n MERGE: %s: 0x%lx+0x%lx+0x%lx -> ", ++ (sym_type == STT_SECTION)?"section":"not section", ++ sym_sec->output_section->vma + sym_sec->output_offset, ++ symval, addend); ++ ++ if (sym_type == STT_SECTION) ++ symval += addend; ++ ++ symval = (_bfd_merged_section_offset ++ (abfd, &sym_sec, ++ elf_section_data(sym_sec)->sec_info, symval)); ++ ++ if (sym_type != STT_SECTION) ++ symval += addend; ++ } ++ else ++ symval += addend; ++ ++ if (defined && !dynamic) ++ { ++ RDBG("0x%lx+0x%lx", ++ sym_sec->output_section->vma + sym_sec->output_offset, ++ symval); ++ symval += sym_sec->output_section->vma + sym_sec->output_offset; ++ } ++ ++ if (r_data && r_data->add_frag) ++ /* If the add_frag pointer is set, it means that this reloc ++ has an addend that may be affected by relaxation. */ ++ target_frag = r_data->add_frag; ++ ++ if (target_frag) ++ { ++ symval += target_frag->offset_adjust; ++ ++ /* If target_frag comes after this frag in the same ++ section, we should assume that it will be moved by ++ the same amount we are. */ ++ if ((target_frag - rd->frag) < (int)rd->frag_count ++ && target_frag > frag) ++ symval += delta; ++ } ++ ++ distance = symval - addr; ++ ++ /* First, try to make a direct reference. If the symbol is ++ dynamic or undefined, we must take care not to change its ++ reference type, that is, we can't make it direct. ++ ++ Also, it seems like some sections may actually be resized ++ after the relaxation code is done, so we can't really ++ trust that our "distance" is correct. There's really no ++ easy solution to this problem, so we'll just disallow ++ direct references to SEC_DATA sections. ++ ++ Oh, and .bss isn't actually SEC_DATA, so we disallow ++ !SEC_HAS_CONTENTS as well. */ ++ if (!dynamic && defined ++ && (htab->direct_data_refs ++ || (!(sym_sec->flags & SEC_DATA) ++ && (sym_sec->flags & SEC_HAS_CONTENTS))) ++ && next_state->direct) ++ { ++ next_state = &relax_state[next_state->direct]; ++ RDBG(" D-> %s", next_state->name); ++ } ++ ++ /* Iterate backwards until we find a state that fits. */ ++ while (next_state->prev ++ && !rs_is_good_enough(next_state, frag, symval, addr, ++ got, ind_data, delta)) ++ { ++ next_state = &relax_state[next_state->prev]; ++ RDBG(" P-> %s", next_state->name); ++ } ++ ++ /* Then try to find the best possible state. */ ++ while (next_state->next) ++ { ++ const struct relax_state *candidate; ++ ++ candidate = &relax_state[next_state->next]; ++ if (!rs_is_good_enough(candidate, frag, symval, addr, got, ++ ind_data, delta)) ++ break; ++ ++ next_state = candidate; ++ RDBG(" N-> %s", next_state->name); ++ } ++ ++ RDBG(" [size %ld]\n", next_state->size); ++ ++ BFD_ASSERT(next_state->id); ++ BFD_ASSERT(!dynamic || next_state->reftype == REF_GOT); ++ ++ size_adjust = next_state->size - state->size; ++ ++ /* There's a theoretical possibility that shrinking one frag ++ may cause another to grow, which may cause the first one to ++ grow as well, and we're back where we started. Avoid this ++ scenario by disallowing a frag that has grown to ever ++ shrink again. */ ++ if (state->reftype == REF_GOT && next_state->reftype != REF_GOT) ++ { ++ if (frag->has_grown) ++ next_state = state; ++ else ++ unref_got_entry(htab, got); ++ } ++ else if (state->reftype != REF_GOT && next_state->reftype == REF_GOT) ++ { ++ ref_got_entry(htab, got); ++ frag->has_grown = TRUE; ++ } ++ else if (state->reftype == REF_CPOOL ++ && next_state->reftype != REF_CPOOL) ++ { ++ if (frag->has_grown) ++ next_state = state; ++ else ++ ind_data->add_frag->refcount--; ++ } ++ else if (state->reftype != REF_CPOOL ++ && next_state->reftype == REF_CPOOL) ++ { ++ ind_data->add_frag->refcount++; ++ frag->has_grown = TRUE; ++ } ++ else ++ { ++ if (frag->has_grown && size_adjust < 0) ++ next_state = state; ++ else if (size_adjust > 0) ++ frag->has_grown = TRUE; ++ } ++ ++ size_adjust = next_state->size - state->size; ++ frag->state = next_state->id; ++ ++ break; ++ } ++ ++ if (size_adjust) ++ htab->repeat_pass = TRUE; ++ ++ frag->size_adjust += size_adjust; ++ sec->size += size_adjust; ++ delta += size_adjust; ++ ++ BFD_ASSERT((frag->offset + frag->offset_adjust ++ + frag->size + frag->size_adjust) ++ == (frag[1].offset + frag[1].offset_adjust + delta)); ++ } ++ ++ ret = TRUE; ++ ++ out: ++ release_local_syms(abfd, isymbuf); ++ release_internal_relocs(sec, relocs); ++ return ret; ++} ++ ++static bfd_boolean ++adjust_global_symbol(struct elf_avr32_link_hash_entry *havr, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED) ++{ ++ struct elf_link_hash_entry *h = &havr->root; ++ ++ if (havr->sym_frag && (h->root.type == bfd_link_hash_defined ++ || h->root.type == bfd_link_hash_defweak)) ++ { ++ RDBG("adjust_global_symbol: %s 0x%08lx -> 0x%08lx\n", ++ h->root.root.string, h->root.u.def.value, ++ h->root.u.def.value + havr->sym_frag->offset_adjust); ++ h->root.u.def.value += havr->sym_frag->offset_adjust; ++ } ++ return TRUE; ++} ++ ++static bfd_boolean ++adjust_syms(struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ bfd *abfd; ++ ++ htab = avr32_elf_hash_table(info); ++ elf_link_hash_traverse(&htab->root, adjust_global_symbol, info); ++ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ { ++ Elf_Internal_Sym *isymbuf; ++ struct fragment **local_sym_frag, *frag; ++ unsigned int i, sym_count; ++ ++ sym_count = elf_tdata(abfd)->symtab_hdr.sh_info; ++ if (sym_count == 0) ++ continue; ++ ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ return FALSE; ++ ++ local_sym_frag = elf_tdata(abfd)->local_sym_frag; ++ ++ for (i = 0; i < sym_count; i++) ++ { ++ frag = local_sym_frag[i]; ++ if (frag) ++ { ++ RDBG("adjust_local_symbol: %s[%u] 0x%08lx -> 0x%08lx\n", ++ abfd->filename, i, isymbuf[i].st_value, ++ isymbuf[i].st_value + frag->offset_adjust); ++ isymbuf[i].st_value += frag->offset_adjust; ++ } ++ } ++ ++ release_local_syms(abfd, isymbuf); ++ } ++ ++ htab->symbols_adjusted = TRUE; ++ return TRUE; ++} ++ ++static bfd_boolean ++adjust_relocs(bfd *abfd, asection *sec, struct bfd_link_info *info) ++{ ++ struct avr32_relax_data *rd; ++ Elf_Internal_Rela *relocs; ++ Elf_Internal_Shdr *symtab_hdr; ++ unsigned int i; ++ bfd_boolean ret = FALSE; ++ ++ rd = avr32_relax_data(sec); ++ if (!rd->reloc_data) ++ return TRUE; ++ ++ RDBG("adjust_relocs: %s<%s> (count: %u)\n", abfd->filename, sec->name, ++ sec->reloc_count); ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ return FALSE; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ ++ for (i = 0; i < sec->reloc_count; i++) ++ { ++ Elf_Internal_Rela *rela = &relocs[i]; ++ struct avr32_reloc_data *r_data = &rd->reloc_data[i]; ++ struct fragment *sym_frag; ++ unsigned long r_symndx; ++ ++ if (r_data->add_frag) ++ { ++ r_symndx = ELF_R_SYM(rela->r_info); ++ ++ if (r_symndx < symtab_hdr->sh_info) ++ sym_frag = elf_tdata(abfd)->local_sym_frag[r_symndx]; ++ else ++ { ++ struct elf_link_hash_entry *h; ++ ++ h = elf_sym_hashes(abfd)[r_symndx - symtab_hdr->sh_info]; ++ ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ BFD_ASSERT(h->root.type == bfd_link_hash_defined ++ || h->root.type == bfd_link_hash_defweak); ++ ++ sym_frag = ((struct elf_avr32_link_hash_entry *)h)->sym_frag; ++ } ++ ++ RDBG(" addend: 0x%08lx -> 0x%08lx\n", ++ rela->r_addend, ++ rela->r_addend + r_data->add_frag->offset_adjust ++ - (sym_frag ? sym_frag->offset_adjust : 0)); ++ ++ /* If this is against a section symbol, we won't find any ++ sym_frag, so we'll just adjust the addend. */ ++ rela->r_addend += r_data->add_frag->offset_adjust; ++ if (sym_frag) ++ rela->r_addend -= sym_frag->offset_adjust; ++ ++ if (r_data->sub_frag) ++ { ++ bfd_byte *contents; ++ bfd_signed_vma diff; ++ ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ goto out; ++ ++ /* I realize now that sub_frag is misnamed. It's ++ actually add_frag which is subtracted in this ++ case... */ ++ diff = bfd_get_signed_32(abfd, contents + rela->r_offset); ++ diff += (r_data->sub_frag->offset_adjust ++ - r_data->add_frag->offset_adjust); ++ bfd_put_32(abfd, diff, contents + rela->r_offset); ++ ++ RDBG(" 0x%lx: DIFF32 updated: 0x%lx\n", rela->r_offset, diff); ++ ++ release_contents(sec, contents); ++ } ++ } ++ else ++ BFD_ASSERT(!r_data->sub_frag); ++ } ++ ++ ret = TRUE; ++ ++ out: ++ release_internal_relocs(sec, relocs); ++ return ret; ++} ++ ++static bfd_boolean ++avr32_move_data(bfd *abfd, asection *sec, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct avr32_relax_data *rd; ++ struct fragment *frag, *fragend; ++ Elf_Internal_Rela *relocs = NULL; ++ bfd_byte *contents = NULL; ++ unsigned int i; ++ bfd_boolean ret = FALSE; ++ ++ htab = avr32_elf_hash_table(info); ++ rd = avr32_relax_data(sec); ++ ++ if (!htab->symbols_adjusted) ++ if (!adjust_syms(info)) ++ return FALSE; ++ ++ if (rd->is_relaxable) ++ { ++ /* Resize the section first, so that we can be sure that enough ++ memory is allocated in case the section has grown. */ ++ if (sec->size > sec->rawsize ++ && elf_section_data(sec)->this_hdr.contents) ++ { ++ /* We must not use cached data if the section has grown. */ ++ free(elf_section_data(sec)->this_hdr.contents); ++ elf_section_data(sec)->this_hdr.contents = NULL; ++ } ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ goto out; ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ goto out; ++ ++ fragend = rd->frag + rd->frag_count; ++ ++ RDBG("move_data: %s<%s>: relocs=%p, contents=%p\n", ++ abfd->filename, sec->name, relocs, contents); ++ ++ /* First, move the data into place. We must take care to move ++ frags in the right order so that we don't accidentally ++ overwrite parts of the next frag. */ ++ for (frag = rd->frag; frag < fragend; frag++) ++ { ++ RDBG(" 0x%08lx%c0x%x: size 0x%lx%c0x%x\n", ++ frag->offset, frag->offset_adjust >= 0 ? '+' : '-', ++ abs(frag->offset_adjust), ++ frag->size, frag->size_adjust >= 0 ? '+' : '-', ++ abs(frag->size_adjust)); ++ if (frag->offset_adjust > 0) ++ { ++ struct fragment *prev = frag - 1; ++ struct fragment *last; ++ ++ for (last = frag; last < fragend && last->offset_adjust > 0; ++ last++) ; ++ ++ if (last == fragend) ++ last--; ++ ++ for (frag = last; frag != prev; frag--) ++ { ++ if (frag->offset_adjust ++ && frag->size + frag->size_adjust > 0) ++ { ++ RDBG("memmove 0x%lx -> 0x%lx (size %lu)\n", ++ frag->offset, frag->offset + frag->offset_adjust, ++ frag->size + frag->size_adjust); ++ memmove(contents + frag->offset + frag->offset_adjust, ++ contents + frag->offset, ++ frag->size + frag->size_adjust); ++ } ++ } ++ frag = last; ++ } ++ else if (frag->offset_adjust && frag->size + frag->size_adjust > 0) ++ { ++ RDBG("memmove 0x%lx -> 0x%lx (size %lu)\n", ++ frag->offset, frag->offset + frag->offset_adjust, ++ frag->size + frag->size_adjust); ++ memmove(contents + frag->offset + frag->offset_adjust, ++ contents + frag->offset, ++ frag->size + frag->size_adjust); ++ } ++ } ++ ++ i = 0; ++ ++ for (frag = rd->frag; frag < fragend; frag++) ++ { ++ const struct relax_state *state, *istate; ++ struct avr32_reloc_data *r_data = NULL; ++ ++ istate = &relax_state[frag->initial_state]; ++ state = &relax_state[frag->state]; ++ ++ if (rd->reloc_data) ++ r_data = &rd->reloc_data[frag->rela - relocs]; ++ ++ BFD_ASSERT((long)(frag->size + frag->size_adjust) >= 0); ++ BFD_ASSERT(state->reftype != REF_CPOOL ++ || r_data->add_frag->refcount > 0); ++ ++ if (istate->reftype == REF_CPOOL && state->reftype != REF_CPOOL) ++ { ++ struct fragment *ifrag; ++ ++ /* An indirect reference through the cpool has been ++ converted to a direct reference. We must update the ++ reloc to point to the symbol itself instead of the ++ constant pool entry. The reloc type will be updated ++ later. */ ++ ifrag = r_data->add_frag; ++ frag->rela->r_info = ifrag->rela->r_info; ++ frag->rela->r_addend = ifrag->rela->r_addend; ++ ++ /* Copy the reloc data so the addend will be adjusted ++ correctly later. */ ++ *r_data = rd->reloc_data[ifrag->rela - relocs]; ++ } ++ ++ /* Move all relocs covered by this frag. */ ++ if (frag->rela) ++ BFD_ASSERT(&relocs[i] <= frag->rela); ++ else ++ BFD_ASSERT((frag + 1) == fragend && frag->state == RS_NONE); ++ ++ if (frag == rd->frag) ++ BFD_ASSERT(i == 0); ++ else ++ BFD_ASSERT(&relocs[i] > frag[-1].rela); ++ ++ /* If non-null, frag->rela is the last relocation in the ++ fragment. frag->rela can only be null in the last ++ fragment, so in that case, we'll just do the rest. */ ++ for (; (i < sec->reloc_count ++ && (!frag->rela || &relocs[i] <= frag->rela)); i++) ++ { ++ RDBG("[%4u] r_offset 0x%08lx -> 0x%08lx\n", i, relocs[i].r_offset, ++ relocs[i].r_offset + frag->offset_adjust); ++ relocs[i].r_offset += frag->offset_adjust; ++ } ++ ++ if (frag->refcount == 0) ++ { ++ /* If this frag is to be discarded, make sure we won't ++ relocate it later on. */ ++ BFD_ASSERT(frag->state == RS_CPENT); ++ frag->rela->r_info = ELF_R_INFO(ELF_R_SYM(frag->rela->r_info), ++ R_AVR32_NONE); ++ } ++ else if (frag->state == RS_ALIGN) ++ { ++ bfd_vma addr, addr_end; ++ ++ addr = frag->rela->r_offset; ++ addr_end = (frag->offset + frag->offset_adjust ++ + frag->size + frag->size_adjust); ++ ++ /* If the section is executable, insert NOPs. ++ Otherwise, insert zeroes. */ ++ if (sec->flags & SEC_CODE) ++ { ++ if (addr & 1) ++ { ++ bfd_put_8(abfd, 0, contents + addr); ++ addr++; ++ } ++ ++ BFD_ASSERT(!((addr_end - addr) & 1)); ++ ++ while (addr < addr_end) ++ { ++ bfd_put_16(abfd, NOP_OPCODE, contents + addr); ++ addr += 2; ++ } ++ } ++ else ++ memset(contents + addr, 0, addr_end - addr); ++ } ++ else if (state->opcode_mask) ++ { ++ bfd_vma insn; ++ ++ /* Update the opcode and the relocation type unless it's a ++ "special" relax state (i.e. RS_NONE, RS_ALIGN or ++ RS_CPENT.), in which case the opcode mask is zero. */ ++ insn = bfd_get_32(abfd, contents + frag->rela->r_offset); ++ insn &= ~state->opcode_mask; ++ insn |= state->opcode; ++ RDBG(" 0x%lx: inserting insn %08lx\n", ++ frag->rela->r_offset, insn); ++ bfd_put_32(abfd, insn, contents + frag->rela->r_offset); ++ ++ frag->rela->r_info = ELF_R_INFO(ELF_R_SYM(frag->rela->r_info), ++ state->r_type); ++ } ++ ++ if ((frag + 1) == fragend) ++ BFD_ASSERT((frag->offset + frag->size + frag->offset_adjust ++ + frag->size_adjust) == sec->size); ++ else ++ BFD_ASSERT((frag->offset + frag->size + frag->offset_adjust ++ + frag->size_adjust) ++ == (frag[1].offset + frag[1].offset_adjust)); ++ } ++ } ++ ++ /* Adjust reloc addends and DIFF32 differences */ ++ if (!adjust_relocs(abfd, sec, info)) ++ return FALSE; ++ ++ ret = TRUE; ++ ++ out: ++ release_contents(sec, contents); ++ release_internal_relocs(sec, relocs); ++ return ret; ++} ++ ++static bfd_boolean ++avr32_elf_relax_section(bfd *abfd, asection *sec, ++ struct bfd_link_info *info, bfd_boolean *again) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct avr32_relax_data *rd; ++ ++ *again = FALSE; ++ if (info->relocatable) ++ return TRUE; ++ ++ htab = avr32_elf_hash_table(info); ++ if ((!(sec->flags & SEC_RELOC) || sec->reloc_count == 0) ++ && sec != htab->sgot) ++ return TRUE; ++ ++ if (!htab->relocations_analyzed) ++ { ++ if (!analyze_relocations(info)) ++ return FALSE; ++ htab->relocations_analyzed = TRUE; ++ } ++ ++ rd = avr32_relax_data(sec); ++ ++ if (rd->iteration != htab->relax_iteration) ++ { ++ if (!htab->repeat_pass) ++ htab->relax_pass++; ++ htab->relax_iteration++; ++ htab->repeat_pass = FALSE; ++ } ++ ++ rd->iteration++; ++ ++ switch (htab->relax_pass) ++ { ++ case RELAX_PASS_SIZE_FRAGS: ++ if (!avr32_size_frags(abfd, sec, info)) ++ return FALSE; ++ *again = TRUE; ++ break; ++ case RELAX_PASS_MOVE_DATA: ++ if (!avr32_move_data(abfd, sec, info)) ++ return FALSE; ++ break; ++ } ++ ++ return TRUE; ++} ++ ++ ++/* Relocation */ ++ ++static bfd_reloc_status_type ++avr32_check_reloc_value(asection *sec, Elf_Internal_Rela *rela, ++ bfd_signed_vma relocation, reloc_howto_type *howto); ++static bfd_reloc_status_type ++avr32_final_link_relocate(reloc_howto_type *howto, bfd *input_bfd, ++ asection *input_section, bfd_byte *contents, ++ Elf_Internal_Rela *rel, bfd_vma value); ++static bfd_boolean ++avr32_elf_relocate_section(bfd *output_bfd, struct bfd_link_info *info, ++ bfd *input_bfd, asection *input_section, ++ bfd_byte *contents, Elf_Internal_Rela *relocs, ++ Elf_Internal_Sym *local_syms, ++ asection **local_sections); ++ ++ ++#define symbol_address(symbol) \ ++ symbol->value + symbol->section->output_section->vma \ ++ + symbol->section->output_offset ++ ++#define avr32_elf_insert_field(size, field, abfd, reloc_entry, data) \ ++ do \ ++ { \ ++ unsigned long x; \ ++ x = bfd_get_##size (abfd, data + reloc_entry->address); \ ++ x &= ~reloc_entry->howto->dst_mask; \ ++ x |= field & reloc_entry->howto->dst_mask; \ ++ bfd_put_##size (abfd, (bfd_vma) x, data + reloc_entry->address); \ ++ } \ ++ while(0) ++ ++static bfd_reloc_status_type ++avr32_check_reloc_value(asection *sec ATTRIBUTE_UNUSED, ++ Elf_Internal_Rela *rela ATTRIBUTE_UNUSED, ++ bfd_signed_vma relocation, ++ reloc_howto_type *howto) ++{ ++ bfd_vma reloc_u; ++ ++ /* We take "complain_overflow_dont" to mean "don't complain on ++ alignment either". This way, we don't have to special-case ++ R_AVR32_HI16 */ ++ if (howto->complain_on_overflow == complain_overflow_dont) ++ return bfd_reloc_ok; ++ ++ /* Check if the value is correctly aligned */ ++ if (relocation & ((1 << howto->rightshift) - 1)) ++ { ++ RDBG("misaligned: %s<%s+%lx>: %s: 0x%lx (align %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, relocation, howto->rightshift); ++ return bfd_reloc_overflow; ++ } ++ ++ /* Now, get rid of the unnecessary bits */ ++ relocation >>= howto->rightshift; ++ reloc_u = (bfd_vma)relocation; ++ ++ switch (howto->complain_on_overflow) ++ { ++ case complain_overflow_unsigned: ++ case complain_overflow_bitfield: ++ if (reloc_u > (unsigned long)((1 << howto->bitsize) - 1)) ++ { ++ RDBG("unsigned overflow: %s<%s+%lx>: %s: 0x%lx (size %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, reloc_u, howto->bitsize); ++ RDBG("reloc vma: 0x%lx\n", ++ sec->output_section->vma + sec->output_offset + rela->r_offset); ++ ++ return bfd_reloc_overflow; ++ } ++ break; ++ case complain_overflow_signed: ++ if (relocation > (1 << (howto->bitsize - 1)) - 1) ++ { ++ RDBG("signed overflow: %s<%s+%lx>: %s: 0x%lx (size %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, reloc_u, howto->bitsize); ++ RDBG("reloc vma: 0x%lx\n", ++ sec->output_section->vma + sec->output_offset + rela->r_offset); ++ ++ return bfd_reloc_overflow; ++ } ++ if (relocation < -(1 << (howto->bitsize - 1))) ++ { ++ RDBG("signed overflow: %s<%s+%lx>: %s: -0x%lx (size %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, -relocation, howto->bitsize); ++ RDBG("reloc vma: 0x%lx\n", ++ sec->output_section->vma + sec->output_offset + rela->r_offset); ++ ++ return bfd_reloc_overflow; ++ } ++ break; ++ default: ++ abort(); ++ } ++ ++ return bfd_reloc_ok; ++} ++ ++ ++static bfd_reloc_status_type ++avr32_final_link_relocate(reloc_howto_type *howto, ++ bfd *input_bfd, ++ asection *input_section, ++ bfd_byte *contents, ++ Elf_Internal_Rela *rel, ++ bfd_vma value) ++{ ++ bfd_vma field; ++ bfd_vma relocation; ++ bfd_reloc_status_type status; ++ bfd_byte *p = contents + rel->r_offset; ++ unsigned long x; ++ ++ pr_debug(" (6b) final link relocate\n"); ++ ++ /* Sanity check the address */ ++ if (rel->r_offset > input_section->size) ++ { ++ (*_bfd_error_handler) ++ ("%B: %A+0x%lx: offset out of range (section size: 0x%lx)", ++ input_bfd, input_section, rel->r_offset, input_section->size); ++ return bfd_reloc_outofrange; ++ } ++ ++ relocation = value + rel->r_addend; ++ ++ if (howto->pc_relative) ++ { ++ bfd_vma addr; ++ ++ addr = input_section->output_section->vma ++ + input_section->output_offset + rel->r_offset; ++ addr &= ~0UL << howto->rightshift; ++ relocation -= addr; ++ } ++ ++ switch (ELF32_R_TYPE(rel->r_info)) ++ { ++ case R_AVR32_16N_PCREL: ++ /* sub reg, pc, . - (sym + addend) */ ++ relocation = -relocation; ++ break; ++ } ++ ++ status = avr32_check_reloc_value(input_section, rel, relocation, howto); ++ ++ relocation >>= howto->rightshift; ++ if (howto->bitsize == 21) ++ field = (relocation & 0xffff) ++ | ((relocation & 0x10000) << 4) ++ | ((relocation & 0x1e0000) << 8); ++ else if (howto->bitsize == 12) ++ field = (relocation & 0xff) | ((relocation & 0xf00) << 4); ++ else if (howto->bitsize == 10) ++ field = ((relocation & 0xff) << 4) ++ | ((relocation & 0x300) >> 8); ++ else ++ field = relocation << howto->bitpos; ++ ++ switch (howto->size) ++ { ++ case 0: ++ x = bfd_get_8 (input_bfd, p); ++ x &= ~howto->dst_mask; ++ x |= field & howto->dst_mask; ++ bfd_put_8 (input_bfd, (bfd_vma) x, p); ++ break; ++ case 1: ++ x = bfd_get_16 (input_bfd, p); ++ x &= ~howto->dst_mask; ++ x |= field & howto->dst_mask; ++ bfd_put_16 (input_bfd, (bfd_vma) x, p); ++ break; ++ case 2: ++ x = bfd_get_32 (input_bfd, p); ++ x &= ~howto->dst_mask; ++ x |= field & howto->dst_mask; ++ bfd_put_32 (input_bfd, (bfd_vma) x, p); ++ break; ++ default: ++ abort(); ++ } ++ ++ return status; ++} ++ ++/* (6) Apply relocations to the normal (non-dynamic) sections */ ++ ++static bfd_boolean ++avr32_elf_relocate_section(bfd *output_bfd, struct bfd_link_info *info, ++ bfd *input_bfd, asection *input_section, ++ bfd_byte *contents, Elf_Internal_Rela *relocs, ++ Elf_Internal_Sym *local_syms, ++ asection **local_sections) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Rela *rel, *relend; ++ struct elf_link_hash_entry **sym_hashes; ++ struct got_entry **local_got_ents; ++ asection *sgot; ++ asection *srelgot; ++ ++ pr_debug("(6) relocate section %s:<%s> (size 0x%lx)\n", ++ input_bfd->filename, input_section->name, input_section->size); ++ ++ /* If we're doing a partial link, we don't have to do anything since ++ we're using RELA relocations */ ++ if (info->relocatable) ++ return TRUE; ++ ++ htab = avr32_elf_hash_table(info); ++ symtab_hdr = &elf_tdata(input_bfd)->symtab_hdr; ++ sym_hashes = elf_sym_hashes(input_bfd); ++ local_got_ents = elf_local_got_ents(input_bfd); ++ sgot = htab->sgot; ++ srelgot = htab->srelgot; ++ ++ relend = relocs + input_section->reloc_count; ++ for (rel = relocs; rel < relend; rel++) ++ { ++ unsigned long r_type, r_symndx; ++ reloc_howto_type *howto; ++ Elf_Internal_Sym *sym = NULL; ++ struct elf_link_hash_entry *h = NULL; ++ asection *sec = NULL; ++ bfd_vma value; ++ bfd_vma offset; ++ bfd_reloc_status_type status; ++ ++ r_type = ELF32_R_TYPE(rel->r_info); ++ r_symndx = ELF32_R_SYM(rel->r_info); ++ ++ if (r_type == R_AVR32_NONE ++ || r_type == R_AVR32_ALIGN ++ || r_type == R_AVR32_DIFF32 ++ || r_type == R_AVR32_DIFF16 ++ || r_type == R_AVR32_DIFF8) ++ continue; ++ ++ /* Sanity check */ ++ if (r_type > R_AVR32_max) ++ { ++ bfd_set_error(bfd_error_bad_value); ++ return FALSE; ++ } ++ ++ howto = &elf_avr32_howto_table[r_type]; ++ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ sym = local_syms + r_symndx; ++ sec = local_sections[r_symndx]; ++ ++ pr_debug(" (6a) processing %s against local symbol %lu\n", ++ howto->name, r_symndx); ++ ++ /* The following function changes rel->r_addend behind our back. */ ++ value = _bfd_elf_rela_local_sym(output_bfd, sym, &sec, rel); ++ pr_debug(" => value: %lx, addend: %lx\n", value, rel->r_addend); ++ } ++ else ++ { ++ if (sym_hashes == NULL) ++ return FALSE; ++ ++ h = sym_hashes[r_symndx - symtab_hdr->sh_info]; ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ pr_debug(" (6a) processing %s against symbol %s\n", ++ howto->name, h->root.root.string); ++ ++ if (h->root.type == bfd_link_hash_defined ++ || h->root.type == bfd_link_hash_defweak) ++ { ++ bfd_boolean dyn; ++ ++ dyn = htab->root.dynamic_sections_created; ++ sec = h->root.u.def.section; ++ ++ if (sec->output_section) ++ value = (h->root.u.def.value ++ + sec->output_section->vma ++ + sec->output_offset); ++ else ++ value = h->root.u.def.value; ++ } ++ else if (h->root.type == bfd_link_hash_undefweak) ++ value = 0; ++ else if (info->unresolved_syms_in_objects == RM_IGNORE ++ && ELF_ST_VISIBILITY(h->other) == STV_DEFAULT) ++ value = 0; ++ else ++ { ++ bfd_boolean err; ++ err = (info->unresolved_syms_in_objects == RM_GENERATE_ERROR ++ || ELF_ST_VISIBILITY(h->other) != STV_DEFAULT); ++ if (!info->callbacks->undefined_symbol ++ (info, h->root.root.string, input_bfd, ++ input_section, rel->r_offset, err)) ++ return FALSE; ++ value = 0; ++ } ++ ++ pr_debug(" => value: %lx, addend: %lx\n", value, rel->r_addend); ++ } ++ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ BFD_ASSERT(sgot != NULL); ++ ++ if (h != NULL) ++ { ++ BFD_ASSERT(h->got.glist->refcount > 0); ++ offset = h->got.glist->offset; ++ ++ BFD_ASSERT(offset < sgot->size); ++ if (!elf_hash_table(info)->dynamic_sections_created ++ || (h->def_regular ++ && (!info->shared ++ || info->symbolic ++ || h->dynindx == -1))) ++ { ++ /* This is actually a static link, or it is a ++ -Bsymbolic link and the symbol is defined ++ locally, or the symbol was forced to be local. */ ++ bfd_put_32(output_bfd, value, sgot->contents + offset); ++ } ++ } ++ else ++ { ++ BFD_ASSERT(local_got_ents && ++ local_got_ents[r_symndx]->refcount > 0); ++ offset = local_got_ents[r_symndx]->offset; ++ ++ /* Local GOT entries don't have relocs. If this is a ++ shared library, the dynamic linker will add the load ++ address to the initial value at startup. */ ++ BFD_ASSERT(offset < sgot->size); ++ pr_debug("Initializing GOT entry at offset %lu: 0x%lx\n", ++ offset, value); ++ bfd_put_32 (output_bfd, value, sgot->contents + offset); ++ } ++ ++ value = sgot->output_offset + offset; ++ pr_debug("GOT reference: New value %lx\n", value); ++ break; ++ ++ case R_AVR32_GOTPC: ++ /* This relocation type is for constant pool entries used in ++ the calculation "Rd = PC - (PC - GOT)", where the ++ constant pool supplies the constant (PC - GOT) ++ offset. The symbol value + addend indicates where the ++ value of PC is taken. */ ++ value -= sgot->output_section->vma; ++ break; ++ ++ case R_AVR32_32_PCREL: ++ /* We must adjust r_offset to account for discarded data in ++ the .eh_frame section. This is probably not the right ++ way to do this, since AFAICS all other architectures do ++ it some other way. I just can't figure out how... */ ++ { ++ bfd_vma r_offset; ++ ++ r_offset = _bfd_elf_section_offset(output_bfd, info, ++ input_section, ++ rel->r_offset); ++ if (r_offset == (bfd_vma)-1 ++ || r_offset == (bfd_vma)-2) ++ continue; ++ rel->r_offset = r_offset; ++ } ++ break; ++ ++ case R_AVR32_32: ++ /* We need to emit a run-time relocation in the following cases: ++ - we're creating a shared library ++ - the symbol is not defined in any regular objects ++ ++ Of course, sections that aren't going to be part of the ++ run-time image will not get any relocs, and undefined ++ symbols won't have any either (only weak undefined ++ symbols should get this far). */ ++ if ((info->shared ++ || (elf_hash_table(info)->dynamic_sections_created ++ && h != NULL ++ && h->def_dynamic ++ && !h->def_regular)) ++ && r_symndx != 0 ++ && (input_section->flags & SEC_ALLOC)) ++ { ++ Elf_Internal_Rela outrel; ++ bfd_byte *loc; ++ bfd_boolean skip, relocate; ++ struct elf_avr32_link_hash_entry *avrh; ++ ++ pr_debug("Going to generate dynamic reloc...\n"); ++ ++ skip = FALSE; ++ relocate = FALSE; ++ ++ outrel.r_offset = _bfd_elf_section_offset(output_bfd, info, ++ input_section, ++ rel->r_offset); ++ if (outrel.r_offset == (bfd_vma)-1) ++ skip = TRUE; ++ else if (outrel.r_offset == (bfd_vma)-2) ++ skip = TRUE, relocate = TRUE; ++ ++ outrel.r_offset += (input_section->output_section->vma ++ + input_section->output_offset); ++ ++ pr_debug(" ... offset %lx, dynindx %ld\n", ++ outrel.r_offset, h ? h->dynindx : -1); ++ ++ if (skip) ++ memset(&outrel, 0, sizeof(outrel)); ++ else ++ { ++ avrh = (struct elf_avr32_link_hash_entry *)h; ++ /* h->dynindx may be -1 if this symbol was marked to ++ become local. */ ++ if (h == NULL ++ || ((info->symbolic || h->dynindx == -1) ++ && h->def_regular)) ++ { ++ relocate = TRUE; ++ outrel.r_info = ELF32_R_INFO(0, R_AVR32_RELATIVE); ++ outrel.r_addend = value + rel->r_addend; ++ pr_debug(" ... R_AVR32_RELATIVE\n"); ++ } ++ else ++ { ++ BFD_ASSERT(h->dynindx != -1); ++ relocate = TRUE; ++ outrel.r_info = ELF32_R_INFO(h->dynindx, R_AVR32_GLOB_DAT); ++ outrel.r_addend = rel->r_addend; ++ pr_debug(" ... R_AVR32_GLOB_DAT\n"); ++ } ++ } ++ ++ pr_debug("srelgot reloc_count: %d, size %lu\n", ++ srelgot->reloc_count, srelgot->size); ++ ++ loc = srelgot->contents; ++ loc += srelgot->reloc_count++ * sizeof(Elf32_External_Rela); ++ bfd_elf32_swap_reloca_out(output_bfd, &outrel, loc); ++ ++ BFD_ASSERT(srelgot->reloc_count * sizeof(Elf32_External_Rela) ++ <= srelgot->size); ++ ++ if (!relocate) ++ continue; ++ } ++ break; ++ } ++ ++ status = avr32_final_link_relocate(howto, input_bfd, input_section, ++ contents, rel, value); ++ ++ switch (status) ++ { ++ case bfd_reloc_ok: ++ break; ++ ++ case bfd_reloc_overflow: ++ { ++ const char *name; ++ ++ if (h != NULL) ++ name = h->root.root.string; ++ else ++ { ++ name = bfd_elf_string_from_elf_section(input_bfd, ++ symtab_hdr->sh_link, ++ sym->st_name); ++ if (name == NULL) ++ return FALSE; ++ if (*name == '\0') ++ name = bfd_section_name(input_bfd, sec); ++ } ++ if (!((*info->callbacks->reloc_overflow) ++ (info, (h ? &h->root : NULL), name, howto->name, ++ rel->r_addend, input_bfd, input_section, rel->r_offset))) ++ return FALSE; ++ } ++ break; ++ ++ case bfd_reloc_outofrange: ++ default: ++ abort(); ++ } ++ } ++ ++ return TRUE; ++} ++ ++ ++/* Additional processing of dynamic sections after relocation */ ++ ++static bfd_boolean ++avr32_elf_finish_dynamic_symbol(bfd *output_bfd, struct bfd_link_info *info, ++ struct elf_link_hash_entry *h, ++ Elf_Internal_Sym *sym); ++static bfd_boolean ++avr32_elf_finish_dynamic_sections(bfd *output_bfd, struct bfd_link_info *info); ++ ++ ++/* (7) Initialize the contents of a dynamic symbol and/or emit ++ relocations for it */ ++ ++static bfd_boolean ++avr32_elf_finish_dynamic_symbol(bfd *output_bfd, struct bfd_link_info *info, ++ struct elf_link_hash_entry *h, ++ Elf_Internal_Sym *sym) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct got_entry *got; ++ ++ pr_debug("(7) finish dynamic symbol: %s\n", h->root.root.string); ++ ++ htab = avr32_elf_hash_table(info); ++ got = h->got.glist; ++ ++ if (got && got->refcount > 0) ++ { ++ asection *sgot; ++ asection *srelgot; ++ Elf_Internal_Rela rel; ++ bfd_byte *loc; ++ ++ /* This symbol has an entry in the GOT. Set it up. */ ++ sgot = htab->sgot; ++ srelgot = htab->srelgot; ++ BFD_ASSERT(sgot && srelgot); ++ ++ rel.r_offset = (sgot->output_section->vma ++ + sgot->output_offset ++ + got->offset); ++ ++ /* If this is a static link, or it is a -Bsymbolic link and the ++ symbol is defined locally or was forced to be local because ++ of a version file, we just want to emit a RELATIVE reloc. The ++ entry in the global offset table will already have been ++ initialized in the relocate_section function. */ ++ if ((info->shared ++ && !info->symbolic ++ && h->dynindx != -1) ++ || (htab->root.dynamic_sections_created ++ && h->def_dynamic ++ && !h->def_regular)) ++ { ++ bfd_put_32(output_bfd, 0, sgot->contents + got->offset); ++ rel.r_info = ELF32_R_INFO(h->dynindx, R_AVR32_GLOB_DAT); ++ rel.r_addend = 0; ++ ++ pr_debug("GOT reloc R_AVR32_GLOB_DAT, dynindx: %ld\n", h->dynindx); ++ pr_debug(" srelgot reloc_count: %d, size: %lu\n", ++ srelgot->reloc_count, srelgot->size); ++ ++ loc = (srelgot->contents ++ + srelgot->reloc_count++ * sizeof(Elf32_External_Rela)); ++ bfd_elf32_swap_reloca_out(output_bfd, &rel, loc); ++ ++ BFD_ASSERT(srelgot->reloc_count * sizeof(Elf32_External_Rela) ++ <= srelgot->size); ++ } ++ } ++ ++ /* Mark _DYNAMIC and _GLOBAL_OFFSET_TABLE_ as absolute */ ++ if (strcmp(h->root.root.string, "_DYNAMIC") == 0 ++ || strcmp(h->root.root.string, "_GLOBAL_OFFSET_TABLE_") == 0) ++ sym->st_shndx = SHN_ABS; ++ ++ return TRUE; ++} ++ ++/* (8) Do any remaining initialization of the dynamic sections */ ++ ++static bfd_boolean ++avr32_elf_finish_dynamic_sections(bfd *output_bfd, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ asection *sgot, *sdyn; ++ ++ pr_debug("(8) finish dynamic sections\n"); ++ ++ htab = avr32_elf_hash_table(info); ++ sgot = htab->sgot; ++ sdyn = bfd_get_section_by_name(htab->root.dynobj, ".dynamic"); ++ ++ if (htab->root.dynamic_sections_created) ++ { ++ Elf32_External_Dyn *dyncon, *dynconend; ++ ++ BFD_ASSERT(sdyn && sgot && sgot->size >= AVR32_GOT_HEADER_SIZE); ++ ++ dyncon = (Elf32_External_Dyn *)sdyn->contents; ++ dynconend = (Elf32_External_Dyn *)(sdyn->contents + sdyn->size); ++ for (; dyncon < dynconend; dyncon++) ++ { ++ Elf_Internal_Dyn dyn; ++ asection *s; ++ ++ bfd_elf32_swap_dyn_in(htab->root.dynobj, dyncon, &dyn); ++ ++ switch (dyn.d_tag) ++ { ++ default: ++ break; ++ ++ case DT_PLTGOT: ++ s = sgot->output_section; ++ BFD_ASSERT(s != NULL); ++ dyn.d_un.d_ptr = s->vma; ++ bfd_elf32_swap_dyn_out(output_bfd, &dyn, dyncon); ++ break; ++ ++ case DT_AVR32_GOTSZ: ++ s = sgot->output_section; ++ BFD_ASSERT(s != NULL); ++ dyn.d_un.d_val = s->size; ++ bfd_elf32_swap_dyn_out(output_bfd, &dyn, dyncon); ++ break; ++ } ++ } ++ ++ /* Fill in the first two entries in the global offset table */ ++ bfd_put_32(output_bfd, ++ sdyn->output_section->vma + sdyn->output_offset, ++ sgot->contents); ++ ++ /* The runtime linker will fill this one in with the address of ++ the run-time link map */ ++ bfd_put_32(output_bfd, 0, sgot->contents + 4); ++ } ++ ++ if (sgot) ++ elf_section_data(sgot->output_section)->this_hdr.sh_entsize = 4; ++ ++ return TRUE; ++} ++ ++ ++/* AVR32-specific private ELF data */ ++ ++static bfd_boolean ++avr32_elf_set_private_flags(bfd *abfd, flagword flags); ++static bfd_boolean ++avr32_elf_copy_private_bfd_data(bfd *ibfd, bfd *obfd); ++static bfd_boolean ++avr32_elf_merge_private_bfd_data(bfd *ibfd, bfd *obfd); ++static bfd_boolean ++avr32_elf_print_private_bfd_data(bfd *abfd, void *ptr); ++ ++static bfd_boolean ++avr32_elf_set_private_flags(bfd *abfd, flagword flags) ++{ ++ elf_elfheader(abfd)->e_flags = flags; ++ elf_flags_init(abfd) = TRUE; ++ ++ return TRUE; ++} ++ ++/* Copy backend specific data from one object module to another. */ ++ ++static bfd_boolean ++avr32_elf_copy_private_bfd_data(bfd *ibfd, bfd *obfd) ++{ ++ elf_elfheader(obfd)->e_flags = elf_elfheader(ibfd)->e_flags; ++ return TRUE; ++} ++ ++/* Merge backend specific data from an object file to the output ++ object file when linking. */ ++ ++static bfd_boolean ++avr32_elf_merge_private_bfd_data(bfd *ibfd, bfd *obfd) ++{ ++ flagword out_flags, in_flags; ++ ++ pr_debug("(0) merge_private_bfd_data: %s -> %s\n", ++ ibfd->filename, obfd->filename); ++ ++ in_flags = elf_elfheader(ibfd)->e_flags; ++ out_flags = elf_elfheader(obfd)->e_flags; ++ ++ if (elf_flags_init(obfd)) ++ { ++ /* If one of the inputs are non-PIC, the output must be ++ considered non-PIC. The same applies to linkrelax. */ ++ if (!(in_flags & EF_AVR32_PIC)) ++ out_flags &= ~EF_AVR32_PIC; ++ if (!(in_flags & EF_AVR32_LINKRELAX)) ++ out_flags &= ~EF_AVR32_LINKRELAX; ++ } ++ else ++ { ++ elf_flags_init(obfd) = TRUE; ++ out_flags = in_flags; ++ } ++ ++ elf_elfheader(obfd)->e_flags = out_flags; ++ ++ return TRUE; ++} ++ ++static bfd_boolean ++avr32_elf_print_private_bfd_data(bfd *abfd, void *ptr) ++{ ++ FILE *file = (FILE *)ptr; ++ unsigned long flags; ++ ++ BFD_ASSERT(abfd != NULL && ptr != NULL); ++ ++ _bfd_elf_print_private_bfd_data(abfd, ptr); ++ ++ flags = elf_elfheader(abfd)->e_flags; ++ ++ fprintf(file, _("private flags = %lx:"), elf_elfheader(abfd)->e_flags); ++ ++ if (flags & EF_AVR32_PIC) ++ fprintf(file, " [PIC]"); ++ if (flags & EF_AVR32_LINKRELAX) ++ fprintf(file, " [linker relaxable]"); ++ ++ flags &= ~(EF_AVR32_PIC | EF_AVR32_LINKRELAX); ++ ++ if (flags) ++ fprintf(file, _("")); ++ ++ fputc('\n', file); ++ ++ return TRUE; ++} ++ ++/* Set avr32-specific linker options. */ ++void bfd_elf32_avr32_set_options(struct bfd_link_info *info, ++ int direct_data_refs) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ ++ htab = avr32_elf_hash_table (info); ++ htab->direct_data_refs = !!direct_data_refs; ++} ++ ++ ++ ++/* Understanding core dumps */ ++ ++static bfd_boolean ++avr32_elf_grok_prstatus(bfd *abfd, Elf_Internal_Note *note); ++static bfd_boolean ++avr32_elf_grok_psinfo(bfd *abfd, Elf_Internal_Note *note); ++ ++static bfd_boolean ++avr32_elf_grok_prstatus(bfd *abfd, Elf_Internal_Note *note) ++{ ++ /* Linux/AVR32B elf_prstatus */ ++ if (note->descsz != 148) ++ return FALSE; ++ ++ /* pr_cursig */ ++ elf_tdata(abfd)->core_signal = bfd_get_16(abfd, note->descdata + 12); ++ ++ /* pr_pid */ ++ elf_tdata(abfd)->core_pid = bfd_get_32(abfd, note->descdata + 24); ++ ++ /* Make a ".reg/999" section for pr_reg. The size is for 16 ++ general-purpose registers, SR and r12_orig (18 * 4 = 72). */ ++ return _bfd_elfcore_make_pseudosection(abfd, ".reg", 72, ++ note->descpos + 72); ++} ++ ++static bfd_boolean ++avr32_elf_grok_psinfo(bfd *abfd, Elf_Internal_Note *note) ++{ ++ /* Linux/AVR32B elf_prpsinfo */ ++ if (note->descsz != 128) ++ return FALSE; ++ ++ elf_tdata(abfd)->core_program ++ = _bfd_elfcore_strndup(abfd, note->descdata + 32, 16); ++ elf_tdata(abfd)->core_command ++ = _bfd_elfcore_strndup(abfd, note->descdata + 48, 80); ++ ++ /* Note that for some reason, a spurious space is tacked ++ onto the end of the args in some (at least one anyway) ++ implementations, so strip it off if it exists. */ ++ ++ { ++ char *command = elf_tdata (abfd)->core_command; ++ int n = strlen (command); ++ ++ if (0 < n && command[n - 1] == ' ') ++ command[n - 1] = '\0'; ++ } ++ ++ return TRUE; ++} ++ ++ ++#define ELF_ARCH bfd_arch_avr32 ++#define ELF_MACHINE_CODE EM_AVR32 ++#define ELF_MAXPAGESIZE 1024 ++ ++#define TARGET_BIG_SYM bfd_elf32_avr32_vec ++#define TARGET_BIG_NAME "elf32-avr32" ++ ++#define elf_backend_grok_prstatus avr32_elf_grok_prstatus ++#define elf_backend_grok_psinfo avr32_elf_grok_psinfo ++ ++/* Only RELA relocations are used */ ++#define elf_backend_may_use_rel_p 0 ++#define elf_backend_may_use_rela_p 1 ++#define elf_backend_default_use_rela_p 1 ++#define elf_backend_rela_normal 1 ++#define elf_info_to_howto_rel NULL ++#define elf_info_to_howto avr32_info_to_howto ++ ++#define bfd_elf32_bfd_copy_private_bfd_data avr32_elf_copy_private_bfd_data ++#define bfd_elf32_bfd_merge_private_bfd_data avr32_elf_merge_private_bfd_data ++#define bfd_elf32_bfd_set_private_flags avr32_elf_set_private_flags ++#define bfd_elf32_bfd_print_private_bfd_data avr32_elf_print_private_bfd_data ++#define bfd_elf32_new_section_hook avr32_elf_new_section_hook ++ ++#define elf_backend_gc_mark_hook avr32_elf_gc_mark_hook ++#define elf_backend_gc_sweep_hook avr32_elf_gc_sweep_hook ++#define elf_backend_relocate_section avr32_elf_relocate_section ++#define elf_backend_copy_indirect_symbol avr32_elf_copy_indirect_symbol ++#define elf_backend_create_dynamic_sections avr32_elf_create_dynamic_sections ++#define bfd_elf32_bfd_link_hash_table_create avr32_elf_link_hash_table_create ++#define elf_backend_adjust_dynamic_symbol avr32_elf_adjust_dynamic_symbol ++#define elf_backend_size_dynamic_sections avr32_elf_size_dynamic_sections ++#define elf_backend_finish_dynamic_symbol avr32_elf_finish_dynamic_symbol ++#define elf_backend_finish_dynamic_sections avr32_elf_finish_dynamic_sections ++ ++#define bfd_elf32_bfd_relax_section avr32_elf_relax_section ++ ++/* Find out which symbols need an entry in .got. */ ++#define elf_backend_check_relocs avr32_check_relocs ++#define elf_backend_can_refcount 1 ++#define elf_backend_can_gc_sections 1 ++#define elf_backend_plt_readonly 1 ++#define elf_backend_plt_not_loaded 1 ++#define elf_backend_want_plt_sym 0 ++#define elf_backend_plt_alignment 2 ++#define elf_backend_want_dynbss 0 ++#define elf_backend_want_got_plt 0 ++#define elf_backend_want_got_sym 1 ++#define elf_backend_got_header_size AVR32_GOT_HEADER_SIZE ++ ++#include "elf32-target.h" +--- /dev/null ++++ b/bfd/elf32-avr32.h +@@ -0,0 +1,23 @@ ++/* AVR32-specific support for 32-bit ELF. ++ Copyright 2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2 of the License, or ++ (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, ++ but WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ GNU General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ ++ ++void bfd_elf32_avr32_set_options(struct bfd_link_info *info, ++ int direct_data_refs); +--- a/bfd/elf-bfd.h ++++ b/bfd/elf-bfd.h +@@ -1503,6 +1503,10 @@ struct elf_obj_tdata + find_nearest_line. */ + struct mips_elf_find_line *find_line_info; + ++ /* Used by AVR32 ELF relaxation code. Contains an array of pointers ++ for each local symbol to the fragment where it is defined. */ ++ struct fragment **local_sym_frag; ++ + /* A place to stash dwarf1 info for this bfd. */ + struct dwarf1_debug *dwarf1_find_line_info; + +--- a/bfd/Makefile.am ++++ b/bfd/Makefile.am +@@ -73,6 +73,7 @@ ALL_MACHINES = \ + cpu-arc.lo \ + cpu-arm.lo \ + cpu-avr.lo \ ++ cpu-avr32.lo \ + cpu-bfin.lo \ + cpu-cr16.lo \ + cpu-cr16c.lo \ +@@ -269,6 +270,7 @@ BFD32_BACKENDS = \ + elf32-arc.lo \ + elf32-arm.lo \ + elf32-avr.lo \ ++ elf32-avr32.lo \ + elf32-bfin.lo \ + elf32-cr16.lo \ + elf32-cr16c.lo \ +--- a/bfd/reloc.c ++++ b/bfd/reloc.c +@@ -4052,6 +4052,131 @@ ENUMDOC + instructions + + ENUM ++ BFD_RELOC_AVR32_DIFF32 ++ENUMX ++ BFD_RELOC_AVR32_DIFF16 ++ENUMX ++ BFD_RELOC_AVR32_DIFF8 ++ENUMDOC ++ Difference between two labels: L2 - L1. The value of L1 is encoded ++ as sym + addend, while the initial difference after assembly is ++ inserted into the object file by the assembler. ++ENUM ++ BFD_RELOC_AVR32_GOT32 ++ENUMX ++ BFD_RELOC_AVR32_GOT16 ++ENUMX ++ BFD_RELOC_AVR32_GOT8 ++ENUMDOC ++ Reference to a symbol through the Global Offset Table. The linker ++ will allocate an entry for symbol in the GOT and insert the offset ++ of this entry as the relocation value. ++ENUM ++ BFD_RELOC_AVR32_21S ++ENUMX ++ BFD_RELOC_AVR32_16U ++ENUMX ++ BFD_RELOC_AVR32_16S ++ENUMX ++ BFD_RELOC_AVR32_SUB5 ++ENUMX ++ BFD_RELOC_AVR32_8S_EXT ++ENUMX ++ BFD_RELOC_AVR32_8S ++ENUMX ++ BFD_RELOC_AVR32_15S ++ENUMDOC ++ Normal (non-pc-relative) code relocations. Alignment and signedness ++ is indicated by the suffixes. S means signed, U means unsigned. W ++ means word-aligned, H means halfword-aligned, neither means ++ byte-aligned (no alignment.) SUB5 is the same relocation as 16S. ++ENUM ++ BFD_RELOC_AVR32_22H_PCREL ++ENUMX ++ BFD_RELOC_AVR32_18W_PCREL ++ENUMX ++ BFD_RELOC_AVR32_16B_PCREL ++ENUMX ++ BFD_RELOC_AVR32_16N_PCREL ++ENUMX ++ BFD_RELOC_AVR32_14UW_PCREL ++ENUMX ++ BFD_RELOC_AVR32_11H_PCREL ++ENUMX ++ BFD_RELOC_AVR32_10UW_PCREL ++ENUMX ++ BFD_RELOC_AVR32_9H_PCREL ++ENUMX ++ BFD_RELOC_AVR32_9UW_PCREL ++ENUMDOC ++ PC-relative relocations are signed if neither 'U' nor 'S' is ++ specified. However, we explicitly tack on a 'B' to indicate no ++ alignment, to avoid confusion with data relocs. All of these resolve ++ to sym + addend - offset, except the one with 'N' (negated) suffix. ++ This particular one resolves to offset - sym - addend. ++ENUM ++ BFD_RELOC_AVR32_GOTPC ++ENUMDOC ++ Subtract the link-time address of the GOT from (symbol + addend) ++ and insert the result. ++ENUM ++ BFD_RELOC_AVR32_GOTCALL ++ENUMX ++ BFD_RELOC_AVR32_LDA_GOT ++ENUMX ++ BFD_RELOC_AVR32_GOT21S ++ENUMX ++ BFD_RELOC_AVR32_GOT18SW ++ENUMX ++ BFD_RELOC_AVR32_GOT16S ++ENUMDOC ++ Reference to a symbol through the GOT. The linker will allocate an ++ entry for symbol in the GOT and insert the offset of this entry as ++ the relocation value. addend must be zero. As usual, 'S' means ++ signed, 'W' means word-aligned, etc. ++ENUM ++ BFD_RELOC_AVR32_32_CPENT ++ENUMDOC ++ 32-bit constant pool entry. I don't think 8- and 16-bit entries make ++ a whole lot of sense. ++ENUM ++ BFD_RELOC_AVR32_CPCALL ++ENUMX ++ BFD_RELOC_AVR32_16_CP ++ENUMX ++ BFD_RELOC_AVR32_9W_CP ++ENUMDOC ++ Constant pool references. Some of these relocations are signed, ++ others are unsigned. It doesn't really matter, since the constant ++ pool always comes after the code that references it. ++ENUM ++ BFD_RELOC_AVR32_ALIGN ++ENUMDOC ++ sym must be the absolute symbol. The addend specifies the alignment ++ order, e.g. if addend is 2, the linker must add padding so that the ++ next address is aligned to a 4-byte boundary. ++ENUM ++ BFD_RELOC_AVR32_14UW ++ENUMX ++ BFD_RELOC_AVR32_10UW ++ENUMX ++ BFD_RELOC_AVR32_10SW ++ENUMX ++ BFD_RELOC_AVR32_STHH_W ++ENUMX ++ BFD_RELOC_AVR32_7UW ++ENUMX ++ BFD_RELOC_AVR32_6S ++ENUMX ++ BFD_RELOC_AVR32_6UW ++ENUMX ++ BFD_RELOC_AVR32_4UH ++ENUMX ++ BFD_RELOC_AVR32_3U ++ENUMDOC ++ Code relocations that will never make it to the output file. ++ ++ENUM + BFD_RELOC_390_12 + ENUMDOC + Direct 12 bit. +--- a/bfd/targets.c ++++ b/bfd/targets.c +@@ -568,6 +568,7 @@ extern const bfd_target b_out_vec_big_ho + extern const bfd_target b_out_vec_little_host; + extern const bfd_target bfd_pei_ia64_vec; + extern const bfd_target bfd_elf32_avr_vec; ++extern const bfd_target bfd_elf32_avr32_vec; + extern const bfd_target bfd_elf32_bfin_vec; + extern const bfd_target bfd_elf32_bfinfdpic_vec; + extern const bfd_target bfd_elf32_big_generic_vec; +@@ -896,6 +897,7 @@ static const bfd_target * const _bfd_tar + &bfd_pei_ia64_vec, + #endif + &bfd_elf32_avr_vec, ++ &bfd_elf32_avr32_vec, + &bfd_elf32_bfin_vec, + &bfd_elf32_bfinfdpic_vec, + +--- a/binutils/doc/binutils.info ++++ b/binutils/doc/binutils.info +@@ -1665,6 +1665,10 @@ equivalent. At least one option from th + useful when attempting to disassemble thumb code produced by other + compilers. + ++ For the AVR32 architectures that support Floating point unit (FPU), ++ specifying '-M decode-fpu' will enable disassembler to print the ++ floating point instruction instead of 'cop' instructions. ++ + For the x86, some of the options duplicate functions of the `-m' + switch, but allow finer grained control. Multiple selections from + the following may be specified as a comma separated string. +--- a/binutils/doc/binutils.texi ++++ b/binutils/doc/binutils.texi +@@ -1935,6 +1935,10 @@ using the switch @option{--disassembler- + useful when attempting to disassemble thumb code produced by other + compilers. + ++For the AVR32 architectures that support Floating point unit (FPU), ++specifying @option{-M decode-fpu} will enable disassembler to print the ++floating point instructions instead of 'cop' instructions. ++ + For the x86, some of the options duplicate functions of the @option{-m} + switch, but allow finer grained control. Multiple selections from the + following may be specified as a comma separated string. +--- a/binutils/doc/objdump.1 ++++ b/binutils/doc/objdump.1 +@@ -425,6 +425,10 @@ using the switch \fB\-\-disassembler\-op + useful when attempting to disassemble thumb code produced by other + compilers. + .Sp ++For the \s-1AVR32\s0 architectures that support Floating point unit (FPU), ++specifying \fB\-M decode\-fpu\fR will enable disassembler to print the ++floating point instructions instead of 'cop' instructions. ++.Sp + For the x86, some of the options duplicate functions of the \fB\-m\fR + switch, but allow finer grained control. Multiple selections from the + following may be specified as a comma separated string. +--- a/binutils/readelf.c ++++ b/binutils/readelf.c +@@ -94,6 +94,7 @@ + #include "elf/arc.h" + #include "elf/arm.h" + #include "elf/avr.h" ++#include "elf/avr32.h" + #include "elf/bfin.h" + #include "elf/cr16.h" + #include "elf/cris.h" +@@ -570,6 +571,7 @@ guess_is_rela (unsigned int e_machine) + case EM_ALPHA: + case EM_ALTERA_NIOS2: + case EM_AVR: ++ case EM_AVR32: + case EM_AVR_OLD: + case EM_BLACKFIN: + case EM_CR16: +@@ -1020,6 +1022,10 @@ dump_relocations (FILE * file, + rtype = elf_avr_reloc_type (type); + break; + ++ case EM_AVR32: ++ rtype = elf_avr32_reloc_type (type); ++ break; ++ + case EM_OLD_SPARCV9: + case EM_SPARC32PLUS: + case EM_SPARCV9: +@@ -1853,6 +1859,7 @@ get_machine_name (unsigned e_machine) + case EM_VAX: return "Digital VAX"; + case EM_AVR_OLD: + case EM_AVR: return "Atmel AVR 8-bit microcontroller"; ++ case EM_AVR32: return "Atmel AVR32 32-bit microprocessor"; + case EM_CRIS: return "Axis Communications 32-bit embedded processor"; + case EM_JAVELIN: return "Infineon Technologies 32-bit embedded cpu"; + case EM_FIREPATH: return "Element 14 64-bit DSP processor"; +--- a/gas/as.c ++++ b/gas/as.c +@@ -445,10 +445,10 @@ parse_args (int * pargc, char *** pargv) + the end of the preceeding line so that it is simpler to + selectively add and remove lines from this list. */ + {"alternate", no_argument, NULL, OPTION_ALTERNATE} +- /* The entry for "a" is here to prevent getopt_long_only() from +- considering that -a is an abbreviation for --alternate. This is +- necessary because -a= is a valid switch but getopt would +- normally reject it since --alternate does not take an argument. */ ++ /* The next two entries are here to prevent getopt_long_only() from ++ considering that -a or -al is an abbreviation for --alternate. ++ This is necessary because -a= is a valid switch but getopt ++ would normally reject it since --alternate does not take an argument. */ + ,{"a", optional_argument, NULL, 'a'} + /* Handle -al=. */ + ,{"al", optional_argument, NULL, OPTION_AL} +@@ -811,8 +811,15 @@ This program has absolutely no warranty. + case 'a': + if (optarg) + { +- if (optarg != old_argv[optind] && optarg[-1] == '=') ++ /* If optarg is part of the -a switch and not a separate argument ++ in its own right, then scan backwards to the just after the -a. ++ This means skipping over both '=' and 'l' which might have been ++ taken to be part of the -a switch itself. */ ++ if (optarg != old_argv[optind]) ++ { ++ while (optarg[-1] == '=' || optarg[-1] == 'l') + --optarg; ++ } + + if (md_parse_option (optc, optarg) != 0) + break; +@@ -1245,7 +1252,7 @@ main (int argc, char ** argv) + keep_it = 0; + + if (!keep_it) +- unlink_if_ordinary (out_file_name); ++ unlink (out_file_name); + + input_scrub_end (); + +--- a/gas/as.h ++++ b/gas/as.h +@@ -110,6 +110,7 @@ typedef int * va_list; + #endif + #define gas_assert(P) \ + ((void) ((P) ? 0 : (as_assert (__FILE__, __LINE__, __PRETTY_FUNCTION__), 0))) ++#define assert(P) gas_assert(P) + #undef abort + #define abort() as_abort (__FILE__, __LINE__, __PRETTY_FUNCTION__) + +--- a/gas/atof-generic.c ++++ b/gas/atof-generic.c +@@ -121,6 +121,21 @@ atof_generic (/* return pointer to just + + switch (first_digit[0]) + { ++ case 's': ++ case 'S': ++ case 'q': ++ case 'Q': ++ if (!strncasecmp ("nan", first_digit+1, 3)) ++ { ++ address_of_generic_floating_point_number->sign = 0; ++ address_of_generic_floating_point_number->exponent = 0; ++ address_of_generic_floating_point_number->leader = ++ address_of_generic_floating_point_number->low; ++ *address_of_string_pointer = first_digit + 4; ++ return 0; ++ } ++ break; ++ + case 'n': + case 'N': + if (!strncasecmp ("nan", first_digit, 3)) +--- a/gas/config/atof-vax.c ++++ b/gas/config/atof-vax.c +@@ -268,9 +268,27 @@ flonum_gen2vax (int format_letter, /* On + int exponent_skippage; + LITTLENUM_TYPE word1; + +- /* JF: Deal with new Nan, +Inf and -Inf codes. */ ++ /* JF: Deal with new +/-(q/Q/s/S)Nan, +Inf and -Inf codes. */ + if (f->sign != '-' && f->sign != '+') + { ++ if (f->sign == 0) ++ { ++ /* All NaNs are 0. */ ++ memset (words, 0x00, sizeof (LITTLENUM_TYPE) * precision); ++ } ++ else if (f->sign == 'P') ++ { ++ /* Positive Infinity. */ ++ memset (words, 0xff, sizeof (LITTLENUM_TYPE) * precision); ++ words[0] &= 0x7fff; ++ } ++ else if (f->sign == 'N') ++ { ++ /* Negative Infinity. */ ++ memset (words, 0x00, sizeof (LITTLENUM_TYPE) * precision); ++ words[0] = 0x0080; ++ } ++ else + make_invalid_floating_point_number (words); + return return_value; + } +--- /dev/null ++++ b/gas/config/tc-avr32.c +@@ -0,0 +1,4839 @@ ++/* Assembler implementation for AVR32. ++ Copyright 2003,2004,2005,2006,2007,2008,2009,2010 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of GAS, the GNU Assembler. ++ ++ GAS is free software; you can redistribute it and/or modify it ++ under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2, or (at your option) ++ any later version. ++ ++ GAS is distributed in the hope that it will be useful, but WITHOUT ++ ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ++ or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public ++ License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with GAS; see the file COPYING. If not, write to the Free ++ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include ++#include "as.h" ++#include "safe-ctype.h" ++#include "subsegs.h" ++#include "symcat.h" ++#include "opcodes/avr32-opc.h" ++#include "opcodes/avr32-asm.h" ++#include "elf/avr32.h" ++#include "dwarf2dbg.h" ++ ++#define xDEBUG ++#define xOPC_CONSISTENCY_CHECK ++ ++#ifdef DEBUG ++# define pr_debug(fmt, args...) fprintf(stderr, fmt, ##args) ++#else ++# define pr_debug(fmt, args...) ++#endif ++ ++/* 3 MSB of instruction word indicate group. Group 7 -> extended */ ++#define AVR32_COMPACT_P(opcode) ((opcode[0] & 0xe0) != 0xe0) ++ ++#define streq(a, b) (strcmp(a, b) == 0) ++#define skip_whitespace(str) do { while(*(str) == ' ') ++(str); } while(0) ++ ++/* Flags given on the command line */ ++static int avr32_pic = FALSE; ++int linkrelax = FALSE; ++int avr32_iarcompat = FALSE; ++ ++/* This array holds the chars that always start a comment. */ ++const char comment_chars[] = "#"; ++ ++/* This array holds the chars that only start a comment at the ++ beginning of a line. We must include '#' here because the compiler ++ may produce #APP and #NO_APP in its output. */ ++const char line_comment_chars[] = "#"; ++ ++/* These may be used instead of newline (same as ';' in C). */ ++const char line_separator_chars[] = ";"; ++ ++/* Chars that can be used to separate mantissa from exponent in ++ floating point numbers. */ ++const char EXP_CHARS[] = "eE"; ++ ++/* Chars that mean this number is a floating point constant. */ ++const char FLT_CHARS[] = "dD"; ++ ++/* Pre-defined "_GLOBAL_OFFSET_TABLE_" */ ++symbolS *GOT_symbol; ++ ++static struct hash_control *avr32_mnemonic_htab; ++ ++struct avr32_ifield_data ++{ ++ bfd_vma value; ++ /* FIXME: Get rid of align_order and complain. complain is never ++ used, align_order is used in one place. Try to use the relax ++ table instead. */ ++ unsigned int align_order; ++}; ++ ++struct avr32_insn ++{ ++ const struct avr32_syntax *syntax; ++ expressionS immediate; ++ int pcrel; ++ int force_extended; ++ unsigned int next_slot; ++ bfd_reloc_code_real_type r_type; ++ struct avr32_ifield_data field_value[AVR32_MAX_FIELDS]; ++}; ++ ++static struct avr32_insn current_insn; ++ ++/* The target specific pseudo-ops we support. */ ++static void s_rseg (int); ++static void s_cpool(int); ++ ++const pseudo_typeS md_pseudo_table[] = ++{ ++ /* Make sure that .word is 32 bits */ ++ { "word", cons, 4 }, ++ { "file", (void (*) PARAMS ((int))) dwarf2_directive_file, 0 }, ++ { "loc", dwarf2_directive_loc, 0 }, ++ ++ /* .lcomm requires an explicit alignment parameter */ ++ { "lcomm", s_lcomm, 1 }, ++ ++ /* AVR32-specific pseudo-ops */ ++ { "cpool", s_cpool, 0}, ++ ++ /* IAR compatible pseudo-ops */ ++ { "program", s_ignore, 0 }, ++ { "public", s_globl, 0 }, ++ { "extern", s_ignore, 0 }, ++ { "module", s_ignore, 0 }, ++ { "rseg", s_rseg, 0 }, ++ { "dc8", cons, 1 }, ++ { "dc16", cons, 2 }, ++ { "dc32", cons, 4 }, ++ ++ { NULL, NULL, 0 } ++}; ++ ++/* Questionable stuff starts here */ ++ ++enum avr32_opinfo { ++ AVR32_OPINFO_NONE = BFD_RELOC_NONE, ++ AVR32_OPINFO_GOT, ++ AVR32_OPINFO_TLSGD, ++ AVR32_OPINFO_HI, ++ AVR32_OPINFO_LO, ++}; ++ ++enum avr32_arch { ++ ARCH_TYPE_AP, ++ ARCH_TYPE_UCR1, ++ ARCH_TYPE_UCR2, ++ ARCH_TYPE_UCR3, ++ ARCH_TYPE_UCR3FP ++}; ++ ++struct arch_type_s ++{ ++ /* Architecture name */ ++ char *name; ++ /* Instruction Set Architecture Flags */ ++ unsigned long isa_flags; ++}; ++ ++struct part_type_s ++{ ++ /* Part name */ ++ char *name; ++ /* Architecture type */ ++ unsigned int arch; ++}; ++ ++static struct arch_type_s arch_types[] = ++{ ++ {"ap", AVR32_V1 | AVR32_SIMD | AVR32_DSP | AVR32_PICO}, ++ {"ucr1", AVR32_V1 | AVR32_DSP | AVR32_RMW}, ++ {"ucr2", AVR32_V1 | AVR32_V2 | AVR32_DSP | AVR32_RMW}, ++ {"ucr3", AVR32_V1 | AVR32_V2 | AVR32_V3 | AVR32_DSP | AVR32_RMW}, ++ {"ucr3fp", AVR32_V1 | AVR32_V2 | AVR32_V3 | AVR32_DSP | AVR32_RMW | AVR32_V3FP}, ++ {"all-insn", AVR32_V1 | AVR32_V2 | AVR32_V3 | AVR32_SIMD | AVR32_DSP | AVR32_RMW | AVR32_V3FP | AVR32_PICO}, ++ {NULL, 0} ++}; ++ ++static struct part_type_s part_types[] = ++{ ++ {"ap7000", ARCH_TYPE_AP}, ++ {"ap7001", ARCH_TYPE_AP}, ++ {"ap7002", ARCH_TYPE_AP}, ++ {"ap7200", ARCH_TYPE_AP}, ++ {"uc3a0128", ARCH_TYPE_UCR2}, ++ {"uc3a0256", ARCH_TYPE_UCR2}, ++ {"uc3a0512es", ARCH_TYPE_UCR1}, ++ {"uc3a0512", ARCH_TYPE_UCR2}, ++ {"uc3a1128", ARCH_TYPE_UCR2}, ++ {"uc3a1256es", ARCH_TYPE_UCR1}, ++ {"uc3a1256", ARCH_TYPE_UCR2}, ++ {"uc3a1512es", ARCH_TYPE_UCR1}, ++ {"uc3a1512", ARCH_TYPE_UCR2}, ++ {"uc3a364", ARCH_TYPE_UCR2}, ++ {"uc3a364s", ARCH_TYPE_UCR2}, ++ {"uc3a3128", ARCH_TYPE_UCR2}, ++ {"uc3a3128s", ARCH_TYPE_UCR2}, ++ {"uc3a3256", ARCH_TYPE_UCR2}, ++ {"uc3a3256s", ARCH_TYPE_UCR2}, ++ {"uc3b064", ARCH_TYPE_UCR1}, ++ {"uc3b0128", ARCH_TYPE_UCR1}, ++ {"uc3b0256es", ARCH_TYPE_UCR1}, ++ {"uc3b0256", ARCH_TYPE_UCR1}, ++ {"uc3b0512", ARCH_TYPE_UCR2}, ++ {"uc3b0512revc", ARCH_TYPE_UCR2}, ++ {"uc3b164", ARCH_TYPE_UCR1}, ++ {"uc3b1128", ARCH_TYPE_UCR1}, ++ {"uc3b1256", ARCH_TYPE_UCR1}, ++ {"uc3b1256es", ARCH_TYPE_UCR1}, ++ {"uc3b1512", ARCH_TYPE_UCR2}, ++ {"uc3b1512revc", ARCH_TYPE_UCR2}, ++ {"uc3c0512crevc", ARCH_TYPE_UCR3}, ++ {"uc3c1512crevc", ARCH_TYPE_UCR3}, ++ {"uc3c2512crevc", ARCH_TYPE_UCR3}, ++ {"atuc3l0256", ARCH_TYPE_UCR3}, ++ {"mxt768e", ARCH_TYPE_UCR3}, ++ {"uc3l064", ARCH_TYPE_UCR3}, ++ {"uc3l032", ARCH_TYPE_UCR3}, ++ {"uc3l016", ARCH_TYPE_UCR3}, ++ {"uc3l064revb", ARCH_TYPE_UCR3}, ++ {"uc3c064c", ARCH_TYPE_UCR3FP}, ++ {"uc3c0128c", ARCH_TYPE_UCR3FP}, ++ {"uc3c0256c", ARCH_TYPE_UCR3FP}, ++ {"uc3c0512c", ARCH_TYPE_UCR3FP}, ++ {"uc3c164c", ARCH_TYPE_UCR3FP}, ++ {"uc3c1128c", ARCH_TYPE_UCR3FP}, ++ {"uc3c1256c", ARCH_TYPE_UCR3FP}, ++ {"uc3c1512c", ARCH_TYPE_UCR3FP}, ++ {"uc3c264c", ARCH_TYPE_UCR3FP}, ++ {"uc3c2128c", ARCH_TYPE_UCR3FP}, ++ {"uc3c2256c", ARCH_TYPE_UCR3FP}, ++ {"uc3c2512c", ARCH_TYPE_UCR3FP}, ++ {NULL, 0} ++}; ++ ++/* Current architecture type. */ ++static struct arch_type_s default_arch = {"all-insn", AVR32_V1 | AVR32_V2 | AVR32_V3 | AVR32_SIMD | AVR32_DSP | AVR32_RMW | AVR32_V3FP | AVR32_PICO }; ++static struct arch_type_s *avr32_arch = &default_arch; ++ ++/* Display nicely formatted list of known part- and architecture names. */ ++ ++static void ++show_arch_list (FILE *stream) ++{ ++ int i, x; ++ ++ fprintf (stream, _("Architectures supported by the assembler:")); ++ x = 1000; ++ ++ for (i = 0; arch_types[i].name; i++) ++ { ++ int len = strlen (arch_types[i].name); ++ ++ x += len + 1; ++ ++ if (x < 75) ++ fprintf (stream, " %s", arch_types[i].name); ++ else ++ { ++ fprintf (stream, "\n %s", arch_types[i].name); ++ x = len + 2; ++ } ++ } ++ ++ fprintf (stream, "\n"); ++} ++ ++static void ++show_part_list (FILE *stream) ++{ ++ int i, x; ++ ++ fprintf (stream, _("Known part names:")); ++ x = 1000; ++ ++ for (i = 0; part_types[i].name; i++) ++ { ++ int len = strlen(part_types[i].name); ++ ++ x += len + 1; ++ ++ if (x < 75) ++ fprintf (stream, " %s", part_types[i].name); ++ else ++ { ++ fprintf(stream, "\n %s", part_types[i].name); ++ x = len + 2; ++ } ++ } ++ ++ fprintf (stream, "\n"); ++} ++ ++const char *md_shortopts = ""; ++struct option md_longopts[] = ++{ ++#define OPTION_ARCH (OPTION_MD_BASE) ++#define OPTION_PART (OPTION_ARCH + 1) ++#define OPTION_IAR (OPTION_PART + 1) ++#define OPTION_PIC (OPTION_IAR + 1) ++#define OPTION_NOPIC (OPTION_PIC + 1) ++#define OPTION_LINKRELAX (OPTION_NOPIC + 1) ++#define OPTION_NOLINKRELAX (OPTION_LINKRELAX + 1) ++#define OPTION_DIRECT_DATA_REFS (OPTION_NOLINKRELAX + 1) ++ {"march", required_argument, NULL, OPTION_ARCH}, ++ {"mpart", required_argument, NULL, OPTION_PART}, ++ {"iar", no_argument, NULL, OPTION_IAR}, ++ {"pic", no_argument, NULL, OPTION_PIC}, ++ {"no-pic", no_argument, NULL, OPTION_NOPIC}, ++ {"linkrelax", no_argument, NULL, OPTION_LINKRELAX}, ++ {"no-linkrelax", no_argument, NULL, OPTION_NOLINKRELAX}, ++ /* deprecated alias for -mpart=xxx */ ++ {"mcpu", required_argument, NULL, OPTION_PART}, ++ {NULL, no_argument, NULL, 0} ++}; ++ ++size_t md_longopts_size = sizeof (md_longopts); ++ ++void ++md_show_usage (FILE *stream) ++{ ++ fprintf (stream, _("\ ++AVR32 options:\n\ ++ -march=[arch-name] Select cpu architecture. [Default `all-insn']\n\ ++ -mpart=[part-name] Select specific part. [Default `none']\n\ ++ --pic Produce Position-Independent Code\n\ ++ --no-pic Don't produce Position-Independent Code\n\ ++ --linkrelax Produce output suitable for linker relaxing\n\ ++ --no-linkrelax Don't produce output suitable for linker relaxing\n")); ++ show_arch_list(stream); ++} ++ ++int ++md_parse_option (int c, char *arg ATTRIBUTE_UNUSED) ++{ ++ switch (c) ++ { ++ case OPTION_ARCH: ++ { ++ int i; ++ char *s = alloca (strlen (arg) + 1); ++ ++ { ++ char *t = s; ++ char *arg1 = arg; ++ ++ do ++ *t = TOLOWER (*arg1++); ++ while (*t++); ++ } ++ ++ /* Add backward compability */ ++ if (strcmp ("uc", s)== 0) ++ { ++ as_warn("Deprecated arch `%s' specified. " ++ "Please use '-march=ucr1' instead. " ++ "Using to arch 'ucr1'\n", ++ s); ++ s="ucr1"; ++ } ++ ++ for (i = 0; arch_types[i].name; ++i) ++ if (strcmp (arch_types[i].name, s) == 0) ++ break; ++ ++ if (!arch_types[i].name) ++ { ++ show_arch_list (stderr); ++ as_fatal (_("unknown architecture: %s\n"), arg); ++ } ++ ++ avr32_arch = &arch_types[i]; ++ break; ++ } ++ case OPTION_PART: ++ { ++ int i; ++ char *s = alloca (strlen (arg) + 1); ++ char *t = s; ++ char *p = arg; ++ ++ /* If arch type has already been set, don't bother. ++ -march= always overrides -mpart= */ ++ if (avr32_arch != &default_arch) ++ break; ++ ++ do ++ *t = TOLOWER (*p++); ++ while (*t++); ++ ++ for (i = 0; part_types[i].name; ++i) ++ if (strcmp (part_types[i].name, s) == 0) ++ break; ++ ++ if (!part_types[i].name) ++ { ++ show_part_list (stderr); ++ as_fatal (_("unknown part: %s\n"), arg); ++ } ++ ++ avr32_arch = &arch_types[part_types[i].arch]; ++ break; ++ } ++ case OPTION_IAR: ++ avr32_iarcompat = 1; ++ break; ++ case OPTION_PIC: ++ avr32_pic = 1; ++ break; ++ case OPTION_NOPIC: ++ avr32_pic = 0; ++ break; ++ case OPTION_LINKRELAX: ++ linkrelax = 1; ++ break; ++ case OPTION_NOLINKRELAX: ++ linkrelax = 0; ++ break; ++ default: ++ return 0; ++ } ++ return 1; ++} ++ ++/* Can't use symbol_new here, so have to create a symbol and then at ++ a later date assign it a value. Thats what these functions do. ++ ++ Shamelessly stolen from ARM. */ ++ ++static void ++symbol_locate (symbolS * symbolP, ++ const char * name, /* It is copied, the caller can modify. */ ++ segT segment, /* Segment identifier (SEG_). */ ++ valueT valu, /* Symbol value. */ ++ fragS * frag) /* Associated fragment. */ ++{ ++ unsigned int name_length; ++ char * preserved_copy_of_name; ++ ++ name_length = strlen (name) + 1; /* +1 for \0. */ ++ obstack_grow (¬es, name, name_length); ++ preserved_copy_of_name = obstack_finish (¬es); ++#ifdef STRIP_UNDERSCORE ++ if (preserved_copy_of_name[0] == '_') ++ preserved_copy_of_name++; ++#endif ++ ++#ifdef tc_canonicalize_symbol_name ++ preserved_copy_of_name = ++ tc_canonicalize_symbol_name (preserved_copy_of_name); ++#endif ++ ++ S_SET_NAME (symbolP, preserved_copy_of_name); ++ ++ S_SET_SEGMENT (symbolP, segment); ++ S_SET_VALUE (symbolP, valu); ++ symbol_clear_list_pointers (symbolP); ++ ++ symbol_set_frag (symbolP, frag); ++ ++ /* Link to end of symbol chain. */ ++ { ++ extern int symbol_table_frozen; ++ ++ if (symbol_table_frozen) ++ abort (); ++ } ++ ++ symbol_append (symbolP, symbol_lastP, & symbol_rootP, & symbol_lastP); ++ ++ obj_symbol_new_hook (symbolP); ++ ++#ifdef tc_symbol_new_hook ++ tc_symbol_new_hook (symbolP); ++#endif ++ ++#ifdef DEBUG_SYMS ++ verify_symbol_chain (symbol_rootP, symbol_lastP); ++#endif /* DEBUG_SYMS */ ++} ++ ++struct cpool_entry ++{ ++ int refcount; ++ offsetT offset; ++ expressionS exp; ++}; ++ ++struct cpool ++{ ++ struct cpool *next; ++ int used; ++ struct cpool_entry *literals; ++ unsigned int padding; ++ unsigned int next_free_entry; ++ unsigned int id; ++ symbolS *symbol; ++ segT section; ++ subsegT sub_section; ++}; ++ ++struct cpool *cpool_list = NULL; ++ ++static struct cpool * ++find_cpool(segT section, subsegT sub_section) ++{ ++ struct cpool *pool; ++ ++ for (pool = cpool_list; pool != NULL; pool = pool->next) ++ { ++ if (!pool->used ++ && pool->section == section ++ && pool->sub_section == sub_section) ++ break; ++ } ++ ++ return pool; ++} ++ ++static struct cpool * ++find_or_make_cpool(segT section, subsegT sub_section) ++{ ++ static unsigned int next_cpool_id = 0; ++ struct cpool *pool; ++ ++ pool = find_cpool(section, sub_section); ++ ++ if (!pool) ++ { ++ pool = xmalloc(sizeof(*pool)); ++ if (!pool) ++ return NULL; ++ ++ pool->used = 0; ++ pool->literals = NULL; ++ pool->padding = 0; ++ pool->next_free_entry = 0; ++ pool->section = section; ++ pool->sub_section = sub_section; ++ pool->next = cpool_list; ++ pool->symbol = NULL; ++ ++ cpool_list = pool; ++ } ++ ++ /* NULL symbol means that the pool is new or has just been emptied. */ ++ if (!pool->symbol) ++ { ++ pool->symbol = symbol_create(FAKE_LABEL_NAME, undefined_section, ++ 0, &zero_address_frag); ++ pool->id = next_cpool_id++; ++ } ++ ++ return pool; ++} ++ ++static struct cpool * ++add_to_cpool(expressionS *exp, unsigned int *index, int ref) ++{ ++ struct cpool *pool; ++ unsigned int entry; ++ ++ pool = find_or_make_cpool(now_seg, now_subseg); ++ ++ /* Check if this constant is already in the pool. */ ++ for (entry = 0; entry < pool->next_free_entry; entry++) ++ { ++ if ((pool->literals[entry].exp.X_op == exp->X_op) ++ && (exp->X_op == O_constant) ++ && (pool->literals[entry].exp.X_add_number ++ == exp->X_add_number) ++ && (pool->literals[entry].exp.X_unsigned ++ == exp->X_unsigned)) ++ break; ++ ++ if ((pool->literals[entry].exp.X_op == exp->X_op) ++ && (exp->X_op == O_symbol) ++ && (pool->literals[entry].exp.X_add_number ++ == exp->X_add_number) ++ && (pool->literals[entry].exp.X_add_symbol ++ == exp->X_add_symbol) ++ && (pool->literals[entry].exp.X_op_symbol ++ == exp->X_op_symbol)) ++ break; ++ } ++ ++ /* Create an entry if we didn't find a match */ ++ if (entry == pool->next_free_entry) ++ { ++ pool->literals = xrealloc(pool->literals, ++ sizeof(struct cpool_entry) * (entry + 1)); ++ pool->literals[entry].exp = *exp; ++ pool->literals[entry].refcount = 0; ++ pool->next_free_entry++; ++ } ++ ++ if (index) ++ *index = entry; ++ if (ref) ++ pool->literals[entry].refcount++; ++ ++ return pool; ++} ++ ++struct avr32_operand ++{ ++ int id; ++ int is_signed; ++ int is_pcrel; ++ int align_order; ++ int (*match)(char *str); ++ void (*parse)(const struct avr32_operand *op, char *str, int opindex); ++}; ++ ++static int ++match_anything(char *str ATTRIBUTE_UNUSED) ++{ ++ return 1; ++} ++ ++static int ++match_intreg(char *str) ++{ ++ int regid, ret = 1; ++ ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ pr_debug("match_intreg: `%s': %d\n", str, ret); ++ ++ return ret; ++} ++ ++static int ++match_intreg_predec(char *str) ++{ ++ int regid; ++ ++ if (str[0] != '-' || str[1] != '-') ++ return 0; ++ ++ regid = avr32_parse_intreg(str + 2); ++ if (regid < 0) ++ return 0; ++ ++ return 1; ++} ++ ++static int ++match_intreg_postinc(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '+') ++ break; ++ ++ if (p[0] != '+' || p[1] != '+') ++ return 0; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_intreg_lsl(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '<') ++ break; ++ ++ if (p[0] && p[1] != '<') ++ return 0; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_intreg_lsr(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '>') ++ break; ++ ++ if (p[0] && p[1] != '>') ++ return 0; ++ ++ c = *p, *p = 0; ++ ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_intreg_part(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == ':') ++ break; ++ ++ if (p[0] != ':' || !ISPRINT(p[1]) || p[2] != '\0') ++ return 0; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ ++ return ret; ++} ++ ++#define match_intreg_disp match_anything ++ ++static int ++match_intreg_index(char *str) ++{ ++ int regid, ret = 1; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* don't allow empty displacement here (it makes no sense) */ ++ if (p[0] != '[') ++ return 0; ++ ++ for (end = p + 1; *end; end++) ; ++ if (*(--end) != ']') ++ return 0; ++ ++ c = *end, *end = 0; ++ if (!match_intreg_lsl(p + 1)) ++ ret = 0; ++ *end = c; ++ ++ if (ret) ++ { ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ *p = c; ++ } ++ ++ return ret; ++} ++ ++static int ++match_intreg_xindex(char *str) ++{ ++ int regid, ret = 1; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* empty displacement makes no sense here either */ ++ if (p[0] != '[') ++ return 0; ++ ++ for (end = p + 1; *end; end++) ++ if (*end == '<') ++ break; ++ ++ if (!streq(end, "<<2]")) ++ return 0; ++ ++ c = *end, *end = 0; ++ if (!match_intreg_part(p + 1)) ++ ret = 0; ++ *end = c; ++ ++ if (ret) ++ { ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ *p = c; ++ } ++ ++ return ret; ++} ++ ++/* The PC_UDISP_W operator may show up as a label or as a pc[disp] ++ expression. So there's no point in attempting to match this... */ ++#define match_pc_disp match_anything ++ ++static int ++match_sp(char *str) ++{ ++ /* SP in any form will do */ ++ return avr32_parse_intreg(str) == AVR32_REG_SP; ++} ++ ++static int ++match_sp_disp(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* allow empty displacement, meaning zero */ ++ if (p[0] == '[') ++ { ++ char *end; ++ for (end = p + 1; *end; end++) ; ++ if (end[-1] != ']') ++ return 0; ++ } ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid != AVR32_REG_SP) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_cpno(char *str) ++{ ++ if (strncasecmp(str, "cp", 2) != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_cpreg(char *str) ++{ ++ if (strncasecmp(str, "cr", 2) != 0) ++ return 0; ++ return 1; ++} ++ ++/* We allow complex expressions, and register names may show up as ++ symbols. Just make sure immediate expressions are always matched ++ last. */ ++#define match_const match_anything ++#define match_jmplabel match_anything ++#define match_number match_anything ++ ++/* Mnemonics that take reglists never accept anything else */ ++#define match_reglist8 match_anything ++#define match_reglist9 match_anything ++#define match_reglist16 match_anything ++#define match_reglist_ldm match_anything ++#define match_reglist_cp8 match_anything ++#define match_reglist_cpd8 match_anything ++ ++/* Ditto for retval, jospinc and mcall */ ++#define match_retval match_anything ++#define match_jospinc match_anything ++#define match_mcall match_anything ++ ++/* COH is used to select between two different syntaxes */ ++static int ++match_coh(char *str) ++{ ++ return strcasecmp(str, "coh") == 0; ++} ++#if 0 ++static int ++match_fpreg(char *str) ++{ ++ unsigned long regid; ++ char *endptr; ++ ++ if ((str[0] != 'f' && str[0] != 'F') ++ || (str[1] != 'r' && str[1] != 'R')) ++ return 0; ++ ++ str += 2; ++ regid = strtoul(str, &endptr, 10); ++ if (!*str || *endptr) ++ return 0; ++ ++ return 1; ++} ++#endif ++ ++static int ++match_picoreg(char *str) ++{ ++ int regid; ++ ++ regid = avr32_parse_picoreg(str); ++ if (regid < 0) ++ return 0; ++ return 1; ++} ++ ++#define match_pico_reglist_w match_anything ++#define match_pico_reglist_d match_anything ++ ++static int ++match_pico_in(char *str) ++{ ++ unsigned long regid; ++ char *end; ++ ++ if (strncasecmp(str, "in", 2) != 0) ++ return 0; ++ ++ str += 2; ++ regid = strtoul(str, &end, 10); ++ if (!*str || *end) ++ return 0; ++ ++ return 1; ++} ++ ++static int ++match_pico_out0(char *str) ++{ ++ if (strcasecmp(str, "out0") != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_pico_out1(char *str) ++{ ++ if (strcasecmp(str, "out1") != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_pico_out2(char *str) ++{ ++ if (strcasecmp(str, "out2") != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_pico_out3(char *str) ++{ ++ if (strcasecmp(str, "out3") != 0) ++ return 0; ++ return 1; ++} ++ ++static void parse_nothing(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str ATTRIBUTE_UNUSED, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ /* Do nothing (this is used for "match-only" operands like COH) */ ++} ++ ++static void ++parse_const(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ expressionS *sym_exp; ++ int slot; ++ char *save; ++ ++ pr_debug("parse_const: `%s' (signed: %d, pcrel: %d, align: %d)\n", ++ str, op->is_signed, op->is_pcrel, op->align_order); ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ ++ expression(exp); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ current_insn.pcrel = op->is_pcrel; ++ ++ switch (exp->X_op) ++ { ++ case O_illegal: ++ as_bad(_("illegal operand")); ++ break; ++ case O_absent: ++ as_bad(_("missing operand")); ++ break; ++ case O_constant: ++ pr_debug(" -> constant: %ld\n", (long)exp->X_add_number); ++ current_insn.field_value[slot].value = exp->X_add_number; ++ break; ++ case O_uminus: ++ pr_debug(" -> uminus\n"); ++ sym_exp = symbol_get_value_expression(exp->X_add_symbol); ++ switch (sym_exp->X_op) { ++ case O_subtract: ++ pr_debug(" -> subtract: switching operands\n"); ++ exp->X_op_symbol = sym_exp->X_add_symbol; ++ exp->X_add_symbol = sym_exp->X_op_symbol; ++ exp->X_op = O_subtract; ++ /* TODO: Remove the old X_add_symbol */ ++ break; ++ default: ++ as_bad(_("Expression too complex\n")); ++ break; ++ } ++ break; ++#if 0 ++ case O_subtract: ++ /* Any expression subtracting a symbol from the current section ++ can be made PC-relative by adding the right offset. */ ++ if (S_GET_SEGMENT(exp->X_op_symbol) == now_seg) ++ current_insn.pcrel = TRUE; ++ pr_debug(" -> subtract: pcrel? %s\n", ++ current_insn.pcrel ? "yes" : "no"); ++ /* fall through */ ++#endif ++ default: ++ pr_debug(" -> (%p <%d> %p + %d)\n", ++ exp->X_add_symbol, exp->X_op, exp->X_op_symbol, ++ exp->X_add_number); ++ current_insn.field_value[slot].value = 0; ++ break; ++ } ++ ++ input_line_pointer = save; ++} ++ ++static void ++parse_jmplabel(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ int slot; ++ char *save; ++ ++ pr_debug("parse_jmplabel: `%s' (signed: %d, pcrel: %d, align: %d)\n", ++ str, op->is_signed, op->is_pcrel, op->align_order); ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ ++ expression(exp); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ current_insn.pcrel = TRUE; ++ ++ switch (exp->X_op) ++ { ++ case O_illegal: ++ as_bad(_("illegal operand")); ++ break; ++ case O_absent: ++ as_bad(_("missing operand")); ++ break; ++ case O_constant: ++ pr_debug(" -> constant: %ld\n", (long)exp->X_add_number); ++ current_insn.field_value[slot].value = exp->X_add_number; ++ current_insn.pcrel = 0; ++ break; ++ default: ++ pr_debug(" -> (%p <%d> %p + %d)\n", ++ exp->X_add_symbol, exp->X_op, exp->X_op_symbol, ++ exp->X_add_number); ++ current_insn.field_value[slot].value = 0; ++ break; ++ } ++ ++ input_line_pointer = save; ++} ++ ++static void ++parse_intreg(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int regid, slot; ++ ++ pr_debug("parse_intreg: `%s'\n", str); ++ ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = op->align_order; ++} ++ ++static void ++parse_intreg_predec(const struct avr32_operand *op, char *str, int opindex) ++{ ++ parse_intreg(op, str + 2, opindex); ++} ++ ++static void ++parse_intreg_postinc(const struct avr32_operand *op, char *str, int opindex) ++{ ++ char *p, c; ++ ++ pr_debug("parse_intreg_postinc: `%s'\n", str); ++ ++ for (p = str; *p != '+'; p++) ; ++ ++ c = *p, *p = 0; ++ parse_intreg(op, str, opindex); ++ *p = c; ++} ++ ++static void ++parse_intreg_shift(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int regid, slot, shift = 0; ++ char *p, c; ++ char shiftop; ++ ++ pr_debug("parse Ry<') ++ break; ++ ++ shiftop = *p; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ if (c) ++ { ++ if (p[0] != shiftop || p[1] != shiftop) ++ as_bad(_("expected shift operator in `%s'"), p); ++ else ++ { ++ expressionS exp; ++ char *saved; ++ ++ saved = input_line_pointer; ++ input_line_pointer = p + 2; ++ expression(&exp); ++ input_line_pointer = saved; ++ ++ if (exp.X_op != O_constant) ++ as_bad(_("shift amount must be a numeric constant")); ++ else ++ shift = exp.X_add_number; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = shift; ++} ++ ++/* The match() function selected the right opcode, so it doesn't ++ matter which way we shift any more. */ ++#define parse_intreg_lsl parse_intreg_shift ++#define parse_intreg_lsr parse_intreg_shift ++ ++static void ++parse_intreg_part(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ static const char bparts[] = { 'b', 'l', 'u', 't' }; ++ static const char hparts[] = { 'b', 't' }; ++ unsigned int slot, sel; ++ int regid; ++ char *p, c; ++ ++ pr_debug("parse reg:part `%s'\n", str); ++ ++ for (p = str; *p; p++) ++ if (*p == ':') ++ break; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ assert(c == ':'); ++ ++ if (op->align_order) ++ { ++ for (sel = 0; sel < sizeof(hparts); sel++) ++ if (TOLOWER(p[1]) == hparts[sel]) ++ break; ++ ++ if (sel >= sizeof(hparts)) ++ { ++ as_bad(_("invalid halfword selector `%c' (must be either b or t)"), ++ p[1]); ++ sel = 0; ++ } ++ } ++ else ++ { ++ for (sel = 0; sel < sizeof(bparts); sel++) ++ if (TOLOWER(p[1]) == bparts[sel]) ++ break; ++ ++ if (sel >= sizeof(bparts)) ++ { ++ as_bad(_("invalid byte selector `%c' (must be one of b,l,u,t)"), ++ p[1]); ++ sel = 0; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = sel; ++} ++ ++/* This is the parser for "Rp[displacement]" expressions. In addition ++ to the "official" syntax, we accept a label as a replacement for ++ the register expression. This syntax implies Rp=PC and the ++ displacement is the pc-relative distance to the label. */ ++static void ++parse_intreg_disp(const struct avr32_operand *op, char *str, int opindex) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ int slot, regid; ++ char *save, *p, c; ++ ++ pr_debug("parse_intreg_disp: `%s' (signed: %d, pcrel: %d, align: %d)\n", ++ str, op->is_signed, op->is_pcrel, op->align_order); ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ slot = current_insn.next_slot++; ++ ++ /* First, check if we have a valid register either before '[' or as ++ the sole expression. If so, we use the Rp[disp] syntax. */ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ *p = c; ++ ++ if (regid >= 0) ++ { ++ current_insn.field_value[slot].value = regid; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ ++ if (c == '[') ++ { ++ save = input_line_pointer; ++ input_line_pointer = p + 1; ++ ++ expression(exp); ++ ++ if (*input_line_pointer != ']') ++ as_bad(_("junk after displacement expression")); ++ ++ input_line_pointer = save; ++ ++ switch (exp->X_op) ++ { ++ case O_illegal: ++ as_bad(_("illegal displacement expression")); ++ break; ++ case O_absent: ++ as_bad(_("missing displacement expression")); ++ break; ++ case O_constant: ++ pr_debug(" -> constant: %ld\n", exp->X_add_number); ++ current_insn.field_value[slot].value = exp->X_add_number; ++ break; ++#if 0 ++ case O_subtract: ++ if (S_GET_SEGMENT(exp->X_op_symbol) == now_seg) ++ current_insn.pcrel = TRUE; ++ pr_debug(" -> subtract: pcrel? %s\n", ++ current_insn.pcrel ? "yes" : "no"); ++ /* fall through */ ++#endif ++ default: ++ pr_debug(" -> (%p <%d> %p + %d)\n", ++ exp->X_add_symbol, exp->X_op, exp->X_op_symbol, ++ exp->X_add_number); ++ current_insn.field_value[slot].value = 0; ++ } ++ } ++ else ++ { ++ exp->X_op = O_constant; ++ exp->X_add_number = 0; ++ current_insn.field_value[slot].value = 0; ++ } ++ } ++ else ++ { ++ /* Didn't find a valid register. Try parsing it as a label. */ ++ current_insn.field_value[slot].value = AVR32_REG_PC; ++ parse_jmplabel(op, str, opindex); ++ } ++} ++ ++static void ++parse_intreg_index(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int slot, regid; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ assert(*p); ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ ++ p++; ++ for (end = p; *end; end++) ++ if (*end == ']' || *end == '<') ++ break; ++ ++ assert(*end); ++ ++ c = *end, *end = 0; ++ regid = avr32_parse_intreg(p); ++ assert(regid >= 0); ++ *end = c; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = 0; ++ ++ if (*end == '<') ++ { ++ expressionS exp; ++ char *save; ++ ++ p = end + 2; ++ for (end = p; *end; end++) ++ if (*end == ']') ++ break; ++ ++ assert(*end == ']'); ++ ++ c = *end, *end = 0; ++ save = input_line_pointer; ++ input_line_pointer = p; ++ expression(&exp); ++ ++ if (*input_line_pointer) ++ as_bad(_("junk after shift expression")); ++ ++ *end = c; ++ input_line_pointer = save; ++ ++ if (exp.X_op == O_constant) ++ current_insn.field_value[slot].value = exp.X_add_number; ++ else ++ as_bad(_("shift expression too complex")); ++ } ++} ++ ++static void ++parse_intreg_xindex(const struct avr32_operand *op, char *str, int opindex) ++{ ++ int slot, regid; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ assert(*p); ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ ++ p++; ++ for (end = p; *end; end++) ++ if (*end == '<') ++ break; ++ ++ assert(*end); ++ ++ c = *end, *end = 0; ++ parse_intreg_part(op, p, opindex); ++ *end = c; ++} ++ ++static void ++parse_pc_disp(const struct avr32_operand *op, char *str, int opindex) ++{ ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* The lddpc instruction comes in two different syntax variants: ++ lddpc reg, expression ++ lddpc reg, pc[disp] ++ If the operand contains a '[', we use the second form. */ ++ if (*p) ++ { ++ int regid; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ *p = c; ++ if (regid == AVR32_REG_PC) ++ { ++ char *end; ++ ++ for (end = ++p; *end; end++) ; ++ if (*(--end) != ']') ++ as_bad(_("unrecognized form of instruction: `%s'"), str); ++ else ++ { ++ c = *end, *end = 0; ++ parse_const(op, p, opindex); ++ *end = c; ++ current_insn.pcrel = 0; ++ } ++ } ++ else ++ as_bad(_("unrecognized form of instruction: `%s'"), str); ++ } ++ else ++ { ++ parse_jmplabel(op, str, opindex); ++ } ++} ++ ++static void parse_sp(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str ATTRIBUTE_UNUSED, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ int slot; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = AVR32_REG_SP; ++} ++ ++static void ++parse_sp_disp(const struct avr32_operand *op, char *str, int opindex) ++{ ++ char *p, c; ++ ++ for (; *str; str++) ++ if (*str == '[') ++ break; ++ ++ assert(*str); ++ ++ for (p = ++str; *p; p++) ++ if (*p == ']') ++ break; ++ ++ c = *p, *p = 0; ++ parse_const(op, str, opindex); ++ *p = c; ++} ++ ++static void ++parse_cpno(const struct avr32_operand *op ATTRIBUTE_UNUSED, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ int slot; ++ ++ str += 2; ++ if (*str == '#') ++ str++; ++ if (*str < '0' || *str > '7' || str[1]) ++ as_bad(_("invalid coprocessor `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = *str - '0'; ++} ++ ++static void ++parse_cpreg(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned int crid; ++ int slot; ++ char *endptr; ++ ++ str += 2; ++ crid = strtoul(str, &endptr, 10); ++ if (*endptr || crid > 15 || crid & ((1 << op->align_order) - 1)) ++ as_bad(_("invalid coprocessor register `%s'"), str); ++ ++ crid >>= op->align_order; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = crid; ++} ++ ++static void ++parse_number(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS exp; ++ int slot; ++ char *save; ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ ++ if (exp.X_op == O_constant) ++ current_insn.field_value[slot].value = exp.X_add_number; ++ else ++ as_bad(_("invalid numeric expression `%s'"), str); ++} ++ ++static void ++parse_reglist8(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ unsigned long value = 0; ++ int slot; ++ char *tail; ++ ++ regmask = avr32_parse_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("invalid register list `%s'"), str); ++ else ++ { ++ if (avr32_make_regmask8(regmask, &value)) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = value; ++} ++ ++static int ++parse_reglist_tail(char *str, unsigned long regmask) ++{ ++ expressionS exp; ++ char *save, *p, c; ++ int regid; ++ ++ for (p = str + 1; *p; p++) ++ if (*p == '=') ++ break; ++ ++ if (!*p) ++ { ++ as_bad(_("invalid register list `%s'"), str); ++ return -2; ++ } ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ *p = c; ++ ++ if (regid != 12) ++ { ++ as_bad(_("invalid register list `%s'"), str); ++ return -2; ++ } ++ ++ /* If we have an assignment, we must pop PC and we must _not_ ++ pop LR or R12 */ ++ if (!(regmask & (1 << AVR32_REG_PC))) ++ { ++ as_bad(_("return value specified for non-return instruction")); ++ return -2; ++ } ++ else if (regmask & ((1 << AVR32_REG_R12) | (1 << AVR32_REG_LR))) ++ { ++ as_bad(_("can't pop LR or R12 when specifying return value")); ++ return -2; ++ } ++ ++ save = input_line_pointer; ++ input_line_pointer = p + 1; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ if (exp.X_op != O_constant ++ || exp.X_add_number < -1 ++ || exp.X_add_number > 1) ++ { ++ as_bad(_("invalid return value `%s'"), str); ++ return -2; ++ } ++ ++ return exp.X_add_number; ++} ++ ++static void ++parse_reglist9(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ unsigned long value = 0, kbit = 0; ++ int slot; ++ char *tail; ++ ++ regmask = avr32_parse_reglist(str, &tail); ++ /* printf("parsed reglist16: %04lx, tail: `%s'\n", regmask, tail); */ ++ if (*tail) ++ { ++ int retval; ++ ++ retval = parse_reglist_tail(tail, regmask); ++ ++ switch (retval) ++ { ++ case -1: ++ regmask |= 1 << AVR32_REG_LR; ++ break; ++ case 0: ++ break; ++ case 1: ++ regmask |= 1 << AVR32_REG_R12; ++ break; ++ default: ++ break; ++ } ++ ++ kbit = 1; ++ } ++ ++ if (avr32_make_regmask8(regmask, &value)) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = (value << 1) | kbit; ++} ++ ++static void ++parse_reglist16(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot; ++ char *tail; ++ ++ regmask = avr32_parse_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("invalid register list `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++} ++ ++static void ++parse_reglist_ldm(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot, rp, w_bit = 0; ++ char *tail, *p, c; ++ ++ for (p = str; *p && *p != ','; p++) ++ if (*p == '+') ++ break; ++ ++ c = *p, *p = 0; ++ rp = avr32_parse_intreg(str); ++ *p = c; ++ if (rp < 0) ++ { ++ as_bad(_("invalid destination register in `%s'"), str); ++ return; ++ } ++ ++ if (p[0] == '+' && p[1] == '+') ++ { ++ w_bit = 1; ++ p += 2; ++ } ++ ++ if (*p != ',') ++ { ++ as_bad(_("expected `,' after destination register in `%s'"), str); ++ return; ++ } ++ ++ str = p + 1; ++ regmask = avr32_parse_reglist(str, &tail); ++ if (*tail) ++ { ++ int retval; ++ ++ if (rp != AVR32_REG_SP) ++ { ++ as_bad(_("junk at end of line: `%s'"), tail); ++ return; ++ } ++ ++ rp = AVR32_REG_PC; ++ ++ retval = parse_reglist_tail(tail, regmask); ++ ++ switch (retval) ++ { ++ case -1: ++ regmask |= 1 << AVR32_REG_LR; ++ break; ++ case 0: ++ break; ++ case 1: ++ regmask |= 1 << AVR32_REG_R12; ++ break; ++ default: ++ return; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = rp; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = w_bit; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++} ++ ++static void ++parse_reglist_cp8(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot, h_bit = 0; ++ char *tail; ++ ++ regmask = avr32_parse_cpreglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ else if (regmask & 0xffUL) ++ { ++ if (regmask & 0xff00UL) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ regmask &= 0xff; ++ } ++ else if (regmask & 0xff00UL) ++ { ++ regmask >>= 8; ++ h_bit = 1; ++ } ++ else ++ as_warn(_("register list is empty")); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = h_bit; ++} ++ ++static void ++parse_reglist_cpd8(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask, regmask_d = 0; ++ int slot, i; ++ char *tail; ++ ++ regmask = avr32_parse_cpreglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ ++ for (i = 0; i < 8; i++) ++ { ++ if (regmask & 1) ++ { ++ if (!(regmask & 2)) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ regmask_d |= 1 << i; ++ } ++ else if (regmask & 2) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ ++ regmask >>= 2; ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask_d; ++} ++ ++static void ++parse_retval(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int regid, slot; ++ ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ { ++ expressionS exp; ++ char *save; ++ ++ regid = 0; ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ if (exp.X_op != O_constant) ++ as_bad(_("invalid return value `%s'"), str); ++ else ++ switch (exp.X_add_number) ++ { ++ case -1: ++ regid = AVR32_REG_LR; ++ break; ++ case 0: ++ regid = AVR32_REG_SP; ++ break; ++ case 1: ++ regid = AVR32_REG_PC; ++ break; ++ default: ++ as_bad(_("invalid return value `%s'"), str); ++ break; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++} ++ ++#define parse_mcall parse_intreg_disp ++ ++static void ++parse_jospinc(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS exp; ++ int slot; ++ char *save; ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ slot = current_insn.next_slot++; ++ ++ if (exp.X_op == O_constant) ++ { ++ if (exp.X_add_number > 0) ++ exp.X_add_number--; ++ current_insn.field_value[slot].value = exp.X_add_number; ++ } ++ else ++ as_bad(_("invalid numeric expression `%s'"), str); ++} ++ ++#define parse_coh parse_nothing ++#if 0 ++static void ++parse_fpreg(const struct avr32_operand *op, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regid; ++ int slot; ++ ++ regid = strtoul(str + 2, NULL, 10); ++ ++ if ((regid >= 16) || (regid & ((1 << op->align_order) - 1))) ++ as_bad(_("invalid floating-point register `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = op->align_order; ++} ++#endif ++ ++static void ++parse_picoreg(const struct avr32_operand *op, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regid; ++ int slot; ++ ++ regid = avr32_parse_picoreg(str); ++ if (regid & ((1 << op->align_order) - 1)) ++ as_bad(_("invalid double-word PiCo register `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = op->align_order; ++} ++ ++static void ++parse_pico_reglist_w(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot, h_bit = 0; ++ char *tail; ++ ++ regmask = avr32_parse_pico_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ ++ if (regmask & 0x00ffUL) ++ { ++ if (regmask & 0xff00UL) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ regmask &= 0x00ffUL; ++ } ++ else if (regmask & 0xff00UL) ++ { ++ regmask >>= 8; ++ h_bit = 1; ++ } ++ else ++ as_warn(_("register list is empty")); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = h_bit; ++} ++ ++static void ++parse_pico_reglist_d(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask, regmask_d = 0; ++ int slot, i; ++ char *tail; ++ ++ regmask = avr32_parse_pico_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ ++ for (i = 0; i < 8; i++) ++ { ++ if (regmask & 1) ++ { ++ if (!(regmask & 2)) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ regmask_d |= 1 << i; ++ } ++ else if (regmask & 2) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ ++ regmask >>= 2; ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask_d; ++} ++ ++static void ++parse_pico_in(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regid; ++ int slot; ++ ++ regid = strtoul(str + 2, NULL, 10); ++ ++ if (regid >= 12) ++ as_bad(_("invalid PiCo IN register `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = 0; ++} ++ ++#define parse_pico_out0 parse_nothing ++#define parse_pico_out1 parse_nothing ++#define parse_pico_out2 parse_nothing ++#define parse_pico_out3 parse_nothing ++ ++#define OP(name, sgn, pcrel, align, func) \ ++ { AVR32_OPERAND_##name, sgn, pcrel, align, match_##func, parse_##func } ++ ++struct avr32_operand avr32_operand_table[] = { ++ OP(INTREG, 0, 0, 0, intreg), ++ OP(INTREG_PREDEC, 0, 0, 0, intreg_predec), ++ OP(INTREG_POSTINC, 0, 0, 0, intreg_postinc), ++ OP(INTREG_LSL, 0, 0, 0, intreg_lsl), ++ OP(INTREG_LSR, 0, 0, 0, intreg_lsr), ++ OP(INTREG_BSEL, 0, 0, 0, intreg_part), ++ OP(INTREG_HSEL, 0, 0, 1, intreg_part), ++ OP(INTREG_SDISP, 1, 0, 0, intreg_disp), ++ OP(INTREG_SDISP_H, 1, 0, 1, intreg_disp), ++ OP(INTREG_SDISP_W, 1, 0, 2, intreg_disp), ++ OP(INTREG_UDISP, 0, 0, 0, intreg_disp), ++ OP(INTREG_UDISP_H, 0, 0, 1, intreg_disp), ++ OP(INTREG_UDISP_W, 0, 0, 2, intreg_disp), ++ OP(INTREG_INDEX, 0, 0, 0, intreg_index), ++ OP(INTREG_XINDEX, 0, 0, 0, intreg_xindex), ++ OP(DWREG, 0, 0, 1, intreg), ++ OP(PC_UDISP_W, 0, 1, 2, pc_disp), ++ OP(SP, 0, 0, 0, sp), ++ OP(SP_UDISP_W, 0, 0, 2, sp_disp), ++ OP(CPNO, 0, 0, 0, cpno), ++ OP(CPREG, 0, 0, 0, cpreg), ++ OP(CPREG_D, 0, 0, 1, cpreg), ++ OP(UNSIGNED_CONST, 0, 0, 0, const), ++ OP(UNSIGNED_CONST_W, 0, 0, 2, const), ++ OP(SIGNED_CONST, 1, 0, 0, const), ++ OP(SIGNED_CONST_W, 1, 0, 2, const), ++ OP(JMPLABEL, 1, 1, 1, jmplabel), ++ OP(UNSIGNED_NUMBER, 0, 0, 0, number), ++ OP(UNSIGNED_NUMBER_W, 0, 0, 2, number), ++ OP(REGLIST8, 0, 0, 0, reglist8), ++ OP(REGLIST9, 0, 0, 0, reglist9), ++ OP(REGLIST16, 0, 0, 0, reglist16), ++ OP(REGLIST_LDM, 0, 0, 0, reglist_ldm), ++ OP(REGLIST_CP8, 0, 0, 0, reglist_cp8), ++ OP(REGLIST_CPD8, 0, 0, 0, reglist_cpd8), ++ OP(RETVAL, 0, 0, 0, retval), ++ OP(MCALL, 1, 0, 2, mcall), ++ OP(JOSPINC, 0, 0, 0, jospinc), ++ OP(COH, 0, 0, 0, coh), ++ OP(PICO_REG_W, 0, 0, 0, picoreg), ++ OP(PICO_REG_D, 0, 0, 1, picoreg), ++ OP(PICO_REGLIST_W, 0, 0, 0, pico_reglist_w), ++ OP(PICO_REGLIST_D, 0, 0, 0, pico_reglist_d), ++ OP(PICO_IN, 0, 0, 0, pico_in), ++ OP(PICO_OUT0, 0, 0, 0, pico_out0), ++ OP(PICO_OUT1, 0, 0, 0, pico_out1), ++ OP(PICO_OUT2, 0, 0, 0, pico_out2), ++ OP(PICO_OUT3, 0, 0, 0, pico_out3), ++}; ++ ++symbolS * ++md_undefined_symbol (char *name ATTRIBUTE_UNUSED) ++{ ++ pr_debug("md_undefined_symbol: %s\n", name); ++ return 0; ++} ++ ++struct avr32_relax_type ++{ ++ long lower_bound; ++ long upper_bound; ++ unsigned char align; ++ unsigned char length; ++ signed short next; ++}; ++ ++#define EMPTY { 0, 0, 0, 0, -1 } ++#define C(lower, upper, align, next) \ ++ { (lower), (upper), (align), 2, AVR32_OPC_##next } ++#define E(lower, upper, align) \ ++ { (lower), (upper), (align), 4, -1 } ++ ++static const struct avr32_relax_type avr32_relax_table[] = ++ { ++ /* 0 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ E(0, 65535, 0), E(0, 65535, 0), E(0, 65535, 0), E(0, 65535, 0), ++ EMPTY, ++ /* 16 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(-256, 254, 1, BREQ2), C(-256, 254, 1, BRNE2), ++ C(-256, 254, 1, BRCC2), C(-256, 254, 1, BRCS2), ++ C(-256, 254, 1, BRGE2), C(-256, 254, 1, BRLT2), ++ C(-256, 254, 1, BRMI2), C(-256, 254, 1, BRPL2), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ /* 32 */ ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 48 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ ++ C(-32, 31, 0, CP_W3), E(-1048576, 1048575, 0), ++ ++ EMPTY, EMPTY, EMPTY, ++ /* 64: csrfcz */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(0, 65535, 0), E(0, 65535, 0), ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(-32768, 32767, 0), ++ /* 80: LD_SB2 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(0, 7, 0, LD_UB4), E(-32768, 32767, 0), ++ ++ EMPTY, ++ EMPTY, EMPTY, ++ ++ C(0, 14, 1, LD_SH4), E(-32768, 32767, 0), ++ ++ EMPTY, EMPTY, EMPTY, ++ ++ C(0, 14, 1, LD_UH4), ++ ++ /* 96: LD_UH4 */ ++ E(-32768, 32767, 0), ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(0, 124, 2, LD_W4), E(-32768, 32767, 0), ++ ++ E(0, 1020, 2), /* LDC_D1 */ ++ EMPTY, EMPTY, ++ E(0, 1020, 2), /* LDC_W1 */ ++ EMPTY, EMPTY, ++ E(0, 16380, 2), /* LDC0_D */ ++ E(0, 16380, 2), /* LDC0_W */ ++ EMPTY, ++ ++ /* 112: LDCM_D_PU */ ++ EMPTY, EMPTY, EMPTY, ++ ++ C(0, 508, 2, LDDPC_EXT), E(-32768, 32767, 0), ++ ++ EMPTY,EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 134: MACHH_W */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(-131072, 131068, 2), /* MCALL */ ++ E(0, 1020, 2), /* MFDR */ ++ E(0, 1020, 2), /* MFSR */ ++ EMPTY, EMPTY, ++ ++ C(-128, 127, 0, MOV2), E(-1048576, 1048575, 0), ++ ++ EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ E(-128, 127, 0), /* MOVEQ2 */ ++ E(-128, 127, 0), /* MOVNE2 */ ++ E(-128, 127, 0), /* MOVCC2 */ ++ E(-128, 127, 0), /* 166: MOVCS2 */ ++ E(-128, 127, 0), /* MOVGE2 */ ++ E(-128, 127, 0), /* MOVLT2 */ ++ E(-128, 127, 0), /* MOVMI2 */ ++ E(-128, 127, 0), /* MOVPL2 */ ++ E(-128, 127, 0), /* MOVLS2 */ ++ E(-128, 127, 0), /* MOVGT2 */ ++ E(-128, 127, 0), /* MOVLE2 */ ++ E(-128, 127, 0), /* MOVHI2 */ ++ E(-128, 127, 0), /* MOVVS2 */ ++ E(-128, 127, 0), /* MOVVC2 */ ++ E(-128, 127, 0), /* MOVQS2 */ ++ E(-128, 127, 0), /* MOVAL2 */ ++ ++ E(0, 1020, 2), /* MTDR */ ++ E(0, 1020, 2), /* MTSR */ ++ EMPTY, ++ EMPTY, ++ E(-128, 127, 0), /* MUL3 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 198: MVCR_W */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(0, 65535, 0), E(0, 65535, 0), ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 230: PASR_H */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 262: PUNPCKSB_H */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(-1024, 1022, 1, RCALL2), E(-2097152, 2097150, 1), ++ ++ EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ ++ C(-1024, 1022, 1, BRAL), ++ ++ EMPTY, EMPTY, EMPTY, ++ E(-128, 127, 0), /* RSUB2 */ ++ /* 294: SATADD_H */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(0, 255, 0), /* SLEEP */ ++ EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 326: ST_B2 */ ++ EMPTY, EMPTY, ++ C(0, 7, 0, ST_B4), E(-32768, 32767, 0), ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ E(-32768, 32767, 0), ++ EMPTY, EMPTY, EMPTY, ++ C(0, 14, 1, ST_H4), E(-32768, 32767, 0), ++ EMPTY, EMPTY, ++ EMPTY, ++ C(0, 60, 2, ST_W4), E(-32768, 32767, 0), ++ E(0, 1020, 2), /* STC_D1 */ ++ EMPTY, EMPTY, ++ E(0, 1020, 2), /* STC_W1 */ ++ EMPTY, EMPTY, ++ E(0, 16380, 2), /* STC0_D */ ++ E(0, 16380, 2), /* STC0_W */ ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 358: STDSP */ ++ EMPTY, EMPTY, ++ E(0, 1020, 2), /* STHH_W1 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ E(-32768, 32767, 0), ++ C(-512, 508, 2, SUB4), ++ C(-128, 127, 0, SUB4), E(-1048576, 1048576, 0), ++ /* SUB{cond} */ ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ /* SUBF{cond} */ ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ EMPTY, ++ ++ /* 406: SWAP_B */ ++ EMPTY, EMPTY, EMPTY, ++ E(0, 255, 0), /* SYNC */ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 414: TST */ ++ EMPTY, EMPTY, E(-65536, 65535, 2), E(-65536, 65535, 2), E(-65536, 65535, 2), EMPTY, EMPTY, EMPTY, ++ /* 422: RSUB{cond} */ ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ /* 436: ADD{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 454: SUB{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 472: AND{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 486: OR{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 502: EOR{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 518: LD.w{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 534: LD.sh{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 550: LD.uh{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 566: LD.sb{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 582: LD.ub{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 596: ST.w{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 614: ST.h{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 630: ST.b{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 646: movh */ ++ E(0, 65535, 0), EMPTY, EMPTY, ++ /* 649: fmac.s */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ }; ++ ++#undef E ++#undef C ++#undef EMPTY ++ ++#define AVR32_RS_NONE (-1) ++ ++#define avr32_rs_size(state) (avr32_relax_table[(state)].length) ++#define avr32_rs_align(state) (avr32_relax_table[(state)].align) ++#define relax_more(state) (avr32_relax_table[(state)].next) ++ ++#define opc_initial_substate(opc) ((opc)->id) ++ ++static int need_relax(int subtype, offsetT distance) ++{ ++ offsetT upper_bound, lower_bound; ++ ++ upper_bound = avr32_relax_table[subtype].upper_bound; ++ lower_bound = avr32_relax_table[subtype].lower_bound; ++ ++ if (distance & ((1 << avr32_rs_align(subtype)) - 1)) ++ return 1; ++ if ((distance > upper_bound) || (distance < lower_bound)) ++ return 1; ++ ++ return 0; ++} ++ ++enum { ++ LDA_SUBTYPE_MOV1, ++ LDA_SUBTYPE_MOV2, ++ LDA_SUBTYPE_SUB, ++ LDA_SUBTYPE_LDDPC, ++ LDA_SUBTYPE_LDW, ++ LDA_SUBTYPE_GOTLOAD, ++ LDA_SUBTYPE_GOTLOAD_LARGE, ++}; ++ ++enum { ++ CALL_SUBTYPE_RCALL1, ++ CALL_SUBTYPE_RCALL2, ++ CALL_SUBTYPE_MCALL_CP, ++ CALL_SUBTYPE_MCALL_GOT, ++ CALL_SUBTYPE_MCALL_LARGE, ++}; ++ ++#define LDA_INITIAL_SIZE (avr32_pic ? 4 : 2) ++#define CALL_INITIAL_SIZE 2 ++ ++#define need_reloc(sym, seg, pcrel) \ ++ (!(S_IS_DEFINED(sym) \ ++ && ((pcrel && S_GET_SEGMENT(sym) == seg) \ ++ || (!pcrel && S_GET_SEGMENT(sym) == absolute_section))) \ ++ || S_FORCE_RELOC(sym, 1)) ++ ++/* Return an initial guess of the length by which a fragment must grow to ++ hold a branch to reach its destination. ++ Also updates fr_type/fr_subtype as necessary. ++ ++ Called just before doing relaxation. ++ Any symbol that is now undefined will not become defined. ++ The guess for fr_var is ACTUALLY the growth beyond fr_fix. ++ Whatever we do to grow fr_fix or fr_var contributes to our returned value. ++ Although it may not be explicit in the frag, pretend fr_var starts with a ++ 0 value. */ ++ ++static int ++avr32_default_estimate_size_before_relax (fragS *fragP, segT segment) ++{ ++ int growth = 0; ++ ++ assert(fragP); ++ assert(fragP->fr_symbol); ++ ++ if (fragP->tc_frag_data.force_extended ++ || need_reloc(fragP->fr_symbol, segment, fragP->tc_frag_data.pcrel)) ++ { ++ int largest_state = fragP->fr_subtype; ++ while (relax_more(largest_state) != AVR32_RS_NONE) ++ largest_state = relax_more(largest_state); ++ growth = avr32_rs_size(largest_state) - fragP->fr_var; ++ } ++ else ++ { ++ growth = avr32_rs_size(fragP->fr_subtype) - fragP->fr_var; ++ } ++ ++ pr_debug("%s:%d: md_estimate_size_before_relax: %d\n", ++ fragP->fr_file, fragP->fr_line, growth); ++ ++ return growth; ++} ++ ++static int ++avr32_lda_estimate_size_before_relax(fragS *fragP, segT segment ATTRIBUTE_UNUSED) ++{ ++ return fragP->fr_var - LDA_INITIAL_SIZE; ++} ++ ++static int ++avr32_call_estimate_size_before_relax(fragS *fragP, segT segment ATTRIBUTE_UNUSED) ++{ ++ return fragP->fr_var - CALL_INITIAL_SIZE; ++} ++ ++static int ++avr32_cpool_estimate_size_before_relax(fragS *fragP, ++ segT segment ATTRIBUTE_UNUSED) ++{ ++ return fragP->fr_var; ++} ++ ++/* This macro may be defined to relax a frag. GAS will call this with the ++ * segment, the frag, and the change in size of all previous frags; ++ * md_relax_frag should return the change in size of the frag. */ ++static long ++avr32_default_relax_frag (segT segment, fragS *fragP, long stretch) ++{ ++ int state, next_state; ++ symbolS *symbolP; /* The target symbol */ ++ long growth = 0; ++ ++ state = next_state = fragP->fr_subtype; ++ ++ symbolP = fragP->fr_symbol; ++ ++ if (fragP->tc_frag_data.force_extended ++ || need_reloc(symbolP, segment, fragP->tc_frag_data.pcrel)) ++ { ++ /* Symbol must be resolved by the linker. Emit the largest ++ possible opcode. */ ++ while (relax_more(next_state) != AVR32_RS_NONE) ++ next_state = relax_more(next_state); ++ } ++ else ++ { ++ addressT address; /* The address of fragP */ ++ addressT target; /* The address of the target symbol */ ++ offsetT distance; /* The distance between the insn and the symbol */ ++ fragS *sym_frag; ++ ++ address = fragP->fr_address; ++ target = fragP->fr_offset; ++ symbolP = fragP->fr_symbol; ++ sym_frag = symbol_get_frag(symbolP); ++ ++ address += fragP->fr_fix - fragP->fr_var; ++ target += S_GET_VALUE(symbolP); ++ ++ if (stretch != 0 ++ && sym_frag->relax_marker != fragP->relax_marker ++ && S_GET_SEGMENT(symbolP) == segment) ++ /* if it was correctly aligned before, make sure it stays aligned */ ++ target += stretch & (~0UL << avr32_rs_align(state)); ++ ++ if (fragP->tc_frag_data.pcrel) ++ distance = target - (address & (~0UL << avr32_rs_align(state))); ++ else ++ distance = target; ++ ++ pr_debug("%s:%d: relax more? 0x%x - 0x%x = 0x%x (%d), align %d\n", ++ fragP->fr_file, fragP->fr_line, target, address, ++ distance, distance, avr32_rs_align(state)); ++ ++ if (need_relax(state, distance)) ++ { ++ if (relax_more(state) != AVR32_RS_NONE) ++ next_state = relax_more(state); ++ pr_debug("%s:%d: relax more %d -> %d (%d - %d, align %d)\n", ++ fragP->fr_file, fragP->fr_line, state, next_state, ++ target, address, avr32_rs_align(state)); ++ } ++ } ++ ++ growth = avr32_rs_size(next_state) - avr32_rs_size(state); ++ fragP->fr_subtype = next_state; ++ ++ pr_debug("%s:%d: md_relax_frag: growth=%d, subtype=%d, opc=0x%08lx\n", ++ fragP->fr_file, fragP->fr_line, growth, fragP->fr_subtype, ++ avr32_opc_table[next_state].value); ++ ++ return growth; ++} ++ ++static long ++avr32_lda_relax_frag(segT segment, fragS *fragP, long stretch) ++{ ++ struct cpool *pool= NULL; ++ unsigned int entry = 0; ++ addressT address, target; ++ offsetT distance; ++ symbolS *symbolP; ++ fragS *sym_frag; ++ long old_size, new_size; ++ ++ symbolP = fragP->fr_symbol; ++ old_size = fragP->fr_var; ++ if (!avr32_pic) ++ { ++ pool = fragP->tc_frag_data.pool; ++ entry = fragP->tc_frag_data.pool_entry; ++ } ++ ++ address = fragP->fr_address; ++ address += fragP->fr_fix - LDA_INITIAL_SIZE; ++ ++ if (!S_IS_DEFINED(symbolP) || S_FORCE_RELOC(symbolP, 1)) ++ goto relax_max; ++ ++ target = fragP->fr_offset; ++ sym_frag = symbol_get_frag(symbolP); ++ target += S_GET_VALUE(symbolP); ++ ++ if (sym_frag->relax_marker != fragP->relax_marker ++ && S_GET_SEGMENT(symbolP) == segment) ++ target += stretch; ++ ++ distance = target - address; ++ ++ pr_debug("lda_relax_frag: target: %d, address: %d, var: %d\n", ++ target, address, fragP->fr_var); ++ ++ if (!avr32_pic && S_GET_SEGMENT(symbolP) == absolute_section ++ && target <= 127 && (offsetT)target >= -128) ++ { ++ if (fragP->fr_subtype == LDA_SUBTYPE_LDDPC ++ || fragP->fr_subtype == LDA_SUBTYPE_LDW) ++ pool->literals[entry].refcount--; ++ new_size = 2; ++ fragP->fr_subtype = LDA_SUBTYPE_MOV1; ++ } ++ else if (!avr32_pic && S_GET_SEGMENT(symbolP) == absolute_section ++ && target <= 1048575 && (offsetT)target >= -1048576) ++ { ++ if (fragP->fr_subtype == LDA_SUBTYPE_LDDPC ++ || fragP->fr_subtype == LDA_SUBTYPE_LDW) ++ pool->literals[entry].refcount--; ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_MOV2; ++ } ++ else if (!linkrelax && S_GET_SEGMENT(symbolP) == segment ++ /* the field will be negated, so this is really -(-32768) ++ and -(32767) */ ++ && distance <= 32768 && distance >= -32767) ++ { ++ if (!avr32_pic ++ && (fragP->fr_subtype == LDA_SUBTYPE_LDDPC ++ || fragP->fr_subtype == LDA_SUBTYPE_LDW)) ++ pool->literals[entry].refcount--; ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_SUB; ++ } ++ else ++ { ++ relax_max: ++ if (avr32_pic) ++ { ++ if (linkrelax) ++ { ++ new_size = 8; ++ fragP->fr_subtype = LDA_SUBTYPE_GOTLOAD_LARGE; ++ } ++ else ++ { ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_GOTLOAD; ++ } ++ } ++ else ++ { ++ if (fragP->fr_subtype != LDA_SUBTYPE_LDDPC ++ && fragP->fr_subtype != LDA_SUBTYPE_LDW) ++ pool->literals[entry].refcount++; ++ ++ sym_frag = symbol_get_frag(pool->symbol); ++ target = (sym_frag->fr_address + sym_frag->fr_fix ++ + pool->padding + pool->literals[entry].offset); ++ ++ pr_debug("cpool sym address: 0x%lx\n", ++ sym_frag->fr_address + sym_frag->fr_fix); ++ ++ know(pool->section == segment); ++ ++ if (sym_frag->relax_marker != fragP->relax_marker) ++ target += stretch; ++ ++ distance = target - address; ++ if (distance <= 508 && distance >= 0) ++ { ++ new_size = 2; ++ fragP->fr_subtype = LDA_SUBTYPE_LDDPC; ++ } ++ else ++ { ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_LDW; ++ } ++ ++ pr_debug("lda_relax_frag (cpool): target=0x%lx, address=0x%lx, refcount=%d\n", ++ target, address, pool->literals[entry].refcount); ++ } ++ } ++ ++ fragP->fr_var = new_size; ++ ++ pr_debug("%s:%d: lda: relax pass done. subtype: %d, growth: %ld\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_subtype, new_size - old_size); ++ ++ return new_size - old_size; ++} ++ ++static long ++avr32_call_relax_frag(segT segment, fragS *fragP, long stretch) ++{ ++ struct cpool *pool = NULL; ++ unsigned int entry = 0; ++ addressT address, target; ++ offsetT distance; ++ symbolS *symbolP; ++ fragS *sym_frag; ++ long old_size, new_size; ++ ++ symbolP = fragP->fr_symbol; ++ old_size = fragP->fr_var; ++ if (!avr32_pic) ++ { ++ pool = fragP->tc_frag_data.pool; ++ entry = fragP->tc_frag_data.pool_entry; ++ } ++ ++ address = fragP->fr_address; ++ address += fragP->fr_fix - CALL_INITIAL_SIZE; ++ ++ if (need_reloc(symbolP, segment, 1)) ++ { ++ pr_debug("call: must emit reloc\n"); ++ goto relax_max; ++ } ++ ++ target = fragP->fr_offset; ++ sym_frag = symbol_get_frag(symbolP); ++ target += S_GET_VALUE(symbolP); ++ ++ if (sym_frag->relax_marker != fragP->relax_marker ++ && S_GET_SEGMENT(symbolP) == segment) ++ target += stretch; ++ ++ distance = target - address; ++ ++ if (distance <= 1022 && distance >= -1024) ++ { ++ pr_debug("call: distance is %d, emitting short rcall\n", distance); ++ if (!avr32_pic && fragP->fr_subtype == CALL_SUBTYPE_MCALL_CP) ++ pool->literals[entry].refcount--; ++ new_size = 2; ++ fragP->fr_subtype = CALL_SUBTYPE_RCALL1; ++ } ++ else if (distance <= 2097150 && distance >= -2097152) ++ { ++ pr_debug("call: distance is %d, emitting long rcall\n", distance); ++ if (!avr32_pic && fragP->fr_subtype == CALL_SUBTYPE_MCALL_CP) ++ pool->literals[entry].refcount--; ++ new_size = 4; ++ fragP->fr_subtype = CALL_SUBTYPE_RCALL2; ++ } ++ else ++ { ++ pr_debug("call: distance %d too far, emitting something big\n", distance); ++ ++ relax_max: ++ if (avr32_pic) ++ { ++ if (linkrelax) ++ { ++ new_size = 10; ++ fragP->fr_subtype = CALL_SUBTYPE_MCALL_LARGE; ++ } ++ else ++ { ++ new_size = 4; ++ fragP->fr_subtype = CALL_SUBTYPE_MCALL_GOT; ++ } ++ } ++ else ++ { ++ if (fragP->fr_subtype != CALL_SUBTYPE_MCALL_CP) ++ pool->literals[entry].refcount++; ++ ++ new_size = 4; ++ fragP->fr_subtype = CALL_SUBTYPE_MCALL_CP; ++ } ++ } ++ ++ fragP->fr_var = new_size; ++ ++ pr_debug("%s:%d: call: relax pass done, growth: %d, fr_var: %d\n", ++ fragP->fr_file, fragP->fr_line, ++ new_size - old_size, fragP->fr_var); ++ ++ return new_size - old_size; ++} ++ ++static long ++avr32_cpool_relax_frag(segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP, ++ long stretch ATTRIBUTE_UNUSED) ++{ ++ struct cpool *pool; ++ addressT address; ++ long old_size, new_size; ++ unsigned int entry; ++ ++ pool = fragP->tc_frag_data.pool; ++ address = fragP->fr_address + fragP->fr_fix; ++ old_size = fragP->fr_var; ++ new_size = 0; ++ ++ for (entry = 0; entry < pool->next_free_entry; entry++) ++ { ++ if (pool->literals[entry].refcount > 0) ++ { ++ pool->literals[entry].offset = new_size; ++ new_size += 4; ++ } ++ } ++ ++ fragP->fr_var = new_size; ++ ++ return new_size - old_size; ++} ++ ++/* *fragP has been relaxed to its final size, and now needs to have ++ the bytes inside it modified to conform to the new size. ++ ++ Called after relaxation is finished. ++ fragP->fr_type == rs_machine_dependent. ++ fragP->fr_subtype is the subtype of what the address relaxed to. */ ++ ++static void ++avr32_default_convert_frag (bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ const struct avr32_opcode *opc; ++ const struct avr32_ifield *ifield; ++ bfd_reloc_code_real_type r_type; ++ symbolS *symbolP; ++ fixS *fixP; ++ bfd_vma value; ++ int subtype; ++ ++ opc = &avr32_opc_table[fragP->fr_subtype]; ++ ifield = opc->fields[opc->var_field]; ++ symbolP = fragP->fr_symbol; ++ subtype = fragP->fr_subtype; ++ r_type = opc->reloc_type; ++ ++ /* Clear the opcode bits and the bits belonging to the relaxed ++ field. We assume all other fields stay the same. */ ++ value = bfd_getb32(fragP->fr_opcode); ++ value &= ~(opc->mask | ifield->mask); ++ ++ /* Insert the new opcode */ ++ value |= opc->value; ++ bfd_putb32(value, fragP->fr_opcode); ++ ++ fragP->fr_fix += opc->size - fragP->fr_var; ++ ++ if (fragP->tc_frag_data.reloc_info != AVR32_OPINFO_NONE) ++ { ++ switch (fragP->tc_frag_data.reloc_info) ++ { ++ case AVR32_OPINFO_HI: ++ r_type = BFD_RELOC_HI16; ++ break; ++ case AVR32_OPINFO_LO: ++ r_type = BFD_RELOC_LO16; ++ break; ++ case AVR32_OPINFO_GOT: ++ switch (r_type) ++ { ++ case BFD_RELOC_AVR32_18W_PCREL: ++ r_type = BFD_RELOC_AVR32_GOT18SW; ++ break; ++ case BFD_RELOC_AVR32_16S: ++ r_type = BFD_RELOC_AVR32_GOT16S; ++ break; ++ default: ++ BAD_CASE(r_type); ++ break; ++ } ++ break; ++ default: ++ BAD_CASE(fragP->tc_frag_data.reloc_info); ++ break; ++ } ++ } ++ ++ pr_debug("%s:%d: convert_frag: new %s fixup\n", ++ fragP->fr_file, fragP->fr_line, ++ bfd_get_reloc_code_name(r_type)); ++ ++#if 1 ++ fixP = fix_new_exp(fragP, fragP->fr_fix - opc->size, opc->size, ++ &fragP->tc_frag_data.exp, ++ fragP->tc_frag_data.pcrel, r_type); ++#else ++ fixP = fix_new(fragP, fragP->fr_fix - opc->size, opc->size, symbolP, ++ fragP->fr_offset, fragP->tc_frag_data.pcrel, r_type); ++#endif ++ ++ /* Revert fix_new brain damage. "dot_value" is the value of PC at ++ the point of the fixup, relative to the frag address. fix_new() ++ and friends think they are only being called during the assembly ++ pass, not during relaxation or similar, so fx_dot_value, fx_file ++ and fx_line are all initialized to the wrong value. But we don't ++ know the size of the fixup until now, so we really can't live up ++ to the assumptions these functions make about the target. What ++ do these functions think the "where" and "frag" argument mean ++ anyway? */ ++ fixP->fx_dot_value = fragP->fr_fix - opc->size; ++ fixP->fx_file = fragP->fr_file; ++ fixP->fx_line = fragP->fr_line; ++ ++ fixP->tc_fix_data.ifield = ifield; ++ fixP->tc_fix_data.align = avr32_rs_align(subtype); ++ fixP->tc_fix_data.min = avr32_relax_table[subtype].lower_bound; ++ fixP->tc_fix_data.max = avr32_relax_table[subtype].upper_bound; ++} ++ ++static void ++avr32_lda_convert_frag(bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ const struct avr32_opcode *opc; ++ const struct avr32_ifield *ifield; ++ bfd_reloc_code_real_type r_type; ++ expressionS exp; ++ struct cpool *pool; ++ fixS *fixP; ++ bfd_vma value; ++ int regid, pcrel = 0, align = 0; ++ char *p; ++ ++ r_type = BFD_RELOC_NONE; ++ regid = fragP->tc_frag_data.reloc_info; ++ p = fragP->fr_opcode; ++ exp.X_add_symbol = fragP->fr_symbol; ++ exp.X_add_number = fragP->fr_offset; ++ exp.X_op = O_symbol; ++ ++ pr_debug("%s:%d: lda_convert_frag, subtype: %d, fix: %d, var: %d, regid: %d\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_subtype, fragP->fr_fix, fragP->fr_var, regid); ++ ++ switch (fragP->fr_subtype) ++ { ++ case LDA_SUBTYPE_MOV1: ++ opc = &avr32_opc_table[AVR32_OPC_MOV1]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ r_type = opc->reloc_type; ++ break; ++ case LDA_SUBTYPE_MOV2: ++ opc = &avr32_opc_table[AVR32_OPC_MOV2]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ r_type = opc->reloc_type; ++ break; ++ case LDA_SUBTYPE_SUB: ++ opc = &avr32_opc_table[AVR32_OPC_SUB5]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ opc->fields[1]->insert(opc->fields[1], p, AVR32_REG_PC); ++ ifield = opc->fields[2]; ++ r_type = BFD_RELOC_AVR32_16N_PCREL; ++ ++ /* Pretend that SUB5 isn't a "negated" pcrel expression for now. ++ We'll have to fix it up later when we know whether to ++ generate a reloc for it (in which case the linker will negate ++ it, so we shouldn't). */ ++ pcrel = 1; ++ break; ++ case LDA_SUBTYPE_LDDPC: ++ opc = &avr32_opc_table[AVR32_OPC_LDDPC]; ++ align = 2; ++ r_type = BFD_RELOC_AVR32_9W_CP; ++ goto cpool_common; ++ case LDA_SUBTYPE_LDW: ++ opc = &avr32_opc_table[AVR32_OPC_LDDPC_EXT]; ++ r_type = BFD_RELOC_AVR32_16_CP; ++ cpool_common: ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ pool = fragP->tc_frag_data.pool; ++ exp.X_add_symbol = pool->symbol; ++ exp.X_add_number = pool->literals[fragP->tc_frag_data.pool_entry].offset; ++ pcrel = 1; ++ break; ++ case LDA_SUBTYPE_GOTLOAD_LARGE: ++ /* ld.w Rd, r6[Rd << 2] (last) */ ++ opc = &avr32_opc_table[AVR32_OPC_LD_W5]; ++ bfd_putb32(opc->value, p + 4); ++ opc->fields[0]->insert(opc->fields[0], p + 4, regid); ++ opc->fields[1]->insert(opc->fields[1], p + 4, 6); ++ opc->fields[2]->insert(opc->fields[2], p + 4, regid); ++ opc->fields[3]->insert(opc->fields[3], p + 4, 2); ++ ++ /* mov Rd, (got_offset / 4) */ ++ opc = &avr32_opc_table[AVR32_OPC_MOV2]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_LDA_GOT; ++ break; ++ case LDA_SUBTYPE_GOTLOAD: ++ opc = &avr32_opc_table[AVR32_OPC_LD_W4]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ opc->fields[1]->insert(opc->fields[1], p, 6); ++ ifield = opc->fields[2]; ++ if (r_type == BFD_RELOC_NONE) ++ r_type = BFD_RELOC_AVR32_GOT16S; ++ break; ++ default: ++ BAD_CASE(fragP->fr_subtype); ++ } ++ ++ value = bfd_getb32(p); ++ value &= ~(opc->mask | ifield->mask); ++ value |= opc->value; ++ bfd_putb32(value, p); ++ ++ fragP->fr_fix += fragP->fr_var - LDA_INITIAL_SIZE; ++ ++ if (fragP->fr_next ++ && ((offsetT)(fragP->fr_next->fr_address - fragP->fr_address) ++ != fragP->fr_fix)) ++ { ++ fprintf(stderr, "LDA frag: fr_fix is wrong! fragP->fr_var = %ld, r_type = %s\n", ++ fragP->fr_var, bfd_get_reloc_code_name(r_type)); ++ abort(); ++ } ++ ++ fixP = fix_new_exp(fragP, fragP->fr_fix - fragP->fr_var, fragP->fr_var, ++ &exp, pcrel, r_type); ++ ++ /* Revert fix_new brain damage. "dot_value" is the value of PC at ++ the point of the fixup, relative to the frag address. fix_new() ++ and friends think they are only being called during the assembly ++ pass, not during relaxation or similar, so fx_dot_value, fx_file ++ and fx_line are all initialized to the wrong value. But we don't ++ know the size of the fixup until now, so we really can't live up ++ to the assumptions these functions make about the target. What ++ do these functions think the "where" and "frag" argument mean ++ anyway? */ ++ fixP->fx_dot_value = fragP->fr_fix - opc->size; ++ fixP->fx_file = fragP->fr_file; ++ fixP->fx_line = fragP->fr_line; ++ ++ fixP->tc_fix_data.ifield = ifield; ++ fixP->tc_fix_data.align = align; ++ /* these are only used if the fixup can actually be resolved */ ++ fixP->tc_fix_data.min = -32768; ++ fixP->tc_fix_data.max = 32767; ++} ++ ++static void ++avr32_call_convert_frag(bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ const struct avr32_opcode *opc = NULL; ++ const struct avr32_ifield *ifield; ++ bfd_reloc_code_real_type r_type; ++ symbolS *symbol; ++ offsetT offset; ++ fixS *fixP; ++ bfd_vma value; ++ int pcrel = 0, align = 0; ++ char *p; ++ ++ symbol = fragP->fr_symbol; ++ offset = fragP->fr_offset; ++ r_type = BFD_RELOC_NONE; ++ p = fragP->fr_opcode; ++ ++ pr_debug("%s:%d: call_convert_frag, subtype: %d, fix: %d, var: %d\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_subtype, fragP->fr_fix, fragP->fr_var); ++ ++ switch (fragP->fr_subtype) ++ { ++ case CALL_SUBTYPE_RCALL1: ++ opc = &avr32_opc_table[AVR32_OPC_RCALL1]; ++ /* fall through */ ++ case CALL_SUBTYPE_RCALL2: ++ if (!opc) ++ opc = &avr32_opc_table[AVR32_OPC_RCALL2]; ++ ifield = opc->fields[0]; ++ r_type = opc->reloc_type; ++ pcrel = 1; ++ align = 1; ++ break; ++ case CALL_SUBTYPE_MCALL_CP: ++ opc = &avr32_opc_table[AVR32_OPC_MCALL]; ++ opc->fields[0]->insert(opc->fields[0], p, AVR32_REG_PC); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_CPCALL; ++ symbol = fragP->tc_frag_data.pool->symbol; ++ offset = fragP->tc_frag_data.pool->literals[fragP->tc_frag_data.pool_entry].offset; ++ assert(fragP->tc_frag_data.pool->literals[fragP->tc_frag_data.pool_entry].refcount > 0); ++ pcrel = 1; ++ align = 2; ++ break; ++ case CALL_SUBTYPE_MCALL_GOT: ++ opc = &avr32_opc_table[AVR32_OPC_MCALL]; ++ opc->fields[0]->insert(opc->fields[0], p, 6); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_GOT18SW; ++ break; ++ case CALL_SUBTYPE_MCALL_LARGE: ++ assert(fragP->fr_var == 10); ++ /* ld.w lr, r6[lr << 2] */ ++ opc = &avr32_opc_table[AVR32_OPC_LD_W5]; ++ bfd_putb32(opc->value, p + 4); ++ opc->fields[0]->insert(opc->fields[0], p + 4, AVR32_REG_LR); ++ opc->fields[1]->insert(opc->fields[1], p + 4, 6); ++ opc->fields[2]->insert(opc->fields[2], p + 4, AVR32_REG_LR); ++ opc->fields[3]->insert(opc->fields[3], p + 4, 2); ++ ++ /* icall lr */ ++ opc = &avr32_opc_table[AVR32_OPC_ICALL]; ++ bfd_putb16(opc->value >> 16, p + 8); ++ opc->fields[0]->insert(opc->fields[0], p + 8, AVR32_REG_LR); ++ ++ /* mov lr, (got_offset / 4) */ ++ opc = &avr32_opc_table[AVR32_OPC_MOV2]; ++ opc->fields[0]->insert(opc->fields[0], p, AVR32_REG_LR); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_GOTCALL; ++ break; ++ default: ++ BAD_CASE(fragP->fr_subtype); ++ } ++ ++ /* Insert the opcode and clear the variable ifield */ ++ value = bfd_getb32(p); ++ value &= ~(opc->mask | ifield->mask); ++ value |= opc->value; ++ bfd_putb32(value, p); ++ ++ fragP->fr_fix += fragP->fr_var - CALL_INITIAL_SIZE; ++ ++ if (fragP->fr_next ++ && ((offsetT)(fragP->fr_next->fr_address - fragP->fr_address) ++ != fragP->fr_fix)) ++ { ++ fprintf(stderr, "%s:%d: fr_fix %lu is wrong! fr_var=%lu, r_type=%s\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_fix, fragP->fr_var, bfd_get_reloc_code_name(r_type)); ++ fprintf(stderr, "fr_fix should be %ld. next frag is %s:%d\n", ++ (offsetT)(fragP->fr_next->fr_address - fragP->fr_address), ++ fragP->fr_next->fr_file, fragP->fr_next->fr_line); ++ } ++ ++ fixP = fix_new(fragP, fragP->fr_fix - fragP->fr_var, fragP->fr_var, ++ symbol, offset, pcrel, r_type); ++ ++ /* Revert fix_new brain damage. "dot_value" is the value of PC at ++ the point of the fixup, relative to the frag address. fix_new() ++ and friends think they are only being called during the assembly ++ pass, not during relaxation or similar, so fx_dot_value, fx_file ++ and fx_line are all initialized to the wrong value. But we don't ++ know the size of the fixup until now, so we really can't live up ++ to the assumptions these functions make about the target. What ++ do these functions think the "where" and "frag" argument mean ++ anyway? */ ++ fixP->fx_dot_value = fragP->fr_fix - opc->size; ++ fixP->fx_file = fragP->fr_file; ++ fixP->fx_line = fragP->fr_line; ++ ++ fixP->tc_fix_data.ifield = ifield; ++ fixP->tc_fix_data.align = align; ++ /* these are only used if the fixup can actually be resolved */ ++ fixP->tc_fix_data.min = -2097152; ++ fixP->tc_fix_data.max = 2097150; ++} ++ ++static void ++avr32_cpool_convert_frag(bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ struct cpool *pool; ++ addressT address; ++ unsigned int entry; ++ char *p; ++ char sym_name[20]; ++ ++ /* Did we get rid of the frag altogether? */ ++ if (!fragP->fr_var) ++ return; ++ ++ pool = fragP->tc_frag_data.pool; ++ address = fragP->fr_address + fragP->fr_fix; ++ p = fragP->fr_literal + fragP->fr_fix; ++ ++ sprintf(sym_name, "$$cp_\002%x", pool->id); ++ symbol_locate(pool->symbol, sym_name, pool->section, fragP->fr_fix, fragP); ++ symbol_table_insert(pool->symbol); ++ ++ for (entry = 0; entry < pool->next_free_entry; entry++) ++ { ++ if (pool->literals[entry].refcount > 0) ++ { ++ fix_new_exp(fragP, fragP->fr_fix, 4, &pool->literals[entry].exp, ++ FALSE, BFD_RELOC_AVR32_32_CPENT); ++ fragP->fr_fix += 4; ++ } ++ } ++} ++ ++static struct avr32_relaxer avr32_default_relaxer = { ++ .estimate_size = avr32_default_estimate_size_before_relax, ++ .relax_frag = avr32_default_relax_frag, ++ .convert_frag = avr32_default_convert_frag, ++}; ++static struct avr32_relaxer avr32_lda_relaxer = { ++ .estimate_size = avr32_lda_estimate_size_before_relax, ++ .relax_frag = avr32_lda_relax_frag, ++ .convert_frag = avr32_lda_convert_frag, ++}; ++static struct avr32_relaxer avr32_call_relaxer = { ++ .estimate_size = avr32_call_estimate_size_before_relax, ++ .relax_frag = avr32_call_relax_frag, ++ .convert_frag = avr32_call_convert_frag, ++}; ++static struct avr32_relaxer avr32_cpool_relaxer = { ++ .estimate_size = avr32_cpool_estimate_size_before_relax, ++ .relax_frag = avr32_cpool_relax_frag, ++ .convert_frag = avr32_cpool_convert_frag, ++}; ++ ++static void s_cpool(int arg ATTRIBUTE_UNUSED) ++{ ++ struct cpool *pool; ++ unsigned int max_size; ++ char *buf; ++ ++ pool = find_cpool(now_seg, now_subseg); ++ if (!pool || !pool->symbol || pool->next_free_entry == 0) ++ return; ++ ++ /* Make sure the constant pool is properly aligned */ ++ frag_align_code(2, 0); ++ if (bfd_get_section_alignment(stdoutput, pool->section) < 2) ++ bfd_set_section_alignment(stdoutput, pool->section, 2); ++ ++ /* Assume none of the entries are discarded, and that we need the ++ maximum amount of alignment. But we're not going to allocate ++ anything up front. */ ++ max_size = pool->next_free_entry * 4 + 2; ++ frag_grow(max_size); ++ buf = frag_more(0); ++ ++ frag_now->tc_frag_data.relaxer = &avr32_cpool_relaxer; ++ frag_now->tc_frag_data.pool = pool; ++ ++ symbol_set_frag(pool->symbol, frag_now); ++ ++ /* Assume zero initial size, allowing other relaxers to be ++ optimistic about things. */ ++ frag_var(rs_machine_dependent, max_size, 0, ++ 0, pool->symbol, 0, NULL); ++ ++ /* Mark the pool as empty. */ ++ pool->used = 1; ++} ++ ++/* The location from which a PC relative jump should be calculated, ++ given a PC relative reloc. */ ++ ++long ++md_pcrel_from_section (fixS *fixP, segT sec) ++{ ++ pr_debug("pcrel_from_section, fx_offset = %d\n", fixP->fx_offset); ++ ++ if (fixP->fx_addsy != NULL ++ && (! S_IS_DEFINED (fixP->fx_addsy) ++ || S_GET_SEGMENT (fixP->fx_addsy) != sec ++ || S_FORCE_RELOC(fixP->fx_addsy, 1))) ++ { ++ pr_debug("Unknown pcrel symbol: %s\n", S_GET_NAME(fixP->fx_addsy)); ++ ++ /* The symbol is undefined (or is defined but not in this section). ++ Let the linker figure it out. */ ++ return 0; ++ } ++ ++ pr_debug("pcrel from %x + %x, symbol: %s (%x)\n", ++ fixP->fx_frag->fr_address, fixP->fx_where, ++ fixP->fx_addsy?S_GET_NAME(fixP->fx_addsy):"(null)", ++ fixP->fx_addsy?S_GET_VALUE(fixP->fx_addsy):0); ++ ++ return ((fixP->fx_frag->fr_address + fixP->fx_where) ++ & (~0UL << fixP->tc_fix_data.align)); ++} ++ ++valueT ++md_section_align (segT segment, valueT size) ++{ ++ int align = bfd_get_section_alignment (stdoutput, segment); ++ return ((size + (1 << align) - 1) & (-1 << align)); ++} ++ ++static int syntax_matches(const struct avr32_syntax *syntax, ++ char *str) ++{ ++ int i; ++ ++ pr_debug("syntax %d matches `%s'?\n", syntax->id, str); ++ ++ if (syntax->nr_operands < 0) ++ { ++ struct avr32_operand *op; ++ int optype; ++ ++ for (i = 0; i < (-syntax->nr_operands - 1); i++) ++ { ++ char *p; ++ char c; ++ ++ optype = syntax->operand[i]; ++ assert(optype < AVR32_NR_OPERANDS); ++ op = &avr32_operand_table[optype]; ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ if (p == str) ++ return 0; ++ ++ c = *p; ++ *p = 0; ++ ++ if (!op->match(str)) ++ { ++ *p = c; ++ return 0; ++ } ++ ++ str = p; ++ *p = c; ++ if (c) ++ str++; ++ } ++ ++ optype = syntax->operand[i]; ++ assert(optype < AVR32_NR_OPERANDS); ++ op = &avr32_operand_table[optype]; ++ ++ if (!op->match(str)) ++ return 0; ++ return 1; ++ } ++ ++ for (i = 0; i < syntax->nr_operands; i++) ++ { ++ struct avr32_operand *op; ++ int optype = syntax->operand[i]; ++ char *p; ++ char c; ++ ++ assert(optype < AVR32_NR_OPERANDS); ++ op = &avr32_operand_table[optype]; ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ if (p == str) ++ return 0; ++ ++ c = *p; ++ *p = 0; ++ ++ if (!op->match(str)) ++ { ++ *p = c; ++ return 0; ++ } ++ ++ str = p; ++ *p = c; ++ if (c) ++ str++; ++ } ++ ++ if (*str == '\0') ++ return 1; ++ ++ if ((*str == 'e' || *str == 'E') && !str[1]) ++ return 1; ++ ++ return 0; ++} ++ ++static int parse_operands(char *str) ++{ ++ int i; ++ ++ if (current_insn.syntax->nr_operands < 0) ++ { ++ int optype; ++ struct avr32_operand *op; ++ ++ for (i = 0; i < (-current_insn.syntax->nr_operands - 1); i++) ++ { ++ char *p; ++ char c; ++ ++ optype = current_insn.syntax->operand[i]; ++ op = &avr32_operand_table[optype]; ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ assert(p != str); ++ ++ c = *p, *p = 0; ++ op->parse(op, str, i); ++ *p = c; ++ ++ str = p; ++ if (c) str++; ++ } ++ ++ /* give the rest of the line to the last operand */ ++ optype = current_insn.syntax->operand[i]; ++ op = &avr32_operand_table[optype]; ++ op->parse(op, str, i); ++ } ++ else ++ { ++ for (i = 0; i < current_insn.syntax->nr_operands; i++) ++ { ++ int optype = current_insn.syntax->operand[i]; ++ struct avr32_operand *op = &avr32_operand_table[optype]; ++ char *p; ++ char c; ++ ++ skip_whitespace(str); ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ assert(p != str); ++ ++ c = *p, *p = 0; ++ op->parse(op, str, i); ++ *p = c; ++ ++ str = p; ++ if (c) str++; ++ } ++ ++ if (*str == 'E' || *str == 'e') ++ current_insn.force_extended = 1; ++ } ++ ++ return 0; ++} ++ ++static const char * ++finish_insn(const struct avr32_opcode *opc) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ unsigned int i; ++ int will_relax = 0; ++ char *buf; ++ ++ assert(current_insn.next_slot == opc->nr_fields); ++ ++ pr_debug("%s:%d: finish_insn: trying opcode %d\n", ++ frag_now->fr_file, frag_now->fr_line, opc->id); ++ ++ /* Go through the relaxation stage for all instructions that can ++ possibly take a symbolic immediate. The relax code will take ++ care of range checking and alignment. */ ++ if (opc->var_field != -1) ++ { ++ int substate, largest_substate; ++ symbolS *sym; ++ offsetT off; ++ ++ will_relax = 1; ++ substate = largest_substate = opc_initial_substate(opc); ++ ++ while (relax_more(largest_substate) != AVR32_RS_NONE) ++ largest_substate = relax_more(largest_substate); ++ ++ pr_debug("will relax. initial substate: %d (size %d), largest substate: %d (size %d)\n", ++ substate, avr32_rs_size(substate), ++ largest_substate, avr32_rs_size(largest_substate)); ++ ++ /* make sure we have enough room for the largest possible opcode */ ++ frag_grow(avr32_rs_size(largest_substate)); ++ buf = frag_more(opc->size); ++ ++ dwarf2_emit_insn(opc->size); ++ ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_NONE; ++ frag_now->tc_frag_data.pcrel = current_insn.pcrel; ++ frag_now->tc_frag_data.force_extended = current_insn.force_extended; ++ frag_now->tc_frag_data.relaxer = &avr32_default_relaxer; ++ ++ if (exp->X_op == O_hi) ++ { ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_HI; ++ exp->X_op = exp->X_md; ++ } ++ else if (exp->X_op == O_lo) ++ { ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_LO; ++ exp->X_op = exp->X_md; ++ } ++ else if (exp->X_op == O_got) ++ { ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_GOT; ++ exp->X_op = O_symbol; ++ } ++ ++#if 0 ++ if ((opc->reloc_type == BFD_RELOC_AVR32_SUB5) ++ && exp->X_op == O_subtract) ++ { ++ symbolS *tmp; ++ tmp = exp->X_add_symbol; ++ exp->X_add_symbol = exp->X_op_symbol; ++ exp->X_op_symbol = tmp; ++ } ++#endif ++ ++ frag_now->tc_frag_data.exp = current_insn.immediate; ++ ++ sym = exp->X_add_symbol; ++ off = exp->X_add_number; ++ if (exp->X_op != O_symbol) ++ { ++ sym = make_expr_symbol(exp); ++ off = 0; ++ } ++ ++ frag_var(rs_machine_dependent, ++ avr32_rs_size(largest_substate) - opc->size, ++ opc->size, ++ substate, sym, off, buf); ++ } ++ else ++ { ++ assert(avr32_rs_size(opc_initial_substate(opc)) == 0); ++ ++ /* Make sure we always have room for another whole word, as the ifield ++ inserters can only write words. */ ++ frag_grow(4); ++ buf = frag_more(opc->size); ++ dwarf2_emit_insn(opc->size); ++ } ++ ++ assert(!(opc->value & ~opc->mask)); ++ ++ pr_debug("inserting opcode: 0x%lx\n", opc->value); ++ bfd_putb32(opc->value, buf); ++ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ const struct avr32_ifield *f = opc->fields[i]; ++ const struct avr32_ifield_data *fd = ¤t_insn.field_value[i]; ++ ++ pr_debug("inserting field: 0x%lx & 0x%lx\n", ++ fd->value >> fd->align_order, f->mask); ++ ++ f->insert(f, buf, fd->value >> fd->align_order); ++ } ++ ++ assert(will_relax || !current_insn.immediate.X_add_symbol); ++ return NULL; ++} ++ ++static const char * ++finish_alias(const struct avr32_alias *alias) ++{ ++ const struct avr32_opcode *opc; ++ struct { ++ unsigned long value; ++ unsigned long align; ++ } mapped_operand[AVR32_MAX_OPERANDS]; ++ unsigned int i; ++ ++ opc = alias->opc; ++ ++ /* Remap the operands from the alias to the real opcode */ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ if (alias->operand_map[i].is_opindex) ++ { ++ struct avr32_ifield_data *fd; ++ fd = ¤t_insn.field_value[alias->operand_map[i].value]; ++ mapped_operand[i].value = fd->value; ++ mapped_operand[i].align = fd->align_order; ++ } ++ else ++ { ++ mapped_operand[i].value = alias->operand_map[i].value; ++ mapped_operand[i].align = 0; ++ } ++ } ++ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ current_insn.field_value[i].value = mapped_operand[i].value; ++ if (opc->id == AVR32_OPC_COP) ++ current_insn.field_value[i].align_order = 0; ++ else ++ current_insn.field_value[i].align_order ++ = mapped_operand[i].align; ++ } ++ ++ current_insn.next_slot = opc->nr_fields; ++ ++ return finish_insn(opc); ++} ++ ++static const char * ++finish_lda(const struct avr32_syntax *syntax ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ relax_substateT initial_subtype; ++ symbolS *sym; ++ offsetT off; ++ int initial_size, max_size; ++ char *buf; ++ ++ initial_size = LDA_INITIAL_SIZE; ++ ++ if (avr32_pic) ++ { ++ initial_subtype = LDA_SUBTYPE_SUB; ++ if (linkrelax) ++ max_size = 8; ++ else ++ max_size = 4; ++ } ++ else ++ { ++ initial_subtype = LDA_SUBTYPE_MOV1; ++ max_size = 4; ++ } ++ ++ frag_grow(max_size); ++ buf = frag_more(initial_size); ++ dwarf2_emit_insn(initial_size); ++ ++ if (exp->X_op == O_symbol) ++ { ++ sym = exp->X_add_symbol; ++ off = exp->X_add_number; ++ } ++ else ++ { ++ sym = make_expr_symbol(exp); ++ off = 0; ++ } ++ ++ frag_now->tc_frag_data.reloc_info = current_insn.field_value[0].value; ++ frag_now->tc_frag_data.relaxer = &avr32_lda_relaxer; ++ ++ if (!avr32_pic) ++ { ++ /* The relaxer will bump the refcount if necessary */ ++ frag_now->tc_frag_data.pool ++ = add_to_cpool(exp, &frag_now->tc_frag_data.pool_entry, 0); ++ } ++ ++ frag_var(rs_machine_dependent, max_size - initial_size, ++ initial_size, initial_subtype, sym, off, buf); ++ ++ return NULL; ++} ++ ++static const char * ++finish_call(const struct avr32_syntax *syntax ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ symbolS *sym; ++ offsetT off; ++ int initial_size, max_size; ++ char *buf; ++ ++ initial_size = CALL_INITIAL_SIZE; ++ ++ if (avr32_pic) ++ { ++ if (linkrelax) ++ max_size = 10; ++ else ++ max_size = 4; ++ } ++ else ++ max_size = 4; ++ ++ frag_grow(max_size); ++ buf = frag_more(initial_size); ++ dwarf2_emit_insn(initial_size); ++ ++ frag_now->tc_frag_data.relaxer = &avr32_call_relaxer; ++ ++ if (exp->X_op == O_symbol) ++ { ++ sym = exp->X_add_symbol; ++ off = exp->X_add_number; ++ } ++ else ++ { ++ sym = make_expr_symbol(exp); ++ off = 0; ++ } ++ ++ if (!avr32_pic) ++ { ++ /* The relaxer will bump the refcount if necessary */ ++ frag_now->tc_frag_data.pool ++ = add_to_cpool(exp, &frag_now->tc_frag_data.pool_entry, 0); ++ } ++ ++ frag_var(rs_machine_dependent, max_size - initial_size, ++ initial_size, CALL_SUBTYPE_RCALL1, sym, off, buf); ++ ++ return NULL; ++} ++ ++void ++md_begin (void) ++{ ++ unsigned long flags = 0; ++ int i; ++ ++ avr32_mnemonic_htab = hash_new(); ++ ++ if (!avr32_mnemonic_htab) ++ as_fatal(_("virtual memory exhausted")); ++ ++ for (i = 0; i < AVR32_NR_MNEMONICS; i++) ++ { ++ hash_insert(avr32_mnemonic_htab, avr32_mnemonic_table[i].name, ++ (void *)&avr32_mnemonic_table[i]); ++ } ++ ++ if (linkrelax) ++ flags |= EF_AVR32_LINKRELAX; ++ if (avr32_pic) ++ flags |= EF_AVR32_PIC; ++ ++ bfd_set_private_flags(stdoutput, flags); ++ ++#ifdef OPC_CONSISTENCY_CHECK ++ if (sizeof(avr32_operand_table)/sizeof(avr32_operand_table[0]) ++ < AVR32_NR_OPERANDS) ++ as_fatal(_("operand table is incomplete")); ++ ++ for (i = 0; i < AVR32_NR_OPERANDS; i++) ++ if (avr32_operand_table[i].id != i) ++ as_fatal(_("operand table inconsistency found at index %d\n"), i); ++ pr_debug("%d operands verified\n", AVR32_NR_OPERANDS); ++ ++ for (i = 0; i < AVR32_NR_IFIELDS; i++) ++ if (avr32_ifield_table[i].id != i) ++ as_fatal(_("ifield table inconsistency found at index %d\n"), i); ++ pr_debug("%d instruction fields verified\n", AVR32_NR_IFIELDS); ++ ++ for (i = 0; i < AVR32_NR_OPCODES; i++) ++ { ++ if (avr32_opc_table[i].id != i) ++ as_fatal(_("opcode table inconsistency found at index %d\n"), i); ++ if ((avr32_opc_table[i].var_field == -1 ++ && avr32_relax_table[i].length != 0) ++ || (avr32_opc_table[i].var_field != -1 ++ && avr32_relax_table[i].length == 0)) ++ as_fatal(_("relax table inconsistency found at index %d\n"), i); ++ } ++ pr_debug("%d opcodes verified\n", AVR32_NR_OPCODES); ++ ++ for (i = 0; i < AVR32_NR_SYNTAX; i++) ++ if (avr32_syntax_table[i].id != i) ++ as_fatal(_("syntax table inconsistency found at index %d\n"), i); ++ pr_debug("%d syntax variants verified\n", AVR32_NR_SYNTAX); ++ ++ for (i = 0; i < AVR32_NR_ALIAS; i++) ++ if (avr32_alias_table[i].id != i) ++ as_fatal(_("alias table inconsistency found at index %d\n"), i); ++ pr_debug("%d aliases verified\n", AVR32_NR_ALIAS); ++ ++ for (i = 0; i < AVR32_NR_MNEMONICS; i++) ++ if (avr32_mnemonic_table[i].id != i) ++ as_fatal(_("mnemonic table inconsistency found at index %d\n"), i); ++ pr_debug("%d mnemonics verified\n", AVR32_NR_MNEMONICS); ++#endif ++} ++ ++void ++md_assemble (char *str) ++{ ++ struct avr32_mnemonic *mnemonic; ++ char *p, c; ++ ++ memset(¤t_insn, 0, sizeof(current_insn)); ++ current_insn.immediate.X_op = O_constant; ++ ++ skip_whitespace(str); ++ for (p = str; *p; p++) ++ if (*p == ' ') ++ break; ++ c = *p; ++ *p = 0; ++ ++ mnemonic = hash_find(avr32_mnemonic_htab, str); ++ *p = c; ++ if (c) p++; ++ ++ if (mnemonic) ++ { ++ const struct avr32_syntax *syntax; ++ ++ for (syntax = mnemonic->syntax; syntax; syntax = syntax->next) ++ { ++ const char *errmsg = NULL; ++ ++ if (syntax_matches(syntax, p)) ++ { ++ if (!(syntax->isa_flags & avr32_arch->isa_flags)) ++ { ++ as_bad(_("Selected architecture `%s' does not support `%s'"), ++ avr32_arch->name, str); ++ return; ++ } ++ ++ current_insn.syntax = syntax; ++ parse_operands(p); ++ ++ switch (syntax->type) ++ { ++ case AVR32_PARSER_NORMAL: ++ errmsg = finish_insn(syntax->u.opc); ++ break; ++ case AVR32_PARSER_ALIAS: ++ errmsg = finish_alias(syntax->u.alias); ++ break; ++ case AVR32_PARSER_LDA: ++ errmsg = finish_lda(syntax); ++ break; ++ case AVR32_PARSER_CALL: ++ errmsg = finish_call(syntax); ++ break; ++ default: ++ BAD_CASE(syntax->type); ++ break; ++ } ++ ++ if (errmsg) ++ as_bad("%s in `%s'", errmsg, str); ++ ++ return; ++ } ++ } ++ ++ as_bad(_("unrecognized form of instruction: `%s'"), str); ++ } ++ else ++ as_bad(_("unrecognized instruction `%s'"), str); ++} ++ ++void avr32_cleanup(void) ++{ ++ struct cpool *pool; ++ ++ /* Emit any constant pools that haven't been explicitly flushed with ++ a .cpool directive. */ ++ for (pool = cpool_list; pool; pool = pool->next) ++ { ++ subseg_set(pool->section, pool->sub_section); ++ s_cpool(0); ++ } ++} ++ ++/* Handle any PIC-related operands in data allocation pseudo-ops */ ++void ++avr32_cons_fix_new (fragS *frag, int off, int size, expressionS *exp) ++{ ++ bfd_reloc_code_real_type r_type = BFD_RELOC_UNUSED; ++ int pcrel = 0; ++ ++ pr_debug("%s:%u: cons_fix_new, add_sym: %s, op_sym: %s, op: %d, add_num: %d\n", ++ frag->fr_file, frag->fr_line, ++ exp->X_add_symbol?S_GET_NAME(exp->X_add_symbol):"(none)", ++ exp->X_op_symbol?S_GET_NAME(exp->X_op_symbol):"(none)", ++ exp->X_op, exp->X_add_number); ++ ++ if (exp->X_op == O_subtract && exp->X_op_symbol) ++ { ++ if (exp->X_op_symbol == GOT_symbol) ++ { ++ if (size != 4) ++ goto bad_size; ++ r_type = BFD_RELOC_AVR32_GOTPC; ++ exp->X_op = O_symbol; ++ exp->X_op_symbol = NULL; ++ } ++ } ++ else if (exp->X_op == O_got) ++ { ++ switch (size) ++ { ++ case 1: ++ r_type = BFD_RELOC_AVR32_GOT8; ++ break; ++ case 2: ++ r_type = BFD_RELOC_AVR32_GOT16; ++ break; ++ case 4: ++ r_type = BFD_RELOC_AVR32_GOT32; ++ break; ++ default: ++ goto bad_size; ++ } ++ ++ exp->X_op = O_symbol; ++ } ++ ++ if (r_type == BFD_RELOC_UNUSED) ++ switch (size) ++ { ++ case 1: ++ r_type = BFD_RELOC_8; ++ break; ++ case 2: ++ r_type = BFD_RELOC_16; ++ break; ++ case 4: ++ r_type = BFD_RELOC_32; ++ break; ++ default: ++ goto bad_size; ++ } ++ else if (size != 4) ++ { ++ bad_size: ++ as_bad(_("unsupported BFD relocation size %u"), size); ++ r_type = BFD_RELOC_UNUSED; ++ } ++ ++ fix_new_exp (frag, off, size, exp, pcrel, r_type); ++} ++ ++static void ++avr32_frob_section(bfd *abfd ATTRIBUTE_UNUSED, segT sec, ++ void *ignore ATTRIBUTE_UNUSED) ++{ ++ segment_info_type *seginfo; ++ fixS *fix; ++ ++ seginfo = seg_info(sec); ++ if (!seginfo) ++ return; ++ ++ for (fix = seginfo->fix_root; fix; fix = fix->fx_next) ++ { ++ if (fix->fx_done) ++ continue; ++ ++ if (fix->fx_r_type == BFD_RELOC_AVR32_SUB5 ++ && fix->fx_addsy && fix->fx_subsy) ++ { ++ if (S_GET_SEGMENT(fix->fx_addsy) != S_GET_SEGMENT(fix->fx_subsy) ++ || linkrelax) ++ { ++ symbolS *tmp; ++#ifdef DEBUG ++ fprintf(stderr, "Swapping symbols in fixup:\n"); ++ print_fixup(fix); ++#endif ++ tmp = fix->fx_addsy; ++ fix->fx_addsy = fix->fx_subsy; ++ fix->fx_subsy = tmp; ++ fix->fx_offset = -fix->fx_offset; ++ } ++ } ++ } ++} ++ ++/* We need to look for SUB5 instructions with expressions that will be ++ made PC-relative and switch fx_addsy with fx_subsy. This has to be ++ done before adjustment or the wrong symbol might be adjusted. ++ ++ This applies to fixups that are a result of expressions like -(sym ++ - .) and that will make it all the way to md_apply_fix3(). LDA ++ does the right thing in convert_frag, so we must not convert ++ those. */ ++void ++avr32_frob_file(void) ++{ ++ /* if (1 || !linkrelax) ++ return; */ ++ ++ bfd_map_over_sections(stdoutput, avr32_frob_section, NULL); ++} ++ ++static bfd_boolean ++convert_to_diff_reloc(fixS *fixP) ++{ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF32; ++ break; ++ case BFD_RELOC_16: ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF16; ++ break; ++ case BFD_RELOC_8: ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF8; ++ break; ++ default: ++ return FALSE; ++ } ++ ++ return TRUE; ++} ++ ++/* Simplify a fixup. If possible, the fixup is reduced to a single ++ constant which is written to the output file. Otherwise, a ++ relocation is generated so that the linker can take care of the ++ rest. ++ ++ ELF relocations have certain constraints: They can only take a ++ single symbol and a single addend. This means that for difference ++ expressions, we _must_ get rid of the fx_subsy symbol somehow. ++ ++ The difference between two labels in the same section can be ++ calculated directly unless 'linkrelax' is set, or a relocation is ++ forced. If so, we must emit a R_AVR32_DIFFxx relocation. If there ++ are addends involved at this point, we must be especially careful ++ as the relocation must point exactly to the symbol being ++ subtracted. ++ ++ When subtracting a symbol defined in the same section as the fixup, ++ we might be able to convert it to a PC-relative expression, unless ++ linkrelax is set. If this is the case, there's no way we can make ++ sure that the difference between the fixup and fx_subsy stays ++ constant. So for now, we're just going to disallow that. ++ */ ++void ++avr32_process_fixup(fixS *fixP, segT this_segment) ++{ ++ segT add_symbol_segment = absolute_section; ++ segT sub_symbol_segment = absolute_section; ++ symbolS *fx_addsy, *fx_subsy; ++ offsetT value = 0, fx_offset; ++ bfd_boolean apply = FALSE; ++ ++ assert(this_segment != absolute_section); ++ ++ if (fixP->fx_r_type >= BFD_RELOC_UNUSED) ++ { ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("Bad relocation type %d\n"), fixP->fx_r_type); ++ return; ++ } ++ ++ /* BFD_RELOC_AVR32_SUB5 fixups have been swapped by avr32_frob_section() */ ++ fx_addsy = fixP->fx_addsy; ++ fx_subsy = fixP->fx_subsy; ++ fx_offset = fixP->fx_offset; ++ ++ if (fx_addsy) ++ add_symbol_segment = S_GET_SEGMENT(fx_addsy); ++ ++ if (fx_subsy) ++ { ++ resolve_symbol_value(fx_subsy); ++ sub_symbol_segment = S_GET_SEGMENT(fx_subsy); ++ ++ if (sub_symbol_segment == this_segment ++ && (!linkrelax ++ || S_GET_VALUE(fx_subsy) == (fixP->fx_frag->fr_address ++ + fixP->fx_where))) ++ { ++ fixP->fx_pcrel = TRUE; ++ fx_offset += (fixP->fx_frag->fr_address + fixP->fx_where ++ - S_GET_VALUE(fx_subsy)); ++ fx_subsy = NULL; ++ } ++ else if (sub_symbol_segment == absolute_section) ++ { ++ /* The symbol is really a constant. */ ++ fx_offset -= S_GET_VALUE(fx_subsy); ++ fx_subsy = NULL; ++ } ++ else if (SEG_NORMAL(add_symbol_segment) ++ && sub_symbol_segment == add_symbol_segment ++ && (!linkrelax || convert_to_diff_reloc(fixP))) ++ { ++ /* Difference between two labels in the same section. */ ++ if (linkrelax) ++ { ++ /* convert_to_diff() has ensured that the reloc type is ++ either DIFF32, DIFF16 or DIFF8. */ ++ value = (S_GET_VALUE(fx_addsy) + fixP->fx_offset ++ - S_GET_VALUE(fx_subsy)); ++ ++ /* Try to convert it to a section symbol if possible */ ++ if (!S_FORCE_RELOC(fx_addsy, 1) ++ && !(sub_symbol_segment->flags & SEC_THREAD_LOCAL)) ++ { ++ fx_offset = S_GET_VALUE(fx_subsy); ++ fx_addsy = section_symbol(sub_symbol_segment); ++ } ++ else ++ { ++ fx_addsy = fx_subsy; ++ fx_offset = 0; ++ } ++ ++ fx_subsy = NULL; ++ apply = TRUE; ++ } ++ else ++ { ++ fx_offset += S_GET_VALUE(fx_addsy); ++ fx_offset -= S_GET_VALUE(fx_subsy); ++ fx_addsy = NULL; ++ fx_subsy = NULL; ++ } ++ } ++ else ++ { ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("can't resolve `%s' {%s section} - `%s' {%s section}"), ++ fx_addsy ? S_GET_NAME (fx_addsy) : "0", ++ segment_name (add_symbol_segment), ++ S_GET_NAME (fx_subsy), ++ segment_name (sub_symbol_segment)); ++ return; ++ } ++ } ++ ++ if (fx_addsy && !TC_FORCE_RELOCATION(fixP)) ++ { ++ if (add_symbol_segment == this_segment ++ && fixP->fx_pcrel) ++ { ++ value += S_GET_VALUE(fx_addsy); ++ value -= md_pcrel_from_section(fixP, this_segment); ++ fx_addsy = NULL; ++ fixP->fx_pcrel = FALSE; ++ } ++ else if (add_symbol_segment == absolute_section) ++ { ++ fx_offset += S_GET_VALUE(fixP->fx_addsy); ++ fx_addsy = NULL; ++ } ++ } ++ ++ if (!fx_addsy) ++ fixP->fx_done = TRUE; ++ ++ if (fixP->fx_pcrel) ++ { ++ if (fx_addsy != NULL ++ && S_IS_DEFINED(fx_addsy) ++ && S_GET_SEGMENT(fx_addsy) != this_segment) ++ value += md_pcrel_from_section(fixP, this_segment); ++ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ fixP->fx_r_type = BFD_RELOC_32_PCREL; ++ break; ++ case BFD_RELOC_16: ++ fixP->fx_r_type = BFD_RELOC_16_PCREL; ++ break; ++ case BFD_RELOC_8: ++ fixP->fx_r_type = BFD_RELOC_8_PCREL; ++ break; ++ case BFD_RELOC_AVR32_SUB5: ++ fixP->fx_r_type = BFD_RELOC_AVR32_16N_PCREL; ++ break; ++ case BFD_RELOC_AVR32_16S: ++ fixP->fx_r_type = BFD_RELOC_AVR32_16B_PCREL; ++ break; ++ case BFD_RELOC_AVR32_14UW: ++ fixP->fx_r_type = BFD_RELOC_AVR32_14UW_PCREL; ++ break; ++ case BFD_RELOC_AVR32_10UW: ++ fixP->fx_r_type = BFD_RELOC_AVR32_10UW_PCREL; ++ break; ++ default: ++ /* Should have been taken care of already */ ++ break; ++ } ++ } ++ ++ if (fixP->fx_done || apply) ++ { ++ const struct avr32_ifield *ifield; ++ char *buf = fixP->fx_where + fixP->fx_frag->fr_literal; ++ ++ if (fixP->fx_done) ++ value += fx_offset; ++ ++ /* For hosts with longs bigger than 32-bits make sure that the top ++ bits of a 32-bit negative value read in by the parser are set, ++ so that the correct comparisons are made. */ ++ if (value & 0x80000000) ++ value |= (-1L << 31); ++ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ case BFD_RELOC_16: ++ case BFD_RELOC_8: ++ case BFD_RELOC_AVR32_DIFF32: ++ case BFD_RELOC_AVR32_DIFF16: ++ case BFD_RELOC_AVR32_DIFF8: ++ md_number_to_chars(buf, value, fixP->fx_size); ++ break; ++ case BFD_RELOC_HI16: ++ value >>= 16; ++ case BFD_RELOC_LO16: ++ value &= 0xffff; ++ md_number_to_chars(buf + 2, value, 2); ++ break; ++ case BFD_RELOC_AVR32_16N_PCREL: ++ value = -value; ++ /* fall through */ ++ case BFD_RELOC_AVR32_22H_PCREL: ++ case BFD_RELOC_AVR32_18W_PCREL: ++ case BFD_RELOC_AVR32_16B_PCREL: ++ case BFD_RELOC_AVR32_11H_PCREL: ++ case BFD_RELOC_AVR32_9H_PCREL: ++ case BFD_RELOC_AVR32_9UW_PCREL: ++ case BFD_RELOC_AVR32_3U: ++ case BFD_RELOC_AVR32_4UH: ++ case BFD_RELOC_AVR32_6UW: ++ case BFD_RELOC_AVR32_6S: ++ case BFD_RELOC_AVR32_7UW: ++ case BFD_RELOC_AVR32_8S_EXT: ++ case BFD_RELOC_AVR32_8S: ++ case BFD_RELOC_AVR32_10UW: ++ case BFD_RELOC_AVR32_10SW: ++ case BFD_RELOC_AVR32_STHH_W: ++ case BFD_RELOC_AVR32_14UW: ++ case BFD_RELOC_AVR32_16S: ++ case BFD_RELOC_AVR32_16U: ++ case BFD_RELOC_AVR32_21S: ++ case BFD_RELOC_AVR32_SUB5: ++ case BFD_RELOC_AVR32_CPCALL: ++ case BFD_RELOC_AVR32_16_CP: ++ case BFD_RELOC_AVR32_9W_CP: ++ case BFD_RELOC_AVR32_15S: ++ ifield = fixP->tc_fix_data.ifield; ++ pr_debug("insert field: %ld <= %ld <= %ld (align %u)\n", ++ fixP->tc_fix_data.min, value, fixP->tc_fix_data.max, ++ fixP->tc_fix_data.align); ++ if (value < fixP->tc_fix_data.min || value > fixP->tc_fix_data.max) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("operand out of range (%ld not between %ld and %ld)"), ++ value, fixP->tc_fix_data.min, fixP->tc_fix_data.max); ++ if (value & ((1 << fixP->tc_fix_data.align) - 1)) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("misaligned operand (required alignment: %d)"), ++ 1 << fixP->tc_fix_data.align); ++ ifield->insert(ifield, buf, value >> fixP->tc_fix_data.align); ++ break; ++ case BFD_RELOC_AVR32_ALIGN: ++ /* Nothing to do */ ++ fixP->fx_done = FALSE; ++ break; ++ default: ++ as_fatal("reloc type %s not handled\n", ++ bfd_get_reloc_code_name(fixP->fx_r_type)); ++ } ++ } ++ ++ fixP->fx_addsy = fx_addsy; ++ fixP->fx_subsy = fx_subsy; ++ fixP->fx_offset = fx_offset; ++ ++ if (!fixP->fx_done) ++ { ++ if (!fixP->fx_addsy) ++ fixP->fx_addsy = abs_section_sym; ++ ++ symbol_mark_used_in_reloc(fixP->fx_addsy); ++ if (fixP->fx_subsy) ++ abort(); ++ } ++} ++ ++#if 0 ++void ++md_apply_fix3 (fixS *fixP, valueT *valP, segT seg) ++{ ++ const struct avr32_ifield *ifield; ++ offsetT value = *valP; ++ char *buf = fixP->fx_where + fixP->fx_frag->fr_literal; ++ bfd_boolean apply; ++ ++ pr_debug("%s:%u: apply_fix3: r_type=%d value=%lx offset=%lx\n", ++ fixP->fx_file, fixP->fx_line, fixP->fx_r_type, *valP, ++ fixP->fx_offset); ++ ++ if (fixP->fx_r_type >= BFD_RELOC_UNUSED) ++ { ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("Bad relocation type %d\n"), fixP->fx_r_type); ++ return; ++ } ++ ++ if (!fixP->fx_addsy && !fixP->fx_subsy) ++ fixP->fx_done = 1; ++ ++ if (fixP->fx_pcrel) ++ { ++ if (fixP->fx_addsy != NULL ++ && S_IS_DEFINED(fixP->fx_addsy) ++ && S_GET_SEGMENT(fixP->fx_addsy) != seg) ++ value += md_pcrel_from_section(fixP, seg); ++ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ fixP->fx_r_type = BFD_RELOC_32_PCREL; ++ break; ++ case BFD_RELOC_16: ++ case BFD_RELOC_8: ++ as_bad_where (fixP->fx_file, fixP->fx_line, ++ _("8- and 16-bit PC-relative relocations not supported")); ++ break; ++ case BFD_RELOC_AVR32_SUB5: ++ fixP->fx_r_type = BFD_RELOC_AVR32_PCREL_SUB5; ++ break; ++ case BFD_RELOC_AVR32_16S: ++ fixP->fx_r_type = BFD_RELOC_AVR32_16_PCREL; ++ break; ++ default: ++ /* Should have been taken care of already */ ++ break; ++ } ++ } ++ ++ if (fixP->fx_r_type == BFD_RELOC_32 ++ && fixP->fx_subsy) ++ { ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF32; ++ ++ /* Offsets are only allowed if it's a result of adjusting a ++ local symbol into a section-relative offset. ++ tc_fix_adjustable() should prevent any adjustment if there ++ was an offset involved before. */ ++ if (fixP->fx_offset && !symbol_section_p(fixP->fx_addsy)) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("cannot represent symbol difference with an offset")); ++ ++ value = (S_GET_VALUE(fixP->fx_addsy) + fixP->fx_offset ++ - S_GET_VALUE(fixP->fx_subsy)); ++ ++ /* The difference before any relaxing takes place is written ++ out, and the DIFF32 reloc identifies the address of the first ++ symbol (i.e. the on that's subtracted.) */ ++ *valP = value; ++ fixP->fx_offset -= value; ++ fixP->fx_subsy = NULL; ++ ++ md_number_to_chars(buf, value, fixP->fx_size); ++ } ++ ++ if (fixP->fx_done) ++ { ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_8: ++ case BFD_RELOC_16: ++ case BFD_RELOC_32: ++ md_number_to_chars(buf, value, fixP->fx_size); ++ break; ++ case BFD_RELOC_HI16: ++ value >>= 16; ++ case BFD_RELOC_LO16: ++ value &= 0xffff; ++ *valP = value; ++ md_number_to_chars(buf + 2, value, 2); ++ break; ++ case BFD_RELOC_AVR32_PCREL_SUB5: ++ value = -value; ++ /* fall through */ ++ case BFD_RELOC_AVR32_9_PCREL: ++ case BFD_RELOC_AVR32_11_PCREL: ++ case BFD_RELOC_AVR32_16_PCREL: ++ case BFD_RELOC_AVR32_18_PCREL: ++ case BFD_RELOC_AVR32_22_PCREL: ++ case BFD_RELOC_AVR32_3U: ++ case BFD_RELOC_AVR32_4UH: ++ case BFD_RELOC_AVR32_6UW: ++ case BFD_RELOC_AVR32_6S: ++ case BFD_RELOC_AVR32_7UW: ++ case BFD_RELOC_AVR32_8S: ++ case BFD_RELOC_AVR32_10UW: ++ case BFD_RELOC_AVR32_10SW: ++ case BFD_RELOC_AVR32_14UW: ++ case BFD_RELOC_AVR32_16S: ++ case BFD_RELOC_AVR32_16U: ++ case BFD_RELOC_AVR32_21S: ++ case BFD_RELOC_AVR32_BRC1: ++ case BFD_RELOC_AVR32_SUB5: ++ case BFD_RELOC_AVR32_CPCALL: ++ case BFD_RELOC_AVR32_16_CP: ++ case BFD_RELOC_AVR32_9_CP: ++ case BFD_RELOC_AVR32_15S: ++ ifield = fixP->tc_fix_data.ifield; ++ pr_debug("insert field: %ld <= %ld <= %ld (align %u)\n", ++ fixP->tc_fix_data.min, value, fixP->tc_fix_data.max, ++ fixP->tc_fix_data.align); ++ if (value < fixP->tc_fix_data.min || value > fixP->tc_fix_data.max) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("operand out of range (%ld not between %ld and %ld)"), ++ value, fixP->tc_fix_data.min, fixP->tc_fix_data.max); ++ if (value & ((1 << fixP->tc_fix_data.align) - 1)) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("misaligned operand (required alignment: %d)"), ++ 1 << fixP->tc_fix_data.align); ++ ifield->insert(ifield, buf, value >> fixP->tc_fix_data.align); ++ break; ++ case BFD_RELOC_AVR32_ALIGN: ++ /* Nothing to do */ ++ fixP->fx_done = FALSE; ++ break; ++ default: ++ as_fatal("reloc type %s not handled\n", ++ bfd_get_reloc_code_name(fixP->fx_r_type)); ++ } ++ } ++} ++#endif ++ ++arelent * ++tc_gen_reloc (asection *section ATTRIBUTE_UNUSED, ++ fixS *fixp) ++{ ++ arelent *reloc; ++ bfd_reloc_code_real_type code; ++ ++ reloc = xmalloc (sizeof (arelent)); ++ ++ reloc->sym_ptr_ptr = xmalloc (sizeof (asymbol *)); ++ *reloc->sym_ptr_ptr = symbol_get_bfdsym (fixp->fx_addsy); ++ reloc->address = fixp->fx_frag->fr_address + fixp->fx_where; ++ reloc->addend = fixp->fx_offset; ++ code = fixp->fx_r_type; ++ ++ reloc->howto = bfd_reloc_type_lookup (stdoutput, code); ++ ++ if (reloc->howto == NULL) ++ { ++ as_bad_where (fixp->fx_file, fixp->fx_line, ++ _("cannot represent relocation %s in this object file format"), ++ bfd_get_reloc_code_name (code)); ++ return NULL; ++ } ++ ++ return reloc; ++} ++ ++bfd_boolean ++avr32_force_reloc(fixS *fixP) ++{ ++ if (linkrelax && fixP->fx_addsy ++ && !(S_GET_SEGMENT(fixP->fx_addsy)->flags & SEC_DEBUGGING) ++ && S_GET_SEGMENT(fixP->fx_addsy) != absolute_section) ++ { ++ pr_debug(stderr, "force reloc: addsy=%p, r_type=%d, sec=%s\n", ++ fixP->fx_addsy, fixP->fx_r_type, S_GET_SEGMENT(fixP->fx_addsy)->name); ++ return 1; ++ } ++ ++ return generic_force_reloc(fixP); ++} ++ ++bfd_boolean ++avr32_fix_adjustable(fixS *fixP) ++{ ++ switch (fixP->fx_r_type) ++ { ++ /* GOT relocations can't have addends since BFD treats all ++ references to a given symbol the same. This means that we ++ must avoid section-relative references to local symbols when ++ dealing with these kinds of relocs */ ++ case BFD_RELOC_AVR32_GOT32: ++ case BFD_RELOC_AVR32_GOT16: ++ case BFD_RELOC_AVR32_GOT8: ++ case BFD_RELOC_AVR32_GOT21S: ++ case BFD_RELOC_AVR32_GOT18SW: ++ case BFD_RELOC_AVR32_GOT16S: ++ case BFD_RELOC_AVR32_LDA_GOT: ++ case BFD_RELOC_AVR32_GOTCALL: ++ pr_debug("fix not adjustable\n"); ++ return 0; ++ ++ default: ++ break; ++ } ++ ++ return 1; ++} ++ ++/* When we want the linker to be able to relax the code, we need to ++ output a reloc for every .align directive requesting an alignment ++ to a four byte boundary or larger. If we don't do this, the linker ++ can't guarantee that the alignment is actually maintained in the ++ linker output. ++ ++ TODO: Might as well insert proper NOPs while we're at it... */ ++void ++avr32_handle_align(fragS *frag) ++{ ++ if (linkrelax ++ && frag->fr_type == rs_align_code ++ && frag->fr_address + frag->fr_fix > 0 ++ && frag->fr_offset > 0) ++ { ++ /* The alignment order (fr_offset) is stored in the addend. */ ++ fix_new(frag, frag->fr_fix, 2, &abs_symbol, frag->fr_offset, ++ FALSE, BFD_RELOC_AVR32_ALIGN); ++ } ++} ++ ++/* Relax_align. Advance location counter to next address that has 'alignment' ++ lowest order bits all 0s, return size of adjustment made. */ ++relax_addressT ++avr32_relax_align(segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP, ++ relax_addressT address) ++{ ++ relax_addressT mask; ++ relax_addressT new_address; ++ int alignment; ++ ++ alignment = fragP->fr_offset; ++ mask = ~((~0) << alignment); ++ new_address = (address + mask) & (~mask); ++ ++ return new_address - address; ++} ++ ++/* Turn a string in input_line_pointer into a floating point constant ++ of type type, and store the appropriate bytes in *litP. The number ++ of LITTLENUMS emitted is stored in *sizeP . An error message is ++ returned, or NULL on OK. */ ++ ++/* Equal to MAX_PRECISION in atof-ieee.c */ ++#define MAX_LITTLENUMS 6 ++ ++char * ++md_atof (type, litP, sizeP) ++char type; ++char * litP; ++int * sizeP; ++{ ++ int i; ++ int prec; ++ LITTLENUM_TYPE words [MAX_LITTLENUMS]; ++ char * t; ++ ++ switch (type) ++ { ++ case 'f': ++ case 'F': ++ case 's': ++ case 'S': ++ prec = 2; ++ break; ++ ++ case 'd': ++ case 'D': ++ case 'r': ++ case 'R': ++ prec = 4; ++ break; ++ ++ /* FIXME: Some targets allow other format chars for bigger sizes here. */ ++ ++ default: ++ * sizeP = 0; ++ return _("Bad call to md_atof()"); ++ } ++ ++ t = atof_ieee (input_line_pointer, type, words); ++ if (t) ++ input_line_pointer = t; ++ * sizeP = prec * sizeof (LITTLENUM_TYPE); ++ ++ for (i = 0; i < prec; i++) ++ { ++ md_number_to_chars (litP, (valueT) words[i], ++ sizeof (LITTLENUM_TYPE)); ++ litP += sizeof (LITTLENUM_TYPE); ++ } ++ ++ return 0; ++} ++ ++static char *avr32_end_of_match(char *cont, char *what) ++{ ++ int len = strlen (what); ++ ++ if (! is_part_of_name (cont[len]) ++ && strncasecmp (cont, what, len) == 0) ++ return cont + len; ++ ++ return NULL; ++} ++ ++int ++avr32_parse_name (char const *name, expressionS *exp, char *nextchar) ++{ ++ char *next = input_line_pointer; ++ char *next_end; ++ ++ pr_debug("parse_name: %s, nextchar=%c (%02x)\n", name, *nextchar, *nextchar); ++ ++ if (*nextchar == '(') ++ { ++ if (strcasecmp(name, "hi") == 0) ++ { ++ *next = *nextchar; ++ ++ expression(exp); ++ ++ if (exp->X_op == O_constant) ++ { ++ pr_debug(" -> constant hi(0x%08lx) -> 0x%04lx\n", ++ exp->X_add_number, exp->X_add_number >> 16); ++ exp->X_add_number = (exp->X_add_number >> 16) & 0xffff; ++ } ++ else ++ { ++ exp->X_md = exp->X_op; ++ exp->X_op = O_hi; ++ } ++ ++ return 1; ++ } ++ else if (strcasecmp(name, "lo") == 0) ++ { ++ *next = *nextchar; ++ ++ expression(exp); ++ ++ if (exp->X_op == O_constant) ++ exp->X_add_number &= 0xffff; ++ else ++ { ++ exp->X_md = exp->X_op; ++ exp->X_op = O_lo; ++ } ++ ++ return 1; ++ } ++ } ++ else if (*nextchar == '@') ++ { ++ exp->X_md = exp->X_op; ++ ++ if ((next_end = avr32_end_of_match (next + 1, "got"))) ++ exp->X_op = O_got; ++ else if ((next_end = avr32_end_of_match (next + 1, "tlsgd"))) ++ exp->X_op = O_tlsgd; ++ /* Add more as needed */ ++ else ++ { ++ char c; ++ input_line_pointer++; ++ c = get_symbol_end(); ++ as_bad (_("unknown relocation override `%s'"), next + 1); ++ *input_line_pointer = c; ++ input_line_pointer = next; ++ return 0; ++ } ++ ++ exp->X_op_symbol = NULL; ++ exp->X_add_symbol = symbol_find_or_make (name); ++ exp->X_add_number = 0; ++ ++ *input_line_pointer = *nextchar; ++ input_line_pointer = next_end; ++ *nextchar = *input_line_pointer; ++ *input_line_pointer = '\0'; ++ return 1; ++ } ++ else if (strcmp (name, "_GLOBAL_OFFSET_TABLE_") == 0) ++ { ++ if (!GOT_symbol) ++ GOT_symbol = symbol_find_or_make(name); ++ ++ exp->X_add_symbol = GOT_symbol; ++ exp->X_op = O_symbol; ++ exp->X_add_number = 0; ++ return 1; ++ } ++ ++ return 0; ++} ++ ++static void ++s_rseg (int value ATTRIBUTE_UNUSED) ++{ ++ /* Syntax: RSEG segment_name [:type] [NOROOT|ROOT] [(align)] ++ * Defaults: ++ * - type: undocumented ("typically CODE or DATA") ++ * - ROOT ++ * - align: 1 for code, 0 for others ++ * ++ * TODO: NOROOT is ignored. If gas supports discardable segments, it should ++ * be implemented. ++ */ ++ char *name, *end; ++ int length, type, attr; ++ int align = 0; ++ ++ SKIP_WHITESPACE(); ++ ++ end = input_line_pointer; ++ while (0 == strchr ("\n\t;:( ", *end)) ++ end++; ++ if (end == input_line_pointer) ++ { ++ as_warn (_("missing name")); ++ ignore_rest_of_line(); ++ return; ++ } ++ ++ name = xmalloc (end - input_line_pointer + 1); ++ memcpy (name, input_line_pointer, end - input_line_pointer); ++ name[end - input_line_pointer] = '\0'; ++ input_line_pointer = end; ++ ++ SKIP_WHITESPACE(); ++ ++ type = SHT_NULL; ++ attr = 0; ++ ++ if (*input_line_pointer == ':') ++ { ++ /* Skip the colon */ ++ ++input_line_pointer; ++ SKIP_WHITESPACE(); ++ ++ /* Possible options at this point: ++ * - flag (ROOT or NOROOT) ++ * - a segment type ++ */ ++ end = input_line_pointer; ++ while (0 == strchr ("\n\t;:( ", *end)) ++ end++; ++ length = end - input_line_pointer; ++ if (((length == 4) && (0 == strncasecmp( input_line_pointer, "ROOT", 4))) || ++ ((length == 6) && (0 == strncasecmp( input_line_pointer, "NOROOT", 6)))) ++ { ++ /* Ignore ROOT/NOROOT */ ++ input_line_pointer = end; ++ } ++ else ++ { ++ /* Must be a segment type */ ++ switch (*input_line_pointer) ++ { ++ case 'C': ++ case 'c': ++ if ((length == 4) && ++ (0 == strncasecmp (input_line_pointer, "CODE", 4))) ++ { ++ attr |= SHF_ALLOC | SHF_EXECINSTR; ++ type = SHT_PROGBITS; ++ align = 1; ++ break; ++ } ++ if ((length == 5) && ++ (0 == strncasecmp (input_line_pointer, "CONST", 5))) ++ { ++ attr |= SHF_ALLOC; ++ type = SHT_PROGBITS; ++ break; ++ } ++ goto de_fault; ++ ++ case 'D': ++ case 'd': ++ if ((length == 4) && ++ (0 == strncasecmp (input_line_pointer, "DATA", 4))) ++ { ++ attr |= SHF_ALLOC | SHF_WRITE; ++ type = SHT_PROGBITS; ++ break; ++ } ++ goto de_fault; ++ ++ /* TODO: Add FAR*, HUGE*, IDATA and NEAR* if necessary */ ++ ++ case 'U': ++ case 'u': ++ if ((length == 7) && ++ (0 == strncasecmp (input_line_pointer, "UNTYPED", 7))) ++ break; ++ goto de_fault; ++ ++ /* TODO: Add XDATA and ZPAGE if necessary */ ++ ++ de_fault: ++ default: ++ as_warn (_("unrecognized segment type")); ++ } ++ ++ input_line_pointer = end; ++ SKIP_WHITESPACE(); ++ ++ if (*input_line_pointer == ':') ++ { ++ /* ROOT/NOROOT */ ++ ++input_line_pointer; ++ SKIP_WHITESPACE(); ++ ++ end = input_line_pointer; ++ while (0 == strchr ("\n\t;:( ", *end)) ++ end++; ++ length = end - input_line_pointer; ++ if (! ((length == 4) && ++ (0 == strncasecmp( input_line_pointer, "ROOT", 4))) && ++ ! ((length == 6) && ++ (0 == strncasecmp( input_line_pointer, "NOROOT", 6)))) ++ { ++ as_warn (_("unrecognized segment flag")); ++ } ++ ++ input_line_pointer = end; ++ SKIP_WHITESPACE(); ++ } ++ } ++ } ++ ++ if (*input_line_pointer == '(') ++ { ++ align = get_absolute_expression (); ++ } ++ ++ demand_empty_rest_of_line(); ++ ++ obj_elf_change_section (name, type, attr, 0, NULL, 0, 0); ++#ifdef AVR32_DEBUG ++ fprintf( stderr, "RSEG: Changed section to %s, type: 0x%x, attr: 0x%x\n", ++ name, type, attr ); ++ fprintf( stderr, "RSEG: Aligning to 2**%d\n", align ); ++#endif ++ ++ if (align > 15) ++ { ++ align = 15; ++ as_warn (_("alignment too large: %u assumed"), align); ++ } ++ ++ /* Hope not, that is */ ++ assert (now_seg != absolute_section); ++ ++ /* Only make a frag if we HAVE to... */ ++ if (align != 0 && !need_pass_2) ++ { ++ if (subseg_text_p (now_seg)) ++ frag_align_code (align, 0); ++ else ++ frag_align (align, 0, 0); ++ } ++ ++ record_alignment (now_seg, align - OCTETS_PER_BYTE_POWER); ++} ++ ++/* vim: syntax=c sw=2 ++ */ +--- /dev/null ++++ b/gas/config/tc-avr32.h +@@ -0,0 +1,325 @@ ++/* Assembler definitions for AVR32. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of GAS, the GNU Assembler. ++ ++ GAS is free software; you can redistribute it and/or modify it ++ under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2, or (at your option) ++ any later version. ++ ++ GAS is distributed in the hope that it will be useful, but WITHOUT ++ ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ++ or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public ++ License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with GAS; see the file COPYING. If not, write to the Free ++ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#if 0 ++#define DEBUG ++#define DEBUG1 ++#define DEBUG2 ++#define DEBUG3 ++#define DEBUG4 ++#define DEBUG5 ++#endif ++ ++/* Are we trying to be compatible with the IAR assembler? (--iar) */ ++extern int avr32_iarcompat; ++ ++/* By convention, you should define this macro in the `.h' file. For ++ example, `tc-m68k.h' defines `TC_M68K'. You might have to use this ++ if it is necessary to add CPU specific code to the object format ++ file. */ ++#define TC_AVR32 ++ ++/* This macro is the BFD target name to use when creating the output ++ file. This will normally depend upon the `OBJ_FMT' macro. */ ++#define TARGET_FORMAT "elf32-avr32" ++ ++/* This macro is the BFD architecture to pass to `bfd_set_arch_mach'. */ ++#define TARGET_ARCH bfd_arch_avr32 ++ ++/* This macro is the BFD machine number to pass to ++ `bfd_set_arch_mach'. If it is not defined, GAS will use 0. */ ++#define TARGET_MACH 0 ++ ++/* UNDOCUMENTED: Allow //-style comments */ ++#define DOUBLESLASH_LINE_COMMENTS ++ ++/* You should define this macro to be non-zero if the target is big ++ endian, and zero if the target is little endian. */ ++#define TARGET_BYTES_BIG_ENDIAN 1 ++ ++/* FIXME: It seems that GAS only expects a one-byte opcode... ++ #define NOP_OPCODE 0xd703 */ ++ ++/* If you define this macro, GAS will warn about the use of ++ nonstandard escape sequences in a string. */ ++#undef ONLY_STANDARD_ESCAPES ++ ++#define DWARF2_FORMAT(SEC) dwarf2_format_32bit ++ ++/* Instructions are either 2 or 4 bytes long */ ++/* #define DWARF2_LINE_MIN_INSN_LENGTH 2 */ ++ ++/* GAS will call this function for any expression that can not be ++ recognized. When the function is called, `input_line_pointer' ++ will point to the start of the expression. */ ++#define md_operand(x) ++ ++#define md_parse_name(name, expr, mode, c) avr32_parse_name(name, expr, c) ++extern int avr32_parse_name(const char *, struct expressionS *, char *); ++ ++/* You may define this macro to generate a fixup for a data ++ allocation pseudo-op. */ ++#define TC_CONS_FIX_NEW(FRAG, OFF, LEN, EXP) \ ++ avr32_cons_fix_new(FRAG, OFF, LEN, EXP) ++void avr32_cons_fix_new (fragS *, int, int, expressionS *); ++ ++/* `extsym - .' expressions can be emitted using PC-relative relocs */ ++#define DIFF_EXPR_OK ++ ++/* This is used to construct expressions out of @gotoff, etc. The ++ relocation type is stored in X_md */ ++#define O_got O_md1 ++#define O_hi O_md2 ++#define O_lo O_md3 ++#define O_tlsgd O_md4 ++ ++/* You may define this macro to parse an expression used in a data ++ allocation pseudo-op such as `.word'. You can use this to ++ recognize relocation directives that may appear in such directives. */ ++/* #define TC_PARSE_CONS_EXPRESSION(EXPR,N) avr_parse_cons_expression (EXPR,N) ++ void avr_parse_cons_expression (expressionS *exp, int nbytes); */ ++ ++/* This should just call either `number_to_chars_bigendian' or ++ `number_to_chars_littleendian', whichever is appropriate. On ++ targets like the MIPS which support options to change the ++ endianness, which function to call is a runtime decision. On ++ other targets, `md_number_to_chars' can be a simple macro. */ ++#define md_number_to_chars number_to_chars_bigendian ++ ++/* `md_short_jump_size' ++ `md_long_jump_size' ++ `md_create_short_jump' ++ `md_create_long_jump' ++ If `WORKING_DOT_WORD' is defined, GAS will not do broken word ++ processing (*note Broken words::.). Otherwise, you should set ++ `md_short_jump_size' to the size of a short jump (a jump that is ++ just long enough to jump around a long jmp) and ++ `md_long_jump_size' to the size of a long jump (a jump that can go ++ anywhere in the function), You should define ++ `md_create_short_jump' to create a short jump around a long jump, ++ and define `md_create_long_jump' to create a long jump. */ ++#define WORKING_DOT_WORD ++ ++/* If you define this macro, it means that `tc_gen_reloc' may return ++ multiple relocation entries for a single fixup. In this case, the ++ return value of `tc_gen_reloc' is a pointer to a null terminated ++ array. */ ++#undef RELOC_EXPANSION_POSSIBLE ++ ++/* If you define this macro, GAS will not require pseudo-ops to start with a . ++ character. */ ++#define NO_PSEUDO_DOT (avr32_iarcompat) ++ ++/* The IAR assembler uses $ as the location counter. Unfortunately, we ++ can't make this dependent on avr32_iarcompat... */ ++#define DOLLAR_DOT ++ ++/* Values passed to md_apply_fix3 don't include the symbol value. */ ++#define MD_APPLY_SYM_VALUE(FIX) 0 ++ ++/* The number of bytes to put into a word in a listing. This affects ++ the way the bytes are clumped together in the listing. For ++ example, a value of 2 might print `1234 5678' where a value of 1 ++ would print `12 34 56 78'. The default value is 4. */ ++#define LISTING_WORD_SIZE 4 ++ ++/* extern const struct relax_type md_relax_table[]; ++#define TC_GENERIC_RELAX_TABLE md_relax_table */ ++ ++/* ++ An `.lcomm' directive with no explicit alignment parameter will use ++ this macro to set P2VAR to the alignment that a request for SIZE ++ bytes will have. The alignment is expressed as a power of two. If ++ no alignment should take place, the macro definition should do ++ nothing. Some targets define a `.bss' directive that is also ++ affected by this macro. The default definition will set P2VAR to ++ the truncated power of two of sizes up to eight bytes. ++ ++ We want doublewords to be word-aligned, so we're going to modify the ++ default definition a tiny bit. ++*/ ++#define TC_IMPLICIT_LCOMM_ALIGNMENT(SIZE, P2VAR) \ ++ do \ ++ { \ ++ if ((SIZE) >= 4) \ ++ (P2VAR) = 2; \ ++ else if ((SIZE) >= 2) \ ++ (P2VAR) = 1; \ ++ else \ ++ (P2VAR) = 0; \ ++ } \ ++ while (0) ++ ++/* When relaxing, we need to generate relocations for alignment ++ directives. */ ++#define HANDLE_ALIGN(frag) avr32_handle_align(frag) ++extern void avr32_handle_align(fragS *); ++ ++/* See internals doc for explanation. Oh wait... ++ Now, can you guess where "alignment" comes from? ;-) */ ++#define MAX_MEM_FOR_RS_ALIGN_CODE ((1 << alignment) - 1) ++ ++/* We need to stop gas from reducing certain expressions (e.g. GOT ++ references) */ ++#define tc_fix_adjustable(fix) avr32_fix_adjustable(fix) ++extern bfd_boolean avr32_fix_adjustable(struct fix *); ++ ++/* The linker needs to be passed a little more information when relaxing. */ ++#define TC_FORCE_RELOCATION(fix) avr32_force_reloc(fix) ++extern bfd_boolean avr32_force_reloc(struct fix *); ++ ++/* I'm tired of working around all the madness in fixup_segment(). ++ This hook will do basically the same things as the generic code, ++ and then it will "goto" right past it. */ ++#define TC_VALIDATE_FIX(FIX, SEG, SKIP) \ ++ do \ ++ { \ ++ avr32_process_fixup(FIX, SEG); \ ++ if (!(FIX)->fx_done) \ ++ ++seg_reloc_count; \ ++ goto SKIP; \ ++ } \ ++ while (0) ++extern void avr32_process_fixup(struct fix *fixP, segT this_segment); ++ ++/* Positive values of TC_FX_SIZE_SLACK allow a target to define ++ fixups that far past the end of a frag. Having such fixups ++ is of course most most likely a bug in setting fx_size correctly. ++ A negative value disables the fixup check entirely, which is ++ appropriate for something like the Renesas / SuperH SH_COUNT ++ reloc. */ ++/* This target is buggy, and sets fix size too large. */ ++#define TC_FX_SIZE_SLACK(FIX) -1 ++ ++/* We don't want the gas core to make any assumptions about our way of ++ doing linkrelaxing. */ ++#define TC_LINKRELAX_FIXUP(SEG) 0 ++ ++/* ... but we do want it to insert lots of padding. */ ++#define LINKER_RELAXING_SHRINKS_ONLY ++ ++/* Better do it ourselves, really... */ ++#define TC_RELAX_ALIGN(SEG, FRAG, ADDR) avr32_relax_align(SEG, FRAG, ADDR) ++extern relax_addressT ++avr32_relax_align(segT segment, fragS *fragP, relax_addressT address); ++ ++/* Use line number format that is amenable to linker relaxation. */ ++#define DWARF2_USE_FIXED_ADVANCE_PC (linkrelax != 0) ++ ++/* This is called by write_object_file() just before symbols are ++ attempted converted into section symbols. */ ++#define tc_frob_file_before_adjust() avr32_frob_file() ++extern void avr32_frob_file(void); ++ ++/* If you define this macro, GAS will call it at the end of each input ++ file. */ ++#define md_cleanup() avr32_cleanup() ++extern void avr32_cleanup(void); ++ ++/* There's an AVR32-specific hack in operand() which creates O_md ++ expressions when encountering HWRD or LWRD. We need to generate ++ proper relocs for them */ ++/* #define md_cgen_record_fixup_exp avr32_cgen_record_fixup_exp */ ++ ++/* I needed to add an extra hook in gas_cgen_finish_insn() for ++ conversion of O_md* operands because md_cgen_record_fixup_exp() ++ isn't called for relaxable insns */ ++/* #define md_cgen_convert_expr(exp, opinfo) avr32_cgen_convert_expr(exp, opinfo) ++ int avr32_cgen_convert_expr(expressionS *, int); */ ++ ++/* #define tc_gen_reloc gas_cgen_tc_gen_reloc */ ++ ++/* If you define this macro, it should return the position from which ++ the PC relative adjustment for a PC relative fixup should be ++ made. On many processors, the base of a PC relative instruction is ++ the next instruction, so this macro would return the length of an ++ instruction, plus the address of the PC relative fixup. The latter ++ can be calculated as fixp->fx_where + fixp->fx_frag->fr_address. */ ++extern long md_pcrel_from_section (struct fix *, segT); ++#define MD_PCREL_FROM_SECTION(FIX, SEC) md_pcrel_from_section (FIX, SEC) ++ ++#define LOCAL_LABEL(name) (name[0] == '.' && (name[1] == 'L')) ++#define LOCAL_LABELS_FB 1 ++ ++struct avr32_relaxer ++{ ++ int (*estimate_size)(fragS *, segT); ++ long (*relax_frag)(segT, fragS *, long); ++ void (*convert_frag)(bfd *, segT, fragS *); ++}; ++ ++/* AVR32 has quite complex instruction coding, which means we need ++ * lots of information in order to do the right thing during relaxing ++ * (basically, we need to be able to reconstruct a whole new opcode if ++ * necessary) */ ++#define TC_FRAG_TYPE struct avr32_frag_data ++ ++struct cpool; ++ ++struct avr32_frag_data ++{ ++ /* TODO: Maybe add an expression object here so that we can use ++ fix_new_exp() in md_convert_frag? We may have to decide ++ pcrel-ness in md_estimate_size_before_relax() as well...or we ++ might do it when parsing. Doing it while parsing may fail ++ because the sub_symbol is undefined then... */ ++ int pcrel; ++ int force_extended; ++ int reloc_info; ++ struct avr32_relaxer *relaxer; ++ expressionS exp; ++ ++ /* Points to associated constant pool, for use by LDA and CALL in ++ non-pic mode, and when relaxing the .cpool directive */ ++ struct cpool *pool; ++ unsigned int pool_entry; ++}; ++ ++/* We will have to initialize the fields explicitly when needed */ ++#define TC_FRAG_INIT(fragP) ++ ++#define md_estimate_size_before_relax(fragP, segT) \ ++ ((fragP)->tc_frag_data.relaxer->estimate_size(fragP, segT)) ++#define md_relax_frag(segment, fragP, stretch) \ ++ ((fragP)->tc_frag_data.relaxer->relax_frag(segment, fragP, stretch)) ++#define md_convert_frag(abfd, segment, fragP) \ ++ ((fragP)->tc_frag_data.relaxer->convert_frag(abfd, segment, fragP)) ++ ++#define TC_FIX_TYPE struct avr32_fix_data ++ ++struct avr32_fix_data ++{ ++ const struct avr32_ifield *ifield; ++ unsigned int align; ++ long min; ++ long max; ++}; ++ ++#define TC_INIT_FIX_DATA(fixP) \ ++ do \ ++ { \ ++ (fixP)->tc_fix_data.ifield = NULL; \ ++ (fixP)->tc_fix_data.align = 0; \ ++ (fixP)->tc_fix_data.min = 0; \ ++ (fixP)->tc_fix_data.max = 0; \ ++ } \ ++ while (0) +--- a/gas/configure.tgt ++++ b/gas/configure.tgt +@@ -33,6 +33,7 @@ case ${cpu} in + am33_2.0) cpu_type=mn10300 endian=little ;; + arm*be|arm*b) cpu_type=arm endian=big ;; + arm*) cpu_type=arm endian=little ;; ++ avr32*) cpu_type=avr32 endian=big ;; + bfin*) cpu_type=bfin endian=little ;; + c4x*) cpu_type=tic4x ;; + cr16*) cpu_type=cr16 endian=little ;; +@@ -136,6 +137,9 @@ case ${generic_target} in + + cr16-*-elf*) fmt=elf ;; + ++ avr32-*-linux*) fmt=elf em=linux bfd_gas=yes ;; ++ avr32*) fmt=elf bfd_gas=yes ;; ++ + cris-*-linux-* | crisv32-*-linux-*) + fmt=multi em=linux ;; + cris-*-* | crisv32-*-*) fmt=multi ;; +--- a/gas/doc/all.texi ++++ b/gas/doc/all.texi +@@ -30,6 +30,7 @@ + @set ARC + @set ARM + @set AVR ++@set AVR32 + @set Blackfin + @set CR16 + @set CRIS +--- a/gas/doc/asconfig.texi ++++ b/gas/doc/asconfig.texi +@@ -30,6 +30,7 @@ + @set ARC + @set ARM + @set AVR ++@set AVR32 + @set Blackfin + @set CR16 + @set CRIS +--- a/gas/doc/as.texinfo ++++ b/gas/doc/as.texinfo +@@ -6731,6 +6731,9 @@ subject, see the hardware manufacturer's + @ifset AVR + * AVR-Dependent:: AVR Dependent Features + @end ifset ++@ifset AVR32 ++* AVR32-Dependent:: AVR32 Dependent Features ++@end ifset + @ifset Blackfin + * Blackfin-Dependent:: Blackfin Dependent Features + @end ifset +@@ -6866,6 +6869,10 @@ subject, see the hardware manufacturer's + @include c-avr.texi + @end ifset + ++@ifset AVR32 ++@include c-avr32.texi ++@end ifset ++ + @ifset Blackfin + @include c-bfin.texi + @end ifset +--- /dev/null ++++ b/gas/doc/c-avr32.texi +@@ -0,0 +1,244 @@ ++@c Copyright 2005, 2006, 2007, 2008, 2009 ++@c Atmel Corporation ++@c This is part of the GAS manual. ++@c For copying conditions, see the file as.texinfo. ++ ++@ifset GENERIC ++@page ++@node AVR32-Dependent ++@chapter AVR32 Dependent Features ++@end ifset ++ ++@ifclear GENERIC ++@node Machine Dependencies ++@chapter AVR32 Dependent Features ++@end ifclear ++ ++@cindex AVR32 support ++@menu ++* AVR32 Options:: Options ++* AVR32 Syntax:: Syntax ++* AVR32 Directives:: Directives ++* AVR32 Opcodes:: Opcodes ++@end menu ++ ++@node AVR32 Options ++@section Options ++@cindex AVR32 options ++@cindex options for AVR32 ++ ++@table @code ++ ++@cindex @code{--pic} command line option, AVR32 ++@cindex PIC code generation for AVR32 ++@item --pic ++This option specifies that the output of the assembler should be marked ++as position-independent code (PIC). It will also ensure that ++pseudo-instructions that deal with address calculation are output as ++PIC, and that all absolute address references in the code are marked as ++such. ++ ++@cindex @code{--linkrelax} command line option, AVR32 ++@item --linkrelax ++This option specifies that the output of the assembler should be marked ++as linker-relaxable. It will also ensure that all PC-relative operands ++that may change during linker relaxation get appropriate relocations. ++ ++@end table ++ ++ ++@node AVR32 Syntax ++@section Syntax ++@menu ++* AVR32-Chars:: Special Characters ++* AVR32-Symrefs:: Symbol references ++@end menu ++ ++@node AVR32-Chars ++@subsection Special Characters ++ ++@cindex line comment character, AVR32 ++@cindex AVR32 line comment character ++The presence of a @samp{//} on a line indicates the start of a comment ++that extends to the end of the current line. If a @samp{#} appears as ++the first character of a line, the whole line is treated as a comment. ++ ++@cindex line separator, AVR32 ++@cindex statement separator, AVR32 ++@cindex AVR32 line separator ++The @samp{;} character can be used instead of a newline to separate ++statements. ++ ++@node AVR32-Symrefs ++@subsection Symbol references ++ ++The absolute value of a symbol can be obtained by simply naming the ++symbol. However, as AVR32 symbols have 32-bit values, most symbols have ++values that are outside the range of any instructions. ++ ++Instructions that take a PC-relative offset, e.g. @code{lddpc} or ++@code{rcall}, can also reference a symbol by simply naming the symbol ++(no explicit calculations necessary). In this case, the assembler or ++linker subtracts the address of the instruction from the symbol's value ++and inserts the result into the instruction. Note that even though an ++overflow is less likely to happen for a relative reference than for an ++absolute reference, the assembler or linker will generate an error if ++the referenced symbol is too far away from the current location. ++ ++Relative references can be used for data as well. For example: ++ ++@smallexample ++ lddpc r0, 2f ++1: add r0, pc ++ ... ++ .align 2 ++2: .int @var{some_symbol} - 1b ++@end smallexample ++ ++Here, r0 will end up with the run-time address of @var{some_symbol} even ++if the program was loaded at a different address than it was linked ++(position-independent code). ++ ++@subsubsection Symbol modifiers ++ ++@table @code ++ ++@item @code{hi(@var{symbol})} ++Evaluates to the value of the symbol shifted right 16 bits. This will ++work even if @var{symbol} is defined in a different module. ++ ++@item @code{lo(@var{symbol})} ++Evaluates to the low 16 bits of the symbol's value. This will work even ++if @var{symbol} is defined in a different module. ++ ++@item @code{@var{symbol}@@got} ++Create a GOT entry for @var{symbol} and return the offset of that entry ++relative to the GOT base. ++ ++@end table ++ ++ ++@node AVR32 Directives ++@section Directives ++@cindex machine directives, AVR32 ++@cindex AVR32 directives ++ ++@table @code ++ ++@cindex @code{.cpool} directive, AVR32 ++@item .cpool ++This directive causes the current contents of the constant pool to be ++dumped into the current section at the current location (aligned to a ++word boundary). @code{GAS} maintains a separate constant pool for each ++section and each sub-section. The @code{.cpool} directive will only ++affect the constant pool of the current section and sub-section. At the ++end of assembly, all remaining, non-empty constant pools will ++automatically be dumped. ++ ++@end table ++ ++ ++@node AVR32 Opcodes ++@section Opcodes ++@cindex AVR32 opcodes ++@cindex opcodes for AVR32 ++ ++@code{@value{AS}} implements all the standard AVR32 opcodes. It also ++implements several pseudo-opcodes, which are recommended to use wherever ++possible because they give the tool chain better freedom to generate ++optimal code. ++ ++@table @code ++ ++@cindex @code{LDA.W reg, symbol} pseudo op, AVR32 ++@item LDA.W ++@smallexample ++ lda.w @var{reg}, @var{symbol} ++@end smallexample ++ ++This instruction will load the address of @var{symbol} into ++@var{reg}. The instruction will evaluate to one of the following, ++depending on the relative distance to the symbol, the relative distance ++to the constant pool and whether the @code{--pic} option has been ++specified. If the @code{--pic} option has not been specified, the ++alternatives are as follows: ++@smallexample ++ /* @var{symbol} evaluates to a small enough value */ ++ mov @var{reg}, @var{symbol} ++ ++ /* (. - @var{symbol}) evaluates to a small enough value */ ++ sub @var{reg}, pc, . - @var{symbol} ++ ++ /* Constant pool is close enough */ ++ lddpc @var{reg}, @var{cpent} ++ ... ++@var{cpent}: ++ .long @var{symbol} ++ ++ /* Otherwise (not implemented yet, probably not necessary) */ ++ mov @var{reg}, lo(@var{symbol}) ++ orh @var{reg}, hi(@var{symbol}) ++@end smallexample ++ ++If the @code{--pic} option has been specified, the alternatives are as ++follows: ++@smallexample ++ /* (. - @var{symbol}) evaluates to a small enough value */ ++ sub @var{reg}, pc, . - @var{symbol} ++ ++ /* If @code{--linkrelax} not specified */ ++ ld.w @var{reg}, r6[@var{symbol}@@got] ++ ++ /* Otherwise */ ++ mov @var{reg}, @var{symbol}@@got / 4 ++ ld.w @var{reg}, r6[@var{reg} << 2] ++@end smallexample ++ ++If @var{symbol} is not defined in the same file and section as the ++@code{LDA.W} instruction, the most pessimistic alternative of the ++above is selected. The linker may convert it back into the most ++optimal alternative when the final value of all symbols is known. ++ ++@cindex @code{CALL symbol} pseudo op, AVR32 ++@item CALL ++@smallexample ++ call @var{symbol} ++@end smallexample ++ ++This instruction will insert code to call the subroutine identified by ++@var{symbol}. It will evaluate to one of the following, depending on ++the relative distance to the symbol as well as the @code{--linkrelax} ++and @code{--pic} command-line options. ++ ++If @var{symbol} is defined in the same section and input file, and the ++distance is small enough, an @code{rcall} instruction is inserted: ++@smallexample ++ rcall @var{symbol} ++@end smallexample ++ ++Otherwise, if the @code{--pic} option has not been specified: ++@smallexample ++ mcall @var{cpent} ++ ... ++@var{cpent}: ++ .long @var{symbol} ++@end smallexample ++ ++Finally, if nothing else fits and the @code{--pic} option has been ++specified, the assembler will indirect the call through the Global ++Offset Table: ++@smallexample ++ /* If @code{--linkrelax} not specified */ ++ mcall r6[@var{symbol}@@got] ++ ++ /* If @code{--linkrelax} specified */ ++ mov lr, @var{symbol}@@got / 4 ++ ld.w lr, r6[lr << 2] ++ icall lr ++@end smallexample ++ ++The linker, after determining the final value of @var{symbol}, may ++convert any of these into more optimal alternatives. This includes ++deleting any superfluous constant pool- and GOT-entries. ++ ++@end table +--- a/gas/doc/Makefile.am ++++ b/gas/doc/Makefile.am +@@ -33,6 +33,7 @@ CPU_DOCS = \ + c-arc.texi \ + c-arm.texi \ + c-avr.texi \ ++ c-avr32.texi \ + c-bfin.texi \ + c-cr16.texi \ + c-d10v.texi \ +--- a/gas/Makefile.am ++++ b/gas/Makefile.am +@@ -43,6 +43,7 @@ CPU_TYPES = \ + arc \ + arm \ + avr \ ++ avr32 \ + bfin \ + cr16 \ + cris \ +@@ -244,6 +245,7 @@ TARGET_CPU_CFILES = \ + config/tc-arc.c \ + config/tc-arm.c \ + config/tc-avr.c \ ++ config/tc-avr32.c \ + config/tc-bfin.c \ + config/tc-cr16.c \ + config/tc-cris.c \ +@@ -307,6 +309,7 @@ TARGET_CPU_HFILES = \ + config/tc-arc.h \ + config/tc-arm.h \ + config/tc-avr.h \ ++ config/tc-avr32.h \ + config/tc-bfin.h \ + config/tc-cr16.h \ + config/tc-cris.h \ +--- /dev/null ++++ b/gas/testsuite/gas/avr32/aliases.d +@@ -0,0 +1,19 @@ ++#as: ++#objdump: -dr ++#name: aliases ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: 19 80 [ \t]+ld\.ub r0,r12\[0x0\] ++ 2: f9 20 00 00[ \t]+ld\.sb r0,r12\[0\] ++ 6: 98 80 [ \t]+ld\.uh r0,r12\[0x0\] ++ 8: 98 00 [ \t]+ld\.sh r0,r12\[0x0\] ++ a: 78 00 [ \t]+ld\.w r0,r12\[0x0\] ++ ++0000000c : ++ c: b8 80 [ \t]+st\.b r12\[0x0\],r0 ++ e: b8 00 [ \t]+st\.h r12\[0x0\],r0 ++ 10: 99 00 [ \t]+st\.w r12\[0x0\],r0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/aliases.s +@@ -0,0 +1,14 @@ ++ .text ++ .global ld_nodisp ++ld_nodisp: ++ ld.ub r0, r12 ++ ld.sb r0, r12 ++ ld.uh r0, r12 ++ ld.sh r0, r12 ++ ld.w r0, r12 ++ ++ .global st_nodisp ++st_nodisp: ++ st.b r12, r0 ++ st.h r12, r0 ++ st.w r12, r0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/allinsn.d +@@ -0,0 +1,2987 @@ ++#as: ++#objdump: -dr ++#name: allinsn ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 3e ld\.d lr,pc\[pc<<0x3\] ++ *[0-9a-f]*: e0 00 02 00 ld\.d r0,r0\[r0\] ++ *[0-9a-f]*: ea 05 02 26 ld\.d r6,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 02 14 ld\.d r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 02 1e ld\.d lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: e6 0d 02 2a ld\.d r10,r3\[sp<<0x2\] ++ *[0-9a-f]*: f4 06 02 28 ld\.d r8,r10\[r6<<0x2\] ++ *[0-9a-f]*: ee 09 02 02 ld\.d r2,r7\[r9\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 03 0f ld\.w pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 03 3c ld\.w r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 03 25 ld\.w r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 03 14 ld\.w r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 03 1e ld\.w lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: f2 09 03 02 ld\.w r2,r9\[r9\] ++ *[0-9a-f]*: e4 06 03 0b ld\.w r11,r2\[r6\] ++ *[0-9a-f]*: e4 0d 03 30 ld\.w r0,r2\[sp<<0x3\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 04 0f ld\.sh pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 04 3c ld\.sh r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 04 25 ld\.sh r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 04 14 ld\.sh r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 04 1e ld\.sh lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: e0 0f 04 2b ld\.sh r11,r0\[pc<<0x2\] ++ *[0-9a-f]*: fa 06 04 2a ld\.sh r10,sp\[r6<<0x2\] ++ *[0-9a-f]*: e4 02 04 0c ld\.sh r12,r2\[r2\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 05 0f ld\.uh pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 05 3c ld\.uh r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 05 25 ld\.uh r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 05 14 ld\.uh r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 05 1e ld\.uh lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: fe 0e 05 38 ld\.uh r8,pc\[lr<<0x3\] ++ *[0-9a-f]*: e2 0f 05 16 ld\.uh r6,r1\[pc<<0x1\] ++ *[0-9a-f]*: fc 0d 05 16 ld\.uh r6,lr\[sp<<0x1\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 06 0f ld\.sb pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 06 3c ld\.sb r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 06 25 ld\.sb r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 06 14 ld\.sb r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 06 1e ld\.sb lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: e2 0f 06 39 ld\.sb r9,r1\[pc<<0x3\] ++ *[0-9a-f]*: e6 0b 06 10 ld\.sb r0,r3\[r11<<0x1\] ++ *[0-9a-f]*: ea 05 06 1a ld\.sb r10,r5\[r5<<0x1\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 07 0f ld\.ub pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 07 3c ld\.ub r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 07 25 ld\.ub r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 07 14 ld\.ub r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 07 1e ld\.ub lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: f8 07 07 36 ld\.ub r6,r12\[r7<<0x3\] ++ *[0-9a-f]*: ec 0c 07 02 ld\.ub r2,r6\[r12\] ++ *[0-9a-f]*: ee 0b 07 10 ld\.ub r0,r7\[r11<<0x1\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 08 0e st\.d pc\[pc\],lr ++ *[0-9a-f]*: f8 0c 08 3c st\.d r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 08 26 st\.d r5\[r5<<0x2\],r6 ++ *[0-9a-f]*: e8 04 08 14 st\.d r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 08 1e st\.d lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e2 09 08 14 st\.d r1\[r9<<0x1\],r4 ++ *[0-9a-f]*: f4 02 08 14 st\.d r10\[r2<<0x1\],r4 ++ *[0-9a-f]*: f8 06 08 0e st\.d r12\[r6\],lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 09 0f st\.w pc\[pc\],pc ++ *[0-9a-f]*: f8 0c 09 3c st\.w r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 09 25 st\.w r5\[r5<<0x2\],r5 ++ *[0-9a-f]*: e8 04 09 14 st\.w r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 09 1e st\.w lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e2 0a 09 03 st\.w r1\[r10\],r3 ++ *[0-9a-f]*: e0 0a 09 19 st\.w r0\[r10<<0x1\],r9 ++ *[0-9a-f]*: e8 05 09 3f st\.w r4\[r5<<0x3\],pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0a 0f st\.h pc\[pc\],pc ++ *[0-9a-f]*: f8 0c 0a 3c st\.h r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 0a 25 st\.h r5\[r5<<0x2\],r5 ++ *[0-9a-f]*: e8 04 0a 14 st\.h r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 0a 1e st\.h lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e4 09 0a 0b st\.h r2\[r9\],r11 ++ *[0-9a-f]*: ea 01 0a 2c st\.h r5\[r1<<0x2\],r12 ++ *[0-9a-f]*: fe 08 0a 23 st\.h pc\[r8<<0x2\],r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0b 0f st\.b pc\[pc\],pc ++ *[0-9a-f]*: f8 0c 0b 3c st\.b r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 0b 25 st\.b r5\[r5<<0x2\],r5 ++ *[0-9a-f]*: e8 04 0b 14 st\.b r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 0b 1e st\.b lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e2 08 0b 16 st\.b r1\[r8<<0x1\],r6 ++ *[0-9a-f]*: fc 0e 0b 31 st\.b lr\[lr<<0x3\],r1 ++ *[0-9a-f]*: ea 00 0b 2f st\.b r5\[r0<<0x2\],pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0c 0f divs pc,pc,pc ++ *[0-9a-f]*: f8 0c 0c 0c divs r12,r12,r12 ++ *[0-9a-f]*: ea 05 0c 05 divs r5,r5,r5 ++ *[0-9a-f]*: e8 04 0c 04 divs r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0c 0e divs lr,lr,lr ++ *[0-9a-f]*: fe 0f 0c 03 divs r3,pc,pc ++ *[0-9a-f]*: f8 02 0c 09 divs r9,r12,r2 ++ *[0-9a-f]*: e8 01 0c 07 divs r7,r4,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 0f add pc,pc ++ *[0-9a-f]*: 18 0c add r12,r12 ++ *[0-9a-f]*: 0a 05 add r5,r5 ++ *[0-9a-f]*: 08 04 add r4,r4 ++ *[0-9a-f]*: 1c 0e add lr,lr ++ *[0-9a-f]*: 12 0c add r12,r9 ++ *[0-9a-f]*: 06 06 add r6,r3 ++ *[0-9a-f]*: 18 0a add r10,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 1f sub pc,pc ++ *[0-9a-f]*: 18 1c sub r12,r12 ++ *[0-9a-f]*: 0a 15 sub r5,r5 ++ *[0-9a-f]*: 08 14 sub r4,r4 ++ *[0-9a-f]*: 1c 1e sub lr,lr ++ *[0-9a-f]*: 0c 1e sub lr,r6 ++ *[0-9a-f]*: 1a 10 sub r0,sp ++ *[0-9a-f]*: 18 16 sub r6,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 2f rsub pc,pc ++ *[0-9a-f]*: 18 2c rsub r12,r12 ++ *[0-9a-f]*: 0a 25 rsub r5,r5 ++ *[0-9a-f]*: 08 24 rsub r4,r4 ++ *[0-9a-f]*: 1c 2e rsub lr,lr ++ *[0-9a-f]*: 1a 2b rsub r11,sp ++ *[0-9a-f]*: 08 27 rsub r7,r4 ++ *[0-9a-f]*: 02 29 rsub r9,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 3f cp\.w pc,pc ++ *[0-9a-f]*: 18 3c cp\.w r12,r12 ++ *[0-9a-f]*: 0a 35 cp\.w r5,r5 ++ *[0-9a-f]*: 08 34 cp\.w r4,r4 ++ *[0-9a-f]*: 1c 3e cp\.w lr,lr ++ *[0-9a-f]*: 04 36 cp\.w r6,r2 ++ *[0-9a-f]*: 12 30 cp\.w r0,r9 ++ *[0-9a-f]*: 1a 33 cp\.w r3,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 4f or pc,pc ++ *[0-9a-f]*: 18 4c or r12,r12 ++ *[0-9a-f]*: 0a 45 or r5,r5 ++ *[0-9a-f]*: 08 44 or r4,r4 ++ *[0-9a-f]*: 1c 4e or lr,lr ++ *[0-9a-f]*: 12 44 or r4,r9 ++ *[0-9a-f]*: 08 4b or r11,r4 ++ *[0-9a-f]*: 00 44 or r4,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 5f eor pc,pc ++ *[0-9a-f]*: 18 5c eor r12,r12 ++ *[0-9a-f]*: 0a 55 eor r5,r5 ++ *[0-9a-f]*: 08 54 eor r4,r4 ++ *[0-9a-f]*: 1c 5e eor lr,lr ++ *[0-9a-f]*: 16 5c eor r12,r11 ++ *[0-9a-f]*: 02 50 eor r0,r1 ++ *[0-9a-f]*: 1e 55 eor r5,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 6f and pc,pc ++ *[0-9a-f]*: 18 6c and r12,r12 ++ *[0-9a-f]*: 0a 65 and r5,r5 ++ *[0-9a-f]*: 08 64 and r4,r4 ++ *[0-9a-f]*: 1c 6e and lr,lr ++ *[0-9a-f]*: 02 68 and r8,r1 ++ *[0-9a-f]*: 1a 60 and r0,sp ++ *[0-9a-f]*: 0a 6a and r10,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 7f tst pc,pc ++ *[0-9a-f]*: 18 7c tst r12,r12 ++ *[0-9a-f]*: 0a 75 tst r5,r5 ++ *[0-9a-f]*: 08 74 tst r4,r4 ++ *[0-9a-f]*: 1c 7e tst lr,lr ++ *[0-9a-f]*: 18 70 tst r0,r12 ++ *[0-9a-f]*: 0c 7a tst r10,r6 ++ *[0-9a-f]*: 08 7d tst sp,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 8f andn pc,pc ++ *[0-9a-f]*: 18 8c andn r12,r12 ++ *[0-9a-f]*: 0a 85 andn r5,r5 ++ *[0-9a-f]*: 08 84 andn r4,r4 ++ *[0-9a-f]*: 1c 8e andn lr,lr ++ *[0-9a-f]*: 18 89 andn r9,r12 ++ *[0-9a-f]*: 1a 8b andn r11,sp ++ *[0-9a-f]*: 0a 8c andn r12,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 9f mov pc,pc ++ *[0-9a-f]*: 18 9c mov r12,r12 ++ *[0-9a-f]*: 0a 95 mov r5,r5 ++ *[0-9a-f]*: 08 94 mov r4,r4 ++ *[0-9a-f]*: 1c 9e mov lr,lr ++ *[0-9a-f]*: 12 95 mov r5,r9 ++ *[0-9a-f]*: 16 9b mov r11,r11 ++ *[0-9a-f]*: 1c 92 mov r2,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e af st\.w pc\+\+,pc ++ *[0-9a-f]*: 18 ac st\.w r12\+\+,r12 ++ *[0-9a-f]*: 0a a5 st\.w r5\+\+,r5 ++ *[0-9a-f]*: 08 a4 st\.w r4\+\+,r4 ++ *[0-9a-f]*: 1c ae st\.w lr\+\+,lr ++ *[0-9a-f]*: 02 ab st\.w r1\+\+,r11 ++ *[0-9a-f]*: 1a a0 st\.w sp\+\+,r0 ++ *[0-9a-f]*: 1a a1 st\.w sp\+\+,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e bf st\.h pc\+\+,pc ++ *[0-9a-f]*: 18 bc st\.h r12\+\+,r12 ++ *[0-9a-f]*: 0a b5 st\.h r5\+\+,r5 ++ *[0-9a-f]*: 08 b4 st\.h r4\+\+,r4 ++ *[0-9a-f]*: 1c be st\.h lr\+\+,lr ++ *[0-9a-f]*: 18 bd st\.h r12\+\+,sp ++ *[0-9a-f]*: 0e be st\.h r7\+\+,lr ++ *[0-9a-f]*: 0e b4 st\.h r7\+\+,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e cf st\.b pc\+\+,pc ++ *[0-9a-f]*: 18 cc st\.b r12\+\+,r12 ++ *[0-9a-f]*: 0a c5 st\.b r5\+\+,r5 ++ *[0-9a-f]*: 08 c4 st\.b r4\+\+,r4 ++ *[0-9a-f]*: 1c ce st\.b lr\+\+,lr ++ *[0-9a-f]*: 12 cd st\.b r9\+\+,sp ++ *[0-9a-f]*: 02 cd st\.b r1\+\+,sp ++ *[0-9a-f]*: 00 c4 st\.b r0\+\+,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e df st\.w --pc,pc ++ *[0-9a-f]*: 18 dc st\.w --r12,r12 ++ *[0-9a-f]*: 0a d5 st\.w --r5,r5 ++ *[0-9a-f]*: 08 d4 st\.w --r4,r4 ++ *[0-9a-f]*: 1c de st\.w --lr,lr ++ *[0-9a-f]*: 02 d7 st\.w --r1,r7 ++ *[0-9a-f]*: 06 d9 st\.w --r3,r9 ++ *[0-9a-f]*: 0a d5 st\.w --r5,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e ef st\.h --pc,pc ++ *[0-9a-f]*: 18 ec st\.h --r12,r12 ++ *[0-9a-f]*: 0a e5 st\.h --r5,r5 ++ *[0-9a-f]*: 08 e4 st\.h --r4,r4 ++ *[0-9a-f]*: 1c ee st\.h --lr,lr ++ *[0-9a-f]*: 0a e7 st\.h --r5,r7 ++ *[0-9a-f]*: 10 e8 st\.h --r8,r8 ++ *[0-9a-f]*: 0e e2 st\.h --r7,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e ff st\.b --pc,pc ++ *[0-9a-f]*: 18 fc st\.b --r12,r12 ++ *[0-9a-f]*: 0a f5 st\.b --r5,r5 ++ *[0-9a-f]*: 08 f4 st\.b --r4,r4 ++ *[0-9a-f]*: 1c fe st\.b --lr,lr ++ *[0-9a-f]*: 1a fd st\.b --sp,sp ++ *[0-9a-f]*: 1a fb st\.b --sp,r11 ++ *[0-9a-f]*: 08 f5 st\.b --r4,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 0f ld\.w pc,pc\+\+ ++ *[0-9a-f]*: 19 0c ld\.w r12,r12\+\+ ++ *[0-9a-f]*: 0b 05 ld\.w r5,r5\+\+ ++ *[0-9a-f]*: 09 04 ld\.w r4,r4\+\+ ++ *[0-9a-f]*: 1d 0e ld\.w lr,lr\+\+ ++ *[0-9a-f]*: 0f 03 ld\.w r3,r7\+\+ ++ *[0-9a-f]*: 1d 03 ld\.w r3,lr\+\+ ++ *[0-9a-f]*: 0b 0c ld\.w r12,r5\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 1f ld\.sh pc,pc\+\+ ++ *[0-9a-f]*: 19 1c ld\.sh r12,r12\+\+ ++ *[0-9a-f]*: 0b 15 ld\.sh r5,r5\+\+ ++ *[0-9a-f]*: 09 14 ld\.sh r4,r4\+\+ ++ *[0-9a-f]*: 1d 1e ld\.sh lr,lr\+\+ ++ *[0-9a-f]*: 05 1b ld\.sh r11,r2\+\+ ++ *[0-9a-f]*: 11 12 ld\.sh r2,r8\+\+ ++ *[0-9a-f]*: 0d 17 ld\.sh r7,r6\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 2f ld\.uh pc,pc\+\+ ++ *[0-9a-f]*: 19 2c ld\.uh r12,r12\+\+ ++ *[0-9a-f]*: 0b 25 ld\.uh r5,r5\+\+ ++ *[0-9a-f]*: 09 24 ld\.uh r4,r4\+\+ ++ *[0-9a-f]*: 1d 2e ld\.uh lr,lr\+\+ ++ *[0-9a-f]*: 0f 26 ld\.uh r6,r7\+\+ ++ *[0-9a-f]*: 17 2a ld\.uh r10,r11\+\+ ++ *[0-9a-f]*: 09 2e ld\.uh lr,r4\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 3f ld\.ub pc,pc\+\+ ++ *[0-9a-f]*: 19 3c ld\.ub r12,r12\+\+ ++ *[0-9a-f]*: 0b 35 ld\.ub r5,r5\+\+ ++ *[0-9a-f]*: 09 34 ld\.ub r4,r4\+\+ ++ *[0-9a-f]*: 1d 3e ld\.ub lr,lr\+\+ ++ *[0-9a-f]*: 1d 38 ld\.ub r8,lr\+\+ ++ *[0-9a-f]*: 19 3c ld\.ub r12,r12\+\+ ++ *[0-9a-f]*: 15 3b ld\.ub r11,r10\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 4f ld\.w pc,--pc ++ *[0-9a-f]*: 19 4c ld\.w r12,--r12 ++ *[0-9a-f]*: 0b 45 ld\.w r5,--r5 ++ *[0-9a-f]*: 09 44 ld\.w r4,--r4 ++ *[0-9a-f]*: 1d 4e ld\.w lr,--lr ++ *[0-9a-f]*: 1d 4a ld\.w r10,--lr ++ *[0-9a-f]*: 13 4c ld\.w r12,--r9 ++ *[0-9a-f]*: 0b 46 ld\.w r6,--r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 5f ld\.sh pc,--pc ++ *[0-9a-f]*: 19 5c ld\.sh r12,--r12 ++ *[0-9a-f]*: 0b 55 ld\.sh r5,--r5 ++ *[0-9a-f]*: 09 54 ld\.sh r4,--r4 ++ *[0-9a-f]*: 1d 5e ld\.sh lr,--lr ++ *[0-9a-f]*: 15 5f ld\.sh pc,--r10 ++ *[0-9a-f]*: 07 56 ld\.sh r6,--r3 ++ *[0-9a-f]*: 0d 54 ld\.sh r4,--r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 6f ld\.uh pc,--pc ++ *[0-9a-f]*: 19 6c ld\.uh r12,--r12 ++ *[0-9a-f]*: 0b 65 ld\.uh r5,--r5 ++ *[0-9a-f]*: 09 64 ld\.uh r4,--r4 ++ *[0-9a-f]*: 1d 6e ld\.uh lr,--lr ++ *[0-9a-f]*: 05 63 ld\.uh r3,--r2 ++ *[0-9a-f]*: 01 61 ld\.uh r1,--r0 ++ *[0-9a-f]*: 13 62 ld\.uh r2,--r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 7f ld\.ub pc,--pc ++ *[0-9a-f]*: 19 7c ld\.ub r12,--r12 ++ *[0-9a-f]*: 0b 75 ld\.ub r5,--r5 ++ *[0-9a-f]*: 09 74 ld\.ub r4,--r4 ++ *[0-9a-f]*: 1d 7e ld\.ub lr,--lr ++ *[0-9a-f]*: 03 71 ld\.ub r1,--r1 ++ *[0-9a-f]*: 0d 70 ld\.ub r0,--r6 ++ *[0-9a-f]*: 0f 72 ld\.ub r2,--r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 8f ld\.ub pc,pc\[0x0\] ++ *[0-9a-f]*: 19 fc ld\.ub r12,r12\[0x7\] ++ *[0-9a-f]*: 0b c5 ld\.ub r5,r5\[0x4\] ++ *[0-9a-f]*: 09 b4 ld\.ub r4,r4\[0x3\] ++ *[0-9a-f]*: 1d 9e ld\.ub lr,lr\[0x1\] ++ *[0-9a-f]*: 13 e6 ld\.ub r6,r9\[0x6\] ++ *[0-9a-f]*: 1d c2 ld\.ub r2,lr\[0x4\] ++ *[0-9a-f]*: 11 81 ld\.ub r1,r8\[0x0\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 20 0d sub sp,0 ++ *[0-9a-f]*: 2f fd sub sp,-4 ++ *[0-9a-f]*: 28 0d sub sp,-512 ++ *[0-9a-f]*: 27 fd sub sp,508 ++ *[0-9a-f]*: 20 1d sub sp,4 ++ *[0-9a-f]*: 20 bd sub sp,44 ++ *[0-9a-f]*: 20 2d sub sp,8 ++ *[0-9a-f]*: 25 7d sub sp,348 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 20 0f sub pc,0 ++ *[0-9a-f]*: 2f fc sub r12,-1 ++ *[0-9a-f]*: 28 05 sub r5,-128 ++ *[0-9a-f]*: 27 f4 sub r4,127 ++ *[0-9a-f]*: 20 1e sub lr,1 ++ *[0-9a-f]*: 2d 76 sub r6,-41 ++ *[0-9a-f]*: 22 54 sub r4,37 ++ *[0-9a-f]*: 23 8c sub r12,56 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 30 0f mov pc,0 ++ *[0-9a-f]*: 3f fc mov r12,-1 ++ *[0-9a-f]*: 38 05 mov r5,-128 ++ *[0-9a-f]*: 37 f4 mov r4,127 ++ *[0-9a-f]*: 30 1e mov lr,1 ++ *[0-9a-f]*: 30 ef mov pc,14 ++ *[0-9a-f]*: 39 c6 mov r6,-100 ++ *[0-9a-f]*: 38 6e mov lr,-122 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 40 0f lddsp pc,sp\[0x0\] ++ *[0-9a-f]*: 47 fc lddsp r12,sp\[0x1fc\] ++ *[0-9a-f]*: 44 05 lddsp r5,sp\[0x100\] ++ *[0-9a-f]*: 43 f4 lddsp r4,sp\[0xfc\] ++ *[0-9a-f]*: 40 1e lddsp lr,sp\[0x4\] ++ *[0-9a-f]*: 44 0e lddsp lr,sp\[0x100\] ++ *[0-9a-f]*: 40 5c lddsp r12,sp\[0x14\] ++ *[0-9a-f]*: 47 69 lddsp r9,sp\[0x1d8\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 48 0f lddpc pc,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4f f0 lddpc r0,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4c 08 lddpc r8,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4b f7 lddpc r7,[0-9a-f]* <.*> ++ *[0-9a-f]*: 48 1e lddpc lr,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4f 6d lddpc sp,[0-9a-f]* <.*> ++ *[0-9a-f]*: 49 e6 lddpc r6,[0-9a-f]* <.*> ++ *[0-9a-f]*: 48 7b lddpc r11,[0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 50 0f stdsp sp\[0x0\],pc ++ *[0-9a-f]*: 57 fc stdsp sp\[0x1fc\],r12 ++ *[0-9a-f]*: 54 05 stdsp sp\[0x100\],r5 ++ *[0-9a-f]*: 53 f4 stdsp sp\[0xfc\],r4 ++ *[0-9a-f]*: 50 1e stdsp sp\[0x4\],lr ++ *[0-9a-f]*: 54 cf stdsp sp\[0x130\],pc ++ *[0-9a-f]*: 54 00 stdsp sp\[0x100\],r0 ++ *[0-9a-f]*: 55 45 stdsp sp\[0x150\],r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 58 0f cp.w pc,0 ++ *[0-9a-f]*: 5b fc cp.w r12,-1 ++ *[0-9a-f]*: 5a 05 cp.w r5,-32 ++ *[0-9a-f]*: 59 f4 cp.w r4,31 ++ *[0-9a-f]*: 58 1e cp.w lr,1 ++ *[0-9a-f]*: 58 38 cp.w r8,3 ++ *[0-9a-f]*: 59 0e cp.w lr,16 ++ *[0-9a-f]*: 5a 67 cp.w r7,-26 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 0f acr pc ++ *[0-9a-f]*: 5c 0c acr r12 ++ *[0-9a-f]*: 5c 05 acr r5 ++ *[0-9a-f]*: 5c 04 acr r4 ++ *[0-9a-f]*: 5c 0e acr lr ++ *[0-9a-f]*: 5c 02 acr r2 ++ *[0-9a-f]*: 5c 0c acr r12 ++ *[0-9a-f]*: 5c 0f acr pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 1f scr pc ++ *[0-9a-f]*: 5c 1c scr r12 ++ *[0-9a-f]*: 5c 15 scr r5 ++ *[0-9a-f]*: 5c 14 scr r4 ++ *[0-9a-f]*: 5c 1e scr lr ++ *[0-9a-f]*: 5c 1f scr pc ++ *[0-9a-f]*: 5c 16 scr r6 ++ *[0-9a-f]*: 5c 11 scr r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 2f cpc pc ++ *[0-9a-f]*: 5c 2c cpc r12 ++ *[0-9a-f]*: 5c 25 cpc r5 ++ *[0-9a-f]*: 5c 24 cpc r4 ++ *[0-9a-f]*: 5c 2e cpc lr ++ *[0-9a-f]*: 5c 2f cpc pc ++ *[0-9a-f]*: 5c 24 cpc r4 ++ *[0-9a-f]*: 5c 29 cpc r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 3f neg pc ++ *[0-9a-f]*: 5c 3c neg r12 ++ *[0-9a-f]*: 5c 35 neg r5 ++ *[0-9a-f]*: 5c 34 neg r4 ++ *[0-9a-f]*: 5c 3e neg lr ++ *[0-9a-f]*: 5c 37 neg r7 ++ *[0-9a-f]*: 5c 31 neg r1 ++ *[0-9a-f]*: 5c 39 neg r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 4f abs pc ++ *[0-9a-f]*: 5c 4c abs r12 ++ *[0-9a-f]*: 5c 45 abs r5 ++ *[0-9a-f]*: 5c 44 abs r4 ++ *[0-9a-f]*: 5c 4e abs lr ++ *[0-9a-f]*: 5c 46 abs r6 ++ *[0-9a-f]*: 5c 46 abs r6 ++ *[0-9a-f]*: 5c 44 abs r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 5f castu\.b pc ++ *[0-9a-f]*: 5c 5c castu\.b r12 ++ *[0-9a-f]*: 5c 55 castu\.b r5 ++ *[0-9a-f]*: 5c 54 castu\.b r4 ++ *[0-9a-f]*: 5c 5e castu\.b lr ++ *[0-9a-f]*: 5c 57 castu\.b r7 ++ *[0-9a-f]*: 5c 5d castu\.b sp ++ *[0-9a-f]*: 5c 59 castu\.b r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 6f casts\.b pc ++ *[0-9a-f]*: 5c 6c casts\.b r12 ++ *[0-9a-f]*: 5c 65 casts\.b r5 ++ *[0-9a-f]*: 5c 64 casts\.b r4 ++ *[0-9a-f]*: 5c 6e casts\.b lr ++ *[0-9a-f]*: 5c 6b casts\.b r11 ++ *[0-9a-f]*: 5c 61 casts\.b r1 ++ *[0-9a-f]*: 5c 6a casts\.b r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 7f castu\.h pc ++ *[0-9a-f]*: 5c 7c castu\.h r12 ++ *[0-9a-f]*: 5c 75 castu\.h r5 ++ *[0-9a-f]*: 5c 74 castu\.h r4 ++ *[0-9a-f]*: 5c 7e castu\.h lr ++ *[0-9a-f]*: 5c 7a castu\.h r10 ++ *[0-9a-f]*: 5c 7b castu\.h r11 ++ *[0-9a-f]*: 5c 71 castu\.h r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 8f casts\.h pc ++ *[0-9a-f]*: 5c 8c casts\.h r12 ++ *[0-9a-f]*: 5c 85 casts\.h r5 ++ *[0-9a-f]*: 5c 84 casts\.h r4 ++ *[0-9a-f]*: 5c 8e casts\.h lr ++ *[0-9a-f]*: 5c 80 casts\.h r0 ++ *[0-9a-f]*: 5c 85 casts\.h r5 ++ *[0-9a-f]*: 5c 89 casts\.h r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 9f brev pc ++ *[0-9a-f]*: 5c 9c brev r12 ++ *[0-9a-f]*: 5c 95 brev r5 ++ *[0-9a-f]*: 5c 94 brev r4 ++ *[0-9a-f]*: 5c 9e brev lr ++ *[0-9a-f]*: 5c 95 brev r5 ++ *[0-9a-f]*: 5c 9a brev r10 ++ *[0-9a-f]*: 5c 98 brev r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c af swap\.h pc ++ *[0-9a-f]*: 5c ac swap\.h r12 ++ *[0-9a-f]*: 5c a5 swap\.h r5 ++ *[0-9a-f]*: 5c a4 swap\.h r4 ++ *[0-9a-f]*: 5c ae swap\.h lr ++ *[0-9a-f]*: 5c a7 swap\.h r7 ++ *[0-9a-f]*: 5c a0 swap\.h r0 ++ *[0-9a-f]*: 5c a8 swap\.h r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c bf swap\.b pc ++ *[0-9a-f]*: 5c bc swap\.b r12 ++ *[0-9a-f]*: 5c b5 swap\.b r5 ++ *[0-9a-f]*: 5c b4 swap\.b r4 ++ *[0-9a-f]*: 5c be swap\.b lr ++ *[0-9a-f]*: 5c ba swap\.b r10 ++ *[0-9a-f]*: 5c bc swap\.b r12 ++ *[0-9a-f]*: 5c b1 swap\.b r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c cf swap\.bh pc ++ *[0-9a-f]*: 5c cc swap\.bh r12 ++ *[0-9a-f]*: 5c c5 swap\.bh r5 ++ *[0-9a-f]*: 5c c4 swap\.bh r4 ++ *[0-9a-f]*: 5c ce swap\.bh lr ++ *[0-9a-f]*: 5c c9 swap\.bh r9 ++ *[0-9a-f]*: 5c c4 swap\.bh r4 ++ *[0-9a-f]*: 5c c1 swap\.bh r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c df com pc ++ *[0-9a-f]*: 5c dc com r12 ++ *[0-9a-f]*: 5c d5 com r5 ++ *[0-9a-f]*: 5c d4 com r4 ++ *[0-9a-f]*: 5c de com lr ++ *[0-9a-f]*: 5c d2 com r2 ++ *[0-9a-f]*: 5c d2 com r2 ++ *[0-9a-f]*: 5c d7 com r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c ef tnbz pc ++ *[0-9a-f]*: 5c ec tnbz r12 ++ *[0-9a-f]*: 5c e5 tnbz r5 ++ *[0-9a-f]*: 5c e4 tnbz r4 ++ *[0-9a-f]*: 5c ee tnbz lr ++ *[0-9a-f]*: 5c e8 tnbz r8 ++ *[0-9a-f]*: 5c ec tnbz r12 ++ *[0-9a-f]*: 5c ef tnbz pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c ff rol pc ++ *[0-9a-f]*: 5c fc rol r12 ++ *[0-9a-f]*: 5c f5 rol r5 ++ *[0-9a-f]*: 5c f4 rol r4 ++ *[0-9a-f]*: 5c fe rol lr ++ *[0-9a-f]*: 5c fa rol r10 ++ *[0-9a-f]*: 5c f9 rol r9 ++ *[0-9a-f]*: 5c f5 rol r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 0f ror pc ++ *[0-9a-f]*: 5d 0c ror r12 ++ *[0-9a-f]*: 5d 05 ror r5 ++ *[0-9a-f]*: 5d 04 ror r4 ++ *[0-9a-f]*: 5d 0e ror lr ++ *[0-9a-f]*: 5d 08 ror r8 ++ *[0-9a-f]*: 5d 04 ror r4 ++ *[0-9a-f]*: 5d 07 ror r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 1f icall pc ++ *[0-9a-f]*: 5d 1c icall r12 ++ *[0-9a-f]*: 5d 15 icall r5 ++ *[0-9a-f]*: 5d 14 icall r4 ++ *[0-9a-f]*: 5d 1e icall lr ++ *[0-9a-f]*: 5d 13 icall r3 ++ *[0-9a-f]*: 5d 11 icall r1 ++ *[0-9a-f]*: 5d 13 icall r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 2f mustr pc ++ *[0-9a-f]*: 5d 2c mustr r12 ++ *[0-9a-f]*: 5d 25 mustr r5 ++ *[0-9a-f]*: 5d 24 mustr r4 ++ *[0-9a-f]*: 5d 2e mustr lr ++ *[0-9a-f]*: 5d 21 mustr r1 ++ *[0-9a-f]*: 5d 24 mustr r4 ++ *[0-9a-f]*: 5d 2c mustr r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 3f musfr pc ++ *[0-9a-f]*: 5d 3c musfr r12 ++ *[0-9a-f]*: 5d 35 musfr r5 ++ *[0-9a-f]*: 5d 34 musfr r4 ++ *[0-9a-f]*: 5d 3e musfr lr ++ *[0-9a-f]*: 5d 3b musfr r11 ++ *[0-9a-f]*: 5d 3c musfr r12 ++ *[0-9a-f]*: 5d 32 musfr r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5e 0f reteq 1 ++ *[0-9a-f]*: 5e fc retal r12 ++ *[0-9a-f]*: 5e 85 retls r5 ++ *[0-9a-f]*: 5e 74 retpl r4 ++ *[0-9a-f]*: 5e 1e retne -1 ++ *[0-9a-f]*: 5e 90 retgt r0 ++ *[0-9a-f]*: 5e 9c retgt r12 ++ *[0-9a-f]*: 5e 4a retge r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5f 0f sreq pc ++ *[0-9a-f]*: 5f fc sral r12 ++ *[0-9a-f]*: 5f 85 srls r5 ++ *[0-9a-f]*: 5f 74 srpl r4 ++ *[0-9a-f]*: 5f 1e srne lr ++ *[0-9a-f]*: 5f 50 srlt r0 ++ *[0-9a-f]*: 5f fd sral sp ++ *[0-9a-f]*: 5f 49 srge r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 7e 0f ld\.w pc,pc\[0x0\] ++ *[0-9a-f]*: 79 fc ld\.w r12,r12\[0x7c\] ++ *[0-9a-f]*: 6b 05 ld\.w r5,r5\[0x40\] ++ *[0-9a-f]*: 68 f4 ld\.w r4,r4\[0x3c\] ++ *[0-9a-f]*: 7c 1e ld\.w lr,lr\[0x4\] ++ *[0-9a-f]*: 64 dd ld\.w sp,r2\[0x34\] ++ *[0-9a-f]*: 62 29 ld\.w r9,r1\[0x8\] ++ *[0-9a-f]*: 7a f5 ld\.w r5,sp\[0x3c\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 0f ld\.sh pc,pc\[0x0\] ++ *[0-9a-f]*: 98 7c ld\.sh r12,r12\[0xe\] ++ *[0-9a-f]*: 8a 45 ld\.sh r5,r5\[0x8\] ++ *[0-9a-f]*: 88 34 ld\.sh r4,r4\[0x6\] ++ *[0-9a-f]*: 9c 1e ld\.sh lr,lr\[0x2\] ++ *[0-9a-f]*: 84 44 ld\.sh r4,r2\[0x8\] ++ *[0-9a-f]*: 9c 5d ld\.sh sp,lr\[0xa\] ++ *[0-9a-f]*: 96 12 ld\.sh r2,r11\[0x2\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 8f ld\.uh pc,pc\[0x0\] ++ *[0-9a-f]*: 98 fc ld\.uh r12,r12\[0xe\] ++ *[0-9a-f]*: 8a c5 ld\.uh r5,r5\[0x8\] ++ *[0-9a-f]*: 88 b4 ld\.uh r4,r4\[0x6\] ++ *[0-9a-f]*: 9c 9e ld\.uh lr,lr\[0x2\] ++ *[0-9a-f]*: 80 da ld\.uh r10,r0\[0xa\] ++ *[0-9a-f]*: 96 c8 ld\.uh r8,r11\[0x8\] ++ *[0-9a-f]*: 84 ea ld\.uh r10,r2\[0xc\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9f 0f st\.w pc\[0x0\],pc ++ *[0-9a-f]*: 99 fc st\.w r12\[0x3c\],r12 ++ *[0-9a-f]*: 8b 85 st\.w r5\[0x20\],r5 ++ *[0-9a-f]*: 89 74 st\.w r4\[0x1c\],r4 ++ *[0-9a-f]*: 9d 1e st\.w lr\[0x4\],lr ++ *[0-9a-f]*: 8f bb st\.w r7\[0x2c\],r11 ++ *[0-9a-f]*: 85 66 st\.w r2\[0x18\],r6 ++ *[0-9a-f]*: 89 39 st\.w r4\[0xc\],r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 0f st\.h pc\[0x0\],pc ++ *[0-9a-f]*: b8 7c st\.h r12\[0xe\],r12 ++ *[0-9a-f]*: aa 45 st\.h r5\[0x8\],r5 ++ *[0-9a-f]*: a8 34 st\.h r4\[0x6\],r4 ++ *[0-9a-f]*: bc 1e st\.h lr\[0x2\],lr ++ *[0-9a-f]*: bc 5c st\.h lr\[0xa\],r12 ++ *[0-9a-f]*: ac 20 st\.h r6\[0x4\],r0 ++ *[0-9a-f]*: aa 6d st\.h r5\[0xc\],sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 8f st\.b pc\[0x0\],pc ++ *[0-9a-f]*: b8 fc st\.b r12\[0x7\],r12 ++ *[0-9a-f]*: aa c5 st\.b r5\[0x4\],r5 ++ *[0-9a-f]*: a8 b4 st\.b r4\[0x3\],r4 ++ *[0-9a-f]*: bc 9e st\.b lr\[0x1\],lr ++ *[0-9a-f]*: b8 e9 st\.b r12\[0x6\],r9 ++ *[0-9a-f]*: a4 be st\.b r2\[0x3\],lr ++ *[0-9a-f]*: a2 bb st\.b r1\[0x3\],r11 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 00 ld\.d r0,pc ++ *[0-9a-f]*: b9 0e ld\.d lr,r12 ++ *[0-9a-f]*: ab 08 ld\.d r8,r5 ++ *[0-9a-f]*: a9 06 ld\.d r6,r4 ++ *[0-9a-f]*: bd 02 ld\.d r2,lr ++ *[0-9a-f]*: af 0e ld\.d lr,r7 ++ *[0-9a-f]*: a9 04 ld\.d r4,r4 ++ *[0-9a-f]*: bf 0e ld\.d lr,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 01 ld\.d r0,pc\+\+ ++ *[0-9a-f]*: b9 0f ld\.d lr,r12\+\+ ++ *[0-9a-f]*: ab 09 ld\.d r8,r5\+\+ ++ *[0-9a-f]*: a9 07 ld\.d r6,r4\+\+ ++ *[0-9a-f]*: bd 03 ld\.d r2,lr\+\+ ++ *[0-9a-f]*: ab 0f ld\.d lr,r5\+\+ ++ *[0-9a-f]*: b7 0d ld\.d r12,r11\+\+ ++ *[0-9a-f]*: b9 03 ld\.d r2,r12\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 10 ld\.d r0,--pc ++ *[0-9a-f]*: b9 1e ld\.d lr,--r12 ++ *[0-9a-f]*: ab 18 ld\.d r8,--r5 ++ *[0-9a-f]*: a9 16 ld\.d r6,--r4 ++ *[0-9a-f]*: bd 12 ld\.d r2,--lr ++ *[0-9a-f]*: a1 18 ld\.d r8,--r0 ++ *[0-9a-f]*: bf 1a ld\.d r10,--pc ++ *[0-9a-f]*: a9 12 ld\.d r2,--r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 11 st\.d pc,r0 ++ *[0-9a-f]*: b9 1f st\.d r12,lr ++ *[0-9a-f]*: ab 19 st\.d r5,r8 ++ *[0-9a-f]*: a9 17 st\.d r4,r6 ++ *[0-9a-f]*: bd 13 st\.d lr,r2 ++ *[0-9a-f]*: a1 1d st\.d r0,r12 ++ *[0-9a-f]*: bb 15 st\.d sp,r4 ++ *[0-9a-f]*: b9 1d st\.d r12,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 20 st\.d pc\+\+,r0 ++ *[0-9a-f]*: b9 2e st\.d r12\+\+,lr ++ *[0-9a-f]*: ab 28 st\.d r5\+\+,r8 ++ *[0-9a-f]*: a9 26 st\.d r4\+\+,r6 ++ *[0-9a-f]*: bd 22 st\.d lr\+\+,r2 ++ *[0-9a-f]*: bb 26 st\.d sp\+\+,r6 ++ *[0-9a-f]*: b5 26 st\.d r10\+\+,r6 ++ *[0-9a-f]*: af 22 st\.d r7\+\+,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 21 st\.d --pc,r0 ++ *[0-9a-f]*: b9 2f st\.d --r12,lr ++ *[0-9a-f]*: ab 29 st\.d --r5,r8 ++ *[0-9a-f]*: a9 27 st\.d --r4,r6 ++ *[0-9a-f]*: bd 23 st\.d --lr,r2 ++ *[0-9a-f]*: a7 27 st\.d --r3,r6 ++ *[0-9a-f]*: bd 23 st\.d --lr,r2 ++ *[0-9a-f]*: a1 25 st\.d --r0,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 3f mul pc,pc ++ *[0-9a-f]*: b9 3c mul r12,r12 ++ *[0-9a-f]*: ab 35 mul r5,r5 ++ *[0-9a-f]*: a9 34 mul r4,r4 ++ *[0-9a-f]*: bd 3e mul lr,lr ++ *[0-9a-f]*: bd 3a mul r10,lr ++ *[0-9a-f]*: b1 30 mul r0,r8 ++ *[0-9a-f]*: ab 38 mul r8,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 4f asr pc,0x0 ++ *[0-9a-f]*: bf 5c asr r12,0x1f ++ *[0-9a-f]*: b1 45 asr r5,0x10 ++ *[0-9a-f]*: af 54 asr r4,0xf ++ *[0-9a-f]*: a1 5e asr lr,0x1 ++ *[0-9a-f]*: b7 56 asr r6,0x17 ++ *[0-9a-f]*: b3 46 asr r6,0x12 ++ *[0-9a-f]*: a9 45 asr r5,0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 6f lsl pc,0x0 ++ *[0-9a-f]*: bf 7c lsl r12,0x1f ++ *[0-9a-f]*: b1 65 lsl r5,0x10 ++ *[0-9a-f]*: af 74 lsl r4,0xf ++ *[0-9a-f]*: a1 7e lsl lr,0x1 ++ *[0-9a-f]*: ad 7c lsl r12,0xd ++ *[0-9a-f]*: b1 66 lsl r6,0x10 ++ *[0-9a-f]*: b9 71 lsl r1,0x19 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 8f lsr pc,0x0 ++ *[0-9a-f]*: bf 9c lsr r12,0x1f ++ *[0-9a-f]*: b1 85 lsr r5,0x10 ++ *[0-9a-f]*: af 94 lsr r4,0xf ++ *[0-9a-f]*: a1 9e lsr lr,0x1 ++ *[0-9a-f]*: a1 90 lsr r0,0x1 ++ *[0-9a-f]*: ab 88 lsr r8,0xa ++ *[0-9a-f]*: bb 87 lsr r7,0x1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 af sbr pc,0x0 ++ *[0-9a-f]*: bf bc sbr r12,0x1f ++ *[0-9a-f]*: b1 a5 sbr r5,0x10 ++ *[0-9a-f]*: af b4 sbr r4,0xf ++ *[0-9a-f]*: a1 be sbr lr,0x1 ++ *[0-9a-f]*: bf b8 sbr r8,0x1f ++ *[0-9a-f]*: b7 a6 sbr r6,0x16 ++ *[0-9a-f]*: b7 b1 sbr r1,0x17 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 cf cbr pc,0x0 ++ *[0-9a-f]*: bf dc cbr r12,0x1f ++ *[0-9a-f]*: b1 c5 cbr r5,0x10 ++ *[0-9a-f]*: af d4 cbr r4,0xf ++ *[0-9a-f]*: a1 de cbr lr,0x1 ++ *[0-9a-f]*: ab cc cbr r12,0xa ++ *[0-9a-f]*: b7 c7 cbr r7,0x16 ++ *[0-9a-f]*: a9 d8 cbr r8,0x9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 00 breq [0-9a-f]* <.*> ++ *[0-9a-f]*: cf f7 brpl [0-9a-f]* <.*> ++ *[0-9a-f]*: c8 04 brge [0-9a-f]* <.*> ++ *[0-9a-f]*: c7 f3 brcs [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 11 brne [0-9a-f]* <.*> ++ *[0-9a-f]*: c7 33 brcs [0-9a-f]* <.*> ++ *[0-9a-f]*: cf 70 breq [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 60 breq [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 08 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: cf fb rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 0a rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: cf f9 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 18 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c1 fa rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 78 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: cf ea rjmp [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 0c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf ff rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 0e rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf fd rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 1c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c6 cc rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf 7e rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c1 ae rcall [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d0 00 acall 0x0 ++ *[0-9a-f]*: df f0 acall 0x3fc ++ *[0-9a-f]*: d8 00 acall 0x200 ++ *[0-9a-f]*: d7 f0 acall 0x1fc ++ *[0-9a-f]*: d0 10 acall 0x4 ++ *[0-9a-f]*: d5 90 acall 0x164 ++ *[0-9a-f]*: d4 c0 acall 0x130 ++ *[0-9a-f]*: d2 b0 acall 0xac ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d8 02 popm pc ++ *[0-9a-f]*: dd fa popm r0-r11,pc,r12=-1 ++ *[0-9a-f]*: d4 02 popm lr ++ *[0-9a-f]*: db fa popm r0-r11,pc,r12=1 ++ *[0-9a-f]*: d0 12 popm r0-r3 ++ *[0-9a-f]*: d8 e2 popm r4-r10,pc ++ *[0-9a-f]*: d9 1a popm r0-r3,r11,pc,r12=0 ++ *[0-9a-f]*: d7 b2 popm r0-r7,r10-r12,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d8 01 pushm pc ++ *[0-9a-f]*: df f1 pushm r0-r12,lr-pc ++ *[0-9a-f]*: d8 01 pushm pc ++ *[0-9a-f]*: d7 f1 pushm r0-r12,lr ++ *[0-9a-f]*: d0 11 pushm r0-r3 ++ *[0-9a-f]*: dc c1 pushm r8-r10,lr-pc ++ *[0-9a-f]*: d0 91 pushm r0-r3,r10 ++ *[0-9a-f]*: d2 41 pushm r8-r9,r12 ++ ++[0-9a-f]* : ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++ ++[0-9a-f]* : ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d0 03 csrfcz 0x0 ++ *[0-9a-f]*: d1 f3 csrfcz 0x1f ++ *[0-9a-f]*: d1 03 csrfcz 0x10 ++ *[0-9a-f]*: d0 f3 csrfcz 0xf ++ *[0-9a-f]*: d0 13 csrfcz 0x1 ++ *[0-9a-f]*: d0 53 csrfcz 0x5 ++ *[0-9a-f]*: d0 d3 csrfcz 0xd ++ *[0-9a-f]*: d1 73 csrfcz 0x17 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d2 03 ssrf 0x0 ++ *[0-9a-f]*: d3 f3 ssrf 0x1f ++ *[0-9a-f]*: d3 03 ssrf 0x10 ++ *[0-9a-f]*: d2 f3 ssrf 0xf ++ *[0-9a-f]*: d2 13 ssrf 0x1 ++ *[0-9a-f]*: d3 d3 ssrf 0x1d ++ *[0-9a-f]*: d2 d3 ssrf 0xd ++ *[0-9a-f]*: d2 d3 ssrf 0xd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d4 03 csrf 0x0 ++ *[0-9a-f]*: d5 f3 csrf 0x1f ++ *[0-9a-f]*: d5 03 csrf 0x10 ++ *[0-9a-f]*: d4 f3 csrf 0xf ++ *[0-9a-f]*: d4 13 csrf 0x1 ++ *[0-9a-f]*: d4 a3 csrf 0xa ++ *[0-9a-f]*: d4 f3 csrf 0xf ++ *[0-9a-f]*: d4 b3 csrf 0xb ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 03 rete ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 13 rets ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 23 retd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 33 retj ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 43 tlbr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 53 tlbs ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 63 tlbw ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 73 breakpoint ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 83 incjosp 1 ++ *[0-9a-f]*: d6 93 incjosp 2 ++ *[0-9a-f]*: d6 a3 incjosp 3 ++ *[0-9a-f]*: d6 b3 incjosp 4 ++ *[0-9a-f]*: d6 c3 incjosp -4 ++ *[0-9a-f]*: d6 d3 incjosp -3 ++ *[0-9a-f]*: d6 e3 incjosp -2 ++ *[0-9a-f]*: d6 f3 incjosp -1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 13 popjc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 23 pushjc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 00 0f add pc,pc,pc ++ *[0-9a-f]*: f8 0c 00 3c add r12,r12,r12<<0x3 ++ *[0-9a-f]*: ea 05 00 25 add r5,r5,r5<<0x2 ++ *[0-9a-f]*: e8 04 00 14 add r4,r4,r4<<0x1 ++ *[0-9a-f]*: fc 0e 00 1e add lr,lr,lr<<0x1 ++ *[0-9a-f]*: f8 00 00 10 add r0,r12,r0<<0x1 ++ *[0-9a-f]*: f8 04 00 09 add r9,r12,r4 ++ *[0-9a-f]*: f8 07 00 2c add r12,r12,r7<<0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 0f sub pc,pc,pc ++ *[0-9a-f]*: f8 0c 01 3c sub r12,r12,r12<<0x3 ++ *[0-9a-f]*: ea 05 01 25 sub r5,r5,r5<<0x2 ++ *[0-9a-f]*: e8 04 01 14 sub r4,r4,r4<<0x1 ++ *[0-9a-f]*: fc 0e 01 1e sub lr,lr,lr<<0x1 ++ *[0-9a-f]*: e6 04 01 0d sub sp,r3,r4 ++ *[0-9a-f]*: ee 03 01 03 sub r3,r7,r3 ++ *[0-9a-f]*: f4 0d 01 1d sub sp,r10,sp<<0x1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0d 0f divu pc,pc,pc ++ *[0-9a-f]*: f8 0c 0d 0c divu r12,r12,r12 ++ *[0-9a-f]*: ea 05 0d 05 divu r5,r5,r5 ++ *[0-9a-f]*: e8 04 0d 04 divu r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0d 0e divu lr,lr,lr ++ *[0-9a-f]*: e8 0f 0d 0d divu sp,r4,pc ++ *[0-9a-f]*: ea 0d 0d 05 divu r5,r5,sp ++ *[0-9a-f]*: fa 00 0d 0a divu r10,sp,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0e 0f addhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 0e 3c addhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 0e 35 addhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 0e 04 addhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 0e 3e addhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: e0 03 0e 00 addhh\.w r0,r0:b,r3:b ++ *[0-9a-f]*: f8 07 0e 2e addhh\.w lr,r12:t,r7:b ++ *[0-9a-f]*: f4 02 0e 23 addhh\.w r3,r10:t,r2:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0f 0f subhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 0f 3c subhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 0f 35 subhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 0f 04 subhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 0f 3e subhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: e2 07 0f 2a subhh\.w r10,r1:t,r7:b ++ *[0-9a-f]*: f4 0e 0f 3f subhh\.w pc,r10:t,lr:t ++ *[0-9a-f]*: e0 0c 0f 23 subhh\.w r3,r0:t,r12:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 00 4f adc pc,pc,pc ++ *[0-9a-f]*: f8 0c 00 4c adc r12,r12,r12 ++ *[0-9a-f]*: ea 05 00 45 adc r5,r5,r5 ++ *[0-9a-f]*: e8 04 00 44 adc r4,r4,r4 ++ *[0-9a-f]*: fc 0e 00 4e adc lr,lr,lr ++ *[0-9a-f]*: e0 07 00 44 adc r4,r0,r7 ++ *[0-9a-f]*: e8 03 00 4d adc sp,r4,r3 ++ *[0-9a-f]*: f8 00 00 42 adc r2,r12,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 4f sbc pc,pc,pc ++ *[0-9a-f]*: f8 0c 01 4c sbc r12,r12,r12 ++ *[0-9a-f]*: ea 05 01 45 sbc r5,r5,r5 ++ *[0-9a-f]*: e8 04 01 44 sbc r4,r4,r4 ++ *[0-9a-f]*: fc 0e 01 4e sbc lr,lr,lr ++ *[0-9a-f]*: ee 09 01 46 sbc r6,r7,r9 ++ *[0-9a-f]*: f0 05 01 40 sbc r0,r8,r5 ++ *[0-9a-f]*: e0 04 01 41 sbc r1,r0,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 4f mul pc,pc,pc ++ *[0-9a-f]*: f8 0c 02 4c mul r12,r12,r12 ++ *[0-9a-f]*: ea 05 02 45 mul r5,r5,r5 ++ *[0-9a-f]*: e8 04 02 44 mul r4,r4,r4 ++ *[0-9a-f]*: fc 0e 02 4e mul lr,lr,lr ++ *[0-9a-f]*: e0 00 02 4f mul pc,r0,r0 ++ *[0-9a-f]*: fe 0e 02 48 mul r8,pc,lr ++ *[0-9a-f]*: f8 0f 02 44 mul r4,r12,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 03 4f mac pc,pc,pc ++ *[0-9a-f]*: f8 0c 03 4c mac r12,r12,r12 ++ *[0-9a-f]*: ea 05 03 45 mac r5,r5,r5 ++ *[0-9a-f]*: e8 04 03 44 mac r4,r4,r4 ++ *[0-9a-f]*: fc 0e 03 4e mac lr,lr,lr ++ *[0-9a-f]*: e8 00 03 4a mac r10,r4,r0 ++ *[0-9a-f]*: fc 00 03 47 mac r7,lr,r0 ++ *[0-9a-f]*: f2 0c 03 42 mac r2,r9,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 04 4f muls\.d pc,pc,pc ++ *[0-9a-f]*: f8 0c 04 4c muls\.d r12,r12,r12 ++ *[0-9a-f]*: ea 05 04 45 muls\.d r5,r5,r5 ++ *[0-9a-f]*: e8 04 04 44 muls\.d r4,r4,r4 ++ *[0-9a-f]*: fc 0e 04 4e muls\.d lr,lr,lr ++ *[0-9a-f]*: f0 0e 04 42 muls\.d r2,r8,lr ++ *[0-9a-f]*: e0 0b 04 44 muls\.d r4,r0,r11 ++ *[0-9a-f]*: fc 06 04 45 muls\.d r5,lr,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 05 40 macs\.d r0,pc,pc ++ *[0-9a-f]*: f8 0c 05 4e macs\.d lr,r12,r12 ++ *[0-9a-f]*: ea 05 05 48 macs\.d r8,r5,r5 ++ *[0-9a-f]*: e8 04 05 46 macs\.d r6,r4,r4 ++ *[0-9a-f]*: fc 0e 05 42 macs\.d r2,lr,lr ++ *[0-9a-f]*: e2 09 05 48 macs\.d r8,r1,r9 ++ *[0-9a-f]*: f0 08 05 4e macs\.d lr,r8,r8 ++ *[0-9a-f]*: e6 0c 05 44 macs\.d r4,r3,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 06 40 mulu\.d r0,pc,pc ++ *[0-9a-f]*: f8 0c 06 4e mulu\.d lr,r12,r12 ++ *[0-9a-f]*: ea 05 06 48 mulu\.d r8,r5,r5 ++ *[0-9a-f]*: e8 04 06 46 mulu\.d r6,r4,r4 ++ *[0-9a-f]*: fc 0e 06 42 mulu\.d r2,lr,lr ++ *[0-9a-f]*: ea 00 06 46 mulu\.d r6,r5,r0 ++ *[0-9a-f]*: ec 01 06 44 mulu\.d r4,r6,r1 ++ *[0-9a-f]*: f0 02 06 48 mulu\.d r8,r8,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 07 40 macu\.d r0,pc,pc ++ *[0-9a-f]*: f8 0c 07 4e macu\.d lr,r12,r12 ++ *[0-9a-f]*: ea 05 07 48 macu\.d r8,r5,r5 ++ *[0-9a-f]*: e8 04 07 46 macu\.d r6,r4,r4 ++ *[0-9a-f]*: fc 0e 07 42 macu\.d r2,lr,lr ++ *[0-9a-f]*: fa 0b 07 46 macu\.d r6,sp,r11 ++ *[0-9a-f]*: e8 08 07 42 macu\.d r2,r4,r8 ++ *[0-9a-f]*: f4 09 07 46 macu\.d r6,r10,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 08 4f asr pc,pc,pc ++ *[0-9a-f]*: f8 0c 08 4c asr r12,r12,r12 ++ *[0-9a-f]*: ea 05 08 45 asr r5,r5,r5 ++ *[0-9a-f]*: e8 04 08 44 asr r4,r4,r4 ++ *[0-9a-f]*: fc 0e 08 4e asr lr,lr,lr ++ *[0-9a-f]*: ec 0f 08 4f asr pc,r6,pc ++ *[0-9a-f]*: ec 0c 08 40 asr r0,r6,r12 ++ *[0-9a-f]*: fa 00 08 44 asr r4,sp,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 09 4f lsl pc,pc,pc ++ *[0-9a-f]*: f8 0c 09 4c lsl r12,r12,r12 ++ *[0-9a-f]*: ea 05 09 45 lsl r5,r5,r5 ++ *[0-9a-f]*: e8 04 09 44 lsl r4,r4,r4 ++ *[0-9a-f]*: fc 0e 09 4e lsl lr,lr,lr ++ *[0-9a-f]*: ea 0e 09 4e lsl lr,r5,lr ++ *[0-9a-f]*: fe 03 09 45 lsl r5,pc,r3 ++ *[0-9a-f]*: fe 09 09 41 lsl r1,pc,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0a 4f lsr pc,pc,pc ++ *[0-9a-f]*: f8 0c 0a 4c lsr r12,r12,r12 ++ *[0-9a-f]*: ea 05 0a 45 lsr r5,r5,r5 ++ *[0-9a-f]*: e8 04 0a 44 lsr r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0a 4e lsr lr,lr,lr ++ *[0-9a-f]*: e8 01 0a 42 lsr r2,r4,r1 ++ *[0-9a-f]*: e2 06 0a 45 lsr r5,r1,r6 ++ *[0-9a-f]*: ec 07 0a 4d lsr sp,r6,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0b 4f xchg pc,pc,pc ++ *[0-9a-f]*: f8 0c 0b 4c xchg r12,r12,r12 ++ *[0-9a-f]*: ea 05 0b 45 xchg r5,r5,r5 ++ *[0-9a-f]*: e8 04 0b 44 xchg r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0b 4e xchg lr,lr,lr ++ *[0-9a-f]*: e8 0d 0b 4e xchg lr,r4,sp ++ *[0-9a-f]*: ea 0c 0b 41 xchg r1,r5,r12 ++ *[0-9a-f]*: f8 00 0b 4e xchg lr,r12,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0c 4f max pc,pc,pc ++ *[0-9a-f]*: f8 0c 0c 4c max r12,r12,r12 ++ *[0-9a-f]*: ea 05 0c 45 max r5,r5,r5 ++ *[0-9a-f]*: e8 04 0c 44 max r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0c 4e max lr,lr,lr ++ *[0-9a-f]*: e4 0d 0c 4e max lr,r2,sp ++ *[0-9a-f]*: f4 09 0c 44 max r4,r10,r9 ++ *[0-9a-f]*: f2 0e 0c 4e max lr,r9,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0d 4f min pc,pc,pc ++ *[0-9a-f]*: f8 0c 0d 4c min r12,r12,r12 ++ *[0-9a-f]*: ea 05 0d 45 min r5,r5,r5 ++ *[0-9a-f]*: e8 04 0d 44 min r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0d 4e min lr,lr,lr ++ *[0-9a-f]*: ee 08 0d 49 min r9,r7,r8 ++ *[0-9a-f]*: ea 05 0d 4d min sp,r5,r5 ++ *[0-9a-f]*: e2 04 0d 44 min r4,r1,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0e 4f addabs pc,pc,pc ++ *[0-9a-f]*: f8 0c 0e 4c addabs r12,r12,r12 ++ *[0-9a-f]*: ea 05 0e 45 addabs r5,r5,r5 ++ *[0-9a-f]*: e8 04 0e 44 addabs r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0e 4e addabs lr,lr,lr ++ *[0-9a-f]*: f4 00 0e 47 addabs r7,r10,r0 ++ *[0-9a-f]*: f2 07 0e 49 addabs r9,r9,r7 ++ *[0-9a-f]*: f0 0c 0e 42 addabs r2,r8,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 8f mulnhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 01 bc mulnhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 01 b5 mulnhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 01 84 mulnhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 01 be mulnhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: fa 09 01 ab mulnhh\.w r11,sp:t,r9:b ++ *[0-9a-f]*: e8 0e 01 9d mulnhh\.w sp,r4:b,lr:t ++ *[0-9a-f]*: e4 0b 01 ac mulnhh\.w r12,r2:t,r11:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 80 mulnwh\.d r0,pc,pc:b ++ *[0-9a-f]*: f8 0c 02 9e mulnwh\.d lr,r12,r12:t ++ *[0-9a-f]*: ea 05 02 98 mulnwh\.d r8,r5,r5:t ++ *[0-9a-f]*: e8 04 02 86 mulnwh\.d r6,r4,r4:b ++ *[0-9a-f]*: fc 0e 02 92 mulnwh\.d r2,lr,lr:t ++ *[0-9a-f]*: e6 02 02 9e mulnwh\.d lr,r3,r2:t ++ *[0-9a-f]*: ea 09 02 84 mulnwh\.d r4,r5,r9:b ++ *[0-9a-f]*: e8 04 02 9c mulnwh\.d r12,r4,r4:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 04 8f machh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 04 bc machh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 04 b5 machh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 04 84 machh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 04 be machh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: ea 01 04 9e machh\.w lr,r5:b,r1:t ++ *[0-9a-f]*: ec 07 04 89 machh\.w r9,r6:b,r7:b ++ *[0-9a-f]*: fc 0c 04 a5 machh\.w r5,lr:t,r12:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 05 80 machh\.d r0,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 05 be machh\.d lr,r12:t,r12:t ++ *[0-9a-f]*: ea 05 05 b8 machh\.d r8,r5:t,r5:t ++ *[0-9a-f]*: e8 04 05 86 machh\.d r6,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 05 b2 machh\.d r2,lr:t,lr:t ++ *[0-9a-f]*: e0 08 05 8a machh\.d r10,r0:b,r8:b ++ *[0-9a-f]*: e8 05 05 9e machh\.d lr,r4:b,r5:t ++ *[0-9a-f]*: e0 04 05 98 machh\.d r8,r0:b,r4:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 06 8f macsathh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 06 bc macsathh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 06 b5 macsathh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 06 84 macsathh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 06 be macsathh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: ee 0f 06 b7 macsathh\.w r7,r7:t,pc:t ++ *[0-9a-f]*: e4 04 06 a4 macsathh\.w r4,r2:t,r4:b ++ *[0-9a-f]*: f0 03 06 b4 macsathh\.w r4,r8:t,r3:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 07 8f mulhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 07 bc mulhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 07 b5 mulhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 07 84 mulhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 07 be mulhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: e8 09 07 a7 mulhh\.w r7,r4:t,r9:b ++ *[0-9a-f]*: e6 07 07 bf mulhh\.w pc,r3:t,r7:t ++ *[0-9a-f]*: e8 09 07 9f mulhh\.w pc,r4:b,r9:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 08 8f mulsathh\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 08 bc mulsathh\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 08 b5 mulsathh\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 08 84 mulsathh\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 08 be mulsathh\.h lr,lr:t,lr:t ++ *[0-9a-f]*: e2 0d 08 83 mulsathh\.h r3,r1:b,sp:b ++ *[0-9a-f]*: fc 0b 08 ab mulsathh\.h r11,lr:t,r11:b ++ *[0-9a-f]*: f0 0b 08 98 mulsathh\.h r8,r8:b,r11:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 09 8f mulsathh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 09 bc mulsathh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 09 b5 mulsathh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 09 84 mulsathh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 09 be mulsathh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: f6 06 09 ae mulsathh\.w lr,r11:t,r6:b ++ *[0-9a-f]*: ec 07 09 96 mulsathh\.w r6,r6:b,r7:t ++ *[0-9a-f]*: e4 03 09 8a mulsathh\.w r10,r2:b,r3:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0a 8f mulsatrndhh\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 0a bc mulsatrndhh\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 0a b5 mulsatrndhh\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 0a 84 mulsatrndhh\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 0a be mulsatrndhh\.h lr,lr:t,lr:t ++ *[0-9a-f]*: ec 09 0a 8b mulsatrndhh\.h r11,r6:b,r9:b ++ *[0-9a-f]*: e6 08 0a 9b mulsatrndhh\.h r11,r3:b,r8:t ++ *[0-9a-f]*: fa 07 0a b5 mulsatrndhh\.h r5,sp:t,r7:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0b 8f mulsatrndwh\.w pc,pc,pc:b ++ *[0-9a-f]*: f8 0c 0b 9c mulsatrndwh\.w r12,r12,r12:t ++ *[0-9a-f]*: ea 05 0b 95 mulsatrndwh\.w r5,r5,r5:t ++ *[0-9a-f]*: e8 04 0b 84 mulsatrndwh\.w r4,r4,r4:b ++ *[0-9a-f]*: fc 0e 0b 9e mulsatrndwh\.w lr,lr,lr:t ++ *[0-9a-f]*: f8 00 0b 85 mulsatrndwh\.w r5,r12,r0:b ++ *[0-9a-f]*: f4 0f 0b 87 mulsatrndwh\.w r7,r10,pc:b ++ *[0-9a-f]*: f0 05 0b 9a mulsatrndwh\.w r10,r8,r5:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0c 80 macwh\.d r0,pc,pc:b ++ *[0-9a-f]*: f8 0c 0c 9e macwh\.d lr,r12,r12:t ++ *[0-9a-f]*: ea 05 0c 98 macwh\.d r8,r5,r5:t ++ *[0-9a-f]*: e8 04 0c 86 macwh\.d r6,r4,r4:b ++ *[0-9a-f]*: fc 0e 0c 92 macwh\.d r2,lr,lr:t ++ *[0-9a-f]*: f4 0c 0c 94 macwh\.d r4,r10,r12:t ++ *[0-9a-f]*: ee 0d 0c 84 macwh\.d r4,r7,sp:b ++ *[0-9a-f]*: f2 0b 0c 8e macwh\.d lr,r9,r11:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0d 80 mulwh\.d r0,pc,pc:b ++ *[0-9a-f]*: f8 0c 0d 9e mulwh\.d lr,r12,r12:t ++ *[0-9a-f]*: ea 05 0d 98 mulwh\.d r8,r5,r5:t ++ *[0-9a-f]*: e8 04 0d 86 mulwh\.d r6,r4,r4:b ++ *[0-9a-f]*: fc 0e 0d 92 mulwh\.d r2,lr,lr:t ++ *[0-9a-f]*: ea 01 0d 8c mulwh\.d r12,r5,r1:b ++ *[0-9a-f]*: e2 03 0d 90 mulwh\.d r0,r1,r3:t ++ *[0-9a-f]*: f2 02 0d 80 mulwh\.d r0,r9,r2:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0e 8f mulsatwh\.w pc,pc,pc:b ++ *[0-9a-f]*: f8 0c 0e 9c mulsatwh\.w r12,r12,r12:t ++ *[0-9a-f]*: ea 05 0e 95 mulsatwh\.w r5,r5,r5:t ++ *[0-9a-f]*: e8 04 0e 84 mulsatwh\.w r4,r4,r4:b ++ *[0-9a-f]*: fc 0e 0e 9e mulsatwh\.w lr,lr,lr:t ++ *[0-9a-f]*: fe 0a 0e 9b mulsatwh\.w r11,pc,r10:t ++ *[0-9a-f]*: f8 09 0e 9d mulsatwh\.w sp,r12,r9:t ++ *[0-9a-f]*: e6 02 0e 90 mulsatwh\.w r0,r3,r2:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0f 8f ld\.w pc,pc\[pc:b<<2\] ++ *[0-9a-f]*: f8 0c 0f bc ld\.w r12,r12\[r12:t<<2\] ++ *[0-9a-f]*: ea 05 0f a5 ld\.w r5,r5\[r5:u<<2\] ++ *[0-9a-f]*: e8 04 0f 94 ld\.w r4,r4\[r4:l<<2\] ++ *[0-9a-f]*: fc 0e 0f 9e ld\.w lr,lr\[lr:l<<2\] ++ *[0-9a-f]*: f4 06 0f 99 ld\.w r9,r10\[r6:l<<2\] ++ *[0-9a-f]*: f4 0a 0f 82 ld\.w r2,r10\[r10:b<<2\] ++ *[0-9a-f]*: ea 0f 0f 8b ld\.w r11,r5\[pc:b<<2\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 00 cf satadd\.w pc,pc,pc ++ *[0-9a-f]*: f8 0c 00 cc satadd\.w r12,r12,r12 ++ *[0-9a-f]*: ea 05 00 c5 satadd\.w r5,r5,r5 ++ *[0-9a-f]*: e8 04 00 c4 satadd\.w r4,r4,r4 ++ *[0-9a-f]*: fc 0e 00 ce satadd\.w lr,lr,lr ++ *[0-9a-f]*: f0 0b 00 c4 satadd\.w r4,r8,r11 ++ *[0-9a-f]*: f8 06 00 c3 satadd\.w r3,r12,r6 ++ *[0-9a-f]*: fc 09 00 c3 satadd\.w r3,lr,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 cf satsub\.w pc,pc,pc ++ *[0-9a-f]*: f8 0c 01 cc satsub\.w r12,r12,r12 ++ *[0-9a-f]*: ea 05 01 c5 satsub\.w r5,r5,r5 ++ *[0-9a-f]*: e8 04 01 c4 satsub\.w r4,r4,r4 ++ *[0-9a-f]*: fc 0e 01 ce satsub\.w lr,lr,lr ++ *[0-9a-f]*: fa 00 01 c8 satsub\.w r8,sp,r0 ++ *[0-9a-f]*: f0 04 01 c9 satsub\.w r9,r8,r4 ++ *[0-9a-f]*: fc 02 01 cf satsub\.w pc,lr,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 cf satadd\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 02 cc satadd\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 02 c5 satadd\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 02 c4 satadd\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 02 ce satadd\.h lr,lr,lr ++ *[0-9a-f]*: e6 09 02 c7 satadd\.h r7,r3,r9 ++ *[0-9a-f]*: e0 02 02 c1 satadd\.h r1,r0,r2 ++ *[0-9a-f]*: e8 0e 02 c1 satadd\.h r1,r4,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 03 cf satsub\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 03 cc satsub\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 03 c5 satsub\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 03 c4 satsub\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 03 ce satsub\.h lr,lr,lr ++ *[0-9a-f]*: fc 03 03 ce satsub\.h lr,lr,r3 ++ *[0-9a-f]*: ec 05 03 cb satsub\.h r11,r6,r5 ++ *[0-9a-f]*: fa 00 03 c3 satsub\.h r3,sp,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 10 00 mul pc,pc,0 ++ *[0-9a-f]*: f8 0c 10 ff mul r12,r12,-1 ++ *[0-9a-f]*: ea 05 10 80 mul r5,r5,-128 ++ *[0-9a-f]*: e8 04 10 7f mul r4,r4,127 ++ *[0-9a-f]*: fc 0e 10 01 mul lr,lr,1 ++ *[0-9a-f]*: e4 0c 10 f9 mul r12,r2,-7 ++ *[0-9a-f]*: fe 01 10 5f mul r1,pc,95 ++ *[0-9a-f]*: ec 04 10 13 mul r4,r6,19 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 11 00 rsub pc,pc,0 ++ *[0-9a-f]*: f8 0c 11 ff rsub r12,r12,-1 ++ *[0-9a-f]*: ea 05 11 80 rsub r5,r5,-128 ++ *[0-9a-f]*: e8 04 11 7f rsub r4,r4,127 ++ *[0-9a-f]*: fc 0e 11 01 rsub lr,lr,1 ++ *[0-9a-f]*: fc 09 11 60 rsub r9,lr,96 ++ *[0-9a-f]*: e2 0b 11 38 rsub r11,r1,56 ++ *[0-9a-f]*: ee 00 11 a9 rsub r0,r7,-87 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 12 00 clz pc,pc ++ *[0-9a-f]*: f8 0c 12 00 clz r12,r12 ++ *[0-9a-f]*: ea 05 12 00 clz r5,r5 ++ *[0-9a-f]*: e8 04 12 00 clz r4,r4 ++ *[0-9a-f]*: fc 0e 12 00 clz lr,lr ++ *[0-9a-f]*: e6 02 12 00 clz r2,r3 ++ *[0-9a-f]*: f6 05 12 00 clz r5,r11 ++ *[0-9a-f]*: e6 0f 12 00 clz pc,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 13 00 cpc pc,pc ++ *[0-9a-f]*: f8 0c 13 00 cpc r12,r12 ++ *[0-9a-f]*: ea 05 13 00 cpc r5,r5 ++ *[0-9a-f]*: e8 04 13 00 cpc r4,r4 ++ *[0-9a-f]*: fc 0e 13 00 cpc lr,lr ++ *[0-9a-f]*: e8 0f 13 00 cpc pc,r4 ++ *[0-9a-f]*: f2 05 13 00 cpc r5,r9 ++ *[0-9a-f]*: ee 06 13 00 cpc r6,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 14 00 asr pc,pc,0x0 ++ *[0-9a-f]*: f8 0c 14 1f asr r12,r12,0x1f ++ *[0-9a-f]*: ea 05 14 10 asr r5,r5,0x10 ++ *[0-9a-f]*: e8 04 14 0f asr r4,r4,0xf ++ *[0-9a-f]*: fc 0e 14 01 asr lr,lr,0x1 ++ *[0-9a-f]*: f6 04 14 13 asr r4,r11,0x13 ++ *[0-9a-f]*: fe 0d 14 1a asr sp,pc,0x1a ++ *[0-9a-f]*: fa 0b 14 08 asr r11,sp,0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 15 00 lsl pc,pc,0x0 ++ *[0-9a-f]*: f8 0c 15 1f lsl r12,r12,0x1f ++ *[0-9a-f]*: ea 05 15 10 lsl r5,r5,0x10 ++ *[0-9a-f]*: e8 04 15 0f lsl r4,r4,0xf ++ *[0-9a-f]*: fc 0e 15 01 lsl lr,lr,0x1 ++ *[0-9a-f]*: f4 08 15 11 lsl r8,r10,0x11 ++ *[0-9a-f]*: fc 02 15 03 lsl r2,lr,0x3 ++ *[0-9a-f]*: f6 0e 15 0e lsl lr,r11,0xe ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 16 00 lsr pc,pc,0x0 ++ *[0-9a-f]*: f8 0c 16 1f lsr r12,r12,0x1f ++ *[0-9a-f]*: ea 05 16 10 lsr r5,r5,0x10 ++ *[0-9a-f]*: e8 04 16 0f lsr r4,r4,0xf ++ *[0-9a-f]*: fc 0e 16 01 lsr lr,lr,0x1 ++ *[0-9a-f]*: e6 04 16 1f lsr r4,r3,0x1f ++ *[0-9a-f]*: f2 0f 16 0e lsr pc,r9,0xe ++ *[0-9a-f]*: e0 03 16 06 lsr r3,r0,0x6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 17 00 moveq pc,pc ++ *[0-9a-f]*: f8 0c 17 f0 moval r12,r12 ++ *[0-9a-f]*: ea 05 17 80 movls r5,r5 ++ *[0-9a-f]*: e8 04 17 70 movpl r4,r4 ++ *[0-9a-f]*: fc 0e 17 10 movne lr,lr ++ *[0-9a-f]*: f6 0f 17 10 movne pc,r11 ++ *[0-9a-f]*: e4 0a 17 60 movmi r10,r2 ++ *[0-9a-f]*: f8 08 17 80 movls r8,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 0f padd\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 0c padd\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 05 padd\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 04 padd\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 0e padd\.h lr,lr,lr ++ *[0-9a-f]*: e4 07 20 08 padd\.h r8,r2,r7 ++ *[0-9a-f]*: e0 03 20 00 padd\.h r0,r0,r3 ++ *[0-9a-f]*: f6 06 20 0d padd\.h sp,r11,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 1f psub\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 1c psub\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 15 psub\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 14 psub\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 1e psub\.h lr,lr,lr ++ *[0-9a-f]*: ec 08 20 1e psub\.h lr,r6,r8 ++ *[0-9a-f]*: e2 0d 20 10 psub\.h r0,r1,sp ++ *[0-9a-f]*: fe 0d 20 1f psub\.h pc,pc,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 2f paddx\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 2c paddx\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 25 paddx\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 24 paddx\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 2e paddx\.h lr,lr,lr ++ *[0-9a-f]*: fe 01 20 2f paddx\.h pc,pc,r1 ++ *[0-9a-f]*: e8 05 20 2a paddx\.h r10,r4,r5 ++ *[0-9a-f]*: fe 02 20 25 paddx\.h r5,pc,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 3f psubx\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 3c psubx\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 35 psubx\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 34 psubx\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 3e psubx\.h lr,lr,lr ++ *[0-9a-f]*: f8 05 20 35 psubx\.h r5,r12,r5 ++ *[0-9a-f]*: f0 03 20 33 psubx\.h r3,r8,r3 ++ *[0-9a-f]*: e4 03 20 35 psubx\.h r5,r2,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 4f padds\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 4c padds\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 45 padds\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 44 padds\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 4e padds\.sh lr,lr,lr ++ *[0-9a-f]*: fc 02 20 49 padds\.sh r9,lr,r2 ++ *[0-9a-f]*: f0 01 20 46 padds\.sh r6,r8,r1 ++ *[0-9a-f]*: e8 0a 20 46 padds\.sh r6,r4,r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 5f psubs\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 5c psubs\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 55 psubs\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 54 psubs\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 5e psubs\.sh lr,lr,lr ++ *[0-9a-f]*: fc 0b 20 56 psubs\.sh r6,lr,r11 ++ *[0-9a-f]*: f8 04 20 52 psubs\.sh r2,r12,r4 ++ *[0-9a-f]*: f2 00 20 50 psubs\.sh r0,r9,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 6f paddxs\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 6c paddxs\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 65 paddxs\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 64 paddxs\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 6e paddxs\.sh lr,lr,lr ++ *[0-9a-f]*: e6 09 20 60 paddxs\.sh r0,r3,r9 ++ *[0-9a-f]*: f4 0b 20 6f paddxs\.sh pc,r10,r11 ++ *[0-9a-f]*: f4 0f 20 6f paddxs\.sh pc,r10,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 7f psubxs\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 7c psubxs\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 75 psubxs\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 74 psubxs\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 7e psubxs\.sh lr,lr,lr ++ *[0-9a-f]*: e8 04 20 77 psubxs\.sh r7,r4,r4 ++ *[0-9a-f]*: f0 03 20 77 psubxs\.sh r7,r8,r3 ++ *[0-9a-f]*: ec 05 20 7f psubxs\.sh pc,r6,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 8f padds\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 8c padds\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 85 padds\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 84 padds\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 8e padds\.uh lr,lr,lr ++ *[0-9a-f]*: f6 07 20 8c padds\.uh r12,r11,r7 ++ *[0-9a-f]*: f0 0e 20 87 padds\.uh r7,r8,lr ++ *[0-9a-f]*: f2 07 20 86 padds\.uh r6,r9,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 9f psubs\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 9c psubs\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 95 psubs\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 94 psubs\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 9e psubs\.uh lr,lr,lr ++ *[0-9a-f]*: f4 06 20 9e psubs\.uh lr,r10,r6 ++ *[0-9a-f]*: e4 0f 20 9d psubs\.uh sp,r2,pc ++ *[0-9a-f]*: f2 02 20 92 psubs\.uh r2,r9,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 af paddxs\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 ac paddxs\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 a5 paddxs\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 a4 paddxs\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 ae paddxs\.uh lr,lr,lr ++ *[0-9a-f]*: f2 05 20 a7 paddxs\.uh r7,r9,r5 ++ *[0-9a-f]*: e2 04 20 a9 paddxs\.uh r9,r1,r4 ++ *[0-9a-f]*: e4 03 20 a5 paddxs\.uh r5,r2,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 bf psubxs\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 bc psubxs\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 b5 psubxs\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 b4 psubxs\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 be psubxs\.uh lr,lr,lr ++ *[0-9a-f]*: ea 0d 20 bd psubxs\.uh sp,r5,sp ++ *[0-9a-f]*: ec 06 20 bd psubxs\.uh sp,r6,r6 ++ *[0-9a-f]*: f6 08 20 b3 psubxs\.uh r3,r11,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 cf paddh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 cc paddh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 c5 paddh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 c4 paddh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 ce paddh\.sh lr,lr,lr ++ *[0-9a-f]*: fa 03 20 cc paddh\.sh r12,sp,r3 ++ *[0-9a-f]*: ea 03 20 cf paddh\.sh pc,r5,r3 ++ *[0-9a-f]*: f0 0d 20 c8 paddh\.sh r8,r8,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 df psubh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 dc psubh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 d5 psubh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 d4 psubh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 de psubh\.sh lr,lr,lr ++ *[0-9a-f]*: ea 08 20 d1 psubh\.sh r1,r5,r8 ++ *[0-9a-f]*: e6 06 20 d7 psubh\.sh r7,r3,r6 ++ *[0-9a-f]*: e6 03 20 d4 psubh\.sh r4,r3,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 ef paddxh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 ec paddxh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 e5 paddxh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 e4 paddxh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 ee paddxh\.sh lr,lr,lr ++ *[0-9a-f]*: e0 04 20 e6 paddxh\.sh r6,r0,r4 ++ *[0-9a-f]*: f0 09 20 e9 paddxh\.sh r9,r8,r9 ++ *[0-9a-f]*: e0 0d 20 e3 paddxh\.sh r3,r0,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 ff psubxh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 fc psubxh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 f5 psubxh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 f4 psubxh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 fe psubxh\.sh lr,lr,lr ++ *[0-9a-f]*: fe 0c 20 f4 psubxh\.sh r4,pc,r12 ++ *[0-9a-f]*: e8 06 20 f8 psubxh\.sh r8,r4,r6 ++ *[0-9a-f]*: f2 04 20 fc psubxh\.sh r12,r9,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 0f paddsub\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 3c paddsub\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 35 paddsub\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 04 paddsub\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 3e paddsub\.h lr,lr:t,lr:t ++ *[0-9a-f]*: e4 0e 21 25 paddsub\.h r5,r2:t,lr:b ++ *[0-9a-f]*: e2 08 21 07 paddsub\.h r7,r1:b,r8:b ++ *[0-9a-f]*: f4 05 21 36 paddsub\.h r6,r10:t,r5:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 4f psubadd\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 7c psubadd\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 75 psubadd\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 44 psubadd\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 7e psubadd\.h lr,lr:t,lr:t ++ *[0-9a-f]*: f6 08 21 79 psubadd\.h r9,r11:t,r8:t ++ *[0-9a-f]*: ee 0e 21 7a psubadd\.h r10,r7:t,lr:t ++ *[0-9a-f]*: fe 0f 21 66 psubadd\.h r6,pc:t,pc:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 8f paddsubs\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 bc paddsubs\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 b5 paddsubs\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 84 paddsubs\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 be paddsubs\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: fc 00 21 a0 paddsubs\.sh r0,lr:t,r0:b ++ *[0-9a-f]*: e4 04 21 b9 paddsubs\.sh r9,r2:t,r4:t ++ *[0-9a-f]*: f2 0d 21 bc paddsubs\.sh r12,r9:t,sp:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 cf psubadds\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 fc psubadds\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 f5 psubadds\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 c4 psubadds\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 fe psubadds\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: fc 01 21 df psubadds\.sh pc,lr:b,r1:t ++ *[0-9a-f]*: e6 0c 21 cb psubadds\.sh r11,r3:b,r12:b ++ *[0-9a-f]*: e4 08 21 fa psubadds\.sh r10,r2:t,r8:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 0f paddsubs\.uh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 3c paddsubs\.uh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 35 paddsubs\.uh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 04 paddsubs\.uh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 3e paddsubs\.uh lr,lr:t,lr:t ++ *[0-9a-f]*: e4 03 22 09 paddsubs\.uh r9,r2:b,r3:b ++ *[0-9a-f]*: fa 07 22 1d paddsubs\.uh sp,sp:b,r7:t ++ *[0-9a-f]*: e0 0a 22 1e paddsubs\.uh lr,r0:b,r10:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 4f psubadds\.uh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 7c psubadds\.uh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 75 psubadds\.uh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 44 psubadds\.uh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 7e psubadds\.uh lr,lr:t,lr:t ++ *[0-9a-f]*: f2 0f 22 7c psubadds\.uh r12,r9:t,pc:t ++ *[0-9a-f]*: ec 08 22 48 psubadds\.uh r8,r6:b,r8:b ++ *[0-9a-f]*: f0 04 22 48 psubadds\.uh r8,r8:b,r4:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 8f paddsubh\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 bc paddsubh\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 b5 paddsubh\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 84 paddsubh\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 be paddsubh\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: f2 09 22 a8 paddsubh\.sh r8,r9:t,r9:b ++ *[0-9a-f]*: fa 01 22 b0 paddsubh\.sh r0,sp:t,r1:t ++ *[0-9a-f]*: e2 00 22 93 paddsubh\.sh r3,r1:b,r0:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 cf psubaddh\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 fc psubaddh\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 f5 psubaddh\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 c4 psubaddh\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 fe psubaddh\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: e6 0a 22 e7 psubaddh\.sh r7,r3:t,r10:b ++ *[0-9a-f]*: e4 01 22 f7 psubaddh\.sh r7,r2:t,r1:t ++ *[0-9a-f]*: e6 06 22 cb psubaddh\.sh r11,r3:b,r6:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 0f padd\.b pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 0c padd\.b r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 05 padd\.b r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 04 padd\.b r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 0e padd\.b lr,lr,lr ++ *[0-9a-f]*: ec 0f 23 02 padd\.b r2,r6,pc ++ *[0-9a-f]*: f2 0c 23 08 padd\.b r8,r9,r12 ++ *[0-9a-f]*: f8 03 23 05 padd\.b r5,r12,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 1f psub\.b pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 1c psub\.b r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 15 psub\.b r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 14 psub\.b r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 1e psub\.b lr,lr,lr ++ *[0-9a-f]*: f8 0f 23 10 psub\.b r0,r12,pc ++ *[0-9a-f]*: fa 0a 23 17 psub\.b r7,sp,r10 ++ *[0-9a-f]*: fa 0c 23 15 psub\.b r5,sp,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 2f padds\.sb pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 2c padds\.sb r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 25 padds\.sb r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 24 padds\.sb r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 2e padds\.sb lr,lr,lr ++ *[0-9a-f]*: f6 04 23 2d padds\.sb sp,r11,r4 ++ *[0-9a-f]*: f4 0b 23 2b padds\.sb r11,r10,r11 ++ *[0-9a-f]*: f8 06 23 25 padds\.sb r5,r12,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 3f psubs\.sb pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 3c psubs\.sb r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 35 psubs\.sb r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 34 psubs\.sb r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 3e psubs\.sb lr,lr,lr ++ *[0-9a-f]*: ec 08 23 37 psubs\.sb r7,r6,r8 ++ *[0-9a-f]*: f4 09 23 3c psubs\.sb r12,r10,r9 ++ *[0-9a-f]*: f6 00 23 3f psubs\.sb pc,r11,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 4f padds\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 4c padds\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 45 padds\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 44 padds\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 4e padds\.ub lr,lr,lr ++ *[0-9a-f]*: e4 0b 23 43 padds\.ub r3,r2,r11 ++ *[0-9a-f]*: f0 01 23 4a padds\.ub r10,r8,r1 ++ *[0-9a-f]*: f0 0a 23 4b padds\.ub r11,r8,r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 5f psubs\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 5c psubs\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 55 psubs\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 54 psubs\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 5e psubs\.ub lr,lr,lr ++ *[0-9a-f]*: e4 07 23 50 psubs\.ub r0,r2,r7 ++ *[0-9a-f]*: ea 03 23 5e psubs\.ub lr,r5,r3 ++ *[0-9a-f]*: ee 09 23 56 psubs\.ub r6,r7,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 6f paddh\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 6c paddh\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 65 paddh\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 64 paddh\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 6e paddh\.ub lr,lr,lr ++ *[0-9a-f]*: e2 00 23 6e paddh\.ub lr,r1,r0 ++ *[0-9a-f]*: ee 07 23 62 paddh\.ub r2,r7,r7 ++ *[0-9a-f]*: e2 02 23 62 paddh\.ub r2,r1,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 7f psubh\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 7c psubh\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 75 psubh\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 74 psubh\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 7e psubh\.ub lr,lr,lr ++ *[0-9a-f]*: e2 06 23 70 psubh\.ub r0,r1,r6 ++ *[0-9a-f]*: fc 0a 23 74 psubh\.ub r4,lr,r10 ++ *[0-9a-f]*: f0 01 23 79 psubh\.ub r9,r8,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 8f pmax\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 8c pmax\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 85 pmax\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 84 pmax\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 8e pmax\.ub lr,lr,lr ++ *[0-9a-f]*: e4 0b 23 8f pmax\.ub pc,r2,r11 ++ *[0-9a-f]*: e2 01 23 8c pmax\.ub r12,r1,r1 ++ *[0-9a-f]*: e4 00 23 85 pmax\.ub r5,r2,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 9f pmax\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 9c pmax\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 95 pmax\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 94 pmax\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 9e pmax\.sh lr,lr,lr ++ *[0-9a-f]*: ec 0c 23 9e pmax\.sh lr,r6,r12 ++ *[0-9a-f]*: fe 05 23 92 pmax\.sh r2,pc,r5 ++ *[0-9a-f]*: e4 07 23 9f pmax\.sh pc,r2,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 af pmin\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 ac pmin\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 a5 pmin\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 a4 pmin\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 ae pmin\.ub lr,lr,lr ++ *[0-9a-f]*: e2 05 23 a8 pmin\.ub r8,r1,r5 ++ *[0-9a-f]*: f0 03 23 a1 pmin\.ub r1,r8,r3 ++ *[0-9a-f]*: e4 07 23 a0 pmin\.ub r0,r2,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 bf pmin\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 bc pmin\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 b5 pmin\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 b4 pmin\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 be pmin\.sh lr,lr,lr ++ *[0-9a-f]*: e8 0a 23 b8 pmin\.sh r8,r4,r10 ++ *[0-9a-f]*: f4 0c 23 be pmin\.sh lr,r10,r12 ++ *[0-9a-f]*: ec 02 23 b2 pmin\.sh r2,r6,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 cf pavg\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 cc pavg\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 c5 pavg\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 c4 pavg\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 ce pavg\.ub lr,lr,lr ++ *[0-9a-f]*: e2 06 23 c0 pavg\.ub r0,r1,r6 ++ *[0-9a-f]*: e6 06 23 c8 pavg\.ub r8,r3,r6 ++ *[0-9a-f]*: f8 0a 23 cf pavg\.ub pc,r12,r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 df pavg\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 dc pavg\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 d5 pavg\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 d4 pavg\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 de pavg\.sh lr,lr,lr ++ *[0-9a-f]*: fe 0d 23 d9 pavg\.sh r9,pc,sp ++ *[0-9a-f]*: fa 03 23 df pavg\.sh pc,sp,r3 ++ *[0-9a-f]*: e2 09 23 d6 pavg\.sh r6,r1,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 23 ef pabs\.sb pc,pc ++ *[0-9a-f]*: e0 0c 23 ec pabs\.sb r12,r12 ++ *[0-9a-f]*: e0 05 23 e5 pabs\.sb r5,r5 ++ *[0-9a-f]*: e0 04 23 e4 pabs\.sb r4,r4 ++ *[0-9a-f]*: e0 0e 23 ee pabs\.sb lr,lr ++ *[0-9a-f]*: e0 06 23 eb pabs\.sb r11,r6 ++ *[0-9a-f]*: e0 09 23 ee pabs\.sb lr,r9 ++ *[0-9a-f]*: e0 07 23 ed pabs\.sb sp,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 23 ff pabs\.sh pc,pc ++ *[0-9a-f]*: e0 0c 23 fc pabs\.sh r12,r12 ++ *[0-9a-f]*: e0 05 23 f5 pabs\.sh r5,r5 ++ *[0-9a-f]*: e0 04 23 f4 pabs\.sh r4,r4 ++ *[0-9a-f]*: e0 0e 23 fe pabs\.sh lr,lr ++ *[0-9a-f]*: e0 03 23 ff pabs\.sh pc,r3 ++ *[0-9a-f]*: e0 07 23 f5 pabs\.sh r5,r7 ++ *[0-9a-f]*: e0 00 23 f4 pabs\.sh r4,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 0f psad pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 0c psad r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 05 psad r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 04 psad r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 0e psad lr,lr,lr ++ *[0-9a-f]*: f6 0b 24 09 psad r9,r11,r11 ++ *[0-9a-f]*: e8 0d 24 0e psad lr,r4,sp ++ *[0-9a-f]*: e8 05 24 0e psad lr,r4,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 1f pasr\.b pc,pc,0x0 ++ *[0-9a-f]*: f8 07 24 1c pasr\.b r12,r12,0x7 ++ *[0-9a-f]*: ea 04 24 15 pasr\.b r5,r5,0x4 ++ *[0-9a-f]*: e8 03 24 14 pasr\.b r4,r4,0x3 ++ *[0-9a-f]*: fc 01 24 1e pasr\.b lr,lr,0x1 ++ *[0-9a-f]*: ee 01 24 1f pasr\.b pc,r7,0x1 ++ *[0-9a-f]*: fc 06 24 1d pasr\.b sp,lr,0x6 ++ *[0-9a-f]*: e6 02 24 1d pasr\.b sp,r3,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 2f plsl\.b pc,pc,0x0 ++ *[0-9a-f]*: f8 07 24 2c plsl\.b r12,r12,0x7 ++ *[0-9a-f]*: ea 04 24 25 plsl\.b r5,r5,0x4 ++ *[0-9a-f]*: e8 03 24 24 plsl\.b r4,r4,0x3 ++ *[0-9a-f]*: fc 01 24 2e plsl\.b lr,lr,0x1 ++ *[0-9a-f]*: f6 04 24 22 plsl\.b r2,r11,0x4 ++ *[0-9a-f]*: ea 07 24 28 plsl\.b r8,r5,0x7 ++ *[0-9a-f]*: e0 02 24 2f plsl\.b pc,r0,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 3f plsr\.b pc,pc,0x0 ++ *[0-9a-f]*: f8 07 24 3c plsr\.b r12,r12,0x7 ++ *[0-9a-f]*: ea 04 24 35 plsr\.b r5,r5,0x4 ++ *[0-9a-f]*: e8 03 24 34 plsr\.b r4,r4,0x3 ++ *[0-9a-f]*: fc 01 24 3e plsr\.b lr,lr,0x1 ++ *[0-9a-f]*: e2 02 24 3c plsr\.b r12,r1,0x2 ++ *[0-9a-f]*: fe 07 24 36 plsr\.b r6,pc,0x7 ++ *[0-9a-f]*: f6 02 24 3c plsr\.b r12,r11,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 4f pasr\.h pc,pc,0x0 ++ *[0-9a-f]*: f8 0f 24 4c pasr\.h r12,r12,0xf ++ *[0-9a-f]*: ea 08 24 45 pasr\.h r5,r5,0x8 ++ *[0-9a-f]*: e8 07 24 44 pasr\.h r4,r4,0x7 ++ *[0-9a-f]*: fc 01 24 4e pasr\.h lr,lr,0x1 ++ *[0-9a-f]*: f6 0a 24 40 pasr\.h r0,r11,0xa ++ *[0-9a-f]*: ec 08 24 44 pasr\.h r4,r6,0x8 ++ *[0-9a-f]*: e4 04 24 46 pasr\.h r6,r2,0x4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 5f plsl\.h pc,pc,0x0 ++ *[0-9a-f]*: f8 0f 24 5c plsl\.h r12,r12,0xf ++ *[0-9a-f]*: ea 08 24 55 plsl\.h r5,r5,0x8 ++ *[0-9a-f]*: e8 07 24 54 plsl\.h r4,r4,0x7 ++ *[0-9a-f]*: fc 01 24 5e plsl\.h lr,lr,0x1 ++ *[0-9a-f]*: f4 09 24 55 plsl\.h r5,r10,0x9 ++ *[0-9a-f]*: fc 08 24 5d plsl\.h sp,lr,0x8 ++ *[0-9a-f]*: fc 07 24 50 plsl\.h r0,lr,0x7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 6f plsr\.h pc,pc,0x0 ++ *[0-9a-f]*: f8 0f 24 6c plsr\.h r12,r12,0xf ++ *[0-9a-f]*: ea 08 24 65 plsr\.h r5,r5,0x8 ++ *[0-9a-f]*: e8 07 24 64 plsr\.h r4,r4,0x7 ++ *[0-9a-f]*: fc 01 24 6e plsr\.h lr,lr,0x1 ++ *[0-9a-f]*: e0 0f 24 6b plsr\.h r11,r0,0xf ++ *[0-9a-f]*: e6 03 24 6e plsr\.h lr,r3,0x3 ++ *[0-9a-f]*: fc 0a 24 68 plsr\.h r8,lr,0xa ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 7f packw\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 7c packw\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 75 packw\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 74 packw\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 7e packw\.sh lr,lr,lr ++ *[0-9a-f]*: f6 0a 24 7d packw\.sh sp,r11,r10 ++ *[0-9a-f]*: e4 0c 24 78 packw\.sh r8,r2,r12 ++ *[0-9a-f]*: e2 05 24 78 packw\.sh r8,r1,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 8f punpckub\.h pc,pc:b ++ *[0-9a-f]*: f8 00 24 9c punpckub\.h r12,r12:t ++ *[0-9a-f]*: ea 00 24 95 punpckub\.h r5,r5:t ++ *[0-9a-f]*: e8 00 24 84 punpckub\.h r4,r4:b ++ *[0-9a-f]*: fc 00 24 9e punpckub\.h lr,lr:t ++ *[0-9a-f]*: e2 00 24 96 punpckub\.h r6,r1:t ++ *[0-9a-f]*: ea 00 24 8e punpckub\.h lr,r5:b ++ *[0-9a-f]*: e4 00 24 9e punpckub\.h lr,r2:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 af punpcksb\.h pc,pc:b ++ *[0-9a-f]*: f8 00 24 bc punpcksb\.h r12,r12:t ++ *[0-9a-f]*: ea 00 24 b5 punpcksb\.h r5,r5:t ++ *[0-9a-f]*: e8 00 24 a4 punpcksb\.h r4,r4:b ++ *[0-9a-f]*: fc 00 24 be punpcksb\.h lr,lr:t ++ *[0-9a-f]*: ee 00 24 b4 punpcksb\.h r4,r7:t ++ *[0-9a-f]*: fc 00 24 a6 punpcksb\.h r6,lr:b ++ *[0-9a-f]*: f8 00 24 bc punpcksb\.h r12,r12:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 cf packsh\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 cc packsh\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 c5 packsh\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 c4 packsh\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 ce packsh\.ub lr,lr,lr ++ *[0-9a-f]*: ec 03 24 c3 packsh\.ub r3,r6,r3 ++ *[0-9a-f]*: e0 03 24 c8 packsh\.ub r8,r0,r3 ++ *[0-9a-f]*: e6 0e 24 c9 packsh\.ub r9,r3,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 df packsh\.sb pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 dc packsh\.sb r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 d5 packsh\.sb r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 d4 packsh\.sb r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 de packsh\.sb lr,lr,lr ++ *[0-9a-f]*: f0 01 24 d6 packsh\.sb r6,r8,r1 ++ *[0-9a-f]*: f2 08 24 de packsh\.sb lr,r9,r8 ++ *[0-9a-f]*: ec 06 24 dd packsh\.sb sp,r6,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 1f 00 00 andl pc,0x0 ++ *[0-9a-f]*: e0 1c ff ff andl r12,0xffff ++ *[0-9a-f]*: e0 15 80 00 andl r5,0x8000 ++ *[0-9a-f]*: e0 14 7f ff andl r4,0x7fff ++ *[0-9a-f]*: e0 1e 00 01 andl lr,0x1 ++ *[0-9a-f]*: e0 1f 5a 58 andl pc,0x5a58 ++ *[0-9a-f]*: e0 18 b8 9e andl r8,0xb89e ++ *[0-9a-f]*: e0 17 35 97 andl r7,0x3597 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e2 1f 00 00 andl pc,0x0,COH ++ *[0-9a-f]*: e2 1c ff ff andl r12,0xffff,COH ++ *[0-9a-f]*: e2 15 80 00 andl r5,0x8000,COH ++ *[0-9a-f]*: e2 14 7f ff andl r4,0x7fff,COH ++ *[0-9a-f]*: e2 1e 00 01 andl lr,0x1,COH ++ *[0-9a-f]*: e2 16 58 e1 andl r6,0x58e1,COH ++ *[0-9a-f]*: e2 10 9e cd andl r0,0x9ecd,COH ++ *[0-9a-f]*: e2 14 bd c4 andl r4,0xbdc4,COH ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e4 1f 00 00 andh pc,0x0 ++ *[0-9a-f]*: e4 1c ff ff andh r12,0xffff ++ *[0-9a-f]*: e4 15 80 00 andh r5,0x8000 ++ *[0-9a-f]*: e4 14 7f ff andh r4,0x7fff ++ *[0-9a-f]*: e4 1e 00 01 andh lr,0x1 ++ *[0-9a-f]*: e4 1c cc 58 andh r12,0xcc58 ++ *[0-9a-f]*: e4 13 21 e3 andh r3,0x21e3 ++ *[0-9a-f]*: e4 12 a7 eb andh r2,0xa7eb ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e6 1f 00 00 andh pc,0x0,COH ++ *[0-9a-f]*: e6 1c ff ff andh r12,0xffff,COH ++ *[0-9a-f]*: e6 15 80 00 andh r5,0x8000,COH ++ *[0-9a-f]*: e6 14 7f ff andh r4,0x7fff,COH ++ *[0-9a-f]*: e6 1e 00 01 andh lr,0x1,COH ++ *[0-9a-f]*: e6 1b 86 0d andh r11,0x860d,COH ++ *[0-9a-f]*: e6 18 ce f6 andh r8,0xcef6,COH ++ *[0-9a-f]*: e6 1a 5c 83 andh r10,0x5c83,COH ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e8 1f 00 00 orl pc,0x0 ++ *[0-9a-f]*: e8 1c ff ff orl r12,0xffff ++ *[0-9a-f]*: e8 15 80 00 orl r5,0x8000 ++ *[0-9a-f]*: e8 14 7f ff orl r4,0x7fff ++ *[0-9a-f]*: e8 1e 00 01 orl lr,0x1 ++ *[0-9a-f]*: e8 1d 41 7e orl sp,0x417e ++ *[0-9a-f]*: e8 10 52 bd orl r0,0x52bd ++ *[0-9a-f]*: e8 1f ac 47 orl pc,0xac47 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ea 1f 00 00 orh pc,0x0 ++ *[0-9a-f]*: ea 1c ff ff orh r12,0xffff ++ *[0-9a-f]*: ea 15 80 00 orh r5,0x8000 ++ *[0-9a-f]*: ea 14 7f ff orh r4,0x7fff ++ *[0-9a-f]*: ea 1e 00 01 orh lr,0x1 ++ *[0-9a-f]*: ea 18 6e 7d orh r8,0x6e7d ++ *[0-9a-f]*: ea 1c 77 1c orh r12,0x771c ++ *[0-9a-f]*: ea 11 ea 1a orh r1,0xea1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ec 1f 00 00 eorl pc,0x0 ++ *[0-9a-f]*: ec 1c ff ff eorl r12,0xffff ++ *[0-9a-f]*: ec 15 80 00 eorl r5,0x8000 ++ *[0-9a-f]*: ec 14 7f ff eorl r4,0x7fff ++ *[0-9a-f]*: ec 1e 00 01 eorl lr,0x1 ++ *[0-9a-f]*: ec 14 c7 b9 eorl r4,0xc7b9 ++ *[0-9a-f]*: ec 16 fb dd eorl r6,0xfbdd ++ *[0-9a-f]*: ec 11 51 b1 eorl r1,0x51b1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ee 1f 00 00 eorh pc,0x0 ++ *[0-9a-f]*: ee 1c ff ff eorh r12,0xffff ++ *[0-9a-f]*: ee 15 80 00 eorh r5,0x8000 ++ *[0-9a-f]*: ee 14 7f ff eorh r4,0x7fff ++ *[0-9a-f]*: ee 1e 00 01 eorh lr,0x1 ++ *[0-9a-f]*: ee 10 2d d4 eorh r0,0x2dd4 ++ *[0-9a-f]*: ee 1a 94 b5 eorh r10,0x94b5 ++ *[0-9a-f]*: ee 19 df 2a eorh r9,0xdf2a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f0 1f 00 00 mcall [0-9a-f]* <.*> ++ *[0-9a-f]*: f0 1c ff ff mcall r12\[-4\] ++ *[0-9a-f]*: f0 15 80 00 mcall r5\[-131072\] ++ *[0-9a-f]*: f0 14 7f ff mcall r4\[131068\] ++ *[0-9a-f]*: f0 1e 00 01 mcall lr\[4\] ++ *[0-9a-f]*: f0 1d 3b bf mcall sp\[61180\] ++ *[0-9a-f]*: f0 14 dd d2 mcall r4\[-35000\] ++ *[0-9a-f]*: f0 10 09 b1 mcall r0\[9924\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f2 1f 00 00 pref pc\[0\] ++ *[0-9a-f]*: f2 1c ff ff pref r12\[-1\] ++ *[0-9a-f]*: f2 15 80 00 pref r5\[-32768\] ++ *[0-9a-f]*: f2 14 7f ff pref r4\[32767\] ++ *[0-9a-f]*: f2 1e 00 01 pref lr\[1\] ++ *[0-9a-f]*: f2 17 1e 44 pref r7\[7748\] ++ *[0-9a-f]*: f2 17 e1 ed pref r7\[-7699\] ++ *[0-9a-f]*: f2 12 9a dc pref r2\[-25892\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f4 1f 00 00 cache pc\[0\],0x0 ++ *[0-9a-f]*: f4 1c ff ff cache r12\[-1\],0x1f ++ *[0-9a-f]*: f4 15 84 00 cache r5\[-1024\],0x10 ++ *[0-9a-f]*: f4 14 7b ff cache r4\[1023\],0xf ++ *[0-9a-f]*: f4 1e 08 01 cache lr\[1\],0x1 ++ *[0-9a-f]*: f4 13 8c 3c cache r3\[-964\],0x11 ++ *[0-9a-f]*: f4 14 b6 89 cache r4\[-375\],0x16 ++ *[0-9a-f]*: f4 13 8c 88 cache r3\[-888\],0x11 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 20 0f sub pc,0 ++ *[0-9a-f]*: 2f fc sub r12,-1 ++ *[0-9a-f]*: f0 25 00 00 sub r5,-1048576 ++ *[0-9a-f]*: ee 34 ff ff sub r4,1048575 ++ *[0-9a-f]*: 20 1e sub lr,1 ++ *[0-9a-f]*: f6 22 8d 6c sub r2,-619156 ++ *[0-9a-f]*: e6 3e 0a cd sub lr,461517 ++ *[0-9a-f]*: fc 38 2d 25 sub r8,-185051 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 58 0f cp.w pc,0 ++ *[0-9a-f]*: 5b fc cp.w r12,-1 ++ *[0-9a-f]*: f0 45 00 00 cp.w r5,-1048576 ++ *[0-9a-f]*: ee 54 ff ff cp.w r4,1048575 ++ *[0-9a-f]*: 58 1e cp.w lr,1 ++ *[0-9a-f]*: e0 51 e4 ae cp.w r1,124078 ++ *[0-9a-f]*: fa 40 37 e3 cp.w r0,-378909 ++ *[0-9a-f]*: fc 44 4a 14 cp.w r4,-243180 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 30 0f mov pc,0 ++ *[0-9a-f]*: 3f fc mov r12,-1 ++ *[0-9a-f]*: f0 65 00 00 mov r5,-1048576 ++ *[0-9a-f]*: ee 74 ff ff mov r4,1048575 ++ *[0-9a-f]*: 30 1e mov lr,1 ++ *[0-9a-f]*: fa 75 29 a3 mov r5,-317021 ++ *[0-9a-f]*: f4 6d 91 94 mov sp,-749164 ++ *[0-9a-f]*: ee 65 58 93 mov r5,940179 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 00 breq [0-9a-f]* <.*> ++ *[0-9a-f]*: fe 9f ff ff bral [0-9a-f]* <.*> ++ *[0-9a-f]*: f0 88 00 00 brls [0-9a-f]* <.*> ++ *[0-9a-f]*: ee 97 ff ff brpl [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 11 brne [0-9a-f]* <.*> ++ *[0-9a-f]*: f2 8b 4a 4d brhi [0-9a-f]* <.*> ++ *[0-9a-f]*: ea 8e 14 cc brqs [0-9a-f]* <.*> ++ *[0-9a-f]*: fa 98 98 33 brls [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 0c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf ff rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: f0 a0 00 00 rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: ee b0 ff ff rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 1c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: e2 b0 ca 5a rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: e8 a0 47 52 rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: fe b0 fd ef rcall [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe cf 00 00 sub pc,pc,0 ++ *[0-9a-f]*: f8 cc ff ff sub r12,r12,-1 ++ *[0-9a-f]*: ea c5 80 00 sub r5,r5,-32768 ++ *[0-9a-f]*: e8 c4 7f ff sub r4,r4,32767 ++ *[0-9a-f]*: fc ce 00 01 sub lr,lr,1 ++ *[0-9a-f]*: fe cf ce 38 sub pc,pc,-12744 ++ *[0-9a-f]*: ee c7 95 1b sub r7,r7,-27365 ++ *[0-9a-f]*: f2 c2 bc 32 sub r2,r9,-17358 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe df 00 00 satsub\.w pc,pc,0 ++ *[0-9a-f]*: f8 dc ff ff satsub\.w r12,r12,-1 ++ *[0-9a-f]*: ea d5 80 00 satsub\.w r5,r5,-32768 ++ *[0-9a-f]*: e8 d4 7f ff satsub\.w r4,r4,32767 ++ *[0-9a-f]*: fc de 00 01 satsub\.w lr,lr,1 ++ *[0-9a-f]*: fc d2 f8 29 satsub\.w r2,lr,-2007 ++ *[0-9a-f]*: f8 d7 fc f0 satsub\.w r7,r12,-784 ++ *[0-9a-f]*: ee d4 5a 8c satsub\.w r4,r7,23180 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe e0 00 00 ld\.d r0,pc\[0\] ++ *[0-9a-f]*: f8 ee ff ff ld\.d lr,r12\[-1\] ++ *[0-9a-f]*: ea e8 80 00 ld\.d r8,r5\[-32768\] ++ *[0-9a-f]*: e8 e6 7f ff ld\.d r6,r4\[32767\] ++ *[0-9a-f]*: fc e2 00 01 ld\.d r2,lr\[1\] ++ *[0-9a-f]*: f6 ee 39 c0 ld\.d lr,r11\[14784\] ++ *[0-9a-f]*: f2 e6 b6 27 ld\.d r6,r9\[-18905\] ++ *[0-9a-f]*: e6 e2 e7 2d ld\.d r2,r3\[-6355\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 7e 0f ld\.w pc,pc\[0x0\] ++ *[0-9a-f]*: f8 fc ff ff ld\.w r12,r12\[-1\] ++ *[0-9a-f]*: ea f5 80 00 ld\.w r5,r5\[-32768\] ++ *[0-9a-f]*: e8 f4 7f ff ld\.w r4,r4\[32767\] ++ *[0-9a-f]*: fc fe 00 01 ld\.w lr,lr\[1\] ++ *[0-9a-f]*: f8 f0 a9 8b ld\.w r0,r12\[-22133\] ++ *[0-9a-f]*: fe fd af d7 ld\.w sp,pc\[-20521\] ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 0f ld\.sh pc,pc\[0x0\] ++ *[0-9a-f]*: f9 0c ff ff ld\.sh r12,r12\[-1\] ++ *[0-9a-f]*: eb 05 80 00 ld\.sh r5,r5\[-32768\] ++ *[0-9a-f]*: e9 04 7f ff ld\.sh r4,r4\[32767\] ++ *[0-9a-f]*: fd 0e 00 01 ld\.sh lr,lr\[1\] ++ *[0-9a-f]*: f5 06 78 d2 ld\.sh r6,r10\[30930\] ++ *[0-9a-f]*: f5 06 55 d5 ld\.sh r6,r10\[21973\] ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 8f ld\.uh pc,pc\[0x0\] ++ *[0-9a-f]*: f9 1c ff ff ld\.uh r12,r12\[-1\] ++ *[0-9a-f]*: eb 15 80 00 ld\.uh r5,r5\[-32768\] ++ *[0-9a-f]*: e9 14 7f ff ld\.uh r4,r4\[32767\] ++ *[0-9a-f]*: fd 1e 00 01 ld\.uh lr,lr\[1\] ++ *[0-9a-f]*: f3 11 cb d6 ld\.uh r1,r9\[-13354\] ++ *[0-9a-f]*: f7 1e 53 59 ld\.uh lr,r11\[21337\] ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff 2f 00 00 ld\.sb pc,pc\[0\] ++ *[0-9a-f]*: f9 2c ff ff ld\.sb r12,r12\[-1\] ++ *[0-9a-f]*: eb 25 80 00 ld\.sb r5,r5\[-32768\] ++ *[0-9a-f]*: e9 24 7f ff ld\.sb r4,r4\[32767\] ++ *[0-9a-f]*: fd 2e 00 01 ld\.sb lr,lr\[1\] ++ *[0-9a-f]*: fb 27 90 09 ld\.sb r7,sp\[-28663\] ++ *[0-9a-f]*: e3 22 e9 09 ld\.sb r2,r1\[-5879\] ++ *[0-9a-f]*: e7 2c 49 2e ld\.sb r12,r3\[18734\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 8f ld\.ub pc,pc\[0x0\] ++ *[0-9a-f]*: f9 3c ff ff ld\.ub r12,r12\[-1\] ++ *[0-9a-f]*: eb 35 80 00 ld\.ub r5,r5\[-32768\] ++ *[0-9a-f]*: e9 34 7f ff ld\.ub r4,r4\[32767\] ++ *[0-9a-f]*: 1d 9e ld\.ub lr,lr\[0x1\] ++ *[0-9a-f]*: e9 3f 20 55 ld\.ub pc,r4\[8277\] ++ *[0-9a-f]*: f9 35 4a e4 ld\.ub r5,r12\[19172\] ++ *[0-9a-f]*: fd 3a 66 eb ld\.ub r10,lr\[26347\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe e1 00 00 st\.d pc\[0\],r0 ++ *[0-9a-f]*: f8 ef ff ff st\.d r12\[-1\],lr ++ *[0-9a-f]*: ea e9 80 00 st\.d r5\[-32768\],r8 ++ *[0-9a-f]*: e8 e7 7f ff st\.d r4\[32767\],r6 ++ *[0-9a-f]*: fc e3 00 01 st\.d lr\[1\],r2 ++ *[0-9a-f]*: ea eb 33 90 st\.d r5\[13200\],r10 ++ *[0-9a-f]*: ea eb 24 88 st\.d r5\[9352\],r10 ++ *[0-9a-f]*: ea e5 7e 75 st\.d r5\[32373\],r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9f 0f st\.w pc\[0x0\],pc ++ *[0-9a-f]*: f9 4c ff ff st\.w r12\[-1\],r12 ++ *[0-9a-f]*: eb 45 80 00 st\.w r5\[-32768\],r5 ++ *[0-9a-f]*: e9 44 7f ff st\.w r4\[32767\],r4 ++ *[0-9a-f]*: fd 4e 00 01 st\.w lr\[1\],lr ++ *[0-9a-f]*: fb 47 17 f8 st\.w sp\[6136\],r7 ++ *[0-9a-f]*: ed 4c 69 cf st\.w r6\[27087\],r12 ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 0f st\.h pc\[0x0\],pc ++ *[0-9a-f]*: f9 5c ff ff st\.h r12\[-1\],r12 ++ *[0-9a-f]*: eb 55 80 00 st\.h r5\[-32768\],r5 ++ *[0-9a-f]*: e9 54 7f ff st\.h r4\[32767\],r4 ++ *[0-9a-f]*: fd 5e 00 01 st\.h lr\[1\],lr ++ *[0-9a-f]*: e9 57 d9 16 st\.h r4\[-9962\],r7 ++ *[0-9a-f]*: f3 53 c0 86 st\.h r9\[-16250\],r3 ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 8f st\.b pc\[0x0\],pc ++ *[0-9a-f]*: f9 6c ff ff st\.b r12\[-1\],r12 ++ *[0-9a-f]*: eb 65 80 00 st\.b r5\[-32768\],r5 ++ *[0-9a-f]*: e9 64 7f ff st\.b r4\[32767\],r4 ++ *[0-9a-f]*: bc 9e st\.b lr\[0x1\],lr ++ *[0-9a-f]*: f9 66 75 96 st\.b r12\[30102\],r6 ++ *[0-9a-f]*: eb 61 71 31 st\.b r5\[28977\],r1 ++ *[0-9a-f]*: e1 61 15 5e st\.b r0\[5470\],r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 bf 00 00 mfsr pc,0x0 ++ *[0-9a-f]*: e1 bc 00 ff mfsr r12,0x3fc ++ *[0-9a-f]*: e1 b5 00 80 mfsr r5,0x200 ++ *[0-9a-f]*: e1 b4 00 7f mfsr r4,0x1fc ++ *[0-9a-f]*: e1 be 00 01 mfsr lr,0x4 ++ *[0-9a-f]*: e1 b2 00 ae mfsr r2,0x2b8 ++ *[0-9a-f]*: e1 b4 00 41 mfsr r4,0x104 ++ *[0-9a-f]*: e1 ba 00 fe mfsr r10,0x3f8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e3 bf 00 00 mtsr 0x0,pc ++ *[0-9a-f]*: e3 bc 00 ff mtsr 0x3fc,r12 ++ *[0-9a-f]*: e3 b5 00 80 mtsr 0x200,r5 ++ *[0-9a-f]*: e3 b4 00 7f mtsr 0x1fc,r4 ++ *[0-9a-f]*: e3 be 00 01 mtsr 0x4,lr ++ *[0-9a-f]*: e3 ba 00 38 mtsr 0xe0,r10 ++ *[0-9a-f]*: e3 bc 00 d1 mtsr 0x344,r12 ++ *[0-9a-f]*: e3 b9 00 4c mtsr 0x130,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 bf 00 00 mfdr pc,0x0 ++ *[0-9a-f]*: e5 bc 00 ff mfdr r12,0x3fc ++ *[0-9a-f]*: e5 b5 00 80 mfdr r5,0x200 ++ *[0-9a-f]*: e5 b4 00 7f mfdr r4,0x1fc ++ *[0-9a-f]*: e5 be 00 01 mfdr lr,0x4 ++ *[0-9a-f]*: e5 b6 00 e9 mfdr r6,0x3a4 ++ *[0-9a-f]*: e5 b5 00 09 mfdr r5,0x24 ++ *[0-9a-f]*: e5 b9 00 4b mfdr r9,0x12c ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e7 bf 00 00 mtdr 0x0,pc ++ *[0-9a-f]*: e7 bc 00 ff mtdr 0x3fc,r12 ++ *[0-9a-f]*: e7 b5 00 80 mtdr 0x200,r5 ++ *[0-9a-f]*: e7 b4 00 7f mtdr 0x1fc,r4 ++ *[0-9a-f]*: e7 be 00 01 mtdr 0x4,lr ++ *[0-9a-f]*: e7 b8 00 2d mtdr 0xb4,r8 ++ *[0-9a-f]*: e7 ba 00 b4 mtdr 0x2d0,r10 ++ *[0-9a-f]*: e7 be 00 66 mtdr 0x198,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 b0 00 00 sleep 0x0 ++ *[0-9a-f]*: e9 b0 00 ff sleep 0xff ++ *[0-9a-f]*: e9 b0 00 80 sleep 0x80 ++ *[0-9a-f]*: e9 b0 00 7f sleep 0x7f ++ *[0-9a-f]*: e9 b0 00 01 sleep 0x1 ++ *[0-9a-f]*: e9 b0 00 fe sleep 0xfe ++ *[0-9a-f]*: e9 b0 00 0f sleep 0xf ++ *[0-9a-f]*: e9 b0 00 2b sleep 0x2b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb b0 00 00 sync 0x0 ++ *[0-9a-f]*: eb b0 00 ff sync 0xff ++ *[0-9a-f]*: eb b0 00 80 sync 0x80 ++ *[0-9a-f]*: eb b0 00 7f sync 0x7f ++ *[0-9a-f]*: eb b0 00 01 sync 0x1 ++ *[0-9a-f]*: eb b0 00 a6 sync 0xa6 ++ *[0-9a-f]*: eb b0 00 e6 sync 0xe6 ++ *[0-9a-f]*: eb b0 00 b4 sync 0xb4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed bf 00 00 bld pc,0x0 ++ *[0-9a-f]*: ed bc 00 1f bld r12,0x1f ++ *[0-9a-f]*: ed b5 00 10 bld r5,0x10 ++ *[0-9a-f]*: ed b4 00 0f bld r4,0xf ++ *[0-9a-f]*: ed be 00 01 bld lr,0x1 ++ *[0-9a-f]*: ed b9 00 0f bld r9,0xf ++ *[0-9a-f]*: ed b0 00 04 bld r0,0x4 ++ *[0-9a-f]*: ed be 00 1a bld lr,0x1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef bf 00 00 bst pc,0x0 ++ *[0-9a-f]*: ef bc 00 1f bst r12,0x1f ++ *[0-9a-f]*: ef b5 00 10 bst r5,0x10 ++ *[0-9a-f]*: ef b4 00 0f bst r4,0xf ++ *[0-9a-f]*: ef be 00 01 bst lr,0x1 ++ *[0-9a-f]*: ef ba 00 1c bst r10,0x1c ++ *[0-9a-f]*: ef b0 00 03 bst r0,0x3 ++ *[0-9a-f]*: ef bd 00 02 bst sp,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f1 bf 00 00 sats pc,0x0 ++ *[0-9a-f]*: f1 bc 03 ff sats r12>>0x1f,0x1f ++ *[0-9a-f]*: f1 b5 02 10 sats r5>>0x10,0x10 ++ *[0-9a-f]*: f1 b4 01 ef sats r4>>0xf,0xf ++ *[0-9a-f]*: f1 be 00 21 sats lr>>0x1,0x1 ++ *[0-9a-f]*: f1 ba 02 63 sats r10>>0x3,0x13 ++ *[0-9a-f]*: f1 ba 03 42 sats r10>>0x2,0x1a ++ *[0-9a-f]*: f1 b1 00 34 sats r1>>0x14,0x1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f1 bf 04 00 satu pc,0x0 ++ *[0-9a-f]*: f1 bc 07 ff satu r12>>0x1f,0x1f ++ *[0-9a-f]*: f1 b5 06 10 satu r5>>0x10,0x10 ++ *[0-9a-f]*: f1 b4 05 ef satu r4>>0xf,0xf ++ *[0-9a-f]*: f1 be 04 21 satu lr>>0x1,0x1 ++ *[0-9a-f]*: f1 bf 04 e5 satu pc>>0x5,0x7 ++ *[0-9a-f]*: f1 b7 04 a5 satu r7>>0x5,0x5 ++ *[0-9a-f]*: f1 b2 06 7a satu r2>>0x1a,0x13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f3 bf 00 00 satrnds pc,0x0 ++ *[0-9a-f]*: f3 bc 03 ff satrnds r12>>0x1f,0x1f ++ *[0-9a-f]*: f3 b5 02 10 satrnds r5>>0x10,0x10 ++ *[0-9a-f]*: f3 b4 01 ef satrnds r4>>0xf,0xf ++ *[0-9a-f]*: f3 be 00 21 satrnds lr>>0x1,0x1 ++ *[0-9a-f]*: f3 b0 02 75 satrnds r0>>0x15,0x13 ++ *[0-9a-f]*: f3 bd 00 40 satrnds sp,0x2 ++ *[0-9a-f]*: f3 b7 03 a6 satrnds r7>>0x6,0x1d ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f3 bf 04 00 satrndu pc,0x0 ++ *[0-9a-f]*: f3 bc 07 ff satrndu r12>>0x1f,0x1f ++ *[0-9a-f]*: f3 b5 06 10 satrndu r5>>0x10,0x10 ++ *[0-9a-f]*: f3 b4 05 ef satrndu r4>>0xf,0xf ++ *[0-9a-f]*: f3 be 04 21 satrndu lr>>0x1,0x1 ++ *[0-9a-f]*: f3 bc 07 40 satrndu r12,0x1a ++ *[0-9a-f]*: f3 b4 04 75 satrndu r4>>0x15,0x3 ++ *[0-9a-f]*: f3 ba 06 03 satrndu r10>>0x3,0x10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f5 bf 00 00 subfeq pc,0 ++ *[0-9a-f]*: f5 bc 0f ff subfal r12,-1 ++ *[0-9a-f]*: f5 b5 08 80 subfls r5,-128 ++ *[0-9a-f]*: f5 b4 07 7f subfpl r4,127 ++ *[0-9a-f]*: f5 be 01 01 subfne lr,1 ++ *[0-9a-f]*: f5 ba 08 08 subfls r10,8 ++ *[0-9a-f]*: f5 bb 0d 63 subfvc r11,99 ++ *[0-9a-f]*: f5 b2 0c 49 subfvs r2,73 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f7 bf 00 00 subeq pc,0 ++ *[0-9a-f]*: f7 bc 0f ff subal r12,-1 ++ *[0-9a-f]*: f7 b5 08 80 subls r5,-128 ++ *[0-9a-f]*: f7 b4 07 7f subpl r4,127 ++ *[0-9a-f]*: f7 be 01 01 subne lr,1 ++ *[0-9a-f]*: f7 bc 08 76 subls r12,118 ++ *[0-9a-f]*: f7 be 0d f4 subvc lr,-12 ++ *[0-9a-f]*: f7 b4 06 f3 submi r4,-13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f9 bf 00 00 moveq pc,0 ++ *[0-9a-f]*: f9 bc 0f ff moval r12,-1 ++ *[0-9a-f]*: f9 b5 08 80 movls r5,-128 ++ *[0-9a-f]*: f9 b4 07 7f movpl r4,127 ++ *[0-9a-f]*: f9 be 01 01 movne lr,1 ++ *[0-9a-f]*: f9 b3 05 86 movlt r3,-122 ++ *[0-9a-f]*: f9 b8 0d 02 movvc r8,2 ++ *[0-9a-f]*: f9 b7 01 91 movne r7,-111 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 18 00 cp\.b pc,r0 ++ *[0-9a-f]*: fe 00 18 00 cp\.b r0,pc ++ *[0-9a-f]*: f0 07 18 00 cp\.b r7,r8 ++ *[0-9a-f]*: ee 08 18 00 cp\.b r8,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 19 00 cp\.h pc,r0 ++ *[0-9a-f]*: fe 00 19 00 cp\.h r0,pc ++ *[0-9a-f]*: f0 07 19 00 cp\.h r7,r8 ++ *[0-9a-f]*: ee 08 19 00 cp\.h r8,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 cf 00 7e ldm pc,r1-r6 ++ *[0-9a-f]*: e1 cc ff ff ldm r12,r0-pc ++ *[0-9a-f]*: e1 c5 80 00 ldm r5,pc ++ *[0-9a-f]*: e1 c4 7f ff ldm r4,r0-lr ++ *[0-9a-f]*: e1 ce 00 01 ldm lr,r0 ++ *[0-9a-f]*: e1 c9 40 22 ldm r9,r1,r5,lr ++ *[0-9a-f]*: e1 cb 81 ec ldm r11,r2-r3,r5-r8,pc ++ *[0-9a-f]*: e1 c6 a2 09 ldm r6,r0,r3,r9,sp,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e3 cf 03 c0 ldm pc\+\+,r6-r9 ++ *[0-9a-f]*: e3 cc ff ff ldm r12\+\+,r0-pc ++ *[0-9a-f]*: e3 c5 80 00 ldm r5\+\+,pc ++ *[0-9a-f]*: e3 c4 7f ff ldm r4\+\+,r0-lr ++ *[0-9a-f]*: e3 ce 00 01 ldm lr\+\+,r0 ++ *[0-9a-f]*: e3 cc d5 38 ldm r12\+\+,r3-r5,r8,r10,r12,lr-pc ++ *[0-9a-f]*: e3 ca c0 74 ldm r10\+\+,r2,r4-r6,lr-pc ++ *[0-9a-f]*: e3 c6 7e 1a ldm r6\+\+,r1,r3-r4,r9-lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 cf 01 80 ldmts pc,r7-r8 ++ *[0-9a-f]*: e5 cc ff ff ldmts r12,r0-pc ++ *[0-9a-f]*: e5 c5 80 00 ldmts r5,pc ++ *[0-9a-f]*: e5 c4 7f ff ldmts r4,r0-lr ++ *[0-9a-f]*: e5 ce 00 01 ldmts lr,r0 ++ *[0-9a-f]*: e5 c0 18 06 ldmts r0,r1-r2,r11-r12 ++ *[0-9a-f]*: e5 ce 61 97 ldmts lr,r0-r2,r4,r7-r8,sp-lr ++ *[0-9a-f]*: e5 cc c2 3b ldmts r12,r0-r1,r3-r5,r9,lr-pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e7 cf 02 00 ldmts pc\+\+,r9 ++ *[0-9a-f]*: e7 cc ff ff ldmts r12\+\+,r0-pc ++ *[0-9a-f]*: e7 c5 80 00 ldmts r5\+\+,pc ++ *[0-9a-f]*: e7 c4 7f ff ldmts r4\+\+,r0-lr ++ *[0-9a-f]*: e7 ce 00 01 ldmts lr\+\+,r0 ++ *[0-9a-f]*: e7 cd 0a bd ldmts sp\+\+,r0,r2-r5,r7,r9,r11 ++ *[0-9a-f]*: e7 c5 0c 8e ldmts r5\+\+,r1-r3,r7,r10-r11 ++ *[0-9a-f]*: e7 c8 a1 9c ldmts r8\+\+,r2-r4,r7-r8,sp,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 cf 00 80 stm pc,r7 ++ *[0-9a-f]*: e9 cc ff ff stm r12,r0-pc ++ *[0-9a-f]*: e9 c5 80 00 stm r5,pc ++ *[0-9a-f]*: e9 c4 7f ff stm r4,r0-lr ++ *[0-9a-f]*: e9 ce 00 01 stm lr,r0 ++ *[0-9a-f]*: e9 cd 49 2c stm sp,r2-r3,r5,r8,r11,lr ++ *[0-9a-f]*: e9 c4 4c 5f stm r4,r0-r4,r6,r10-r11,lr ++ *[0-9a-f]*: e9 c9 f2 22 stm r9,r1,r5,r9,r12-pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb cf 00 70 stm --pc,r4-r6 ++ *[0-9a-f]*: eb cc ff ff stm --r12,r0-pc ++ *[0-9a-f]*: eb c5 80 00 stm --r5,pc ++ *[0-9a-f]*: eb c4 7f ff stm --r4,r0-lr ++ *[0-9a-f]*: eb ce 00 01 stm --lr,r0 ++ *[0-9a-f]*: eb cb fb f1 stm --r11,r0,r4-r9,r11-pc ++ *[0-9a-f]*: eb cb 56 09 stm --r11,r0,r3,r9-r10,r12,lr ++ *[0-9a-f]*: eb c6 63 04 stm --r6,r2,r8-r9,sp-lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed cf 01 00 stmts pc,r8 ++ *[0-9a-f]*: ed cc ff ff stmts r12,r0-pc ++ *[0-9a-f]*: ed c5 80 00 stmts r5,pc ++ *[0-9a-f]*: ed c4 7f ff stmts r4,r0-lr ++ *[0-9a-f]*: ed ce 00 01 stmts lr,r0 ++ *[0-9a-f]*: ed c1 c6 5b stmts r1,r0-r1,r3-r4,r6,r9-r10,lr-pc ++ *[0-9a-f]*: ed c3 1d c1 stmts r3,r0,r6-r8,r10-r12 ++ *[0-9a-f]*: ed cb d6 d1 stmts r11,r0,r4,r6-r7,r9-r10,r12,lr-pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef cf 01 c0 stmts --pc,r6-r8 ++ *[0-9a-f]*: ef cc ff ff stmts --r12,r0-pc ++ *[0-9a-f]*: ef c5 80 00 stmts --r5,pc ++ *[0-9a-f]*: ef c4 7f ff stmts --r4,r0-lr ++ *[0-9a-f]*: ef ce 00 01 stmts --lr,r0 ++ *[0-9a-f]*: ef c2 36 19 stmts --r2,r0,r3-r4,r9-r10,r12-sp ++ *[0-9a-f]*: ef c3 c0 03 stmts --r3,r0-r1,lr-pc ++ *[0-9a-f]*: ef c0 44 7d stmts --r0,r0,r2-r6,r10,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 00 00 ldins\.h pc:b,pc\[0\] ++ *[0-9a-f]*: f9 dc 1f ff ldins\.h r12:t,r12\[-2\] ++ *[0-9a-f]*: eb d5 18 00 ldins\.h r5:t,r5\[-4096\] ++ *[0-9a-f]*: e9 d4 07 ff ldins\.h r4:b,r4\[4094\] ++ *[0-9a-f]*: fd de 10 01 ldins\.h lr:t,lr\[2\] ++ *[0-9a-f]*: fd d0 13 c5 ldins\.h r0:t,lr\[1930\] ++ *[0-9a-f]*: ef d3 0e f5 ldins\.h r3:b,r7\[-534\] ++ *[0-9a-f]*: f9 d2 0b 9a ldins\.h r2:b,r12\[-2252\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 40 00 ldins\.b pc:b,pc\[0\] ++ *[0-9a-f]*: f9 dc 7f ff ldins\.b r12:t,r12\[-1\] ++ *[0-9a-f]*: eb d5 68 00 ldins\.b r5:u,r5\[-2048\] ++ *[0-9a-f]*: e9 d4 57 ff ldins\.b r4:l,r4\[2047\] ++ *[0-9a-f]*: fd de 50 01 ldins\.b lr:l,lr\[1\] ++ *[0-9a-f]*: e9 d6 7d 6a ldins\.b r6:t,r4\[-662\] ++ *[0-9a-f]*: e3 d5 4f 69 ldins\.b r5:b,r1\[-151\] ++ *[0-9a-f]*: f7 da 78 7d ldins\.b r10:t,r11\[-1923\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 20 00 ldswp\.sh pc,pc\[0\] ++ *[0-9a-f]*: f9 dc 2f ff ldswp\.sh r12,r12\[-2\] ++ *[0-9a-f]*: eb d5 28 00 ldswp\.sh r5,r5\[-4096\] ++ *[0-9a-f]*: e9 d4 27 ff ldswp\.sh r4,r4\[4094\] ++ *[0-9a-f]*: fd de 20 01 ldswp\.sh lr,lr\[2\] ++ *[0-9a-f]*: f5 d9 27 84 ldswp\.sh r9,r10\[3848\] ++ *[0-9a-f]*: f9 d4 2c 04 ldswp\.sh r4,r12\[-2040\] ++ *[0-9a-f]*: e5 da 26 08 ldswp\.sh r10,r2\[3088\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 30 00 ldswp\.uh pc,pc\[0\] ++ *[0-9a-f]*: f9 dc 3f ff ldswp\.uh r12,r12\[-2\] ++ *[0-9a-f]*: eb d5 38 00 ldswp\.uh r5,r5\[-4096\] ++ *[0-9a-f]*: e9 d4 37 ff ldswp\.uh r4,r4\[4094\] ++ *[0-9a-f]*: fd de 30 01 ldswp\.uh lr,lr\[2\] ++ *[0-9a-f]*: f3 d4 37 46 ldswp\.uh r4,r9\[3724\] ++ *[0-9a-f]*: fb de 3c bc ldswp\.uh lr,sp\[-1672\] ++ *[0-9a-f]*: f9 d8 38 7d ldswp\.uh r8,r12\[-3846\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 80 00 ldswp\.w pc,pc\[0\] ++ *[0-9a-f]*: f9 dc 8f ff ldswp\.w r12,r12\[-4\] ++ *[0-9a-f]*: eb d5 88 00 ldswp\.w r5,r5\[-8192\] ++ *[0-9a-f]*: e9 d4 87 ff ldswp\.w r4,r4\[8188\] ++ *[0-9a-f]*: fd de 80 01 ldswp\.w lr,lr\[4\] ++ *[0-9a-f]*: ef dd 81 d1 ldswp\.w sp,r7\[1860\] ++ *[0-9a-f]*: eb df 8c c1 ldswp\.w pc,r5\[-3324\] ++ *[0-9a-f]*: f5 dc 8c c8 ldswp\.w r12,r10\[-3296\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 90 00 stswp\.h pc\[0\],pc ++ *[0-9a-f]*: f9 dc 9f ff stswp\.h r12\[-2\],r12 ++ *[0-9a-f]*: eb d5 98 00 stswp\.h r5\[-4096\],r5 ++ *[0-9a-f]*: e9 d4 97 ff stswp\.h r4\[4094\],r4 ++ *[0-9a-f]*: fd de 90 01 stswp\.h lr\[2\],lr ++ *[0-9a-f]*: ef da 90 20 stswp\.h r7\[64\],r10 ++ *[0-9a-f]*: f5 d2 95 e8 stswp\.h r10\[3024\],r2 ++ *[0-9a-f]*: e1 da 9b 74 stswp\.h r0\[-2328\],r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df a0 00 stswp\.w pc\[0\],pc ++ *[0-9a-f]*: f9 dc af ff stswp\.w r12\[-4\],r12 ++ *[0-9a-f]*: eb d5 a8 00 stswp\.w r5\[-8192\],r5 ++ *[0-9a-f]*: e9 d4 a7 ff stswp\.w r4\[8188\],r4 ++ *[0-9a-f]*: fd de a0 01 stswp\.w lr\[4\],lr ++ *[0-9a-f]*: ff d8 a1 21 stswp\.w pc\[1156\],r8 ++ *[0-9a-f]*: fb da a7 ce stswp\.w sp\[7992\],r10 ++ *[0-9a-f]*: f1 d5 ae db stswp\.w r8\[-1172\],r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 00 0f and pc,pc,pc ++ *[0-9a-f]*: f9 ec 01 fc and r12,r12,r12<<0x1f ++ *[0-9a-f]*: eb e5 01 05 and r5,r5,r5<<0x10 ++ *[0-9a-f]*: e9 e4 00 f4 and r4,r4,r4<<0xf ++ *[0-9a-f]*: fd ee 00 1e and lr,lr,lr<<0x1 ++ *[0-9a-f]*: e5 e1 00 1a and r10,r2,r1<<0x1 ++ *[0-9a-f]*: f1 eb 01 bc and r12,r8,r11<<0x1b ++ *[0-9a-f]*: ef e0 00 3a and r10,r7,r0<<0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 02 0f and pc,pc,pc ++ *[0-9a-f]*: f9 ec 03 fc and r12,r12,r12>>0x1f ++ *[0-9a-f]*: eb e5 03 05 and r5,r5,r5>>0x10 ++ *[0-9a-f]*: e9 e4 02 f4 and r4,r4,r4>>0xf ++ *[0-9a-f]*: fd ee 02 1e and lr,lr,lr>>0x1 ++ *[0-9a-f]*: f1 e7 03 1c and r12,r8,r7>>0x11 ++ *[0-9a-f]*: e9 e9 03 4f and pc,r4,r9>>0x14 ++ *[0-9a-f]*: f3 ea 02 ca and r10,r9,r10>>0xc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 10 0f or pc,pc,pc ++ *[0-9a-f]*: f9 ec 11 fc or r12,r12,r12<<0x1f ++ *[0-9a-f]*: eb e5 11 05 or r5,r5,r5<<0x10 ++ *[0-9a-f]*: e9 e4 10 f4 or r4,r4,r4<<0xf ++ *[0-9a-f]*: fd ee 10 1e or lr,lr,lr<<0x1 ++ *[0-9a-f]*: fb eb 11 d8 or r8,sp,r11<<0x1d ++ *[0-9a-f]*: f3 e2 11 cf or pc,r9,r2<<0x1c ++ *[0-9a-f]*: e3 e2 10 35 or r5,r1,r2<<0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 12 0f or pc,pc,pc ++ *[0-9a-f]*: f9 ec 13 fc or r12,r12,r12>>0x1f ++ *[0-9a-f]*: eb e5 13 05 or r5,r5,r5>>0x10 ++ *[0-9a-f]*: e9 e4 12 f4 or r4,r4,r4>>0xf ++ *[0-9a-f]*: fd ee 12 1e or lr,lr,lr>>0x1 ++ *[0-9a-f]*: fb ed 12 21 or r1,sp,sp>>0x2 ++ *[0-9a-f]*: e3 e1 13 d0 or r0,r1,r1>>0x1d ++ *[0-9a-f]*: f9 e8 12 84 or r4,r12,r8>>0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 20 0f eor pc,pc,pc ++ *[0-9a-f]*: f9 ec 21 fc eor r12,r12,r12<<0x1f ++ *[0-9a-f]*: eb e5 21 05 eor r5,r5,r5<<0x10 ++ *[0-9a-f]*: e9 e4 20 f4 eor r4,r4,r4<<0xf ++ *[0-9a-f]*: fd ee 20 1e eor lr,lr,lr<<0x1 ++ *[0-9a-f]*: f3 e4 20 ba eor r10,r9,r4<<0xb ++ *[0-9a-f]*: e1 e1 21 f4 eor r4,r0,r1<<0x1f ++ *[0-9a-f]*: e5 ec 20 d6 eor r6,r2,r12<<0xd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 22 0f eor pc,pc,pc ++ *[0-9a-f]*: f9 ec 23 fc eor r12,r12,r12>>0x1f ++ *[0-9a-f]*: eb e5 23 05 eor r5,r5,r5>>0x10 ++ *[0-9a-f]*: e9 e4 22 f4 eor r4,r4,r4>>0xf ++ *[0-9a-f]*: fd ee 22 1e eor lr,lr,lr>>0x1 ++ *[0-9a-f]*: eb e5 23 65 eor r5,r5,r5>>0x16 ++ *[0-9a-f]*: e3 ee 22 3a eor r10,r1,lr>>0x3 ++ *[0-9a-f]*: fd ed 23 a7 eor r7,lr,sp>>0x1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 8f 0f sthh\.w pc\[pc\],pc:b,pc:b ++ *[0-9a-f]*: f9 ec bc 3c sthh\.w r12\[r12<<0x3\],r12:t,r12:t ++ *[0-9a-f]*: eb e5 b5 25 sthh\.w r5\[r5<<0x2\],r5:t,r5:t ++ *[0-9a-f]*: e9 e4 84 14 sthh\.w r4\[r4<<0x1\],r4:b,r4:b ++ *[0-9a-f]*: fd ee be 1e sthh\.w lr\[lr<<0x1\],lr:t,lr:t ++ *[0-9a-f]*: e3 ec b6 3d sthh\.w sp\[r6<<0x3\],r1:t,r12:t ++ *[0-9a-f]*: f3 e9 b6 06 sthh\.w r6\[r6\],r9:t,r9:t ++ *[0-9a-f]*: e1 eb 93 0a sthh\.w r10\[r3\],r0:b,r11:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef c0 0f sthh\.w pc\[0x0\],pc:b,pc:b ++ *[0-9a-f]*: f9 ec ff fc sthh\.w r12\[0x3fc\],r12:t,r12:t ++ *[0-9a-f]*: eb e5 f8 05 sthh\.w r5\[0x200\],r5:t,r5:t ++ *[0-9a-f]*: e9 e4 c7 f4 sthh\.w r4\[0x1fc\],r4:b,r4:b ++ *[0-9a-f]*: fd ee f0 1e sthh\.w lr\[0x4\],lr:t,lr:t ++ *[0-9a-f]*: f3 e0 e6 54 sthh\.w r4\[0x194\],r9:t,r0:b ++ *[0-9a-f]*: e5 ea e5 78 sthh\.w r8\[0x15c\],r2:t,r10:b ++ *[0-9a-f]*: f3 e2 c2 bd sthh\.w sp\[0xac\],r9:b,r2:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 00 00 cop cp0,cr0,cr0,cr0,0x0 ++ *[0-9a-f]*: e7 af ff ff cop cp7,cr15,cr15,cr15,0x7f ++ *[0-9a-f]*: e3 a8 75 55 cop cp3,cr5,cr5,cr5,0x31 ++ *[0-9a-f]*: e3 a8 44 44 cop cp2,cr4,cr4,cr4,0x30 ++ *[0-9a-f]*: e5 ad a8 37 cop cp5,cr8,cr3,cr7,0x5a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 a0 00 00 ldc\.w cp0,cr0,r0\[0x0\] ++ *[0-9a-f]*: e9 af ef ff ldc\.w cp7,cr15,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a5 65 80 ldc\.w cp3,cr5,r5\[0x200\] ++ *[0-9a-f]*: e9 a4 44 7f ldc\.w cp2,cr4,r4\[0x1fc\] ++ *[0-9a-f]*: e9 ad 89 24 ldc\.w cp4,cr9,sp\[0x90\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 40 ldc\.w cp0,cr0,--r0 ++ *[0-9a-f]*: ef af ef 40 ldc\.w cp7,cr15,--pc ++ *[0-9a-f]*: ef a5 65 40 ldc\.w cp3,cr5,--r5 ++ *[0-9a-f]*: ef a4 44 40 ldc\.w cp2,cr4,--r4 ++ *[0-9a-f]*: ef ad 89 40 ldc\.w cp4,cr9,--sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 00 ldc\.w cp0,cr0,r0\[r0\] ++ *[0-9a-f]*: ef af ff 3f ldc\.w cp7,cr15,pc\[pc<<0x3\] ++ *[0-9a-f]*: ef a5 75 24 ldc\.w cp3,cr5,r5\[r4<<0x2\] ++ *[0-9a-f]*: ef a4 54 13 ldc\.w cp2,cr4,r4\[r3<<0x1\] ++ *[0-9a-f]*: ef ad 99 0c ldc\.w cp4,cr9,sp\[r12\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 a0 10 00 ldc\.d cp0,cr0,r0\[0x0\] ++ *[0-9a-f]*: e9 af fe ff ldc\.d cp7,cr14,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a5 76 80 ldc\.d cp3,cr6,r5\[0x200\] ++ *[0-9a-f]*: e9 a4 54 7f ldc\.d cp2,cr4,r4\[0x1fc\] ++ *[0-9a-f]*: e9 ad 98 24 ldc\.d cp4,cr8,sp\[0x90\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 50 ldc\.d cp0,cr0,--r0 ++ *[0-9a-f]*: ef af ee 50 ldc\.d cp7,cr14,--pc ++ *[0-9a-f]*: ef a5 66 50 ldc\.d cp3,cr6,--r5 ++ *[0-9a-f]*: ef a4 44 50 ldc\.d cp2,cr4,--r4 ++ *[0-9a-f]*: ef ad 88 50 ldc\.d cp4,cr8,--sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 40 ldc\.d cp0,cr0,r0\[r0\] ++ *[0-9a-f]*: ef af fe 7f ldc\.d cp7,cr14,pc\[pc<<0x3\] ++ *[0-9a-f]*: ef a5 76 64 ldc\.d cp3,cr6,r5\[r4<<0x2\] ++ *[0-9a-f]*: ef a4 54 53 ldc\.d cp2,cr4,r4\[r3<<0x1\] ++ *[0-9a-f]*: ef ad 98 4c ldc\.d cp4,cr8,sp\[r12\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb a0 00 00 stc\.w cp0,r0\[0x0\],cr0 ++ *[0-9a-f]*: eb af ef ff stc\.w cp7,pc\[0x3fc\],cr15 ++ *[0-9a-f]*: eb a5 65 80 stc\.w cp3,r5\[0x200\],cr5 ++ *[0-9a-f]*: eb a4 44 7f stc\.w cp2,r4\[0x1fc\],cr4 ++ *[0-9a-f]*: eb ad 89 24 stc\.w cp4,sp\[0x90\],cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 60 stc\.w cp0,r0\+\+,cr0 ++ *[0-9a-f]*: ef af ef 60 stc\.w cp7,pc\+\+,cr15 ++ *[0-9a-f]*: ef a5 65 60 stc\.w cp3,r5\+\+,cr5 ++ *[0-9a-f]*: ef a4 44 60 stc\.w cp2,r4\+\+,cr4 ++ *[0-9a-f]*: ef ad 89 60 stc\.w cp4,sp\+\+,cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 80 stc\.w cp0,r0\[r0\],cr0 ++ *[0-9a-f]*: ef af ff bf stc\.w cp7,pc\[pc<<0x3\],cr15 ++ *[0-9a-f]*: ef a5 75 a4 stc\.w cp3,r5\[r4<<0x2\],cr5 ++ *[0-9a-f]*: ef a4 54 93 stc\.w cp2,r4\[r3<<0x1\],cr4 ++ *[0-9a-f]*: ef ad 99 8c stc\.w cp4,sp\[r12\],cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb a0 10 00 stc\.d cp0,r0\[0x0\],cr0 ++ *[0-9a-f]*: eb af fe ff stc\.d cp7,pc\[0x3fc\],cr14 ++ *[0-9a-f]*: eb a5 76 80 stc\.d cp3,r5\[0x200\],cr6 ++ *[0-9a-f]*: eb a4 54 7f stc\.d cp2,r4\[0x1fc\],cr4 ++ *[0-9a-f]*: eb ad 98 24 stc\.d cp4,sp\[0x90\],cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 70 stc\.d cp0,r0\+\+,cr0 ++ *[0-9a-f]*: ef af ee 70 stc\.d cp7,pc\+\+,cr14 ++ *[0-9a-f]*: ef a5 66 70 stc\.d cp3,r5\+\+,cr6 ++ *[0-9a-f]*: ef a4 44 70 stc\.d cp2,r4\+\+,cr4 ++ *[0-9a-f]*: ef ad 88 70 stc\.d cp4,sp\+\+,cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 c0 stc\.d cp0,r0\[r0\],cr0 ++ *[0-9a-f]*: ef af fe ff stc\.d cp7,pc\[pc<<0x3\],cr14 ++ *[0-9a-f]*: ef a5 76 e4 stc\.d cp3,r5\[r4<<0x2\],cr6 ++ *[0-9a-f]*: ef a4 54 d3 stc\.d cp2,r4\[r3<<0x1\],cr4 ++ *[0-9a-f]*: ef ad 98 cc stc\.d cp4,sp\[r12\],cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f1 a0 00 00 ldc0\.w cr0,r0\[0x0\] ++ *[0-9a-f]*: f1 af ff ff ldc0\.w cr15,pc\[0x3ffc\] ++ *[0-9a-f]*: f1 a5 85 00 ldc0\.w cr5,r5\[0x2000\] ++ *[0-9a-f]*: f1 a4 74 ff ldc0\.w cr4,r4\[0x1ffc\] ++ *[0-9a-f]*: f1 ad 09 93 ldc0\.w cr9,sp\[0x24c\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f3 a0 00 00 ldc0\.d cr0,r0\[0x0\] ++ *[0-9a-f]*: f3 af fe ff ldc0\.d cr14,pc\[0x3ffc\] ++ *[0-9a-f]*: f3 a5 86 00 ldc0\.d cr6,r5\[0x2000\] ++ *[0-9a-f]*: f3 a4 74 ff ldc0\.d cr4,r4\[0x1ffc\] ++ *[0-9a-f]*: f3 ad 08 93 ldc0\.d cr8,sp\[0x24c\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f5 a0 00 00 stc0\.w r0\[0x0\],cr0 ++ *[0-9a-f]*: f5 af ff ff stc0\.w pc\[0x3ffc\],cr15 ++ *[0-9a-f]*: f5 a5 85 00 stc0\.w r5\[0x2000\],cr5 ++ *[0-9a-f]*: f5 a4 74 ff stc0\.w r4\[0x1ffc\],cr4 ++ *[0-9a-f]*: f5 ad 09 93 stc0\.w sp\[0x24c\],cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f7 a0 00 00 stc0\.d r0\[0x0\],cr0 ++ *[0-9a-f]*: f7 af fe ff stc0\.d pc\[0x3ffc\],cr14 ++ *[0-9a-f]*: f7 a5 86 00 stc0\.d r5\[0x2000\],cr6 ++ *[0-9a-f]*: f7 a4 74 ff stc0\.d r4\[0x1ffc\],cr4 ++ *[0-9a-f]*: f7 ad 08 93 stc0\.d sp\[0x24c\],cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f6 10 00 00 memc 0,0x0 ++ *[0-9a-f]*: f6 1f ff ff memc -4,0x1f ++ *[0-9a-f]*: f6 18 40 00 memc -65536,0x10 ++ *[0-9a-f]*: f6 17 bf ff memc 65532,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f8 10 00 00 mems 0,0x0 ++ *[0-9a-f]*: f8 1f ff ff mems -4,0x1f ++ *[0-9a-f]*: f8 18 40 00 mems -65536,0x10 ++ *[0-9a-f]*: f8 17 bf ff mems 65532,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fa 10 00 00 memt 0,0x0 ++ *[0-9a-f]*: fa 1f ff ff memt -4,0x1f ++ *[0-9a-f]*: fa 18 40 00 memt -65536,0x10 ++ *[0-9a-f]*: fa 17 bf ff memt 65532,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 70 00 00 stcond r0\[0\],r0 ++ *[0-9a-f]*: ff 7f ff ff stcond pc\[-1\],pc ++ *[0-9a-f]*: f1 77 80 00 stcond r8\[-32768\],r7 ++ *[0-9a-f]*: ef 78 7f ff stcond r7\[32767\],r8 ++ *[0-9a-f]*: eb 7a 12 34 stcond r5\[4660\],r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 00 ff ldcm\.w cp0,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 e0 01 ldcm\.w cp7,r0,cr0 ++ *[0-9a-f]*: ed a4 90 7f ldcm\.w cp4,r4\+\+,cr0-cr6 ++ *[0-9a-f]*: ed a7 60 80 ldcm\.w cp3,r7,cr7 ++ *[0-9a-f]*: ed ac 30 72 ldcm\.w cp1,r12\+\+,cr1,cr4-cr6 ++ *[0-9a-f]*: ed af 01 ff ldcm\.w cp0,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 e1 01 ldcm\.w cp7,r0,cr8 ++ *[0-9a-f]*: ed a4 91 7f ldcm\.w cp4,r4\+\+,cr8-cr14 ++ *[0-9a-f]*: ed a7 61 80 ldcm\.w cp3,r7,cr15 ++ *[0-9a-f]*: ed ac 31 72 ldcm\.w cp1,r12\+\+,cr9,cr12-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 04 ff ldcm\.d cp0,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 e4 01 ldcm\.d cp7,r0,cr0-cr1 ++ *[0-9a-f]*: ed a4 94 7f ldcm\.d cp4,r4\+\+,cr0-cr13 ++ *[0-9a-f]*: ed a7 64 80 ldcm\.d cp3,r7,cr14-cr15 ++ *[0-9a-f]*: ed ac 54 93 ldcm\.d cp2,r12\+\+,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 02 ff stcm\.w cp0,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 e2 01 stcm\.w cp7,r0,cr0 ++ *[0-9a-f]*: ed a4 92 7f stcm\.w cp4,--r4,cr0-cr6 ++ *[0-9a-f]*: ed a7 62 80 stcm\.w cp3,r7,cr7 ++ *[0-9a-f]*: ed ac 32 72 stcm\.w cp1,--r12,cr1,cr4-cr6 ++ *[0-9a-f]*: ed af 03 ff stcm\.w cp0,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 e3 01 stcm\.w cp7,r0,cr8 ++ *[0-9a-f]*: ed a4 93 7f stcm\.w cp4,--r4,cr8-cr14 ++ *[0-9a-f]*: ed a7 63 80 stcm\.w cp3,r7,cr15 ++ *[0-9a-f]*: ed ac 33 72 stcm\.w cp1,--r12,cr9,cr12-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 05 ff stcm\.d cp0,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 e5 01 stcm\.d cp7,r0,cr0-cr1 ++ *[0-9a-f]*: ed a4 95 7f stcm\.d cp4,--r4,cr0-cr13 ++ *[0-9a-f]*: ed a7 65 80 stcm\.d cp3,r7,cr14-cr15 ++ *[0-9a-f]*: ed ac 55 93 stcm\.d cp2,--r12,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef af ef 00 mvcr\.w cp7,pc,cr15 ++ *[0-9a-f]*: ef a0 00 00 mvcr\.w cp0,r0,cr0 ++ *[0-9a-f]*: ef af 0f 00 mvcr\.w cp0,pc,cr15 ++ *[0-9a-f]*: ef a0 ef 00 mvcr\.w cp7,r0,cr15 ++ *[0-9a-f]*: ef af e0 00 mvcr\.w cp7,pc,cr0 ++ *[0-9a-f]*: ef a7 88 00 mvcr\.w cp4,r7,cr8 ++ *[0-9a-f]*: ef a8 67 00 mvcr\.w cp3,r8,cr7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef ae ee 10 mvcr\.d cp7,lr,cr14 ++ *[0-9a-f]*: ef a0 00 10 mvcr\.d cp0,r0,cr0 ++ *[0-9a-f]*: ef ae 0e 10 mvcr\.d cp0,lr,cr14 ++ *[0-9a-f]*: ef a0 ee 10 mvcr\.d cp7,r0,cr14 ++ *[0-9a-f]*: ef ae e0 10 mvcr\.d cp7,lr,cr0 ++ *[0-9a-f]*: ef a6 88 10 mvcr\.d cp4,r6,cr8 ++ *[0-9a-f]*: ef a8 66 10 mvcr\.d cp3,r8,cr6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef af ef 20 mvrc\.w cp7,cr15,pc ++ *[0-9a-f]*: ef a0 00 20 mvrc\.w cp0,cr0,r0 ++ *[0-9a-f]*: ef af 0f 20 mvrc\.w cp0,cr15,pc ++ *[0-9a-f]*: ef a0 ef 20 mvrc\.w cp7,cr15,r0 ++ *[0-9a-f]*: ef af e0 20 mvrc\.w cp7,cr0,pc ++ *[0-9a-f]*: ef a7 88 20 mvrc\.w cp4,cr8,r7 ++ *[0-9a-f]*: ef a8 67 20 mvrc\.w cp3,cr7,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef ae ee 30 mvrc\.d cp7,cr14,lr ++ *[0-9a-f]*: ef a0 00 30 mvrc\.d cp0,cr0,r0 ++ *[0-9a-f]*: ef ae 0e 30 mvrc\.d cp0,cr14,lr ++ *[0-9a-f]*: ef a0 ee 30 mvrc\.d cp7,cr14,r0 ++ *[0-9a-f]*: ef ae e0 30 mvrc\.d cp7,cr0,lr ++ *[0-9a-f]*: ef a6 88 30 mvrc\.d cp4,cr8,r6 ++ *[0-9a-f]*: ef a8 66 30 mvrc\.d cp3,cr6,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df b3 ff bfexts pc,pc,0x1f,0x1f ++ *[0-9a-f]*: e1 d0 b0 00 bfexts r0,r0,0x0,0x0 ++ *[0-9a-f]*: e1 df b3 ff bfexts r0,pc,0x1f,0x1f ++ *[0-9a-f]*: ff d0 b3 ff bfexts pc,r0,0x1f,0x1f ++ *[0-9a-f]*: ff df b0 1f bfexts pc,pc,0x0,0x1f ++ *[0-9a-f]*: ff df b3 e0 bfexts pc,pc,0x1f,0x0 ++ *[0-9a-f]*: ef d8 b1 f0 bfexts r7,r8,0xf,0x10 ++ *[0-9a-f]*: f1 d7 b2 0f bfexts r8,r7,0x10,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df c3 ff bfextu pc,pc,0x1f,0x1f ++ *[0-9a-f]*: e1 d0 c0 00 bfextu r0,r0,0x0,0x0 ++ *[0-9a-f]*: e1 df c3 ff bfextu r0,pc,0x1f,0x1f ++ *[0-9a-f]*: ff d0 c3 ff bfextu pc,r0,0x1f,0x1f ++ *[0-9a-f]*: ff df c0 1f bfextu pc,pc,0x0,0x1f ++ *[0-9a-f]*: ff df c3 e0 bfextu pc,pc,0x1f,0x0 ++ *[0-9a-f]*: ef d8 c1 f0 bfextu r7,r8,0xf,0x10 ++ *[0-9a-f]*: f1 d7 c2 0f bfextu r8,r7,0x10,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df d3 ff bfins pc,pc,0x1f,0x1f ++ *[0-9a-f]*: e1 d0 d0 00 bfins r0,r0,0x0,0x0 ++ *[0-9a-f]*: e1 df d3 ff bfins r0,pc,0x1f,0x1f ++ *[0-9a-f]*: ff d0 d3 ff bfins pc,r0,0x1f,0x1f ++ *[0-9a-f]*: ff df d0 1f bfins pc,pc,0x0,0x1f ++ *[0-9a-f]*: ff df d3 e0 bfins pc,pc,0x1f,0x0 ++ *[0-9a-f]*: ef d8 d1 f0 bfins r7,r8,0xf,0x10 ++ *[0-9a-f]*: f1 d7 d2 0f bfins r8,r7,0x10,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fb bf 00 00 rsubeq pc,0 ++ *[0-9a-f]*: fb bc 0f ff rsubal r12,-1 ++ *[0-9a-f]*: fb b5 08 80 rsubls r5,-128 ++ *[0-9a-f]*: fb b4 07 7f rsubpl r4,127 ++ *[0-9a-f]*: fb be 01 01 rsubne lr,1 ++ *[0-9a-f]*: fb bc 08 76 rsubls r12,118 ++ *[0-9a-f]*: fb be 0d f4 rsubvc lr,-12 ++ *[0-9a-f]*: fb b4 06 f3 rsubmi r4,-13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 0f addeq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 0c addal r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 05 addls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 04 addpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 0e addne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 0a addls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 0c addvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 0a addmi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 1f subeq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 1c subal r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 15 subls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 14 subpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 1e subne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 1a subls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 1c subvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 1a submi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 2f andeq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 2c andal r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 25 andls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 24 andpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 2e andne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 2a andls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 2c andvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 2a andmi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 3f oreq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 3c oral r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 35 orls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 34 orpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 3e orne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 3a orls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 3c orvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 3a ormi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 4f eoreq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 4c eoral r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 45 eorls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 44 eorpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 4e eorne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 4a eorls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 4c eorvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 4a eormi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ff 01 ff ld.weq pc,pc[0x7fc] ++ *[0-9a-f]*: f9 fc f3 ff ld.shal r12,r12[0x3fe] ++ *[0-9a-f]*: eb f5 84 00 ld.shls r5,r5[0x0] ++ *[0-9a-f]*: e9 f4 79 ff ld.ubpl r4,r4[0x1ff] ++ *[0-9a-f]*: fd fe 16 00 ld.sbne lr,lr[0x0] ++ *[0-9a-f]*: e5 fa 80 00 ld.wls r10,r2[0x0] ++ *[0-9a-f]*: f1 fc d3 ff ld.shvc r12,r8[0x3fe] ++ *[0-9a-f]*: ef fa 68 01 ld.ubmi r10,r7[0x1] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ff 0b ff st.weq pc[0x7fc],pc ++ *[0-9a-f]*: f9 fc fd ff st.hal r12[0x3fe],r12 ++ *[0-9a-f]*: eb f5 8c 00 st.hls r5[0x0],r5 ++ *[0-9a-f]*: e9 f4 7f ff st.bpl r4[0x1ff],r4 ++ *[0-9a-f]*: fd fe 1e 00 st.bne lr[0x0],lr ++ *[0-9a-f]*: e5 fa 8a 00 st.wls r2[0x0],r10 ++ *[0-9a-f]*: f1 fc dd ff st.hvc r8[0x3fe],r12 ++ *[0-9a-f]*: ef fa 6e 01 st.bmi r7[0x1],r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fc 1f ff ff movh pc,0xffff ++ *[0-9a-f]*: fc 10 00 00 movh r0,0x0 ++ *[0-9a-f]*: fc 15 00 01 movh r5,0x1 ++ *[0-9a-f]*: fc 1c 7f ff movh r12,0x7fff ++ +--- /dev/null ++++ b/gas/testsuite/gas/avr32/allinsn.exp +@@ -0,0 +1,5 @@ ++# AVR32 assembler testsuite. -*- Tcl -*- ++ ++if [istarget avr32-*-*] { ++ run_dump_test "allinsn" ++} +--- /dev/null ++++ b/gas/testsuite/gas/avr32/allinsn.s +@@ -0,0 +1,3330 @@ ++ .data ++foodata: .word 42 ++ .text ++footext: ++ .text ++ .global ld_d5 ++ld_d5: ++ ld.d lr,pc[pc<<3] ++ ld.d r0,r0[r0<<0] ++ ld.d r6,r5[r5<<2] ++ ld.d r4,r4[r4<<1] ++ ld.d lr,lr[lr<<1] ++ ld.d r10,r3[sp<<2] ++ ld.d r8,r10[r6<<2] ++ ld.d r2,r7[r9<<0] ++ .text ++ .global ld_w5 ++ld_w5: ++ ld.w pc,pc[pc<<0] ++ ld.w r12,r12[r12<<3] ++ ld.w r5,r5[r5<<2] ++ ld.w r4,r4[r4<<1] ++ ld.w lr,lr[lr<<1] ++ ld.w r2,r9[r9<<0] ++ ld.w r11,r2[r6<<0] ++ ld.w r0,r2[sp<<3] ++ .text ++ .global ld_sh5 ++ld_sh5: ++ ld.sh pc,pc[pc<<0] ++ ld.sh r12,r12[r12<<3] ++ ld.sh r5,r5[r5<<2] ++ ld.sh r4,r4[r4<<1] ++ ld.sh lr,lr[lr<<1] ++ ld.sh r11,r0[pc<<2] ++ ld.sh r10,sp[r6<<2] ++ ld.sh r12,r2[r2<<0] ++ .text ++ .global ld_uh5 ++ld_uh5: ++ ld.uh pc,pc[pc<<0] ++ ld.uh r12,r12[r12<<3] ++ ld.uh r5,r5[r5<<2] ++ ld.uh r4,r4[r4<<1] ++ ld.uh lr,lr[lr<<1] ++ ld.uh r8,pc[lr<<3] ++ ld.uh r6,r1[pc<<1] ++ ld.uh r6,lr[sp<<1] ++ .text ++ .global ld_sb2 ++ld_sb2: ++ ld.sb pc,pc[pc<<0] ++ ld.sb r12,r12[r12<<3] ++ ld.sb r5,r5[r5<<2] ++ ld.sb r4,r4[r4<<1] ++ ld.sb lr,lr[lr<<1] ++ ld.sb r9,r1[pc<<3] ++ ld.sb r0,r3[r11<<1] ++ ld.sb r10,r5[r5<<1] ++ .text ++ .global ld_ub5 ++ld_ub5: ++ ld.ub pc,pc[pc<<0] ++ ld.ub r12,r12[r12<<3] ++ ld.ub r5,r5[r5<<2] ++ ld.ub r4,r4[r4<<1] ++ ld.ub lr,lr[lr<<1] ++ ld.ub r6,r12[r7<<3] ++ ld.ub r2,r6[r12<<0] ++ ld.ub r0,r7[r11<<1] ++ .text ++ .global st_d5 ++st_d5: ++ st.d pc[pc<<0],r14 ++ st.d r12[r12<<3],r12 ++ st.d r5[r5<<2],r6 ++ st.d r4[r4<<1],r4 ++ st.d lr[lr<<1],lr ++ st.d r1[r9<<1],r4 ++ st.d r10[r2<<1],r4 ++ st.d r12[r6<<0],lr ++ .text ++ .global st_w5 ++st_w5: ++ st.w pc[pc<<0],pc ++ st.w r12[r12<<3],r12 ++ st.w r5[r5<<2],r5 ++ st.w r4[r4<<1],r4 ++ st.w lr[lr<<1],lr ++ st.w r1[r10<<0],r3 ++ st.w r0[r10<<1],r9 ++ st.w r4[r5<<3],pc ++ .text ++ .global st_h5 ++st_h5: ++ st.h pc[pc<<0],pc ++ st.h r12[r12<<3],r12 ++ st.h r5[r5<<2],r5 ++ st.h r4[r4<<1],r4 ++ st.h lr[lr<<1],lr ++ st.h r2[r9<<0],r11 ++ st.h r5[r1<<2],r12 ++ st.h pc[r8<<2],r3 ++ .text ++ .global st_b5 ++st_b5: ++ st.b pc[pc<<0],pc ++ st.b r12[r12<<3],r12 ++ st.b r5[r5<<2],r5 ++ st.b r4[r4<<1],r4 ++ st.b lr[lr<<1],lr ++ st.b r1[r8<<1],r6 ++ st.b lr[lr<<3],r1 ++ st.b r5[r0<<2],pc ++ .text ++ .global divs ++divs: ++ divs pc,pc,pc ++ divs r12,r12,r12 ++ divs r5,r5,r5 ++ divs r4,r4,r4 ++ divs lr,lr,lr ++ divs r3,pc,pc ++ divs r9,r12,r2 ++ divs r7,r4,r1 ++ .text ++ .global add1 ++add1: ++ add pc,pc ++ add r12,r12 ++ add r5,r5 ++ add r4,r4 ++ add lr,lr ++ add r12,r9 ++ add r6,r3 ++ add r10,r12 ++ .text ++ .global sub1 ++sub1: ++ sub pc,pc ++ sub r12,r12 ++ sub r5,r5 ++ sub r4,r4 ++ sub lr,lr ++ sub lr,r6 ++ sub r0,sp ++ sub r6,r12 ++ .text ++ .global rsub1 ++rsub1: ++ rsub pc,pc ++ rsub r12,r12 ++ rsub r5,r5 ++ rsub r4,r4 ++ rsub lr,lr ++ rsub r11,sp ++ rsub r7,r4 ++ rsub r9,r1 ++ .text ++ .global cp1 ++cp1: ++ cp pc,pc ++ cp r12,r12 ++ cp r5,r5 ++ cp r4,r4 ++ cp lr,lr ++ cp r6,r2 ++ cp r0,r9 ++ cp r3,sp ++ .text ++ .global or1 ++or1: ++ or pc,pc ++ or r12,r12 ++ or r5,r5 ++ or r4,r4 ++ or lr,lr ++ or r4,r9 ++ or r11,r4 ++ or r4,r0 ++ .text ++ .global eor1 ++eor1: ++ eor pc,pc ++ eor r12,r12 ++ eor r5,r5 ++ eor r4,r4 ++ eor lr,lr ++ eor r12,r11 ++ eor r0,r1 ++ eor r5,pc ++ .text ++ .global and1 ++and1: ++ and pc,pc ++ and r12,r12 ++ and r5,r5 ++ and r4,r4 ++ and lr,lr ++ and r8,r1 ++ and r0,sp ++ and r10,r5 ++ .text ++ .global tst ++tst: ++ tst pc,pc ++ tst r12,r12 ++ tst r5,r5 ++ tst r4,r4 ++ tst lr,lr ++ tst r0,r12 ++ tst r10,r6 ++ tst sp,r4 ++ .text ++ .global andn ++andn: ++ andn pc,pc ++ andn r12,r12 ++ andn r5,r5 ++ andn r4,r4 ++ andn lr,lr ++ andn r9,r12 ++ andn r11,sp ++ andn r12,r5 ++ .text ++ .global mov3 ++mov3: ++ mov pc,pc ++ mov r12,r12 ++ mov r5,r5 ++ mov r4,r4 ++ mov lr,lr ++ mov r5,r9 ++ mov r11,r11 ++ mov r2,lr ++ .text ++ .global st_w1 ++st_w1: ++ st.w pc++,pc ++ st.w r12++,r12 ++ st.w r5++,r5 ++ st.w r4++,r4 ++ st.w lr++,lr ++ st.w r1++,r11 ++ st.w sp++,r0 ++ st.w sp++,r1 ++ .text ++ .global st_h1 ++st_h1: ++ st.h pc++,pc ++ st.h r12++,r12 ++ st.h r5++,r5 ++ st.h r4++,r4 ++ st.h lr++,lr ++ st.h r12++,sp ++ st.h r7++,lr ++ st.h r7++,r4 ++ .text ++ .global st_b1 ++st_b1: ++ st.b pc++,pc ++ st.b r12++,r12 ++ st.b r5++,r5 ++ st.b r4++,r4 ++ st.b lr++,lr ++ st.b r9++,sp ++ st.b r1++,sp ++ st.b r0++,r4 ++ .text ++ .global st_w2 ++st_w2: ++ st.w --pc,pc ++ st.w --r12,r12 ++ st.w --r5,r5 ++ st.w --r4,r4 ++ st.w --lr,lr ++ st.w --r1,r7 ++ st.w --r3,r9 ++ st.w --r5,r5 ++ .text ++ .global st_h2 ++st_h2: ++ st.h --pc,pc ++ st.h --r12,r12 ++ st.h --r5,r5 ++ st.h --r4,r4 ++ st.h --lr,lr ++ st.h --r5,r7 ++ st.h --r8,r8 ++ st.h --r7,r2 ++ .text ++ .global st_b2 ++st_b2: ++ st.b --pc,pc ++ st.b --r12,r12 ++ st.b --r5,r5 ++ st.b --r4,r4 ++ st.b --lr,lr ++ st.b --sp,sp ++ st.b --sp,r11 ++ st.b --r4,r5 ++ .text ++ .global ld_w1 ++ld_w1: ++ ld.w pc,pc++ ++ ld.w r12,r12++ ++ ld.w r5,r5++ ++ ld.w r4,r4++ ++ ld.w lr,lr++ ++ ld.w r3,r7++ ++ ld.w r3,lr++ ++ ld.w r12,r5++ ++ .text ++ .global ld_sh1 ++ld_sh1: ++ ld.sh pc,pc++ ++ ld.sh r12,r12++ ++ ld.sh r5,r5++ ++ ld.sh r4,r4++ ++ ld.sh lr,lr++ ++ ld.sh r11,r2++ ++ ld.sh r2,r8++ ++ ld.sh r7,r6++ ++ .text ++ .global ld_uh1 ++ld_uh1: ++ ld.uh pc,pc++ ++ ld.uh r12,r12++ ++ ld.uh r5,r5++ ++ ld.uh r4,r4++ ++ ld.uh lr,lr++ ++ ld.uh r6,r7++ ++ ld.uh r10,r11++ ++ ld.uh lr,r4++ ++ .text ++ .global ld_ub1 ++ld_ub1: ++ ld.ub pc,pc++ ++ ld.ub r12,r12++ ++ ld.ub r5,r5++ ++ ld.ub r4,r4++ ++ ld.ub lr,lr++ ++ ld.ub r8,lr++ ++ ld.ub r12,r12++ ++ ld.ub r11,r10++ ++ .text ++ .global ld_w2 ++ld_w2: ++ ld.w pc,--pc ++ ld.w r12,--r12 ++ ld.w r5,--r5 ++ ld.w r4,--r4 ++ ld.w lr,--lr ++ ld.w r10,--lr ++ ld.w r12,--r9 ++ ld.w r6,--r5 ++ .text ++ .global ld_sh2 ++ld_sh2: ++ ld.sh pc,--pc ++ ld.sh r12,--r12 ++ ld.sh r5,--r5 ++ ld.sh r4,--r4 ++ ld.sh lr,--lr ++ ld.sh pc,--r10 ++ ld.sh r6,--r3 ++ ld.sh r4,--r6 ++ .text ++ .global ld_uh2 ++ld_uh2: ++ ld.uh pc,--pc ++ ld.uh r12,--r12 ++ ld.uh r5,--r5 ++ ld.uh r4,--r4 ++ ld.uh lr,--lr ++ ld.uh r3,--r2 ++ ld.uh r1,--r0 ++ ld.uh r2,--r9 ++ .text ++ .global ld_ub2 ++ld_ub2: ++ ld.ub pc,--pc ++ ld.ub r12,--r12 ++ ld.ub r5,--r5 ++ ld.ub r4,--r4 ++ ld.ub lr,--lr ++ ld.ub r1,--r1 ++ ld.ub r0,--r6 ++ ld.ub r2,--r7 ++ .text ++ .global ld_ub3 ++ld_ub3: ++ ld.ub pc,pc[0] ++ ld.ub r12,r12[7] ++ ld.ub r5,r5[4] ++ ld.ub r4,r4[3] ++ ld.ub lr,lr[1] ++ ld.ub r6,r9[6] ++ ld.ub r2,lr[4] ++ ld.ub r1,r8[0] ++ .text ++ .global sub3_sp ++sub3_sp: ++ sub sp,0 ++ sub sp,-4 ++ sub sp,-512 ++ sub sp,508 ++ sub sp,4 ++ sub sp,44 ++ sub sp,8 ++ sub sp,348 ++ .text ++ .global sub3 ++sub3: ++ sub pc,0 ++ sub r12,-1 ++ sub r5,-128 ++ sub r4,127 ++ sub lr,1 ++ sub r6,-41 ++ sub r4,37 ++ sub r12,56 ++ .text ++ .global mov1 ++mov1: ++ mov pc,0 ++ mov r12,-1 ++ mov r5,-128 ++ mov r4,127 ++ mov lr,1 ++ mov pc,14 ++ mov r6,-100 ++ mov lr,-122 ++ .text ++ .global lddsp ++lddsp: ++ lddsp pc,sp[0] ++ lddsp r12,sp[508] ++ lddsp r5,sp[256] ++ lddsp r4,sp[252] ++ lddsp lr,sp[4] ++ lddsp lr,sp[256] ++ lddsp r12,sp[20] ++ lddsp r9,sp[472] ++ .text ++ .global lddpc ++lddpc: ++ lddpc pc,pc[0] ++ lddpc r0,pc[508] ++ lddpc r8,pc[256] ++ lddpc r7,pc[252] ++ lddpc lr,pc[4] ++ lddpc sp,pc[472] ++ lddpc r6,pc[120] ++ lddpc r11,pc[28] ++ .text ++ .global stdsp ++stdsp: ++ stdsp sp[0],pc ++ stdsp sp[508],r12 ++ stdsp sp[256],r5 ++ stdsp sp[252],r4 ++ stdsp sp[4],lr ++ stdsp sp[304],pc ++ stdsp sp[256],r0 ++ stdsp sp[336],r5 ++ .text ++ .global cp2 ++cp2: ++ cp pc,0 ++ cp r12,-1 ++ cp r5,-32 ++ cp r4,31 ++ cp lr,1 ++ cp r8,3 ++ cp lr,16 ++ cp r7,-26 ++ .text ++ .global acr ++acr: ++ acr pc ++ acr r12 ++ acr r5 ++ acr r4 ++ acr lr ++ acr r2 ++ acr r12 ++ acr pc ++ .text ++ .global scr ++scr: ++ scr pc ++ scr r12 ++ scr r5 ++ scr r4 ++ scr lr ++ scr pc ++ scr r6 ++ scr r1 ++ .text ++ .global cpc0 ++cpc0: ++ cpc pc ++ cpc r12 ++ cpc r5 ++ cpc r4 ++ cpc lr ++ cpc pc ++ cpc r4 ++ cpc r9 ++ .text ++ .global neg ++neg: ++ neg pc ++ neg r12 ++ neg r5 ++ neg r4 ++ neg lr ++ neg r7 ++ neg r1 ++ neg r9 ++ .text ++ .global abs ++abs: ++ abs pc ++ abs r12 ++ abs r5 ++ abs r4 ++ abs lr ++ abs r6 ++ abs r6 ++ abs r4 ++ .text ++ .global castu_b ++castu_b: ++ castu.b pc ++ castu.b r12 ++ castu.b r5 ++ castu.b r4 ++ castu.b lr ++ castu.b r7 ++ castu.b sp ++ castu.b r9 ++ .text ++ .global casts_b ++casts_b: ++ casts.b pc ++ casts.b r12 ++ casts.b r5 ++ casts.b r4 ++ casts.b lr ++ casts.b r11 ++ casts.b r1 ++ casts.b r10 ++ .text ++ .global castu_h ++castu_h: ++ castu.h pc ++ castu.h r12 ++ castu.h r5 ++ castu.h r4 ++ castu.h lr ++ castu.h r10 ++ castu.h r11 ++ castu.h r1 ++ .text ++ .global casts_h ++casts_h: ++ casts.h pc ++ casts.h r12 ++ casts.h r5 ++ casts.h r4 ++ casts.h lr ++ casts.h r0 ++ casts.h r5 ++ casts.h r9 ++ .text ++ .global brev ++brev: ++ brev pc ++ brev r12 ++ brev r5 ++ brev r4 ++ brev lr ++ brev r5 ++ brev r10 ++ brev r8 ++ .text ++ .global swap_h ++swap_h: ++ swap.h pc ++ swap.h r12 ++ swap.h r5 ++ swap.h r4 ++ swap.h lr ++ swap.h r7 ++ swap.h r0 ++ swap.h r8 ++ .text ++ .global swap_b ++swap_b: ++ swap.b pc ++ swap.b r12 ++ swap.b r5 ++ swap.b r4 ++ swap.b lr ++ swap.b r10 ++ swap.b r12 ++ swap.b r1 ++ .text ++ .global swap_bh ++swap_bh: ++ swap.bh pc ++ swap.bh r12 ++ swap.bh r5 ++ swap.bh r4 ++ swap.bh lr ++ swap.bh r9 ++ swap.bh r4 ++ swap.bh r1 ++ .text ++ .global One_s_compliment ++One_s_compliment: ++ com pc ++ com r12 ++ com r5 ++ com r4 ++ com lr ++ com r2 ++ com r2 ++ com r7 ++ .text ++ .global tnbz ++tnbz: ++ tnbz pc ++ tnbz r12 ++ tnbz r5 ++ tnbz r4 ++ tnbz lr ++ tnbz r8 ++ tnbz r12 ++ tnbz pc ++ .text ++ .global rol ++rol: ++ rol pc ++ rol r12 ++ rol r5 ++ rol r4 ++ rol lr ++ rol r10 ++ rol r9 ++ rol r5 ++ .text ++ .global ror ++ror: ++ ror pc ++ ror r12 ++ ror r5 ++ ror r4 ++ ror lr ++ ror r8 ++ ror r4 ++ ror r7 ++ .text ++ .global icall ++icall: ++ icall pc ++ icall r12 ++ icall r5 ++ icall r4 ++ icall lr ++ icall r3 ++ icall r1 ++ icall r3 ++ .text ++ .global mustr ++mustr: ++ mustr pc ++ mustr r12 ++ mustr r5 ++ mustr r4 ++ mustr lr ++ mustr r1 ++ mustr r4 ++ mustr r12 ++ .text ++ .global musfr ++musfr: ++ musfr pc ++ musfr r12 ++ musfr r5 ++ musfr r4 ++ musfr lr ++ musfr r11 ++ musfr r12 ++ musfr r2 ++ .text ++ .global ret_cond ++ret_cond: ++ reteq pc ++ retal r12 ++ retls r5 ++ retpl r4 ++ retne lr ++ retgt r0 ++ retgt r12 ++ retge r10 ++ .text ++ .global sr_cond ++sr_cond: ++ sreq pc ++ sral r12 ++ srls r5 ++ srpl r4 ++ srne lr ++ srlt r0 ++ sral sp ++ srge r9 ++ .text ++ .global ld_w3 ++ld_w3: ++ ld.w pc,pc[0] ++ ld.w r12,r12[124] ++ ld.w r5,r5[64] ++ ld.w r4,r4[60] ++ ld.w lr,lr[4] ++ ld.w sp,r2[52] ++ ld.w r9,r1[8] ++ ld.w r5,sp[60] ++ .text ++ .global ld_sh3 ++ld_sh3: ++ ld.sh pc,pc[0] ++ ld.sh r12,r12[14] ++ ld.sh r5,r5[8] ++ ld.sh r4,r4[6] ++ ld.sh lr,lr[2] ++ ld.sh r4,r2[8] ++ ld.sh sp,lr[10] ++ ld.sh r2,r11[2] ++ .text ++ .global ld_uh3 ++ld_uh3: ++ ld.uh pc,pc[0] ++ ld.uh r12,r12[14] ++ ld.uh r5,r5[8] ++ ld.uh r4,r4[6] ++ ld.uh lr,lr[2] ++ ld.uh r10,r0[10] ++ ld.uh r8,r11[8] ++ ld.uh r10,r2[12] ++ .text ++ .global st_w3 ++st_w3: ++ st.w pc[0],pc ++ st.w r12[60],r12 ++ st.w r5[32],r5 ++ st.w r4[28],r4 ++ st.w lr[4],lr ++ st.w r7[44],r11 ++ st.w r2[24],r6 ++ st.w r4[12],r9 ++ .text ++ .global st_h3 ++st_h3: ++ st.h pc[0],pc ++ st.h r12[14],r12 ++ st.h r5[8],r5 ++ st.h r4[6],r4 ++ st.h lr[2],lr ++ st.h lr[10],r12 ++ st.h r6[4],r0 ++ st.h r5[12],sp ++ .text ++ .global st_b3 ++st_b3: ++ st.b pc[0],pc ++ st.b r12[7],r12 ++ st.b r5[4],r5 ++ st.b r4[3],r4 ++ st.b lr[1],lr ++ st.b r12[6],r9 ++ st.b r2[3],lr ++ st.b r1[3],r11 ++ .text ++ .global ldd ++ldd: ++ ld.d r0,pc ++ ld.d r14,r12 ++ ld.d r8,r5 ++ ld.d r6,r4 ++ ld.d r2,lr ++ ld.d r14,r7 ++ ld.d r4,r4 ++ ld.d r14,pc ++ .text ++ .global ldd_postinc ++ldd_postinc: ++ ld.d r0,pc++ ++ ld.d r14,r12++ ++ ld.d r8,r5++ ++ ld.d r6,r4++ ++ ld.d r2,lr++ ++ ld.d r14,r5++ ++ ld.d r12,r11++ ++ ld.d r2,r12++ ++ .text ++ .global ldd_predec ++ldd_predec: ++ ld.d r0,--pc ++ ld.d r14,--r12 ++ ld.d r8,--r5 ++ ld.d r6,--r4 ++ ld.d r2,--lr ++ ld.d r8,--r0 ++ ld.d r10,--pc ++ ld.d r2,--r4 ++ .text ++ .global std ++std: ++ st.d pc,r0 ++ st.d r12,r14 ++ st.d r5,r8 ++ st.d r4,r6 ++ st.d lr,r2 ++ st.d r0,r12 ++ st.d sp,r4 ++ st.d r12,r12 ++ .text ++ .global std_postinc ++std_postinc: ++ st.d pc++,r0 ++ st.d r12++,r14 ++ st.d r5++,r8 ++ st.d r4++,r6 ++ st.d lr++,r2 ++ st.d sp++,r6 ++ st.d r10++,r6 ++ st.d r7++,r2 ++ .text ++ .global std_predec ++std_predec: ++ st.d --pc,r0 ++ st.d --r12,r14 ++ st.d --r5,r8 ++ st.d --r4,r6 ++ st.d --lr,r2 ++ st.d --r3,r6 ++ st.d --lr,r2 ++ st.d --r0,r4 ++ .text ++ .global mul ++mul: ++ mul pc,pc ++ mul r12,r12 ++ mul r5,r5 ++ mul r4,r4 ++ mul lr,lr ++ mul r10,lr ++ mul r0,r8 ++ mul r8,r5 ++ .text ++ .global asr_imm5 ++asr_imm5: ++ asr pc,0 ++ asr r12,31 ++ asr r5,16 ++ asr r4,15 ++ asr lr,1 ++ asr r6,23 ++ asr r6,18 ++ asr r5,8 ++ .text ++ .global lsl_imm5 ++lsl_imm5: ++ lsl pc,0 ++ lsl r12,31 ++ lsl r5,16 ++ lsl r4,15 ++ lsl lr,1 ++ lsl r12,13 ++ lsl r6,16 ++ lsl r1,25 ++ .text ++ .global lsr_imm5 ++lsr_imm5: ++ lsr pc,0 ++ lsr r12,31 ++ lsr r5,16 ++ lsr r4,15 ++ lsr lr,1 ++ lsr r0,1 ++ lsr r8,10 ++ lsr r7,26 ++ .text ++ .global sbr ++sbr: ++ sbr pc,0 ++ sbr r12,31 ++ sbr r5,16 ++ sbr r4,15 ++ sbr lr,1 ++ sbr r8,31 ++ sbr r6,22 ++ sbr r1,23 ++ .text ++ .global cbr ++cbr: ++ cbr pc,0 ++ cbr r12,31 ++ cbr r5,16 ++ cbr r4,15 ++ cbr lr,1 ++ cbr r12,10 ++ cbr r7,22 ++ cbr r8,9 ++ .text ++ .global brc1 ++brc1: ++ breq 0 ++ brpl -2 ++ brge -256 ++ brcs 254 ++ brne 2 ++ brcs 230 ++ breq -18 ++ breq 12 ++ .text ++ .global rjmp ++rjmp: ++ rjmp 0 ++ rjmp -2 ++ rjmp -1024 ++ rjmp 1022 ++ rjmp 2 ++ rjmp -962 ++ rjmp 14 ++ rjmp -516 ++ .text ++ .global rcall1 ++rcall1: ++ rcall 0 ++ rcall -2 ++ rcall -1024 ++ rcall 1022 ++ rcall 2 ++ rcall 216 ++ rcall -530 ++ rcall -972 ++ .text ++ .global acall ++acall: ++ acall 0 ++ acall 1020 ++ acall 512 ++ acall 508 ++ acall 4 ++ acall 356 ++ acall 304 ++ acall 172 ++ .text ++ .global scall ++scall: ++ scall ++ scall ++ scall ++ scall ++ scall ++ scall ++ scall ++ scall ++ .text ++ .global popm ++popm: ++ /* popm with no argument fails currently */ ++ popm pc ++ popm r0-r11,pc,r12=-1 ++ popm lr ++ popm r0-r11,pc,r12=1 ++ popm r0-r3 ++ popm r4-r10,pc ++ popm r0-r3,r11,pc,r12=0 ++ popm r0-r7,r10-r12,lr ++ .text ++ .global pushm ++pushm: ++ pushm pc ++ pushm r0-r12,lr,pc ++ pushm pc ++ pushm r0-r12,lr ++ pushm r0-r3 ++ pushm r8-r10,lr,pc ++ pushm r0-r3,r10 ++ pushm r8-r9,r12 ++ .text ++ .global popm_n ++popm_n: ++ popm pc ++ popm r0-r11,pc,r12=-1 ++ popm lr ++ popm r0-r11,pc,r12=1 ++ popm r0-r3 ++ popm r4-r10,pc ++ popm r0-r3,r11,pc,r12=0 ++ popm r0-r7,r10-r12,lr ++ .text ++ .global pushm_n ++pushm_n: ++ pushm pc ++ pushm r0-r12,lr,pc ++ pushm pc ++ pushm r0-r12,lr ++ pushm r0-r3 ++ pushm r8-r10,lr,pc ++ pushm r0-r3,r10 ++ pushm r8-r9,r12 ++ .text ++ .global csrfcz ++csrfcz: ++ csrfcz 0 ++ csrfcz 31 ++ csrfcz 16 ++ csrfcz 15 ++ csrfcz 1 ++ csrfcz 5 ++ csrfcz 13 ++ csrfcz 23 ++ .text ++ .global ssrf ++ssrf: ++ ssrf 0 ++ ssrf 31 ++ ssrf 16 ++ ssrf 15 ++ ssrf 1 ++ ssrf 29 ++ ssrf 13 ++ ssrf 13 ++ .text ++ .global csrf ++csrf: ++ csrf 0 ++ csrf 31 ++ csrf 16 ++ csrf 15 ++ csrf 1 ++ csrf 10 ++ csrf 15 ++ csrf 11 ++ .text ++ .global rete ++rete: ++ rete ++ .text ++ .global rets ++rets: ++ rets ++ .text ++ .global retd ++retd: ++ retd ++ .text ++ .global retj ++retj: ++ retj ++ .text ++ .global tlbr ++tlbr: ++ tlbr ++ .text ++ .global tlbs ++tlbs: ++ tlbs ++ .text ++ .global tlbw ++tlbw: ++ tlbw ++ .text ++ .global breakpoint ++breakpoint: ++ breakpoint ++ .text ++ .global incjosp ++incjosp: ++ incjosp 1 ++ incjosp 2 ++ incjosp 3 ++ incjosp 4 ++ incjosp -4 ++ incjosp -3 ++ incjosp -2 ++ incjosp -1 ++ .text ++ .global nop ++nop: ++ nop ++ .text ++ .global popjc ++popjc: ++ popjc ++ .text ++ .global pushjc ++pushjc: ++ pushjc ++ .text ++ .global add2 ++add2: ++ add pc,pc,pc<<0 ++ add r12,r12,r12<<3 ++ add r5,r5,r5<<2 ++ add r4,r4,r4<<1 ++ add lr,lr,lr<<1 ++ add r0,r12,r0<<1 ++ add r9,r12,r4<<0 ++ add r12,r12,r7<<2 ++ .text ++ .global sub2 ++sub2: ++ sub pc,pc,pc<<0 ++ sub r12,r12,r12<<3 ++ sub r5,r5,r5<<2 ++ sub r4,r4,r4<<1 ++ sub lr,lr,lr<<1 ++ sub sp,r3,r4<<0 ++ sub r3,r7,r3<<0 ++ sub sp,r10,sp<<1 ++ .text ++ .global divu ++divu: ++ divu pc,pc,pc ++ divu r12,r12,r12 ++ divu r5,r5,r5 ++ divu r4,r4,r4 ++ divu lr,lr,lr ++ divu sp,r4,pc ++ divu r5,r5,sp ++ divu r10,sp,r0 ++ .text ++ .global addhh_w ++addhh_w: ++ addhh.w pc,pc:b,pc:b ++ addhh.w r12,r12:t,r12:t ++ addhh.w r5,r5:t,r5:t ++ addhh.w r4,r4:b,r4:b ++ addhh.w lr,lr:t,lr:t ++ addhh.w r0,r0:b,r3:b ++ addhh.w lr,r12:t,r7:b ++ addhh.w r3,r10:t,r2:b ++ .text ++ .global subhh_w ++subhh_w: ++ subhh.w pc,pc:b,pc:b ++ subhh.w r12,r12:t,r12:t ++ subhh.w r5,r5:t,r5:t ++ subhh.w r4,r4:b,r4:b ++ subhh.w lr,lr:t,lr:t ++ subhh.w r10,r1:t,r7:b ++ subhh.w pc,r10:t,lr:t ++ subhh.w r3,r0:t,r12:b ++ .text ++ .global adc ++adc: ++ adc pc,pc,pc ++ adc r12,r12,r12 ++ adc r5,r5,r5 ++ adc r4,r4,r4 ++ adc lr,lr,lr ++ adc r4,r0,r7 ++ adc sp,r4,r3 ++ adc r2,r12,r0 ++ .text ++ .global sbc ++sbc: ++ sbc pc,pc,pc ++ sbc r12,r12,r12 ++ sbc r5,r5,r5 ++ sbc r4,r4,r4 ++ sbc lr,lr,lr ++ sbc r6,r7,r9 ++ sbc r0,r8,r5 ++ sbc r1,r0,r4 ++ .text ++ .global mul_2 ++mul_2: ++ mul pc,pc,pc ++ mul r12,r12,r12 ++ mul r5,r5,r5 ++ mul r4,r4,r4 ++ mul lr,lr,lr ++ mul pc,r0,r0 ++ mul r8,pc,lr ++ mul r4,r12,pc ++ .text ++ .global mac ++mac: ++ mac pc,pc,pc ++ mac r12,r12,r12 ++ mac r5,r5,r5 ++ mac r4,r4,r4 ++ mac lr,lr,lr ++ mac r10,r4,r0 ++ mac r7,lr,r0 ++ mac r2,r9,r12 ++ .text ++ .global mulsd ++mulsd: ++ muls.d pc,pc,pc ++ muls.d r12,r12,r12 ++ muls.d r5,r5,r5 ++ muls.d r4,r4,r4 ++ muls.d lr,lr,lr ++ muls.d r2,r8,lr ++ muls.d r4,r0,r11 ++ muls.d r5,lr,r6 ++ .text ++ .global macsd ++macsd: ++ macs.d r0,pc,pc ++ macs.d r14,r12,r12 ++ macs.d r8,r5,r5 ++ macs.d r6,r4,r4 ++ macs.d r2,lr,lr ++ macs.d r8,r1,r9 ++ macs.d r14,r8,r8 ++ macs.d r4,r3,r12 ++ .text ++ .global mulud ++mulud: ++ mulu.d r0,pc,pc ++ mulu.d r14,r12,r12 ++ mulu.d r8,r5,r5 ++ mulu.d r6,r4,r4 ++ mulu.d r2,lr,lr ++ mulu.d r6,r5,r0 ++ mulu.d r4,r6,r1 ++ mulu.d r8,r8,r2 ++ .text ++ .global macud ++macud: ++ macu.d r0,pc,pc ++ macu.d r14,r12,r12 ++ macu.d r8,r5,r5 ++ macu.d r6,r4,r4 ++ macu.d r2,lr,lr ++ macu.d r6,sp,r11 ++ macu.d r2,r4,r8 ++ macu.d r6,r10,r9 ++ .text ++ .global asr_1 ++asr_1: ++ asr pc,pc,pc ++ asr r12,r12,r12 ++ asr r5,r5,r5 ++ asr r4,r4,r4 ++ asr lr,lr,lr ++ asr pc,r6,pc ++ asr r0,r6,r12 ++ asr r4,sp,r0 ++ .text ++ .global lsl_1 ++lsl_1: ++ lsl pc,pc,pc ++ lsl r12,r12,r12 ++ lsl r5,r5,r5 ++ lsl r4,r4,r4 ++ lsl lr,lr,lr ++ lsl lr,r5,lr ++ lsl r5,pc,r3 ++ lsl r1,pc,r9 ++ .text ++ .global lsr_1 ++lsr_1: ++ lsr pc,pc,pc ++ lsr r12,r12,r12 ++ lsr r5,r5,r5 ++ lsr r4,r4,r4 ++ lsr lr,lr,lr ++ lsr r2,r4,r1 ++ lsr r5,r1,r6 ++ lsr sp,r6,r7 ++ .text ++ .global xchg ++xchg: ++ xchg pc,pc,pc ++ xchg r12,r12,r12 ++ xchg r5,r5,r5 ++ xchg r4,r4,r4 ++ xchg lr,lr,lr ++ xchg lr,r4,sp ++ xchg r1,r5,r12 ++ xchg lr,r12,r0 ++ .text ++ .global max ++max: ++ max pc,pc,pc ++ max r12,r12,r12 ++ max r5,r5,r5 ++ max r4,r4,r4 ++ max lr,lr,lr ++ max lr,r2,sp ++ max r4,r10,r9 ++ max lr,r9,lr ++ .text ++ .global min ++min: ++ min pc,pc,pc ++ min r12,r12,r12 ++ min r5,r5,r5 ++ min r4,r4,r4 ++ min lr,lr,lr ++ min r9,r7,r8 ++ min sp,r5,r5 ++ min r4,r1,r4 ++ .text ++ .global addabs ++addabs: ++ addabs pc,pc,pc ++ addabs r12,r12,r12 ++ addabs r5,r5,r5 ++ addabs r4,r4,r4 ++ addabs lr,lr,lr ++ addabs r7,r10,r0 ++ addabs r9,r9,r7 ++ addabs r2,r8,r12 ++ .text ++ .global mulnhh_w ++mulnhh_w: ++ mulnhh.w pc,pc:b,pc:b ++ mulnhh.w r12,r12:t,r12:t ++ mulnhh.w r5,r5:t,r5:t ++ mulnhh.w r4,r4:b,r4:b ++ mulnhh.w lr,lr:t,lr:t ++ mulnhh.w r11,sp:t,r9:b ++ mulnhh.w sp,r4:b,lr:t ++ mulnhh.w r12,r2:t,r11:b ++ .text ++ .global mulnwh_d ++mulnwh_d: ++ mulnwh.d r0,pc,pc:b ++ mulnwh.d r14,r12,r12:t ++ mulnwh.d r8,r5,r5:t ++ mulnwh.d r6,r4,r4:b ++ mulnwh.d r2,lr,lr:t ++ mulnwh.d r14,r3,r2:t ++ mulnwh.d r4,r5,r9:b ++ mulnwh.d r12,r4,r4:t ++ .text ++ .global machh_w ++machh_w: ++ machh.w pc,pc:b,pc:b ++ machh.w r12,r12:t,r12:t ++ machh.w r5,r5:t,r5:t ++ machh.w r4,r4:b,r4:b ++ machh.w lr,lr:t,lr:t ++ machh.w lr,r5:b,r1:t ++ machh.w r9,r6:b,r7:b ++ machh.w r5,lr:t,r12:b ++ .text ++ .global machh_d ++machh_d: ++ machh.d r0,pc:b,pc:b ++ machh.d r14,r12:t,r12:t ++ machh.d r8,r5:t,r5:t ++ machh.d r6,r4:b,r4:b ++ machh.d r2,lr:t,lr:t ++ machh.d r10,r0:b,r8:b ++ machh.d r14,r4:b,r5:t ++ machh.d r8,r0:b,r4:t ++ .text ++ .global macsathh_w ++macsathh_w: ++ macsathh.w pc,pc:b,pc:b ++ macsathh.w r12,r12:t,r12:t ++ macsathh.w r5,r5:t,r5:t ++ macsathh.w r4,r4:b,r4:b ++ macsathh.w lr,lr:t,lr:t ++ macsathh.w r7,r7:t,pc:t ++ macsathh.w r4,r2:t,r4:b ++ macsathh.w r4,r8:t,r3:t ++ .text ++ .global mulhh_w ++mulhh_w: ++ mulhh.w pc,pc:b,pc:b ++ mulhh.w r12,r12:t,r12:t ++ mulhh.w r5,r5:t,r5:t ++ mulhh.w r4,r4:b,r4:b ++ mulhh.w lr,lr:t,lr:t ++ mulhh.w r7,r4:t,r9:b ++ mulhh.w pc,r3:t,r7:t ++ mulhh.w pc,r4:b,r9:t ++ .text ++ .global mulsathh_h ++mulsathh_h: ++ mulsathh.h pc,pc:b,pc:b ++ mulsathh.h r12,r12:t,r12:t ++ mulsathh.h r5,r5:t,r5:t ++ mulsathh.h r4,r4:b,r4:b ++ mulsathh.h lr,lr:t,lr:t ++ mulsathh.h r3,r1:b,sp:b ++ mulsathh.h r11,lr:t,r11:b ++ mulsathh.h r8,r8:b,r11:t ++ .text ++ .global mulsathh_w ++mulsathh_w: ++ mulsathh.w pc,pc:b,pc:b ++ mulsathh.w r12,r12:t,r12:t ++ mulsathh.w r5,r5:t,r5:t ++ mulsathh.w r4,r4:b,r4:b ++ mulsathh.w lr,lr:t,lr:t ++ mulsathh.w lr,r11:t,r6:b ++ mulsathh.w r6,r6:b,r7:t ++ mulsathh.w r10,r2:b,r3:b ++ .text ++ .global mulsatrndhh_h ++mulsatrndhh_h: ++ mulsatrndhh.h pc,pc:b,pc:b ++ mulsatrndhh.h r12,r12:t,r12:t ++ mulsatrndhh.h r5,r5:t,r5:t ++ mulsatrndhh.h r4,r4:b,r4:b ++ mulsatrndhh.h lr,lr:t,lr:t ++ mulsatrndhh.h r11,r6:b,r9:b ++ mulsatrndhh.h r11,r3:b,r8:t ++ mulsatrndhh.h r5,sp:t,r7:t ++ .text ++ .global mulsatrndwh_w ++mulsatrndwh_w: ++ mulsatrndwh.w pc,pc,pc:b ++ mulsatrndwh.w r12,r12,r12:t ++ mulsatrndwh.w r5,r5,r5:t ++ mulsatrndwh.w r4,r4,r4:b ++ mulsatrndwh.w lr,lr,lr:t ++ mulsatrndwh.w r5,r12,r0:b ++ mulsatrndwh.w r7,r10,pc:b ++ mulsatrndwh.w r10,r8,r5:t ++ .text ++ .global macwh_d ++macwh_d: ++ macwh.d r0,pc,pc:b ++ macwh.d r14,r12,r12:t ++ macwh.d r8,r5,r5:t ++ macwh.d r6,r4,r4:b ++ macwh.d r2,lr,lr:t ++ macwh.d r4,r10,r12:t ++ macwh.d r4,r7,sp:b ++ macwh.d r14,r9,r11:b ++ .text ++ .global mulwh_d ++mulwh_d: ++ mulwh.d r0,pc,pc:b ++ mulwh.d r14,r12,r12:t ++ mulwh.d r8,r5,r5:t ++ mulwh.d r6,r4,r4:b ++ mulwh.d r2,lr,lr:t ++ mulwh.d r12,r5,r1:b ++ mulwh.d r0,r1,r3:t ++ mulwh.d r0,r9,r2:b ++ .text ++ .global mulsatwh_w ++mulsatwh_w: ++ mulsatwh.w pc,pc,pc:b ++ mulsatwh.w r12,r12,r12:t ++ mulsatwh.w r5,r5,r5:t ++ mulsatwh.w r4,r4,r4:b ++ mulsatwh.w lr,lr,lr:t ++ mulsatwh.w r11,pc,r10:t ++ mulsatwh.w sp,r12,r9:t ++ mulsatwh.w r0,r3,r2:t ++ .text ++ .global ldw7 ++ldw7: ++ ld.w pc,pc[pc:b<<2] ++ ld.w r12,r12[r12:t<<2] ++ ld.w r5,r5[r5:u<<2] ++ ld.w r4,r4[r4:l<<2] ++ ld.w lr,lr[lr:l<<2] ++ ld.w r9,r10[r6:l<<2] ++ ld.w r2,r10[r10:b<<2] ++ ld.w r11,r5[pc:b<<2] ++ .text ++ .global satadd_w ++satadd_w: ++ satadd.w pc,pc,pc ++ satadd.w r12,r12,r12 ++ satadd.w r5,r5,r5 ++ satadd.w r4,r4,r4 ++ satadd.w lr,lr,lr ++ satadd.w r4,r8,r11 ++ satadd.w r3,r12,r6 ++ satadd.w r3,lr,r9 ++ .text ++ .global satsub_w1 ++satsub_w1: ++ satsub.w pc,pc,pc ++ satsub.w r12,r12,r12 ++ satsub.w r5,r5,r5 ++ satsub.w r4,r4,r4 ++ satsub.w lr,lr,lr ++ satsub.w r8,sp,r0 ++ satsub.w r9,r8,r4 ++ satsub.w pc,lr,r2 ++ .text ++ .global satadd_h ++satadd_h: ++ satadd.h pc,pc,pc ++ satadd.h r12,r12,r12 ++ satadd.h r5,r5,r5 ++ satadd.h r4,r4,r4 ++ satadd.h lr,lr,lr ++ satadd.h r7,r3,r9 ++ satadd.h r1,r0,r2 ++ satadd.h r1,r4,lr ++ .text ++ .global satsub_h ++satsub_h: ++ satsub.h pc,pc,pc ++ satsub.h r12,r12,r12 ++ satsub.h r5,r5,r5 ++ satsub.h r4,r4,r4 ++ satsub.h lr,lr,lr ++ satsub.h lr,lr,r3 ++ satsub.h r11,r6,r5 ++ satsub.h r3,sp,r0 ++ .text ++ .global mul3 ++mul3: ++ mul pc,pc,0 ++ mul r12,r12,-1 ++ mul r5,r5,-128 ++ mul r4,r4,127 ++ mul lr,lr,1 ++ mul r12,r2,-7 ++ mul r1,pc,95 ++ mul r4,r6,19 ++ .text ++ .global rsub2 ++rsub2: ++ rsub pc,pc,0 ++ rsub r12,r12,-1 ++ rsub r5,r5,-128 ++ rsub r4,r4,127 ++ rsub lr,lr,1 ++ rsub r9,lr,96 ++ rsub r11,r1,56 ++ rsub r0,r7,-87 ++ .text ++ .global clz ++clz: ++ clz pc,pc ++ clz r12,r12 ++ clz r5,r5 ++ clz r4,r4 ++ clz lr,lr ++ clz r2,r3 ++ clz r5,r11 ++ clz pc,r3 ++ .text ++ .global cpc1 ++cpc1: ++ cpc pc,pc ++ cpc r12,r12 ++ cpc r5,r5 ++ cpc r4,r4 ++ cpc lr,lr ++ cpc pc,r4 ++ cpc r5,r9 ++ cpc r6,r7 ++ .text ++ .global asr3 ++asr3: ++ asr pc,pc,0 ++ asr r12,r12,31 ++ asr r5,r5,16 ++ asr r4,r4,15 ++ asr lr,lr,1 ++ asr r4,r11,19 ++ asr sp,pc,26 ++ asr r11,sp,8 ++ .text ++ .global lsl3 ++lsl3: ++ lsl pc,pc,0 ++ lsl r12,r12,31 ++ lsl r5,r5,16 ++ lsl r4,r4,15 ++ lsl lr,lr,1 ++ lsl r8,r10,17 ++ lsl r2,lr,3 ++ lsl lr,r11,14 ++ .text ++ .global lsr3 ++lsr3: ++ lsr pc,pc,0 ++ lsr r12,r12,31 ++ lsr r5,r5,16 ++ lsr r4,r4,15 ++ lsr lr,lr,1 ++ lsr r4,r3,31 ++ lsr pc,r9,14 ++ lsr r3,r0,6 ++/* .text ++ .global extract_b ++extract_b: ++ extract.b pc,pc:b ++ extract.b r12,r12:t ++ extract.b r5,r5:u ++ extract.b r4,r4:l ++ extract.b lr,lr:l ++ extract.b r2,r5:l ++ extract.b r12,r3:l ++ extract.b sp,r3:l ++ .text ++ .global insert_b ++insert_b: ++ insert.b pc:b,pc ++ insert.b r12:t,r12 ++ insert.b r5:u,r5 ++ insert.b r4:l,r4 ++ insert.b lr:l,lr ++ insert.b r12:u,r3 ++ insert.b r10:l,lr ++ insert.b r11:l,r12 ++ .text ++ .global extract_h ++extract_h: ++ extract.h pc,pc:b ++ extract.h r12,r12:t ++ extract.h r5,r5:t ++ extract.h r4,r4:b ++ extract.h lr,lr:t ++ extract.h r11,lr:b ++ extract.h r10,r0:b ++ extract.h r11,r12:b ++ .text ++ .global insert_h ++insert_h: ++ insert.h pc:b,pc ++ insert.h r12:t,r12 ++ insert.h r5:t,r5 ++ insert.h r4:b,r4 ++ insert.h lr:t,lr ++ insert.h r12:t,r11 ++ insert.h r7:b,r6 ++ insert.h r1:t,r11 */ ++ .text ++ .global movc1 ++movc1: ++ moveq pc,pc ++ moval r12,r12 ++ movls r5,r5 ++ movpl r4,r4 ++ movne lr,lr ++ movne pc,r11 ++ movmi r10,r2 ++ movls r8,r12 ++ .text ++ .global padd_h ++padd_h: ++ padd.h pc,pc,pc ++ padd.h r12,r12,r12 ++ padd.h r5,r5,r5 ++ padd.h r4,r4,r4 ++ padd.h lr,lr,lr ++ padd.h r8,r2,r7 ++ padd.h r0,r0,r3 ++ padd.h sp,r11,r6 ++ .text ++ .global psub_h ++psub_h: ++ psub.h pc,pc,pc ++ psub.h r12,r12,r12 ++ psub.h r5,r5,r5 ++ psub.h r4,r4,r4 ++ psub.h lr,lr,lr ++ psub.h lr,r6,r8 ++ psub.h r0,r1,sp ++ psub.h pc,pc,sp ++ .text ++ .global paddx_h ++paddx_h: ++ paddx.h pc,pc,pc ++ paddx.h r12,r12,r12 ++ paddx.h r5,r5,r5 ++ paddx.h r4,r4,r4 ++ paddx.h lr,lr,lr ++ paddx.h pc,pc,r1 ++ paddx.h r10,r4,r5 ++ paddx.h r5,pc,r2 ++ .text ++ .global psubx_h ++psubx_h: ++ psubx.h pc,pc,pc ++ psubx.h r12,r12,r12 ++ psubx.h r5,r5,r5 ++ psubx.h r4,r4,r4 ++ psubx.h lr,lr,lr ++ psubx.h r5,r12,r5 ++ psubx.h r3,r8,r3 ++ psubx.h r5,r2,r3 ++ .text ++ .global padds_sh ++padds_sh: ++ padds.sh pc,pc,pc ++ padds.sh r12,r12,r12 ++ padds.sh r5,r5,r5 ++ padds.sh r4,r4,r4 ++ padds.sh lr,lr,lr ++ padds.sh r9,lr,r2 ++ padds.sh r6,r8,r1 ++ padds.sh r6,r4,r10 ++ .text ++ .global psubs_sh ++psubs_sh: ++ psubs.sh pc,pc,pc ++ psubs.sh r12,r12,r12 ++ psubs.sh r5,r5,r5 ++ psubs.sh r4,r4,r4 ++ psubs.sh lr,lr,lr ++ psubs.sh r6,lr,r11 ++ psubs.sh r2,r12,r4 ++ psubs.sh r0,r9,r0 ++ .text ++ .global paddxs_sh ++paddxs_sh: ++ paddxs.sh pc,pc,pc ++ paddxs.sh r12,r12,r12 ++ paddxs.sh r5,r5,r5 ++ paddxs.sh r4,r4,r4 ++ paddxs.sh lr,lr,lr ++ paddxs.sh r0,r3,r9 ++ paddxs.sh pc,r10,r11 ++ paddxs.sh pc,r10,pc ++ .text ++ .global psubxs_sh ++psubxs_sh: ++ psubxs.sh pc,pc,pc ++ psubxs.sh r12,r12,r12 ++ psubxs.sh r5,r5,r5 ++ psubxs.sh r4,r4,r4 ++ psubxs.sh lr,lr,lr ++ psubxs.sh r7,r4,r4 ++ psubxs.sh r7,r8,r3 ++ psubxs.sh pc,r6,r5 ++ .text ++ .global padds_uh ++padds_uh: ++ padds.uh pc,pc,pc ++ padds.uh r12,r12,r12 ++ padds.uh r5,r5,r5 ++ padds.uh r4,r4,r4 ++ padds.uh lr,lr,lr ++ padds.uh r12,r11,r7 ++ padds.uh r7,r8,lr ++ padds.uh r6,r9,r7 ++ .text ++ .global psubs_uh ++psubs_uh: ++ psubs.uh pc,pc,pc ++ psubs.uh r12,r12,r12 ++ psubs.uh r5,r5,r5 ++ psubs.uh r4,r4,r4 ++ psubs.uh lr,lr,lr ++ psubs.uh lr,r10,r6 ++ psubs.uh sp,r2,pc ++ psubs.uh r2,r9,r2 ++ .text ++ .global paddxs_uh ++paddxs_uh: ++ paddxs.uh pc,pc,pc ++ paddxs.uh r12,r12,r12 ++ paddxs.uh r5,r5,r5 ++ paddxs.uh r4,r4,r4 ++ paddxs.uh lr,lr,lr ++ paddxs.uh r7,r9,r5 ++ paddxs.uh r9,r1,r4 ++ paddxs.uh r5,r2,r3 ++ .text ++ .global psubxs_uh ++psubxs_uh: ++ psubxs.uh pc,pc,pc ++ psubxs.uh r12,r12,r12 ++ psubxs.uh r5,r5,r5 ++ psubxs.uh r4,r4,r4 ++ psubxs.uh lr,lr,lr ++ psubxs.uh sp,r5,sp ++ psubxs.uh sp,r6,r6 ++ psubxs.uh r3,r11,r8 ++ .text ++ .global paddh_sh ++paddh_sh: ++ paddh.sh pc,pc,pc ++ paddh.sh r12,r12,r12 ++ paddh.sh r5,r5,r5 ++ paddh.sh r4,r4,r4 ++ paddh.sh lr,lr,lr ++ paddh.sh r12,sp,r3 ++ paddh.sh pc,r5,r3 ++ paddh.sh r8,r8,sp ++ .text ++ .global psubh_sh ++psubh_sh: ++ psubh.sh pc,pc,pc ++ psubh.sh r12,r12,r12 ++ psubh.sh r5,r5,r5 ++ psubh.sh r4,r4,r4 ++ psubh.sh lr,lr,lr ++ psubh.sh r1,r5,r8 ++ psubh.sh r7,r3,r6 ++ psubh.sh r4,r3,r3 ++ .text ++ .global paddxh_sh ++paddxh_sh: ++ paddxh.sh pc,pc,pc ++ paddxh.sh r12,r12,r12 ++ paddxh.sh r5,r5,r5 ++ paddxh.sh r4,r4,r4 ++ paddxh.sh lr,lr,lr ++ paddxh.sh r6,r0,r4 ++ paddxh.sh r9,r8,r9 ++ paddxh.sh r3,r0,sp ++ .text ++ .global psubxh_sh ++psubxh_sh: ++ psubxh.sh pc,pc,pc ++ psubxh.sh r12,r12,r12 ++ psubxh.sh r5,r5,r5 ++ psubxh.sh r4,r4,r4 ++ psubxh.sh lr,lr,lr ++ psubxh.sh r4,pc,r12 ++ psubxh.sh r8,r4,r6 ++ psubxh.sh r12,r9,r4 ++ .text ++ .global paddsub_h ++paddsub_h: ++ paddsub.h pc,pc:b,pc:b ++ paddsub.h r12,r12:t,r12:t ++ paddsub.h r5,r5:t,r5:t ++ paddsub.h r4,r4:b,r4:b ++ paddsub.h lr,lr:t,lr:t ++ paddsub.h r5,r2:t,lr:b ++ paddsub.h r7,r1:b,r8:b ++ paddsub.h r6,r10:t,r5:t ++ .text ++ .global psubadd_h ++psubadd_h: ++ psubadd.h pc,pc:b,pc:b ++ psubadd.h r12,r12:t,r12:t ++ psubadd.h r5,r5:t,r5:t ++ psubadd.h r4,r4:b,r4:b ++ psubadd.h lr,lr:t,lr:t ++ psubadd.h r9,r11:t,r8:t ++ psubadd.h r10,r7:t,lr:t ++ psubadd.h r6,pc:t,pc:b ++ .text ++ .global paddsubs_sh ++paddsubs_sh: ++ paddsubs.sh pc,pc:b,pc:b ++ paddsubs.sh r12,r12:t,r12:t ++ paddsubs.sh r5,r5:t,r5:t ++ paddsubs.sh r4,r4:b,r4:b ++ paddsubs.sh lr,lr:t,lr:t ++ paddsubs.sh r0,lr:t,r0:b ++ paddsubs.sh r9,r2:t,r4:t ++ paddsubs.sh r12,r9:t,sp:t ++ .text ++ .global psubadds_sh ++psubadds_sh: ++ psubadds.sh pc,pc:b,pc:b ++ psubadds.sh r12,r12:t,r12:t ++ psubadds.sh r5,r5:t,r5:t ++ psubadds.sh r4,r4:b,r4:b ++ psubadds.sh lr,lr:t,lr:t ++ psubadds.sh pc,lr:b,r1:t ++ psubadds.sh r11,r3:b,r12:b ++ psubadds.sh r10,r2:t,r8:t ++ .text ++ .global paddsubs_uh ++paddsubs_uh: ++ paddsubs.uh pc,pc:b,pc:b ++ paddsubs.uh r12,r12:t,r12:t ++ paddsubs.uh r5,r5:t,r5:t ++ paddsubs.uh r4,r4:b,r4:b ++ paddsubs.uh lr,lr:t,lr:t ++ paddsubs.uh r9,r2:b,r3:b ++ paddsubs.uh sp,sp:b,r7:t ++ paddsubs.uh lr,r0:b,r10:t ++ .text ++ .global psubadds_uh ++psubadds_uh: ++ psubadds.uh pc,pc:b,pc:b ++ psubadds.uh r12,r12:t,r12:t ++ psubadds.uh r5,r5:t,r5:t ++ psubadds.uh r4,r4:b,r4:b ++ psubadds.uh lr,lr:t,lr:t ++ psubadds.uh r12,r9:t,pc:t ++ psubadds.uh r8,r6:b,r8:b ++ psubadds.uh r8,r8:b,r4:b ++ .text ++ .global paddsubh_sh ++paddsubh_sh: ++ paddsubh.sh pc,pc:b,pc:b ++ paddsubh.sh r12,r12:t,r12:t ++ paddsubh.sh r5,r5:t,r5:t ++ paddsubh.sh r4,r4:b,r4:b ++ paddsubh.sh lr,lr:t,lr:t ++ paddsubh.sh r8,r9:t,r9:b ++ paddsubh.sh r0,sp:t,r1:t ++ paddsubh.sh r3,r1:b,r0:t ++ .text ++ .global psubaddh_sh ++psubaddh_sh: ++ psubaddh.sh pc,pc:b,pc:b ++ psubaddh.sh r12,r12:t,r12:t ++ psubaddh.sh r5,r5:t,r5:t ++ psubaddh.sh r4,r4:b,r4:b ++ psubaddh.sh lr,lr:t,lr:t ++ psubaddh.sh r7,r3:t,r10:b ++ psubaddh.sh r7,r2:t,r1:t ++ psubaddh.sh r11,r3:b,r6:b ++ .text ++ .global padd_b ++padd_b: ++ padd.b pc,pc,pc ++ padd.b r12,r12,r12 ++ padd.b r5,r5,r5 ++ padd.b r4,r4,r4 ++ padd.b lr,lr,lr ++ padd.b r2,r6,pc ++ padd.b r8,r9,r12 ++ padd.b r5,r12,r3 ++ .text ++ .global psub_b ++psub_b: ++ psub.b pc,pc,pc ++ psub.b r12,r12,r12 ++ psub.b r5,r5,r5 ++ psub.b r4,r4,r4 ++ psub.b lr,lr,lr ++ psub.b r0,r12,pc ++ psub.b r7,sp,r10 ++ psub.b r5,sp,r12 ++ .text ++ .global padds_sb ++padds_sb: ++ padds.sb pc,pc,pc ++ padds.sb r12,r12,r12 ++ padds.sb r5,r5,r5 ++ padds.sb r4,r4,r4 ++ padds.sb lr,lr,lr ++ padds.sb sp,r11,r4 ++ padds.sb r11,r10,r11 ++ padds.sb r5,r12,r6 ++ .text ++ .global psubs_sb ++psubs_sb: ++ psubs.sb pc,pc,pc ++ psubs.sb r12,r12,r12 ++ psubs.sb r5,r5,r5 ++ psubs.sb r4,r4,r4 ++ psubs.sb lr,lr,lr ++ psubs.sb r7,r6,r8 ++ psubs.sb r12,r10,r9 ++ psubs.sb pc,r11,r0 ++ .text ++ .global padds_ub ++padds_ub: ++ padds.ub pc,pc,pc ++ padds.ub r12,r12,r12 ++ padds.ub r5,r5,r5 ++ padds.ub r4,r4,r4 ++ padds.ub lr,lr,lr ++ padds.ub r3,r2,r11 ++ padds.ub r10,r8,r1 ++ padds.ub r11,r8,r10 ++ .text ++ .global psubs_ub ++psubs_ub: ++ psubs.ub pc,pc,pc ++ psubs.ub r12,r12,r12 ++ psubs.ub r5,r5,r5 ++ psubs.ub r4,r4,r4 ++ psubs.ub lr,lr,lr ++ psubs.ub r0,r2,r7 ++ psubs.ub lr,r5,r3 ++ psubs.ub r6,r7,r9 ++ .text ++ .global paddh_ub ++paddh_ub: ++ paddh.ub pc,pc,pc ++ paddh.ub r12,r12,r12 ++ paddh.ub r5,r5,r5 ++ paddh.ub r4,r4,r4 ++ paddh.ub lr,lr,lr ++ paddh.ub lr,r1,r0 ++ paddh.ub r2,r7,r7 ++ paddh.ub r2,r1,r2 ++ .text ++ .global psubh_ub ++psubh_ub: ++ psubh.ub pc,pc,pc ++ psubh.ub r12,r12,r12 ++ psubh.ub r5,r5,r5 ++ psubh.ub r4,r4,r4 ++ psubh.ub lr,lr,lr ++ psubh.ub r0,r1,r6 ++ psubh.ub r4,lr,r10 ++ psubh.ub r9,r8,r1 ++ .text ++ .global pmax_ub ++pmax_ub: ++ pmax.ub pc,pc,pc ++ pmax.ub r12,r12,r12 ++ pmax.ub r5,r5,r5 ++ pmax.ub r4,r4,r4 ++ pmax.ub lr,lr,lr ++ pmax.ub pc,r2,r11 ++ pmax.ub r12,r1,r1 ++ pmax.ub r5,r2,r0 ++ .text ++ .global pmax_sh ++pmax_sh: ++ pmax.sh pc,pc,pc ++ pmax.sh r12,r12,r12 ++ pmax.sh r5,r5,r5 ++ pmax.sh r4,r4,r4 ++ pmax.sh lr,lr,lr ++ pmax.sh lr,r6,r12 ++ pmax.sh r2,pc,r5 ++ pmax.sh pc,r2,r7 ++ .text ++ .global pmin_ub ++pmin_ub: ++ pmin.ub pc,pc,pc ++ pmin.ub r12,r12,r12 ++ pmin.ub r5,r5,r5 ++ pmin.ub r4,r4,r4 ++ pmin.ub lr,lr,lr ++ pmin.ub r8,r1,r5 ++ pmin.ub r1,r8,r3 ++ pmin.ub r0,r2,r7 ++ .text ++ .global pmin_sh ++pmin_sh: ++ pmin.sh pc,pc,pc ++ pmin.sh r12,r12,r12 ++ pmin.sh r5,r5,r5 ++ pmin.sh r4,r4,r4 ++ pmin.sh lr,lr,lr ++ pmin.sh r8,r4,r10 ++ pmin.sh lr,r10,r12 ++ pmin.sh r2,r6,r2 ++ .text ++ .global pavg_ub ++pavg_ub: ++ pavg.ub pc,pc,pc ++ pavg.ub r12,r12,r12 ++ pavg.ub r5,r5,r5 ++ pavg.ub r4,r4,r4 ++ pavg.ub lr,lr,lr ++ pavg.ub r0,r1,r6 ++ pavg.ub r8,r3,r6 ++ pavg.ub pc,r12,r10 ++ .text ++ .global pavg_sh ++pavg_sh: ++ pavg.sh pc,pc,pc ++ pavg.sh r12,r12,r12 ++ pavg.sh r5,r5,r5 ++ pavg.sh r4,r4,r4 ++ pavg.sh lr,lr,lr ++ pavg.sh r9,pc,sp ++ pavg.sh pc,sp,r3 ++ pavg.sh r6,r1,r9 ++ .text ++ .global pabs_sb ++pabs_sb: ++ pabs.sb pc,pc ++ pabs.sb r12,r12 ++ pabs.sb r5,r5 ++ pabs.sb r4,r4 ++ pabs.sb lr,lr ++ pabs.sb r11,r6 ++ pabs.sb lr,r9 ++ pabs.sb sp,r7 ++ .text ++ .global pabs_sh ++pabs_sh: ++ pabs.sh pc,pc ++ pabs.sh r12,r12 ++ pabs.sh r5,r5 ++ pabs.sh r4,r4 ++ pabs.sh lr,lr ++ pabs.sh pc,r3 ++ pabs.sh r5,r7 ++ pabs.sh r4,r0 ++ .text ++ .global psad ++psad: ++ psad pc,pc,pc ++ psad r12,r12,r12 ++ psad r5,r5,r5 ++ psad r4,r4,r4 ++ psad lr,lr,lr ++ psad r9,r11,r11 ++ psad lr,r4,sp ++ psad lr,r4,r5 ++ .text ++ .global pasr_b ++pasr_b: ++ pasr.b pc,pc,0 ++ pasr.b r12,r12,7 ++ pasr.b r5,r5,4 ++ pasr.b r4,r4,3 ++ pasr.b lr,lr,1 ++ pasr.b pc,r7,1 ++ pasr.b sp,lr,6 ++ pasr.b sp,r3,2 ++ .text ++ .global plsl_b ++plsl_b: ++ plsl.b pc,pc,0 ++ plsl.b r12,r12,7 ++ plsl.b r5,r5,4 ++ plsl.b r4,r4,3 ++ plsl.b lr,lr,1 ++ plsl.b r2,r11,4 ++ plsl.b r8,r5,7 ++ plsl.b pc,r0,2 ++ .text ++ .global plsr_b ++plsr_b: ++ plsr.b pc,pc,0 ++ plsr.b r12,r12,7 ++ plsr.b r5,r5,4 ++ plsr.b r4,r4,3 ++ plsr.b lr,lr,1 ++ plsr.b r12,r1,2 ++ plsr.b r6,pc,7 ++ plsr.b r12,r11,2 ++ .text ++ .global pasr_h ++pasr_h: ++ pasr.h pc,pc,0 ++ pasr.h r12,r12,15 ++ pasr.h r5,r5,8 ++ pasr.h r4,r4,7 ++ pasr.h lr,lr,1 ++ pasr.h r0,r11,10 ++ pasr.h r4,r6,8 ++ pasr.h r6,r2,4 ++ .text ++ .global plsl_h ++plsl_h: ++ plsl.h pc,pc,0 ++ plsl.h r12,r12,15 ++ plsl.h r5,r5,8 ++ plsl.h r4,r4,7 ++ plsl.h lr,lr,1 ++ plsl.h r5,r10,9 ++ plsl.h sp,lr,8 ++ plsl.h r0,lr,7 ++ .text ++ .global plsr_h ++plsr_h: ++ plsr.h pc,pc,0 ++ plsr.h r12,r12,15 ++ plsr.h r5,r5,8 ++ plsr.h r4,r4,7 ++ plsr.h lr,lr,1 ++ plsr.h r11,r0,15 ++ plsr.h lr,r3,3 ++ plsr.h r8,lr,10 ++ .text ++ .global packw_sh ++packw_sh: ++ packw.sh pc,pc,pc ++ packw.sh r12,r12,r12 ++ packw.sh r5,r5,r5 ++ packw.sh r4,r4,r4 ++ packw.sh lr,lr,lr ++ packw.sh sp,r11,r10 ++ packw.sh r8,r2,r12 ++ packw.sh r8,r1,r5 ++ .text ++ .global punpckub_h ++punpckub_h: ++ punpckub.h pc,pc:b ++ punpckub.h r12,r12:t ++ punpckub.h r5,r5:t ++ punpckub.h r4,r4:b ++ punpckub.h lr,lr:t ++ punpckub.h r6,r1:t ++ punpckub.h lr,r5:b ++ punpckub.h lr,r2:t ++ .text ++ .global punpcksb_h ++punpcksb_h: ++ punpcksb.h pc,pc:b ++ punpcksb.h r12,r12:t ++ punpcksb.h r5,r5:t ++ punpcksb.h r4,r4:b ++ punpcksb.h lr,lr:t ++ punpcksb.h r4,r7:t ++ punpcksb.h r6,lr:b ++ punpcksb.h r12,r12:t ++ .text ++ .global packsh_ub ++packsh_ub: ++ packsh.ub pc,pc,pc ++ packsh.ub r12,r12,r12 ++ packsh.ub r5,r5,r5 ++ packsh.ub r4,r4,r4 ++ packsh.ub lr,lr,lr ++ packsh.ub r3,r6,r3 ++ packsh.ub r8,r0,r3 ++ packsh.ub r9,r3,lr ++ .text ++ .global packsh_sb ++packsh_sb: ++ packsh.sb pc,pc,pc ++ packsh.sb r12,r12,r12 ++ packsh.sb r5,r5,r5 ++ packsh.sb r4,r4,r4 ++ packsh.sb lr,lr,lr ++ packsh.sb r6,r8,r1 ++ packsh.sb lr,r9,r8 ++ packsh.sb sp,r6,r6 ++ .text ++ .global andl ++andl: ++ andl pc,0 ++ andl r12,65535 ++ andl r5,32768 ++ andl r4,32767 ++ andl lr,1 ++ andl pc,23128 ++ andl r8,47262 ++ andl r7,13719 ++ .text ++ .global andl_coh ++andl_coh: ++ andl pc,0,COH ++ andl r12,65535,COH ++ andl r5,32768,COH ++ andl r4,32767,COH ++ andl lr,1,COH ++ andl r6,22753,COH ++ andl r0,40653,COH ++ andl r4,48580,COH ++ .text ++ .global andh ++andh: ++ andh pc,0 ++ andh r12,65535 ++ andh r5,32768 ++ andh r4,32767 ++ andh lr,1 ++ andh r12,52312 ++ andh r3,8675 ++ andh r2,42987 ++ .text ++ .global andh_coh ++andh_coh: ++ andh pc,0,COH ++ andh r12,65535,COH ++ andh r5,32768,COH ++ andh r4,32767,COH ++ andh lr,1,COH ++ andh r11,34317,COH ++ andh r8,52982,COH ++ andh r10,23683,COH ++ .text ++ .global orl ++orl: ++ orl pc,0 ++ orl r12,65535 ++ orl r5,32768 ++ orl r4,32767 ++ orl lr,1 ++ orl sp,16766 ++ orl r0,21181 ++ orl pc,44103 ++ .text ++ .global orh ++orh: ++ orh pc,0 ++ orh r12,65535 ++ orh r5,32768 ++ orh r4,32767 ++ orh lr,1 ++ orh r8,28285 ++ orh r12,30492 ++ orh r1,59930 ++ .text ++ .global eorl ++eorl: ++ eorl pc,0 ++ eorl r12,65535 ++ eorl r5,32768 ++ eorl r4,32767 ++ eorl lr,1 ++ eorl r4,51129 ++ eorl r6,64477 ++ eorl r1,20913 ++ .text ++ .global eorh ++eorh: ++ eorh pc,0 ++ eorh r12,65535 ++ eorh r5,32768 ++ eorh r4,32767 ++ eorh lr,1 ++ eorh r0,11732 ++ eorh r10,38069 ++ eorh r9,57130 ++ .text ++ .global mcall ++mcall: ++ mcall pc[0] ++ mcall r12[-4] ++ mcall r5[-131072] ++ mcall r4[131068] ++ mcall lr[4] ++ mcall sp[61180] ++ mcall r4[-35000] ++ mcall r0[9924] ++ .text ++ .global pref ++pref: ++ pref pc[0] ++ pref r12[-1] ++ pref r5[-32768] ++ pref r4[32767] ++ pref lr[1] ++ pref r7[7748] ++ pref r7[-7699] ++ pref r2[-25892] ++ .text ++ .global cache ++cache: ++ cache pc[0],0 ++ cache r12[-1],31 ++ cache r5[-1024],16 ++ cache r4[1023],15 ++ cache lr[1],1 ++ cache r3[-964],17 ++ cache r4[-375],22 ++ cache r3[-888],17 ++ .text ++ .global sub4 ++sub4: ++ sub pc,0 ++ sub r12,-1 ++ sub r5,-1048576 ++ sub r4,1048575 ++ sub lr,1 ++ sub r2,-619156 ++ sub lr,461517 ++ sub r8,-185051 ++ .text ++ .global cp3 ++cp3: ++ cp pc,0 ++ cp r12,-1 ++ cp r5,-1048576 ++ cp r4,1048575 ++ cp lr,1 ++ cp r1,124078 ++ cp r0,-378909 ++ cp r4,-243180 ++ .text ++ .global mov2 ++mov2: ++ mov pc,0 ++ mov r12,-1 ++ mov r5,-1048576 ++ mov r4,1048575 ++ mov lr,1 ++ mov r5,-317021 ++ mov sp,-749164 ++ mov r5,940179 ++ .text ++ .global brc2 ++brc2: ++ breq 0 ++ bral -2 ++ brls -2097152 ++ brpl 2097150 ++ brne 2 ++ brhi -1796966 ++ brqs 1321368 ++ brls -577434 ++ .text ++ .global rcall2 ++rcall2: ++ rcall 0 ++ rcall -2 ++ rcall -2097152 ++ rcall 2097150 ++ rcall 2 ++ rcall 496820 ++ rcall 1085092 ++ rcall -1058 ++ .text ++ .global sub5 ++sub5: ++ sub pc,pc,0 ++ sub r12,r12,-1 ++ sub r5,r5,-32768 ++ sub r4,r4,32767 ++ sub lr,lr,1 ++ sub pc,pc,-12744 ++ sub r7,r7,-27365 ++ sub r2,r9,-17358 ++ .text ++ .global satsub_w2 ++satsub_w2: ++ satsub.w pc,pc,0 ++ satsub.w r12,r12,-1 ++ satsub.w r5,r5,-32768 ++ satsub.w r4,r4,32767 ++ satsub.w lr,lr,1 ++ satsub.w r2,lr,-2007 ++ satsub.w r7,r12,-784 ++ satsub.w r4,r7,23180 ++ .text ++ .global ld_d4 ++ld_d4: ++ ld.d r0,pc[0] ++ ld.d r14,r12[-1] ++ ld.d r8,r5[-32768] ++ ld.d r6,r4[32767] ++ ld.d r2,lr[1] ++ ld.d r14,r11[14784] ++ ld.d r6,r9[-18905] ++ ld.d r2,r3[-6355] ++ .text ++ .global ld_w4 ++ld_w4: ++ ld.w pc,pc[0] ++ ld.w r12,r12[-1] ++ ld.w r5,r5[-32768] ++ ld.w r4,r4[32767] ++ ld.w lr,lr[1] ++ ld.w r0,r12[-22133] ++ ld.w sp,pc[-20521] ++ /* ld.w r3,r5[29035] */ ++ nop ++ .text ++ .global ld_sh4 ++ld_sh4: ++ ld.sh pc,pc[0] ++ ld.sh r12,r12[-1] ++ ld.sh r5,r5[-32768] ++ ld.sh r4,r4[32767] ++ ld.sh lr,lr[1] ++ ld.sh r6,r10[30930] ++ ld.sh r6,r10[21973] ++ /* ld.sh r11,r10[-2058] */ ++ nop ++ .text ++ .global ld_uh4 ++ld_uh4: ++ ld.uh pc,pc[0] ++ ld.uh r12,r12[-1] ++ ld.uh r5,r5[-32768] ++ ld.uh r4,r4[32767] ++ ld.uh lr,lr[1] ++ ld.uh r1,r9[-13354] ++ ld.uh lr,r11[21337] ++ /* ld.uh r2,lr[-25370] */ ++ nop ++ .text ++ .global ld_sb1 ++ld_sb1: ++ ld.sb pc,pc[0] ++ ld.sb r12,r12[-1] ++ ld.sb r5,r5[-32768] ++ ld.sb r4,r4[32767] ++ ld.sb lr,lr[1] ++ ld.sb r7,sp[-28663] ++ ld.sb r2,r1[-5879] ++ ld.sb r12,r3[18734] ++ .text ++ .global ld_ub4 ++ld_ub4: ++ ld.ub pc,pc[0] ++ ld.ub r12,r12[-1] ++ ld.ub r5,r5[-32768] ++ ld.ub r4,r4[32767] ++ ld.ub lr,lr[1] ++ ld.ub pc,r4[8277] ++ ld.ub r5,r12[19172] ++ ld.ub r10,lr[26347] ++ .text ++ .global st_d4 ++st_d4: ++ st.d pc[0],r0 ++ st.d r12[-1],r14 ++ st.d r5[-32768],r8 ++ st.d r4[32767],r6 ++ st.d lr[1],r2 ++ st.d r5[13200],r10 ++ st.d r5[9352],r10 ++ st.d r5[32373],r4 ++ .text ++ .global st_w4 ++st_w4: ++ st.w pc[0],pc ++ st.w r12[-1],r12 ++ st.w r5[-32768],r5 ++ st.w r4[32767],r4 ++ st.w lr[1],lr ++ st.w sp[6136],r7 ++ st.w r6[27087],r12 ++ /* st.w r3[20143],r7 */ ++ nop ++ .text ++ .global st_h4 ++st_h4: ++ st.h pc[0],pc ++ st.h r12[-1],r12 ++ st.h r5[-32768],r5 ++ st.h r4[32767],r4 ++ st.h lr[1],lr ++ st.h r4[-9962],r7 ++ st.h r9[-16250],r3 ++ /* st.h r8[-28810],r7 */ ++ nop ++ .text ++ .global st_b4 ++st_b4: ++ st.b pc[0],pc ++ st.b r12[-1],r12 ++ st.b r5[-32768],r5 ++ st.b r4[32767],r4 ++ st.b lr[1],lr ++ st.b r12[30102],r6 ++ st.b r5[28977],r1 ++ st.b r0[5470],r1 ++ .text ++ .global mfsr ++mfsr: ++ mfsr pc,0 ++ mfsr r12,1020 ++ mfsr r5,512 ++ mfsr r4,508 ++ mfsr lr,4 ++ mfsr r2,696 ++ mfsr r4,260 ++ mfsr r10,1016 ++ .text ++ .global mtsr ++mtsr: ++ mtsr 0,pc ++ mtsr 1020,r12 ++ mtsr 512,r5 ++ mtsr 508,r4 ++ mtsr 4,lr ++ mtsr 224,r10 ++ mtsr 836,r12 ++ mtsr 304,r9 ++ .text ++ .global mfdr ++mfdr: ++ mfdr pc,0 ++ mfdr r12,1020 ++ mfdr r5,512 ++ mfdr r4,508 ++ mfdr lr,4 ++ mfdr r6,932 ++ mfdr r5,36 ++ mfdr r9,300 ++ .text ++ .global mtdr ++mtdr: ++ mtdr 0,pc ++ mtdr 1020,r12 ++ mtdr 512,r5 ++ mtdr 508,r4 ++ mtdr 4,lr ++ mtdr 180,r8 ++ mtdr 720,r10 ++ mtdr 408,lr ++ .text ++ .global sleep ++sleep: ++ sleep 0 ++ sleep 255 ++ sleep 128 ++ sleep 127 ++ sleep 1 ++ sleep 254 ++ sleep 15 ++ sleep 43 ++ .text ++ .global sync ++sync: ++ sync 0 ++ sync 255 ++ sync 128 ++ sync 127 ++ sync 1 ++ sync 166 ++ sync 230 ++ sync 180 ++ .text ++ .global bld ++bld: ++ bld pc,0 ++ bld r12,31 ++ bld r5,16 ++ bld r4,15 ++ bld lr,1 ++ bld r9,15 ++ bld r0,4 ++ bld lr,26 ++ .text ++ .global bst ++bst: ++ bst pc,0 ++ bst r12,31 ++ bst r5,16 ++ bst r4,15 ++ bst lr,1 ++ bst r10,28 ++ bst r0,3 ++ bst sp,2 ++ .text ++ .global sats ++sats: ++ sats pc>>0,0 ++ sats r12>>31,31 ++ sats r5>>16,16 ++ sats r4>>15,15 ++ sats lr>>1,1 ++ sats r10>>3,19 ++ sats r10>>2,26 ++ sats r1>>20,1 ++ .text ++ .global satu ++satu: ++ satu pc>>0,0 ++ satu r12>>31,31 ++ satu r5>>16,16 ++ satu r4>>15,15 ++ satu lr>>1,1 ++ satu pc>>5,7 ++ satu r7>>5,5 ++ satu r2>>26,19 ++ .text ++ .global satrnds ++satrnds: ++ satrnds pc>>0,0 ++ satrnds r12>>31,31 ++ satrnds r5>>16,16 ++ satrnds r4>>15,15 ++ satrnds lr>>1,1 ++ satrnds r0>>21,19 ++ satrnds sp>>0,2 ++ satrnds r7>>6,29 ++ .text ++ .global satrndu ++satrndu: ++ satrndu pc>>0,0 ++ satrndu r12>>31,31 ++ satrndu r5>>16,16 ++ satrndu r4>>15,15 ++ satrndu lr>>1,1 ++ satrndu r12>>0,26 ++ satrndu r4>>21,3 ++ satrndu r10>>3,16 ++ .text ++ .global subfc ++subfc: ++ subfeq pc,0 ++ subfal r12,-1 ++ subfls r5,-128 ++ subfpl r4,127 ++ subfne lr,1 ++ subfls r10,8 ++ subfvc r11,99 ++ subfvs r2,73 ++ .text ++ .global subc ++subc: ++ subeq pc,0 ++ subal r12,-1 ++ subls r5,-128 ++ subpl r4,127 ++ subne lr,1 ++ subls r12,118 ++ subvc lr,-12 ++ submi r4,-13 ++ .text ++ .global movc2 ++movc2: ++ moveq pc,0 ++ moval r12,-1 ++ movls r5,-128 ++ movpl r4,127 ++ movne lr,1 ++ movlt r3,-122 ++ movvc r8,2 ++ movne r7,-111 ++ .text ++ .global cp_b ++cp_b: ++ cp.b pc,r0 ++ cp.b r0,pc ++ cp.b r7,r8 ++ cp.b r8,r7 ++ .text ++ .global cp_h ++cp_h: ++ cp.h pc,r0 ++ cp.h r0,pc ++ cp.h r7,r8 ++ cp.h r8,r7 ++ .text ++ .global ldm ++ldm: ++ ldm pc,r1-r6 ++ ldm r12,r0-r15 ++ ldm r5,r15 ++ ldm r4,r0-r14 ++ ldm lr,r0 ++ ldm r9,r1,r5,r14 ++ ldm r11,r2-r3,r5-r8,r15 ++ ldm r6,r0,r3,r9,r13,r15 ++ .text ++ .global ldm_pu ++ldm_pu: ++ ldm pc++,r6-r9 ++ ldm r12++,r0-r15 ++ ldm r5++,r15 ++ ldm r4++,r0-r14 ++ ldm lr++,r0 ++ ldm r12++,r3-r5,r8,r10,r12,r14-r15 ++ ldm r10++,r2,r4-r6,r14-r15 ++ ldm r6++,r1,r3-r4,r9-r14 ++ .text ++ .global ldmts ++ldmts: ++ ldmts pc,r7-r8 ++ ldmts r12,r0-r15 ++ ldmts r5,r15 ++ ldmts r4,r0-r14 ++ ldmts lr,r0 ++ ldmts r0,r1-r2,r11-r12 ++ ldmts lr,r0-r2,r4,r7-r8,r13-r14 ++ ldmts r12,r0-r1,r3-r5,r9,r14-r15 ++ .text ++ .global ldmts_pu ++ldmts_pu: ++ ldmts pc++,r9 ++ ldmts r12++,r0-r15 ++ ldmts r5++,r15 ++ ldmts r4++,r0-r14 ++ ldmts lr++,r0 ++ ldmts sp++,r0,r2-r5,r7,r9,r11 ++ ldmts r5++,r1-r3,r7,r10-r11 ++ ldmts r8++,r2-r4,r7-r8,r13,r15 ++ .text ++ .global stm ++stm: ++ stm pc,r7 ++ stm r12,r0-r15 ++ stm r5,r15 ++ stm r4,r0-r14 ++ stm lr,r0 ++ stm sp,r2-r3,r5,r8,r11,r14 ++ stm r4,r0-r4,r6,r10-r11,r14 ++ stm r9,r1,r5,r9,r12-r15 ++ .text ++ .global stm_pu ++stm_pu: ++ stm --pc,r4-r6 ++ stm --r12,r0-r15 ++ stm --r5,r15 ++ stm --r4,r0-r14 ++ stm --lr,r0 ++ stm --r11,r0,r4-r9,r11-r15 ++ stm --r11,r0,r3,r9-r10,r12,r14 ++ stm --r6,r2,r8-r9,r13-r14 ++ .text ++ .global stmts ++stmts: ++ stmts pc,r8 ++ stmts r12,r0-r15 ++ stmts r5,r15 ++ stmts r4,r0-r14 ++ stmts lr,r0 ++ stmts r1,r0-r1,r3-r4,r6,r9-r10,r14-r15 ++ stmts r3,r0,r6-r8,r10-r12 ++ stmts r11,r0,r4,r6-r7,r9-r10,r12,r14-r15 ++ .text ++ .global stmts_pu ++stmts_pu: ++ stmts --pc,r6-r8 ++ stmts --r12,r0-r15 ++ stmts --r5,r15 ++ stmts --r4,r0-r14 ++ stmts --lr,r0 ++ stmts --r2,r0,r3-r4,r9-r10,r12-r13 ++ stmts --r3,r0-r1,r14-r15 ++ stmts --r0,r0,r2-r6,r10,r14 ++ .text ++ .global ldins_h ++ldins_h: ++ ldins.h pc:b,pc[0] ++ ldins.h r12:t,r12[-2] ++ ldins.h r5:t,r5[-4096] ++ ldins.h r4:b,r4[4094] ++ ldins.h lr:t,lr[2] ++ ldins.h r0:t,lr[1930] ++ ldins.h r3:b,r7[-534] ++ ldins.h r2:b,r12[-2252] ++ .text ++ .global ldins_b ++ldins_b: ++ ldins.b pc:b,pc[0] ++ ldins.b r12:t,r12[-1] ++ ldins.b r5:u,r5[-2048] ++ ldins.b r4:l,r4[2047] ++ ldins.b lr:l,lr[1] ++ ldins.b r6:t,r4[-662] ++ ldins.b r5:b,r1[-151] ++ ldins.b r10:t,r11[-1923] ++ .text ++ .global ldswp_sh ++ldswp_sh: ++ ldswp.sh pc,pc[0] ++ ldswp.sh r12,r12[-2] ++ ldswp.sh r5,r5[-4096] ++ ldswp.sh r4,r4[4094] ++ ldswp.sh lr,lr[2] ++ ldswp.sh r9,r10[3848] ++ ldswp.sh r4,r12[-2040] ++ ldswp.sh r10,r2[3088] ++ .text ++ .global ldswp_uh ++ldswp_uh: ++ ldswp.uh pc,pc[0] ++ ldswp.uh r12,r12[-2] ++ ldswp.uh r5,r5[-4096] ++ ldswp.uh r4,r4[4094] ++ ldswp.uh lr,lr[2] ++ ldswp.uh r4,r9[3724] ++ ldswp.uh lr,sp[-1672] ++ ldswp.uh r8,r12[-3846] ++ .text ++ .global ldswp_w ++ldswp_w: ++ ldswp.w pc,pc[0] ++ ldswp.w r12,r12[-4] ++ ldswp.w r5,r5[-8192] ++ ldswp.w r4,r4[8188] ++ ldswp.w lr,lr[4] ++ ldswp.w sp,r7[1860] ++ ldswp.w pc,r5[-3324] ++ ldswp.w r12,r10[-3296] ++ .text ++ .global stswp_h ++stswp_h: ++ stswp.h pc[0],pc ++ stswp.h r12[-2],r12 ++ stswp.h r5[-4096],r5 ++ stswp.h r4[4094],r4 ++ stswp.h lr[2],lr ++ stswp.h r7[64],r10 ++ stswp.h r10[3024],r2 ++ stswp.h r0[-2328],r10 ++ .text ++ .global stswp_w ++stswp_w: ++ stswp.w pc[0],pc ++ stswp.w r12[-4],r12 ++ stswp.w r5[-8192],r5 ++ stswp.w r4[8188],r4 ++ stswp.w lr[4],lr ++ stswp.w pc[1156],r8 ++ stswp.w sp[7992],r10 ++ stswp.w r8[-1172],r5 ++ .text ++ .global and2 ++and2: ++ and pc,pc,pc<<0 ++ and r12,r12,r12<<31 ++ and r5,r5,r5<<16 ++ and r4,r4,r4<<15 ++ and lr,lr,lr<<1 ++ and r10,r2,r1<<1 ++ and r12,r8,r11<<27 ++ and r10,r7,r0<<3 ++ .text ++ .global and3 ++and3: ++ and pc,pc,pc>>0 ++ and r12,r12,r12>>31 ++ and r5,r5,r5>>16 ++ and r4,r4,r4>>15 ++ and lr,lr,lr>>1 ++ and r12,r8,r7>>17 ++ and pc,r4,r9>>20 ++ and r10,r9,r10>>12 ++ .text ++ .global or2 ++or2: ++ or pc,pc,pc<<0 ++ or r12,r12,r12<<31 ++ or r5,r5,r5<<16 ++ or r4,r4,r4<<15 ++ or lr,lr,lr<<1 ++ or r8,sp,r11<<29 ++ or pc,r9,r2<<28 ++ or r5,r1,r2<<3 ++ .text ++ .global or3 ++or3: ++ or pc,pc,pc>>0 ++ or r12,r12,r12>>31 ++ or r5,r5,r5>>16 ++ or r4,r4,r4>>15 ++ or lr,lr,lr>>1 ++ or r1,sp,sp>>2 ++ or r0,r1,r1>>29 ++ or r4,r12,r8>>8 ++ .text ++ .global eor2 ++eor2: ++ eor pc,pc,pc<<0 ++ eor r12,r12,r12<<31 ++ eor r5,r5,r5<<16 ++ eor r4,r4,r4<<15 ++ eor lr,lr,lr<<1 ++ eor r10,r9,r4<<11 ++ eor r4,r0,r1<<31 ++ eor r6,r2,r12<<13 ++ .text ++ .global eor3 ++eor3: ++ eor pc,pc,pc>>0 ++ eor r12,r12,r12>>31 ++ eor r5,r5,r5>>16 ++ eor r4,r4,r4>>15 ++ eor lr,lr,lr>>1 ++ eor r5,r5,r5>>22 ++ eor r10,r1,lr>>3 ++ eor r7,lr,sp>>26 ++ .text ++ .global sthh_w2 ++sthh_w2: ++ sthh.w pc[pc<<0],pc:b,pc:b ++ sthh.w r12[r12<<3],r12:t,r12:t ++ sthh.w r5[r5<<2],r5:t,r5:t ++ sthh.w r4[r4<<1],r4:b,r4:b ++ sthh.w lr[lr<<1],lr:t,lr:t ++ sthh.w sp[r6<<3],r1:t,r12:t ++ sthh.w r6[r6<<0],r9:t,r9:t ++ sthh.w r10[r3<<0],r0:b,r11:t ++ .text ++ .global sthh_w1 ++sthh_w1: ++ sthh.w pc[0],pc:b,pc:b ++ sthh.w r12[1020],r12:t,r12:t ++ sthh.w r5[512],r5:t,r5:t ++ sthh.w r4[508],r4:b,r4:b ++ sthh.w lr[4],lr:t,lr:t ++ sthh.w r4[404],r9:t,r0:b ++ sthh.w r8[348],r2:t,r10:b ++ sthh.w sp[172],r9:b,r2:b ++ .text ++ .global cop ++cop: ++ cop cp0,cr0,cr0,cr0,0 ++ cop cp7,cr15,cr15,cr15,0x7f ++ cop cp3,cr5,cr5,cr5,0x31 ++ cop cp2,cr4,cr4,cr4,0x30 ++ cop cp5,cr8,cr3,cr7,0x5a ++ .text ++ .global ldc_w1 ++ldc_w1: ++ ldc.w cp0,cr0,r0[0] ++ ldc.w cp7,cr15,pc[255<<2] ++ ldc.w cp3,cr5,r5[128<<2] ++ ldc.w cp2,cr4,r4[127<<2] ++ ldc.w cp4,cr9,r13[36<<2] ++ .text ++ .global ldc_w2 ++ldc_w2: ++ ldc.w cp0,cr0,--r0 ++ ldc.w cp7,cr15,--pc ++ ldc.w cp3,cr5,--r5 ++ ldc.w cp2,cr4,--r4 ++ ldc.w cp4,cr9,--r13 ++ .text ++ .global ldc_w3 ++ldc_w3: ++ ldc.w cp0,cr0,r0[r0] ++ ldc.w cp7,cr15,pc[pc<<3] ++ ldc.w cp3,cr5,r5[r4<<2] ++ ldc.w cp2,cr4,r4[r3<<1] ++ ldc.w cp4,cr9,r13[r12<<0] ++ .text ++ .global ldc_d1 ++ldc_d1: ++ ldc.d cp0,cr0,r0[0] ++ ldc.d cp7,cr14,pc[255<<2] ++ ldc.d cp3,cr6,r5[128<<2] ++ ldc.d cp2,cr4,r4[127<<2] ++ ldc.d cp4,cr8,r13[36<<2] ++ .text ++ .global ldc_d2 ++ldc_d2: ++ ldc.d cp0,cr0,--r0 ++ ldc.d cp7,cr14,--pc ++ ldc.d cp3,cr6,--r5 ++ ldc.d cp2,cr4,--r4 ++ ldc.d cp4,cr8,--r13 ++ .text ++ .global ldc_d3 ++ldc_d3: ++ ldc.d cp0,cr0,r0[r0] ++ ldc.d cp7,cr14,pc[pc<<3] ++ ldc.d cp3,cr6,r5[r4<<2] ++ ldc.d cp2,cr4,r4[r3<<1] ++ ldc.d cp4,cr8,r13[r12<<0] ++ .text ++ .global stc_w1 ++stc_w1: ++ stc.w cp0,r0[0],cr0 ++ stc.w cp7,pc[255<<2],cr15 ++ stc.w cp3,r5[128<<2],cr5 ++ stc.w cp2,r4[127<<2],cr4 ++ stc.w cp4,r13[36<<2],cr9 ++ .text ++ .global stc_w2 ++stc_w2: ++ stc.w cp0,r0++,cr0 ++ stc.w cp7,pc++,cr15 ++ stc.w cp3,r5++,cr5 ++ stc.w cp2,r4++,cr4 ++ stc.w cp4,r13++,cr9 ++ .text ++ .global stc_w3 ++stc_w3: ++ stc.w cp0,r0[r0],cr0 ++ stc.w cp7,pc[pc<<3],cr15 ++ stc.w cp3,r5[r4<<2],cr5 ++ stc.w cp2,r4[r3<<1],cr4 ++ stc.w cp4,r13[r12<<0],cr9 ++ .text ++ .global stc_d1 ++stc_d1: ++ stc.d cp0,r0[0],cr0 ++ stc.d cp7,pc[255<<2],cr14 ++ stc.d cp3,r5[128<<2],cr6 ++ stc.d cp2,r4[127<<2],cr4 ++ stc.d cp4,r13[36<<2],cr8 ++ .text ++ .global stc_d2 ++stc_d2: ++ stc.d cp0,r0++,cr0 ++ stc.d cp7,pc++,cr14 ++ stc.d cp3,r5++,cr6 ++ stc.d cp2,r4++,cr4 ++ stc.d cp4,r13++,cr8 ++ .text ++ .global stc_d3 ++stc_d3: ++ stc.d cp0,r0[r0],cr0 ++ stc.d cp7,pc[pc<<3],cr14 ++ stc.d cp3,r5[r4<<2],cr6 ++ stc.d cp2,r4[r3<<1],cr4 ++ stc.d cp4,r13[r12<<0],cr8 ++ .text ++ .global ldc0_w ++ldc0_w: ++ ldc0.w cr0,r0[0] ++ ldc0.w cr15,pc[4095<<2] ++ ldc0.w cr5,r5[2048<<2] ++ ldc0.w cr4,r4[2047<<2] ++ ldc0.w cr9,r13[147<<2] ++ .text ++ .global ldc0_d ++ldc0_d: ++ ldc0.d cr0,r0[0] ++ ldc0.d cr14,pc[4095<<2] ++ ldc0.d cr6,r5[2048<<2] ++ ldc0.d cr4,r4[2047<<2] ++ ldc0.d cr8,r13[147<<2] ++ .text ++ .global stc0_w ++stc0_w: ++ stc0.w r0[0],cr0 ++ stc0.w pc[4095<<2],cr15 ++ stc0.w r5[2048<<2],cr5 ++ stc0.w r4[2047<<2],cr4 ++ stc0.w r13[147<<2],cr9 ++ .text ++ .global stc0_d ++stc0_d: ++ stc0.d r0[0],cr0 ++ stc0.d pc[4095<<2],cr14 ++ stc0.d r5[2048<<2],cr6 ++ stc0.d r4[2047<<2],cr4 ++ stc0.d r13[147<<2],cr8 ++ .text ++ .global memc ++memc: ++ memc 0, 0 ++ memc -4, 31 ++ memc -65536, 16 ++ memc 65532, 15 ++ .text ++ .global mems ++mems: ++ mems 0, 0 ++ mems -4, 31 ++ mems -65536, 16 ++ mems 65532, 15 ++ .text ++ .global memt ++memt: ++ memt 0, 0 ++ memt -4, 31 ++ memt -65536, 16 ++ memt 65532, 15 ++ ++ .text ++ .global stcond ++stcond: ++ stcond r0[0], r0 ++ stcond pc[-1], pc ++ stcond r8[-32768], r7 ++ stcond r7[32767], r8 ++ stcond r5[0x1234], r10 ++ ++ldcm_w: ++ ldcm.w cp0,pc,cr0-cr7 ++ ldcm.w cp7,r0,cr0 ++ ldcm.w cp4,r4++,cr0-cr6 ++ ldcm.w cp3,r7,cr7 ++ ldcm.w cp1,r12++,cr1,cr4-cr6 ++ ldcm.w cp0,pc,cr8-cr15 ++ ldcm.w cp7,r0,cr8 ++ ldcm.w cp4,r4++,cr8-cr14 ++ ldcm.w cp3,r7,cr15 ++ ldcm.w cp1,r12++,cr9,cr12-cr14 ++ ++ldcm_d: ++ ldcm.d cp0,pc,cr0-cr15 ++ ldcm.d cp7,r0,cr0,cr1 ++ ldcm.d cp4,r4++,cr0-cr13 ++ ldcm.d cp3,r7,cr14-cr15 ++ ldcm.d cp2,r12++,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++stcm_w: ++ stcm.w cp0,pc,cr0-cr7 ++ stcm.w cp7,r0,cr0 ++ stcm.w cp4,--r4,cr0-cr6 ++ stcm.w cp3,r7,cr7 ++ stcm.w cp1,--r12,cr1,cr4-cr6 ++ stcm.w cp0,pc,cr8-cr15 ++ stcm.w cp7,r0,cr8 ++ stcm.w cp4,--r4,cr8-cr14 ++ stcm.w cp3,r7,cr15 ++ stcm.w cp1,--r12,cr9,cr12-cr14 ++ ++stcm_d: ++ stcm.d cp0,pc,cr0-cr15 ++ stcm.d cp7,r0,cr0,cr1 ++ stcm.d cp4,--r4,cr0-cr13 ++ stcm.d cp3,r7,cr14-cr15 ++ stcm.d cp2,--r12,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++mvcr_w: ++ mvcr.w cp7,pc,cr15 ++ mvcr.w cp0,r0,cr0 ++ mvcr.w cp0,pc,cr15 ++ mvcr.w cp7,r0,cr15 ++ mvcr.w cp7,pc,cr0 ++ mvcr.w cp4,r7,cr8 ++ mvcr.w cp3,r8,cr7 ++ ++mvcr_d: ++ mvcr.d cp7,lr,cr14 ++ mvcr.d cp0,r0,cr0 ++ mvcr.d cp0,lr,cr14 ++ mvcr.d cp7,r0,cr14 ++ mvcr.d cp7,lr,cr0 ++ mvcr.d cp4,r6,cr8 ++ mvcr.d cp3,r8,cr6 ++ ++mvrc_w: ++ mvrc.w cp7,cr15,pc ++ mvrc.w cp0,cr0,r0 ++ mvrc.w cp0,cr15,pc ++ mvrc.w cp7,cr15,r0 ++ mvrc.w cp7,cr0,pc ++ mvrc.w cp4,cr8,r7 ++ mvrc.w cp3,cr7,r8 ++ ++mvrc_d: ++ mvrc.d cp7,cr14,lr ++ mvrc.d cp0,cr0,r0 ++ mvrc.d cp0,cr14,lr ++ mvrc.d cp7,cr14,r0 ++ mvrc.d cp7,cr0,lr ++ mvrc.d cp4,cr8,r6 ++ mvrc.d cp3,cr6,r8 ++ ++bfexts: ++ bfexts pc,pc,31,31 ++ bfexts r0,r0,0,0 ++ bfexts r0,pc,31,31 ++ bfexts pc,r0,31,31 ++ bfexts pc,pc,0,31 ++ bfexts pc,pc,31,0 ++ bfexts r7,r8,15,16 ++ bfexts r8,r7,16,15 ++ ++bfextu: ++ bfextu pc,pc,31,31 ++ bfextu r0,r0,0,0 ++ bfextu r0,pc,31,31 ++ bfextu pc,r0,31,31 ++ bfextu pc,pc,0,31 ++ bfextu pc,pc,31,0 ++ bfextu r7,r8,15,16 ++ bfextu r8,r7,16,15 ++ ++bfins: ++ bfins pc,pc,31,31 ++ bfins r0,r0,0,0 ++ bfins r0,pc,31,31 ++ bfins pc,r0,31,31 ++ bfins pc,pc,0,31 ++ bfins pc,pc,31,0 ++ bfins r7,r8,15,16 ++ bfins r8,r7,16,15 ++ ++rsubc: ++ rsubeq pc,0 ++ rsubal r12,-1 ++ rsubls r5,-128 ++ rsubpl r4,127 ++ rsubne lr,1 ++ rsubls r12,118 ++ rsubvc lr,-12 ++ rsubmi r4,-13 ++ ++addc: ++ addeq pc,pc,pc ++ addal r12,r12,r12 ++ addls r5,r5,r5 ++ addpl r4,r4,r4 ++ addne lr,lr,lr ++ addls r10,r2,r1 ++ addvc r12,r8,r11 ++ addmi r10,r7,r0 ++ ++subc2: ++ subeq pc,pc,pc ++ subal r12,r12,r12 ++ subls r5,r5,r5 ++ subpl r4,r4,r4 ++ subne lr,lr,lr ++ subls r10,r2,r1 ++ subvc r12,r8,r11 ++ submi r10,r7,r0 ++ ++andc: ++ andeq pc,pc,pc ++ andal r12,r12,r12 ++ andls r5,r5,r5 ++ andpl r4,r4,r4 ++ andne lr,lr,lr ++ andls r10,r2,r1 ++ andvc r12,r8,r11 ++ andmi r10,r7,r0 ++ ++orc: ++ oreq pc,pc,pc ++ oral r12,r12,r12 ++ orls r5,r5,r5 ++ orpl r4,r4,r4 ++ orne lr,lr,lr ++ orls r10,r2,r1 ++ orvc r12,r8,r11 ++ ormi r10,r7,r0 ++ ++eorc: ++ eoreq pc,pc,pc ++ eoral r12,r12,r12 ++ eorls r5,r5,r5 ++ eorpl r4,r4,r4 ++ eorne lr,lr,lr ++ eorls r10,r2,r1 ++ eorvc r12,r8,r11 ++ eormi r10,r7,r0 ++ ++ldcond: ++ ld.weq pc,pc[2044] ++ ld.shal r12,r12[1022] ++ ld.uhls r5,r5[0] ++ ld.ubpl r4,r4[511] ++ ld.sbne lr,lr[0] ++ ld.wls r10,r2[0] ++ ld.shvc r12,r8[0x3fe] ++ ld.ubmi r10,r7[1] ++ ++stcond2: ++ st.weq pc[2044],pc ++ st.hal r12[1022],r12 ++ st.hls r5[0],r5 ++ st.bpl r4[511],r4 ++ st.bne lr[0],lr ++ st.wls r2[0],r10 ++ st.hvc r8[0x3fe],r12 ++ st.bmi r7[1],r10 ++ ++movh: ++ movh pc, 65535 ++ movh r0, 0 ++ movh r5, 1 ++ movh r12, 32767 ++ ++ +--- /dev/null ++++ b/gas/testsuite/gas/avr32/avr32.exp +@@ -0,0 +1,23 @@ ++# AVR32 assembler testsuite. -*- Tcl -*- ++ ++if [istarget avr32-*-*] { ++ run_dump_test "hwrd-lwrd" ++ run_dump_test "pcrel" ++ run_dump_test "aliases" ++ run_dump_test "dwarf2" ++ run_dump_test "pic_reloc" ++ run_dump_test "fpinsn" ++ run_dump_test "pico" ++ run_dump_test "lda_pic" ++ run_dump_test "lda_pic_linkrelax" ++ run_dump_test "lda_nopic" ++ run_dump_test "lda_nopic_linkrelax" ++ run_dump_test "call_pic" ++ run_dump_test "call_pic_linkrelax" ++ run_dump_test "call_nopic" ++ run_dump_test "call_nopic_linkrelax" ++ run_dump_test "jmptable" ++ run_dump_test "jmptable_linkrelax" ++ run_dump_test "symdiff" ++ run_dump_test "symdiff_linkrelax" ++} +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_nopic.d +@@ -0,0 +1,36 @@ ++#source: call.s ++#as: ++#objdump: -dr ++#name: call_nopic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: f0 a0 00 00 rcall 0 ++ 200004: f0 1f 00 0c mcall 200034 ++ 200008: f0 1f 00 0c mcall 200038 ++ 20000c: f0 1f 00 0c mcall 20003c ++ 200010: f0 1f 00 0c mcall 200040 ++ \.\.\. ++ 200030: ee b0 ff ff rcall 40002e ++ \.\.\. ++ 200034: R_AVR32_32_CPENT \.text\+0x2 ++ 200038: R_AVR32_32_CPENT \.text\.init ++ 20003c: R_AVR32_32_CPENT undefined ++ 200040: R_AVR32_32_CPENT \.text\+0x40002c ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_nopic_linkrelax.d +@@ -0,0 +1,43 @@ ++#source: call.s ++#as: --linkrelax ++#objdump: -dr ++#name: call_nopic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: e0 a0 00 00 rcall 200000 ++ 200000: R_AVR32_22H_PCREL \.text ++ 200004: f0 1f 00 00 mcall 200004 ++ 200004: R_AVR32_CPCALL \.text\+0x200034 ++ 200008: f0 1f 00 00 mcall 200008 ++ 200008: R_AVR32_CPCALL \.text\+0x200038 ++ 20000c: f0 1f 00 00 mcall 20000c ++ 20000c: R_AVR32_CPCALL \.text\+0x20003c ++ 200010: f0 1f 00 00 mcall 200010 ++ 200010: R_AVR32_CPCALL \.text\+0x200040 ++ \.\.\. ++ 200030: e0 a0 00 00 rcall 200030 ++ 200030: R_AVR32_22H_PCREL \.text\+0x40002e ++ \.\.\. ++ 200034: R_AVR32_ALIGN \*ABS\*\+0x2 ++ 200034: R_AVR32_32_CPENT \.text\+0x2 ++ 200038: R_AVR32_32_CPENT \.text\.init ++ 20003c: R_AVR32_32_CPENT undefined ++ 200040: R_AVR32_32_CPENT \.text\+0x40002c ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_pic.d +@@ -0,0 +1,36 @@ ++#source: call.s ++#as: --pic ++#objdump: -dr ++#name: call_pic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: f0 a0 00 00 rcall 0 ++ 200004: f0 16 00 00 mcall r6\[0\] ++ 200004: R_AVR32_GOT18SW toofar_negative ++ 200008: f0 16 00 00 mcall r6\[0\] ++ 200008: R_AVR32_GOT18SW different_section ++ 20000c: f0 16 00 00 mcall r6\[0\] ++ 20000c: R_AVR32_GOT18SW undefined ++ 200010: f0 16 00 00 mcall r6\[0\] ++ 200010: R_AVR32_GOT18SW toofar_positive ++ \.\.\. ++ 200030: ee b0 ff ff rcall 40002e ++ \.\.\. ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_pic_linkrelax.d +@@ -0,0 +1,47 @@ ++#source: call.s ++#as: --pic --linkrelax ++#objdump: -dr ++#name: call_pic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: e0 a0 00 00 rcall 200000 ++ 200000: R_AVR32_22H_PCREL \.text ++ 200004: e0 6e 00 00 mov lr,0 ++ 200004: R_AVR32_GOTCALL toofar_negative ++ 200008: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 20000c: 5d 1e icall lr ++ 20000e: e0 6e 00 00 mov lr,0 ++ 20000e: R_AVR32_GOTCALL different_section ++ 200012: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 200016: 5d 1e icall lr ++ 200018: e0 6e 00 00 mov lr,0 ++ 200018: R_AVR32_GOTCALL undefined ++ 20001c: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 200020: 5d 1e icall lr ++ 200022: e0 6e 00 00 mov lr,0 ++ 200022: R_AVR32_GOTCALL toofar_positive ++ 200026: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 20002a: 5d 1e icall lr ++ 20002c: 00 00 add r0,r0 ++ 20002e: 00 00 add r0,r0 ++ 200030: e0 a0 00 00 rcall 200030 ++ 200030: R_AVR32_22H_PCREL \.text\+0x40002e ++ \.\.\. ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call.s +@@ -0,0 +1,30 @@ ++ ++ .text ++ .global call_test ++call_test: ++far_negative: ++ nop ++toofar_negative: ++ ++ .org 0x200000 ++ ++ call far_negative ++ call toofar_negative ++ call different_section ++ call undefined ++ call toofar_positive ++ .org 0x200030 ++ call far_positive ++ ++ .cpool ++ ++ .org 0x40002c ++ ++toofar_positive: ++ nop ++far_positive: ++ nop ++ ++ .section .text.init,"ax",@progbits ++different_section: ++ sub r0, r1, 0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/dwarf2.d +@@ -0,0 +1,42 @@ ++#readelf: -wl ++#name: dwarf2 ++#source: dwarf2.s ++ ++Dump of debug contents of section \.debug_line: ++ ++ Length: 53 ++ DWARF Version: 2 ++ Prologue Length: 26 ++ Minimum Instruction Length: 1 ++ Initial value of 'is_stmt': 1 ++ Line Base: -5 ++ Line Range: 14 ++ Opcode Base: 10 ++ \(Pointer size: 4\) ++ ++ Opcodes: ++ Opcode 1 has 0 args ++ Opcode 2 has 1 args ++ Opcode 3 has 1 args ++ Opcode 4 has 1 args ++ Opcode 5 has 1 args ++ Opcode 6 has 0 args ++ Opcode 7 has 0 args ++ Opcode 8 has 0 args ++ Opcode 9 has 1 args ++ ++ The Directory Table is empty\. ++ ++ The File Name Table: ++ Entry Dir Time Size Name ++ 1 0 0 0 main\.c ++ ++ Line Number Statements: ++ Extended opcode 2: set Address to 0x0 ++ Advance Line by 87 to 88 ++ Copy ++ Advance Line by 23 to 111 ++ Special opcode .*: advance Address by 4 to 0x4 and Line by 0 to 111 ++ Special opcode .*: advance Address by 10 to 0xe and Line by 1 to 112 ++ Advance PC by 530 to 220 ++ Extended opcode 1: End of Sequence +--- /dev/null ++++ b/gas/testsuite/gas/avr32/dwarf2.s +@@ -0,0 +1,67 @@ ++# Source file used to test DWARF2 information for AVR32. ++ ++ .file "main.c" ++ ++ .section .debug_abbrev,"",@progbits ++.Ldebug_abbrev0: ++ .section .debug_info,"",@progbits ++.Ldebug_info0: ++ .section .debug_line,"",@progbits ++.Ldebug_line0: ++ ++ .text ++ .align 1 ++ .globl main ++ .type main, @function ++.Ltext0: ++main: ++ .file 1 "main.c" ++ .loc 1 88 0 ++ pushm r0-r7,lr ++ sub sp, 4 ++ .loc 1 111 0 ++ lddpc r12, .LC1 ++ lddpc r7, .LC1 ++ icall r7 ++ .loc 1 112 0 ++ lddpc r6, .LC4 ++ ++ .align 2 ++.LC4: .int 0 ++ ++ .fill 256, 2, 0 ++ ++ .align 2 ++.LC1: ++ .int 0 ++.LC2: ++ .int 0 ++.LC3: ++ .int 0 ++ .size main, . - main ++ ++.Letext0: ++ ++ .section .debug_info ++ .int .Ledebug_info0 - .Ldebug_info0 // size ++ .short 2 // version ++ .int .Ldebug_abbrev0 // abbrev offset ++ .byte 4 // bytes per addr ++ ++ .uleb128 1 // abbrev 1 ++ .int .Ldebug_line0 // DW_AT_stmt_list ++ .int .Letext0 // DW_AT_high_pc ++ .int .Ltext0 // DW_AT_low_pc ++ ++.Ledebug_info0: ++ ++ .section .debug_abbrev ++ .uleb128 0x01 ++ .uleb128 0x11 // DW_TAG_compile_unit ++ .byte 0 // DW_CHILDREN_no ++ .uleb128 0x10, 0x6 // DW_AT_stmt_list ++ .uleb128 0x12, 0x1 // DW_AT_high_pc ++ .uleb128 0x11, 0x1 // DW_AT_low_pc ++ .uleb128 0, 0 ++ ++ .byte 0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/fpinsn.d +@@ -0,0 +1,271 @@ ++#as: ++#objdump: -dr ++#name: fpinsn ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a2 0f ff cop cp0,cr15,cr15,cr15,0x4 ++ *[0-9a-f]*: e1 a2 00 00 cop cp0,cr0,cr0,cr0,0x4 ++ *[0-9a-f]*: e1 a2 00 ff cop cp0,cr0,cr15,cr15,0x4 ++ *[0-9a-f]*: e1 a2 0f 0f cop cp0,cr15,cr0,cr15,0x4 ++ *[0-9a-f]*: e1 a2 0f f0 cop cp0,cr15,cr15,cr0,0x4 ++ *[0-9a-f]*: e1 a2 07 88 cop cp0,cr7,cr8,cr8,0x4 ++ *[0-9a-f]*: e1 a2 08 78 cop cp0,cr8,cr7,cr8,0x4 ++ *[0-9a-f]*: e1 a2 08 87 cop cp0,cr8,cr8,cr7,0x4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a2 1f ff cop cp0,cr15,cr15,cr15,0x5 ++ *[0-9a-f]*: e1 a2 10 00 cop cp0,cr0,cr0,cr0,0x5 ++ *[0-9a-f]*: e1 a2 10 ff cop cp0,cr0,cr15,cr15,0x5 ++ *[0-9a-f]*: e1 a2 1f 0f cop cp0,cr15,cr0,cr15,0x5 ++ *[0-9a-f]*: e1 a2 1f f0 cop cp0,cr15,cr15,cr0,0x5 ++ *[0-9a-f]*: e1 a2 17 88 cop cp0,cr7,cr8,cr8,0x5 ++ *[0-9a-f]*: e1 a2 18 78 cop cp0,cr8,cr7,cr8,0x5 ++ *[0-9a-f]*: e1 a2 18 87 cop cp0,cr8,cr8,cr7,0x5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 0f ff cop cp0,cr15,cr15,cr15,0x0 ++ *[0-9a-f]*: e1 a0 00 00 cop cp0,cr0,cr0,cr0,0x0 ++ *[0-9a-f]*: e1 a0 00 ff cop cp0,cr0,cr15,cr15,0x0 ++ *[0-9a-f]*: e1 a0 0f 0f cop cp0,cr15,cr0,cr15,0x0 ++ *[0-9a-f]*: e1 a0 0f f0 cop cp0,cr15,cr15,cr0,0x0 ++ *[0-9a-f]*: e1 a0 07 88 cop cp0,cr7,cr8,cr8,0x0 ++ *[0-9a-f]*: e1 a0 08 78 cop cp0,cr8,cr7,cr8,0x0 ++ *[0-9a-f]*: e1 a0 08 87 cop cp0,cr8,cr8,cr7,0x0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 1f ff cop cp0,cr15,cr15,cr15,0x1 ++ *[0-9a-f]*: e1 a0 10 00 cop cp0,cr0,cr0,cr0,0x1 ++ *[0-9a-f]*: e1 a0 10 ff cop cp0,cr0,cr15,cr15,0x1 ++ *[0-9a-f]*: e1 a0 1f 0f cop cp0,cr15,cr0,cr15,0x1 ++ *[0-9a-f]*: e1 a0 1f f0 cop cp0,cr15,cr15,cr0,0x1 ++ *[0-9a-f]*: e1 a0 17 88 cop cp0,cr7,cr8,cr8,0x1 ++ *[0-9a-f]*: e1 a0 18 78 cop cp0,cr8,cr7,cr8,0x1 ++ *[0-9a-f]*: e1 a0 18 87 cop cp0,cr8,cr8,cr7,0x1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a1 0f ff cop cp0,cr15,cr15,cr15,0x2 ++ *[0-9a-f]*: e1 a1 00 00 cop cp0,cr0,cr0,cr0,0x2 ++ *[0-9a-f]*: e1 a1 00 ff cop cp0,cr0,cr15,cr15,0x2 ++ *[0-9a-f]*: e1 a1 0f 0f cop cp0,cr15,cr0,cr15,0x2 ++ *[0-9a-f]*: e1 a1 0f f0 cop cp0,cr15,cr15,cr0,0x2 ++ *[0-9a-f]*: e1 a1 07 88 cop cp0,cr7,cr8,cr8,0x2 ++ *[0-9a-f]*: e1 a1 08 78 cop cp0,cr8,cr7,cr8,0x2 ++ *[0-9a-f]*: e1 a1 08 87 cop cp0,cr8,cr8,cr7,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a1 1f ff cop cp0,cr15,cr15,cr15,0x3 ++ *[0-9a-f]*: e1 a1 10 00 cop cp0,cr0,cr0,cr0,0x3 ++ *[0-9a-f]*: e1 a1 10 ff cop cp0,cr0,cr15,cr15,0x3 ++ *[0-9a-f]*: e1 a1 1f 0f cop cp0,cr15,cr0,cr15,0x3 ++ *[0-9a-f]*: e1 a1 1f f0 cop cp0,cr15,cr15,cr0,0x3 ++ *[0-9a-f]*: e1 a1 17 88 cop cp0,cr7,cr8,cr8,0x3 ++ *[0-9a-f]*: e1 a1 18 78 cop cp0,cr8,cr7,cr8,0x3 ++ *[0-9a-f]*: e1 a1 18 87 cop cp0,cr8,cr8,cr7,0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a3 0f ff cop cp0,cr15,cr15,cr15,0x6 ++ *[0-9a-f]*: e1 a3 00 00 cop cp0,cr0,cr0,cr0,0x6 ++ *[0-9a-f]*: e1 a3 00 ff cop cp0,cr0,cr15,cr15,0x6 ++ *[0-9a-f]*: e1 a3 0f 0f cop cp0,cr15,cr0,cr15,0x6 ++ *[0-9a-f]*: e1 a3 0f f0 cop cp0,cr15,cr15,cr0,0x6 ++ *[0-9a-f]*: e1 a3 07 88 cop cp0,cr7,cr8,cr8,0x6 ++ *[0-9a-f]*: e1 a3 08 78 cop cp0,cr8,cr7,cr8,0x6 ++ *[0-9a-f]*: e1 a3 08 87 cop cp0,cr8,cr8,cr7,0x6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a3 1f ff cop cp0,cr15,cr15,cr15,0x7 ++ *[0-9a-f]*: e1 a3 10 00 cop cp0,cr0,cr0,cr0,0x7 ++ *[0-9a-f]*: e1 a3 10 ff cop cp0,cr0,cr15,cr15,0x7 ++ *[0-9a-f]*: e1 a3 1f 0f cop cp0,cr15,cr0,cr15,0x7 ++ *[0-9a-f]*: e1 a3 1f f0 cop cp0,cr15,cr15,cr0,0x7 ++ *[0-9a-f]*: e1 a3 17 88 cop cp0,cr7,cr8,cr8,0x7 ++ *[0-9a-f]*: e1 a3 18 78 cop cp0,cr8,cr7,cr8,0x7 ++ *[0-9a-f]*: e1 a3 18 87 cop cp0,cr8,cr8,cr7,0x7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a4 0f f0 cop cp0,cr15,cr15,cr0,0x8 ++ *[0-9a-f]*: e1 a4 00 00 cop cp0,cr0,cr0,cr0,0x8 ++ *[0-9a-f]*: e1 a4 00 f0 cop cp0,cr0,cr15,cr0,0x8 ++ *[0-9a-f]*: e1 a4 0f 00 cop cp0,cr15,cr0,cr0,0x8 ++ *[0-9a-f]*: e1 a4 07 80 cop cp0,cr7,cr8,cr0,0x8 ++ *[0-9a-f]*: e1 a4 08 70 cop cp0,cr8,cr7,cr0,0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a4 1f f0 cop cp0,cr15,cr15,cr0,0x9 ++ *[0-9a-f]*: e1 a4 10 00 cop cp0,cr0,cr0,cr0,0x9 ++ *[0-9a-f]*: e1 a4 10 f0 cop cp0,cr0,cr15,cr0,0x9 ++ *[0-9a-f]*: e1 a4 1f 00 cop cp0,cr15,cr0,cr0,0x9 ++ *[0-9a-f]*: e1 a4 17 80 cop cp0,cr7,cr8,cr0,0x9 ++ *[0-9a-f]*: e1 a4 18 70 cop cp0,cr8,cr7,cr0,0x9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a6 10 ff cop cp0,cr0,cr15,cr15,0xd ++ *[0-9a-f]*: e1 a6 10 00 cop cp0,cr0,cr0,cr0,0xd ++ *[0-9a-f]*: e1 a6 10 0f cop cp0,cr0,cr0,cr15,0xd ++ *[0-9a-f]*: e1 a6 10 f0 cop cp0,cr0,cr15,cr0,0xd ++ *[0-9a-f]*: e1 a6 10 78 cop cp0,cr0,cr7,cr8,0xd ++ *[0-9a-f]*: e1 a6 10 87 cop cp0,cr0,cr8,cr7,0xd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a2 0e ee cop cp0,cr14,cr14,cr14,0x44 ++ *[0-9a-f]*: e5 a2 00 00 cop cp0,cr0,cr0,cr0,0x44 ++ *[0-9a-f]*: e5 a2 00 ee cop cp0,cr0,cr14,cr14,0x44 ++ *[0-9a-f]*: e5 a2 0e 0e cop cp0,cr14,cr0,cr14,0x44 ++ *[0-9a-f]*: e5 a2 0e e0 cop cp0,cr14,cr14,cr0,0x44 ++ *[0-9a-f]*: e5 a2 06 88 cop cp0,cr6,cr8,cr8,0x44 ++ *[0-9a-f]*: e5 a2 08 68 cop cp0,cr8,cr6,cr8,0x44 ++ *[0-9a-f]*: e5 a2 08 86 cop cp0,cr8,cr8,cr6,0x44 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a2 1e ee cop cp0,cr14,cr14,cr14,0x45 ++ *[0-9a-f]*: e5 a2 10 00 cop cp0,cr0,cr0,cr0,0x45 ++ *[0-9a-f]*: e5 a2 10 ee cop cp0,cr0,cr14,cr14,0x45 ++ *[0-9a-f]*: e5 a2 1e 0e cop cp0,cr14,cr0,cr14,0x45 ++ *[0-9a-f]*: e5 a2 1e e0 cop cp0,cr14,cr14,cr0,0x45 ++ *[0-9a-f]*: e5 a2 16 88 cop cp0,cr6,cr8,cr8,0x45 ++ *[0-9a-f]*: e5 a2 18 68 cop cp0,cr8,cr6,cr8,0x45 ++ *[0-9a-f]*: e5 a2 18 86 cop cp0,cr8,cr8,cr6,0x45 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a0 0e ee cop cp0,cr14,cr14,cr14,0x40 ++ *[0-9a-f]*: e5 a0 00 00 cop cp0,cr0,cr0,cr0,0x40 ++ *[0-9a-f]*: e5 a0 00 ee cop cp0,cr0,cr14,cr14,0x40 ++ *[0-9a-f]*: e5 a0 0e 0e cop cp0,cr14,cr0,cr14,0x40 ++ *[0-9a-f]*: e5 a0 0e e0 cop cp0,cr14,cr14,cr0,0x40 ++ *[0-9a-f]*: e5 a0 06 88 cop cp0,cr6,cr8,cr8,0x40 ++ *[0-9a-f]*: e5 a0 08 68 cop cp0,cr8,cr6,cr8,0x40 ++ *[0-9a-f]*: e5 a0 08 86 cop cp0,cr8,cr8,cr6,0x40 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a0 1e ee cop cp0,cr14,cr14,cr14,0x41 ++ *[0-9a-f]*: e5 a0 10 00 cop cp0,cr0,cr0,cr0,0x41 ++ *[0-9a-f]*: e5 a0 10 ee cop cp0,cr0,cr14,cr14,0x41 ++ *[0-9a-f]*: e5 a0 1e 0e cop cp0,cr14,cr0,cr14,0x41 ++ *[0-9a-f]*: e5 a0 1e e0 cop cp0,cr14,cr14,cr0,0x41 ++ *[0-9a-f]*: e5 a0 16 88 cop cp0,cr6,cr8,cr8,0x41 ++ *[0-9a-f]*: e5 a0 18 68 cop cp0,cr8,cr6,cr8,0x41 ++ *[0-9a-f]*: e5 a0 18 86 cop cp0,cr8,cr8,cr6,0x41 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a1 0e ee cop cp0,cr14,cr14,cr14,0x42 ++ *[0-9a-f]*: e5 a1 00 00 cop cp0,cr0,cr0,cr0,0x42 ++ *[0-9a-f]*: e5 a1 00 ee cop cp0,cr0,cr14,cr14,0x42 ++ *[0-9a-f]*: e5 a1 0e 0e cop cp0,cr14,cr0,cr14,0x42 ++ *[0-9a-f]*: e5 a1 0e e0 cop cp0,cr14,cr14,cr0,0x42 ++ *[0-9a-f]*: e5 a1 06 88 cop cp0,cr6,cr8,cr8,0x42 ++ *[0-9a-f]*: e5 a1 08 68 cop cp0,cr8,cr6,cr8,0x42 ++ *[0-9a-f]*: e5 a1 08 86 cop cp0,cr8,cr8,cr6,0x42 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a1 1e ee cop cp0,cr14,cr14,cr14,0x43 ++ *[0-9a-f]*: e5 a1 10 00 cop cp0,cr0,cr0,cr0,0x43 ++ *[0-9a-f]*: e5 a1 10 ee cop cp0,cr0,cr14,cr14,0x43 ++ *[0-9a-f]*: e5 a1 1e 0e cop cp0,cr14,cr0,cr14,0x43 ++ *[0-9a-f]*: e5 a1 1e e0 cop cp0,cr14,cr14,cr0,0x43 ++ *[0-9a-f]*: e5 a1 16 88 cop cp0,cr6,cr8,cr8,0x43 ++ *[0-9a-f]*: e5 a1 18 68 cop cp0,cr8,cr6,cr8,0x43 ++ *[0-9a-f]*: e5 a1 18 86 cop cp0,cr8,cr8,cr6,0x43 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a3 0e ee cop cp0,cr14,cr14,cr14,0x46 ++ *[0-9a-f]*: e5 a3 00 00 cop cp0,cr0,cr0,cr0,0x46 ++ *[0-9a-f]*: e5 a3 00 ee cop cp0,cr0,cr14,cr14,0x46 ++ *[0-9a-f]*: e5 a3 0e 0e cop cp0,cr14,cr0,cr14,0x46 ++ *[0-9a-f]*: e5 a3 0e e0 cop cp0,cr14,cr14,cr0,0x46 ++ *[0-9a-f]*: e5 a3 06 88 cop cp0,cr6,cr8,cr8,0x46 ++ *[0-9a-f]*: e5 a3 08 68 cop cp0,cr8,cr6,cr8,0x46 ++ *[0-9a-f]*: e5 a3 08 86 cop cp0,cr8,cr8,cr6,0x46 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a3 1e ee cop cp0,cr14,cr14,cr14,0x47 ++ *[0-9a-f]*: e5 a3 10 00 cop cp0,cr0,cr0,cr0,0x47 ++ *[0-9a-f]*: e5 a3 10 ee cop cp0,cr0,cr14,cr14,0x47 ++ *[0-9a-f]*: e5 a3 1e 0e cop cp0,cr14,cr0,cr14,0x47 ++ *[0-9a-f]*: e5 a3 1e e0 cop cp0,cr14,cr14,cr0,0x47 ++ *[0-9a-f]*: e5 a3 16 88 cop cp0,cr6,cr8,cr8,0x47 ++ *[0-9a-f]*: e5 a3 18 68 cop cp0,cr8,cr6,cr8,0x47 ++ *[0-9a-f]*: e5 a3 18 86 cop cp0,cr8,cr8,cr6,0x47 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a4 0e e0 cop cp0,cr14,cr14,cr0,0x48 ++ *[0-9a-f]*: e5 a4 00 00 cop cp0,cr0,cr0,cr0,0x48 ++ *[0-9a-f]*: e5 a4 00 e0 cop cp0,cr0,cr14,cr0,0x48 ++ *[0-9a-f]*: e5 a4 0e 00 cop cp0,cr14,cr0,cr0,0x48 ++ *[0-9a-f]*: e5 a4 06 80 cop cp0,cr6,cr8,cr0,0x48 ++ *[0-9a-f]*: e5 a4 08 60 cop cp0,cr8,cr6,cr0,0x48 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a4 1e e0 cop cp0,cr14,cr14,cr0,0x49 ++ *[0-9a-f]*: e5 a4 10 00 cop cp0,cr0,cr0,cr0,0x49 ++ *[0-9a-f]*: e5 a4 10 e0 cop cp0,cr0,cr14,cr0,0x49 ++ *[0-9a-f]*: e5 a4 1e 00 cop cp0,cr14,cr0,cr0,0x49 ++ *[0-9a-f]*: e5 a4 16 80 cop cp0,cr6,cr8,cr0,0x49 ++ *[0-9a-f]*: e5 a4 18 60 cop cp0,cr8,cr6,cr0,0x49 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a6 10 ee cop cp0,cr0,cr14,cr14,0x4d ++ *[0-9a-f]*: e5 a6 10 00 cop cp0,cr0,cr0,cr0,0x4d ++ *[0-9a-f]*: e5 a6 10 0e cop cp0,cr0,cr0,cr14,0x4d ++ *[0-9a-f]*: e5 a6 10 e0 cop cp0,cr0,cr14,cr0,0x4d ++ *[0-9a-f]*: e5 a6 10 68 cop cp0,cr0,cr6,cr8,0x4d ++ *[0-9a-f]*: e5 a6 10 86 cop cp0,cr0,cr8,cr6,0x4d ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a5 0f f0 cop cp0,cr15,cr15,cr0,0xa ++ *[0-9a-f]*: e1 a5 00 00 cop cp0,cr0,cr0,cr0,0xa ++ *[0-9a-f]*: e1 a5 0f 00 cop cp0,cr15,cr0,cr0,0xa ++ *[0-9a-f]*: e1 a5 00 f0 cop cp0,cr0,cr15,cr0,0xa ++ *[0-9a-f]*: e1 a5 08 70 cop cp0,cr8,cr7,cr0,0xa ++ *[0-9a-f]*: e1 a5 07 80 cop cp0,cr7,cr8,cr0,0xa ++ *[0-9a-f]*: ef af 0f 00 mvcr.w cp0,pc,cr15 ++ *[0-9a-f]*: ef a0 00 00 mvcr.w cp0,r0,cr0 ++ *[0-9a-f]*: ef af 00 00 mvcr.w cp0,pc,cr0 ++ *[0-9a-f]*: ef a0 0f 00 mvcr.w cp0,r0,cr15 ++ *[0-9a-f]*: ef a8 07 00 mvcr.w cp0,r8,cr7 ++ *[0-9a-f]*: ef a7 08 00 mvcr.w cp0,r7,cr8 ++ *[0-9a-f]*: ef af 0f 20 mvrc.w cp0,cr15,pc ++ *[0-9a-f]*: ef a0 00 20 mvrc.w cp0,cr0,r0 ++ *[0-9a-f]*: ef a0 0f 20 mvrc.w cp0,cr15,r0 ++ *[0-9a-f]*: ef af 00 20 mvrc.w cp0,cr0,pc ++ *[0-9a-f]*: ef a7 08 20 mvrc.w cp0,cr8,r7 ++ *[0-9a-f]*: ef a8 07 20 mvrc.w cp0,cr7,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a5 0e e0 cop cp0,cr14,cr14,cr0,0x4a ++ *[0-9a-f]*: e5 a5 00 00 cop cp0,cr0,cr0,cr0,0x4a ++ *[0-9a-f]*: e5 a5 0e 00 cop cp0,cr14,cr0,cr0,0x4a ++ *[0-9a-f]*: e5 a5 00 e0 cop cp0,cr0,cr14,cr0,0x4a ++ *[0-9a-f]*: e5 a5 08 60 cop cp0,cr8,cr6,cr0,0x4a ++ *[0-9a-f]*: e5 a5 06 80 cop cp0,cr6,cr8,cr0,0x4a ++ *[0-9a-f]*: ef ae 0e 10 mvcr.d cp0,lr,cr14 ++ *[0-9a-f]*: ef a0 00 10 mvcr.d cp0,r0,cr0 ++ *[0-9a-f]*: ef ae 00 10 mvcr.d cp0,lr,cr0 ++ *[0-9a-f]*: ef a0 0e 10 mvcr.d cp0,r0,cr14 ++ *[0-9a-f]*: ef a8 06 10 mvcr.d cp0,r8,cr6 ++ *[0-9a-f]*: ef a6 08 10 mvcr.d cp0,r6,cr8 ++ *[0-9a-f]*: ef ae 0e 30 mvrc.d cp0,cr14,lr ++ *[0-9a-f]*: ef a0 00 30 mvrc.d cp0,cr0,r0 ++ *[0-9a-f]*: ef a0 0e 30 mvrc.d cp0,cr14,r0 ++ *[0-9a-f]*: ef ae 00 30 mvrc.d cp0,cr0,lr ++ *[0-9a-f]*: ef a6 08 30 mvrc.d cp0,cr8,r6 ++ *[0-9a-f]*: ef a8 06 30 mvrc.d cp0,cr6,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a7 1f e0 cop cp0,cr15,cr14,cr0,0xf ++ *[0-9a-f]*: e1 a7 10 00 cop cp0,cr0,cr0,cr0,0xf ++ *[0-9a-f]*: e1 a7 1f 00 cop cp0,cr15,cr0,cr0,0xf ++ *[0-9a-f]*: e1 a7 10 e0 cop cp0,cr0,cr14,cr0,0xf ++ *[0-9a-f]*: e1 a7 18 60 cop cp0,cr8,cr6,cr0,0xf ++ *[0-9a-f]*: e1 a7 17 80 cop cp0,cr7,cr8,cr0,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a8 0e f0 cop cp0,cr14,cr15,cr0,0x10 ++ *[0-9a-f]*: e1 a8 00 00 cop cp0,cr0,cr0,cr0,0x10 ++ *[0-9a-f]*: e1 a8 0e 00 cop cp0,cr14,cr0,cr0,0x10 ++ *[0-9a-f]*: e1 a8 00 f0 cop cp0,cr0,cr15,cr0,0x10 ++ *[0-9a-f]*: e1 a8 08 70 cop cp0,cr8,cr7,cr0,0x10 ++ *[0-9a-f]*: e1 a8 06 80 cop cp0,cr6,cr8,cr0,0x10 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/fpinsn.s +@@ -0,0 +1,266 @@ ++ ++ .text ++ .global fadd_s ++fadd_s: ++ fadd.s fr15, fr15, fr15 ++ fadd.s fr0, fr0, fr0 ++ fadd.s fr0, fr15, fr15 ++ fadd.s fr15, fr0, fr15 ++ fadd.s fr15, fr15, fr0 ++ fadd.s fr7, fr8, fr8 ++ fadd.s fr8, fr7, fr8 ++ fadd.s fr8, fr8, fr7 ++ .global fsub_s ++fsub_s: ++ fsub.s fr15, fr15, fr15 ++ fsub.s fr0, fr0, fr0 ++ fsub.s fr0, fr15, fr15 ++ fsub.s fr15, fr0, fr15 ++ fsub.s fr15, fr15, fr0 ++ fsub.s fr7, fr8, fr8 ++ fsub.s fr8, fr7, fr8 ++ fsub.s fr8, fr8, fr7 ++ .global fmac_s ++fmac_s: ++ fmac.s fr15, fr15, fr15 ++ fmac.s fr0, fr0, fr0 ++ fmac.s fr0, fr15, fr15 ++ fmac.s fr15, fr0, fr15 ++ fmac.s fr15, fr15, fr0 ++ fmac.s fr7, fr8, fr8 ++ fmac.s fr8, fr7, fr8 ++ fmac.s fr8, fr8, fr7 ++ .global fnmac_s ++fnmac_s: ++ fnmac.s fr15, fr15, fr15 ++ fnmac.s fr0, fr0, fr0 ++ fnmac.s fr0, fr15, fr15 ++ fnmac.s fr15, fr0, fr15 ++ fnmac.s fr15, fr15, fr0 ++ fnmac.s fr7, fr8, fr8 ++ fnmac.s fr8, fr7, fr8 ++ fnmac.s fr8, fr8, fr7 ++ .global fmsc_s ++fmsc_s: ++ fmsc.s fr15, fr15, fr15 ++ fmsc.s fr0, fr0, fr0 ++ fmsc.s fr0, fr15, fr15 ++ fmsc.s fr15, fr0, fr15 ++ fmsc.s fr15, fr15, fr0 ++ fmsc.s fr7, fr8, fr8 ++ fmsc.s fr8, fr7, fr8 ++ fmsc.s fr8, fr8, fr7 ++ .global fnmsc_s ++fnmsc_s: ++ fnmsc.s fr15, fr15, fr15 ++ fnmsc.s fr0, fr0, fr0 ++ fnmsc.s fr0, fr15, fr15 ++ fnmsc.s fr15, fr0, fr15 ++ fnmsc.s fr15, fr15, fr0 ++ fnmsc.s fr7, fr8, fr8 ++ fnmsc.s fr8, fr7, fr8 ++ fnmsc.s fr8, fr8, fr7 ++ .global fmul_s ++fmul_s: ++ fmul.s fr15, fr15, fr15 ++ fmul.s fr0, fr0, fr0 ++ fmul.s fr0, fr15, fr15 ++ fmul.s fr15, fr0, fr15 ++ fmul.s fr15, fr15, fr0 ++ fmul.s fr7, fr8, fr8 ++ fmul.s fr8, fr7, fr8 ++ fmul.s fr8, fr8, fr7 ++ .global fnmul_s ++fnmul_s: ++ fnmul.s fr15, fr15, fr15 ++ fnmul.s fr0, fr0, fr0 ++ fnmul.s fr0, fr15, fr15 ++ fnmul.s fr15, fr0, fr15 ++ fnmul.s fr15, fr15, fr0 ++ fnmul.s fr7, fr8, fr8 ++ fnmul.s fr8, fr7, fr8 ++ fnmul.s fr8, fr8, fr7 ++ .global fneg_s ++fneg_s: ++ fneg.s fr15, fr15 ++ fneg.s fr0, fr0 ++ fneg.s fr0, fr15 ++ fneg.s fr15, fr0 ++ fneg.s fr7, fr8 ++ fneg.s fr8, fr7 ++ .global fabs_s ++fabs_s: ++ fabs.s fr15, fr15 ++ fabs.s fr0, fr0 ++ fabs.s fr0, fr15 ++ fabs.s fr15, fr0 ++ fabs.s fr7, fr8 ++ fabs.s fr8, fr7 ++ .global fcmp_s ++fcmp_s: ++ fcmp.s fr15, fr15 ++ fcmp.s fr0, fr0 ++ fcmp.s fr0, fr15 ++ fcmp.s fr15, fr0 ++ fcmp.s fr7, fr8 ++ fcmp.s fr8, fr7 ++ .global fadd_d ++fadd_d: ++ fadd.d fr14, fr14, fr14 ++ fadd.d fr0, fr0, fr0 ++ fadd.d fr0, fr14, fr14 ++ fadd.d fr14, fr0, fr14 ++ fadd.d fr14, fr14, fr0 ++ fadd.d fr6, fr8, fr8 ++ fadd.d fr8, fr6, fr8 ++ fadd.d fr8, fr8, fr6 ++ .global fsub_d ++fsub_d: ++ fsub.d fr14, fr14, fr14 ++ fsub.d fr0, fr0, fr0 ++ fsub.d fr0, fr14, fr14 ++ fsub.d fr14, fr0, fr14 ++ fsub.d fr14, fr14, fr0 ++ fsub.d fr6, fr8, fr8 ++ fsub.d fr8, fr6, fr8 ++ fsub.d fr8, fr8, fr6 ++ .global fmac_d ++fmac_d: ++ fmac.d fr14, fr14, fr14 ++ fmac.d fr0, fr0, fr0 ++ fmac.d fr0, fr14, fr14 ++ fmac.d fr14, fr0, fr14 ++ fmac.d fr14, fr14, fr0 ++ fmac.d fr6, fr8, fr8 ++ fmac.d fr8, fr6, fr8 ++ fmac.d fr8, fr8, fr6 ++ .global fnmac_d ++fnmac_d: ++ fnmac.d fr14, fr14, fr14 ++ fnmac.d fr0, fr0, fr0 ++ fnmac.d fr0, fr14, fr14 ++ fnmac.d fr14, fr0, fr14 ++ fnmac.d fr14, fr14, fr0 ++ fnmac.d fr6, fr8, fr8 ++ fnmac.d fr8, fr6, fr8 ++ fnmac.d fr8, fr8, fr6 ++ .global fmsc_d ++fmsc_d: ++ fmsc.d fr14, fr14, fr14 ++ fmsc.d fr0, fr0, fr0 ++ fmsc.d fr0, fr14, fr14 ++ fmsc.d fr14, fr0, fr14 ++ fmsc.d fr14, fr14, fr0 ++ fmsc.d fr6, fr8, fr8 ++ fmsc.d fr8, fr6, fr8 ++ fmsc.d fr8, fr8, fr6 ++ .global fnmsc_d ++fnmsc_d: ++ fnmsc.d fr14, fr14, fr14 ++ fnmsc.d fr0, fr0, fr0 ++ fnmsc.d fr0, fr14, fr14 ++ fnmsc.d fr14, fr0, fr14 ++ fnmsc.d fr14, fr14, fr0 ++ fnmsc.d fr6, fr8, fr8 ++ fnmsc.d fr8, fr6, fr8 ++ fnmsc.d fr8, fr8, fr6 ++ .global fmul_d ++fmul_d: ++ fmul.d fr14, fr14, fr14 ++ fmul.d fr0, fr0, fr0 ++ fmul.d fr0, fr14, fr14 ++ fmul.d fr14, fr0, fr14 ++ fmul.d fr14, fr14, fr0 ++ fmul.d fr6, fr8, fr8 ++ fmul.d fr8, fr6, fr8 ++ fmul.d fr8, fr8, fr6 ++ .global fnmul_d ++fnmul_d: ++ fnmul.d fr14, fr14, fr14 ++ fnmul.d fr0, fr0, fr0 ++ fnmul.d fr0, fr14, fr14 ++ fnmul.d fr14, fr0, fr14 ++ fnmul.d fr14, fr14, fr0 ++ fnmul.d fr6, fr8, fr8 ++ fnmul.d fr8, fr6, fr8 ++ fnmul.d fr8, fr8, fr6 ++ .global fneg_d ++fneg_d: ++ fneg.d fr14, fr14 ++ fneg.d fr0, fr0 ++ fneg.d fr0, fr14 ++ fneg.d fr14, fr0 ++ fneg.d fr6, fr8 ++ fneg.d fr8, fr6 ++ .global fabs_d ++fabs_d: ++ fabs.d fr14, fr14 ++ fabs.d fr0, fr0 ++ fabs.d fr0, fr14 ++ fabs.d fr14, fr0 ++ fabs.d fr6, fr8 ++ fabs.d fr8, fr6 ++ .global fcmp_d ++fcmp_d: ++ fcmp.d fr14, fr14 ++ fcmp.d fr0, fr0 ++ fcmp.d fr0, fr14 ++ fcmp.d fr14, fr0 ++ fcmp.d fr6, fr8 ++ fcmp.d fr8, fr6 ++ .global fmov_s ++fmov_s: ++ fmov.s fr15, fr15 ++ fmov.s fr0, fr0 ++ fmov.s fr15, fr0 ++ fmov.s fr0, fr15 ++ fmov.s fr8, fr7 ++ fmov.s fr7, fr8 ++ fmov.s pc, fr15 ++ fmov.s r0, fr0 ++ fmov.s pc, fr0 ++ fmov.s r0, fr15 ++ fmov.s r8, fr7 ++ fmov.s r7, fr8 ++ fmov.s fr15, pc ++ fmov.s fr0, r0 ++ fmov.s fr15, r0 ++ fmov.s fr0, pc ++ fmov.s fr8, r7 ++ fmov.s fr7, r8 ++ .global fmov_d ++fmov_d: ++ fmov.d fr14, fr14 ++ fmov.d fr0, fr0 ++ fmov.d fr14, fr0 ++ fmov.d fr0, fr14 ++ fmov.d fr8, fr6 ++ fmov.d fr6, fr8 ++ fmov.d lr, fr14 ++ fmov.d r0, fr0 ++ fmov.d lr, fr0 ++ fmov.d r0, fr14 ++ fmov.d r8, fr6 ++ fmov.d r6, fr8 ++ fmov.d fr14, lr ++ fmov.d fr0, r0 ++ fmov.d fr14, r0 ++ fmov.d fr0, lr ++ fmov.d fr8, r6 ++ fmov.d fr6, r8 ++ .global fcasts_d ++fcasts_d: ++ fcasts.d fr15, fr14 ++ fcasts.d fr0, fr0 ++ fcasts.d fr15, fr0 ++ fcasts.d fr0, fr14 ++ fcasts.d fr8, fr6 ++ fcasts.d fr7, fr8 ++ .global fcastd_s ++fcastd_s: ++ fcastd.s fr14, fr15 ++ fcastd.s fr0, fr0 ++ fcastd.s fr14, fr0 ++ fcastd.s fr0, fr15 ++ fcastd.s fr8, fr7 ++ fcastd.s fr6, fr8 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/hwrd-lwrd.d +@@ -0,0 +1,47 @@ ++#as: ++#objdump: -dr ++#name: hwrd-lwrd ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: e0 60 87 65 mov r0,34661 ++ 4: e0 60 12 34 mov r0,4660 ++ 8: e0 60 00 00 mov r0,0 ++ 8: R_AVR32_HI16 \.text\+0x60 ++ c: e0 60 00 00 mov r0,0 ++ c: R_AVR32_HI16 extsym1 ++ 10: ea 10 87 65 orh r0,0x8765 ++ 14: ea 10 12 34 orh r0,0x1234 ++ 18: ea 10 00 00 orh r0,0x0 ++ 18: R_AVR32_HI16 \.text\+0x60 ++ 1c: ea 10 00 00 orh r0,0x0 ++ 1c: R_AVR32_HI16 extsym1 ++ 20: e4 10 87 65 andh r0,0x8765 ++ 24: e4 10 12 34 andh r0,0x1234 ++ 28: e4 10 00 00 andh r0,0x0 ++ 28: R_AVR32_HI16 \.text\+0x60 ++ 2c: e4 10 00 00 andh r0,0x0 ++ 2c: R_AVR32_HI16 extsym1 ++ ++00000030 : ++ 30: e0 60 43 21 mov r0,17185 ++ 34: e0 60 56 78 mov r0,22136 ++ 38: e0 60 00 00 mov r0,0 ++ 38: R_AVR32_LO16 \.text\+0x60 ++ 3c: e0 60 00 00 mov r0,0 ++ 3c: R_AVR32_LO16 extsym1 ++ 40: e8 10 43 21 orl r0,0x4321 ++ 44: e8 10 56 78 orl r0,0x5678 ++ 48: e8 10 00 00 orl r0,0x0 ++ 48: R_AVR32_LO16 \.text\+0x60 ++ 4c: e8 10 00 00 orl r0,0x0 ++ 4c: R_AVR32_LO16 extsym1 ++ 50: e0 10 43 21 andl r0,0x4321 ++ 54: e0 10 56 78 andl r0,0x5678 ++ 58: e0 10 00 00 andl r0,0x0 ++ 58: R_AVR32_LO16 \.text\+0x60 ++ 5c: e0 10 00 00 andl r0,0x0 ++ 5c: R_AVR32_LO16 extsym1 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/hwrd-lwrd.s +@@ -0,0 +1,39 @@ ++ ++ .equ sym1, 0x12345678 ++ ++ .text ++ .global test_hwrd ++test_hwrd: ++ mov r0, hi(0x87654321) ++ mov r0, hi(sym1) ++ mov r0, hi(sym2) ++ mov r0, hi(extsym1) ++ ++ orh r0, hi(0x87654321) ++ orh r0, hi(sym1) ++ orh r0, hi(sym2) ++ orh r0, hi(extsym1) ++ ++ andh r0, hi(0x87654321) ++ andh r0, hi(sym1) ++ andh r0, hi(sym2) ++ andh r0, hi(extsym1) ++ ++ .global test_lwrd ++test_lwrd: ++ mov r0, lo(0x87654321) ++ mov r0, lo(sym1) ++ mov r0, lo(sym2) ++ mov r0, lo(extsym1) ++ ++ orl r0, lo(0x87654321) ++ orl r0, lo(sym1) ++ orl r0, lo(sym2) ++ orl r0, lo(extsym1) ++ ++ andl r0, lo(0x87654321) ++ andl r0, lo(sym1) ++ andl r0, lo(sym2) ++ andl r0, lo(extsym1) ++ ++sym2: +--- /dev/null ++++ b/gas/testsuite/gas/avr32/jmptable.d +@@ -0,0 +1,20 @@ ++#source: jmptable.s ++#as: ++#objdump: -dr ++#name: jmptable ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: fe c8 ff f4 sub r8,pc,-12 ++ 4: f0 00 00 2f add pc,r8,r0<<0x2 ++ 8: d7 03 nop ++ a: 00 00 add r0,r0 ++ c: c0 38 rjmp 12 ++ e: c0 38 rjmp 14 ++ 10: c0 38 rjmp 16 ++ 12: d7 03 nop ++ 14: d7 03 nop ++ 16: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/jmptable_linkrelax.d +@@ -0,0 +1,25 @@ ++#source: jmptable.s ++#as: --linkrelax ++#objdump: -dr ++#name: jmptable_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: fe c8 00 00 sub r8,pc,0 ++ 0: R_AVR32_16N_PCREL \.text\+0xc ++ 4: f0 00 00 2f add pc,r8,r0<<0x2 ++ 8: d7 03 nop ++ a: 00 00 add r0,r0 ++ a: R_AVR32_ALIGN \*ABS\*\+0x2 ++ c: c0 08 rjmp c ++ c: R_AVR32_11H_PCREL \.text\+0x12 ++ e: c0 08 rjmp e ++ e: R_AVR32_11H_PCREL \.text\+0x14 ++ 10: c0 08 rjmp 10 ++ 10: R_AVR32_11H_PCREL \.text\+0x16 ++ 12: d7 03 nop ++ 14: d7 03 nop ++ 16: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/jmptable.s +@@ -0,0 +1,14 @@ ++ ++ .text ++ .global jmptable_test ++jmptable_test: ++ sub r8, pc, -(.L1 - .) ++ add pc, r8, r0 << 2 ++ nop ++ .align 2 ++.L1: rjmp 1f ++ rjmp 2f ++ rjmp 3f ++1: nop ++2: nop ++3: nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_nopic.d +@@ -0,0 +1,32 @@ ++#source: lda.s ++#as: ++#objdump: -dr ++#name: lda_nopic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ ... ++ 8000: fe c0 7f fc sub r0,pc,32764 ++ 8004: 48 31 lddpc r1,8010 ++ 8006: 48 42 lddpc r2,8014 ++ 8008: 48 43 lddpc r3,8018 ++ 800a: 48 54 lddpc r4,801c ++ 800c: fe c5 80 04 sub r5,pc,-32764 ++ ... ++ 8010: R_AVR32_32_CPENT \.text ++ 8014: R_AVR32_32_CPENT \.data ++ 8018: R_AVR32_32_CPENT undefined ++ 801c: R_AVR32_32_CPENT \.text\+0x1001c ++ ++00010008 : ++ 10008: fa cc 00 00 sub r12,sp,0 ++ ... ++0001001c : ++ 1001c: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_nopic_linkrelax.d +@@ -0,0 +1,41 @@ ++#source: lda.s ++#as: --linkrelax ++#objdump: -dr ++#name: lda_nopic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ \.\.\. ++ 8000: 48 00 lddpc r0,8000 ++ 8000: R_AVR32_9W_CP \.text\+0x800c ++ 8002: 48 01 lddpc r1,8000 ++ 8002: R_AVR32_9W_CP \.text\+0x8010 ++ 8004: 48 02 lddpc r2,8004 ++ 8004: R_AVR32_9W_CP \.text\+0x8014 ++ 8006: 48 03 lddpc r3,8004 ++ 8006: R_AVR32_9W_CP \.text\+0x8018 ++ 8008: 48 04 lddpc r4,8008 ++ 8008: R_AVR32_9W_CP \.text\+0x801c ++ 800a: 48 05 lddpc r5,8008 ++ 800a: R_AVR32_9W_CP \.text\+0x8020 ++ \.\.\. ++ 800c: R_AVR32_ALIGN \*ABS\*\+0x2 ++ 800c: R_AVR32_32_CPENT \.text\+0x4 ++ 8010: R_AVR32_32_CPENT \.text ++ 8014: R_AVR32_32_CPENT \.data ++ 8018: R_AVR32_32_CPENT undefined ++ 801c: R_AVR32_32_CPENT \.text\+0x10020 ++ 8020: R_AVR32_32_CPENT \.text\+0x1000c ++ ++0001000c : ++ 1000c: fa cc 00 00 sub r12,sp,0 ++ \.\.\. ++00010020 : ++ 10020: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_pic.d +@@ -0,0 +1,32 @@ ++#source: lda.s ++#as: --pic ++#objdump: -dr ++#name: lda_pic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ ... ++ 8000: fe c0 7f fc sub r0,pc,32764 ++ 8004: ec f1 00 00 ld.w r1,r6\[0\] ++ 8004: R_AVR32_GOT16S toofar_negative ++ 8008: ec f2 00 00 ld.w r2,r6\[0\] ++ 8008: R_AVR32_GOT16S different_section ++ 800c: ec f3 00 00 ld.w r3,r6\[0\] ++ 800c: R_AVR32_GOT16S undefined ++ 8010: ec f4 00 00 ld.w r4,r6\[0\] ++ 8010: R_AVR32_GOT16S toofar_positive ++ 8014: fe c5 80 14 sub r5,pc,-32748 ++ ... ++ ++00010000 : ++ 10000: fa cc 00 00 sub r12,sp,0 ++ ... ++00010014 : ++ 10014: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_pic_linkrelax.d +@@ -0,0 +1,40 @@ ++#source: lda.s ++#as: --pic --linkrelax ++#objdump: -dr ++#name: lda_pic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ ... ++ 8000: e0 60 00 00 mov r0,0 ++ 8000: R_AVR32_LDA_GOT far_negative ++ 8004: ec 00 03 20 ld\.w r0,r6\[r0<<0x2\] ++ 8008: e0 61 00 00 mov r1,0 ++ 8008: R_AVR32_LDA_GOT toofar_negative ++ 800c: ec 01 03 21 ld\.w r1,r6\[r1<<0x2\] ++ 8010: e0 62 00 00 mov r2,0 ++ 8010: R_AVR32_LDA_GOT different_section ++ 8014: ec 02 03 22 ld\.w r2,r6\[r2<<0x2\] ++ 8018: e0 63 00 00 mov r3,0 ++ 8018: R_AVR32_LDA_GOT undefined ++ 801c: ec 03 03 23 ld\.w r3,r6\[r3<<0x2\] ++ 8020: e0 64 00 00 mov r4,0 ++ 8020: R_AVR32_LDA_GOT toofar_positive ++ 8024: ec 04 03 24 ld\.w r4,r6\[r4<<0x2\] ++ 8028: e0 65 00 00 mov r5,0 ++ 8028: R_AVR32_LDA_GOT far_positive ++ 802c: ec 05 03 25 ld\.w r5,r6\[r5<<0x2\] ++ ... ++ ++00010018 : ++ 10018: fa cc 00 00 sub r12,sp,0 ++ ... ++0001002c : ++ 1002c: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda.s +@@ -0,0 +1,30 @@ ++ ++ .text ++ .global lda_test ++lda_test: ++toofar_negative: ++ sub r8, r9, 0 ++far_negative: ++ sub r10, r11, 0 ++ ++ .fill 32760, 1, 0x00 ++ ++ lda.w r0, far_negative ++ lda.w r1, toofar_negative ++ lda.w r2, different_section ++ lda.w r3, undefined ++ lda.w r4, toofar_positive ++ lda.w r5, far_positive ++ ++ .cpool ++ ++ .fill 32744, 1, 0x00 ++far_positive: ++ sub r12, sp, 0 ++ .fill 16, 1, 0x00 ++toofar_positive: ++ sub lr, pc, 0 ++ ++ .data ++different_section: ++ .long 0x12345678 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pcrel.d +@@ -0,0 +1,64 @@ ++#as: ++#objdump: -dr ++#name: pcrel ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ 2: c0 28 rjmp 6 ++ 4: d7 03 nop ++ 6: e0 8f 00 00 bral 6 ++ 6: R_AVR32_22H_PCREL extsym10 ++ ++0000000a : ++ a: d7 03 nop ++0000000c : ++ c: c0 2c rcall 10 ++ e: d7 03 nop ++ 10: e0 a0 00 00 rcall 10 ++ 10: R_AVR32_22H_PCREL extsym21 ++ ++00000014 : ++ 14: c0 31 brne 1a ++ 16: e0 8f 00 00 bral 16 ++ 16: R_AVR32_22H_PCREL test_branch ++ 1a: e0 80 00 00 breq 1a ++ 1a: R_AVR32_22H_PCREL extsym21 ++ ++0000001e : ++ 1e: 48 30 lddpc r0,28 ++ 20: 48 20 lddpc r0,28 ++ 22: fe f0 00 00 ld.w r0,pc\[0\] ++ 22: R_AVR32_16B_PCREL extsym16 ++ \.\.\. ++ ++00000028 : ++ 28: d7 03 nop ++ 2a: d7 03 nop ++ ++0000002c : ++ 2c: 48 20 lddpc r0,34 ++ 2e: 48 30 lddpc r0,38 ++ 30: 48 20 lddpc r0,38 ++ 32: 00 00 add r0,r0 ++ 34: d7 03 nop ++ 36: d7 03 nop ++ 38: d7 03 nop ++ 3a: d7 03 nop ++ ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e0 a0 .. .. rcall [0-9a-f]+ <.*> ++ 0: R_AVR32_22H_PCREL test_rcall ++ 4: d7 03 nop ++ 6: e0 a0 .. .. rcall [0-9a-f]+ <.*> ++ 6: R_AVR32_22H_PCREL test_rcall ++ a: e0 a0 .. .. rcall [0-9a-z]+ <.*> ++ a: R_AVR32_22H_PCREL \.text\+0xc ++ e: d7 03 nop ++ 10: e0 a0 .. .. rcall [0-9a-f]+ <.*> ++ 10: R_AVR32_22H_PCREL \.text\+0xc +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pcrel.s +@@ -0,0 +1,57 @@ ++ ++ .text ++ .global test_rjmp ++test_rjmp: ++ nop ++ rjmp 0f ++ nop ++0: rjmp extsym10 ++ ++ .global test_rcall ++test_rcall: ++ nop ++test_rcall2: ++ rcall 0f ++ nop ++0: rcall extsym21 ++ ++ .global test_branch ++test_branch: ++ brne 0f ++ /* This will generate a reloc since test_branch is global */ ++ bral test_branch ++0: breq extsym21 ++ ++ .global test_lddpc ++test_lddpc: ++ lddpc r0,sym1 ++ lddpc r0,sym1 ++ lddpc r0,extsym16 ++ ++ .align 2 ++sym1: nop ++ nop ++ ++ .global test_local ++test_local: ++ lddpc r0, .LC1 ++ lddpc r0, .LC2 ++ lddpc r0, .LC1 + 0x4 ++ ++ .align 2 ++.LC1: ++ nop ++ nop ++.LC2: ++ nop ++ nop ++ ++ .section .text.init,"ax" ++ .global test_inter_section ++test_inter_section: ++ rcall test_rcall ++ nop ++ rcall test_rcall ++ rcall test_rcall2 ++ nop ++ rcall test_rcall2 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pico.d +@@ -0,0 +1,149 @@ ++#as: ++#objdump: -dr ++#name: pico ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a6 20 00 cop cp1,cr0,cr0,cr0,0xc ++ *[0-9a-f]*: e1 a7 2b bb cop cp1,cr11,cr11,cr11,0xe ++ *[0-9a-f]*: e1 a6 3a 05 cop cp1,cr10,cr0,cr5,0xd ++ *[0-9a-f]*: e1 a7 36 90 cop cp1,cr6,cr9,cr0,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a4 20 00 cop cp1,cr0,cr0,cr0,0x8 ++ *[0-9a-f]*: e1 a5 2b bb cop cp1,cr11,cr11,cr11,0xa ++ *[0-9a-f]*: e1 a4 3a 05 cop cp1,cr10,cr0,cr5,0x9 ++ *[0-9a-f]*: e1 a5 36 90 cop cp1,cr6,cr9,cr0,0xb ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a2 20 00 cop cp1,cr0,cr0,cr0,0x4 ++ *[0-9a-f]*: e1 a3 2b bb cop cp1,cr11,cr11,cr11,0x6 ++ *[0-9a-f]*: e1 a2 3a 05 cop cp1,cr10,cr0,cr5,0x5 ++ *[0-9a-f]*: e1 a3 36 90 cop cp1,cr6,cr9,cr0,0x7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 20 00 cop cp1,cr0,cr0,cr0,0x0 ++ *[0-9a-f]*: e1 a1 2b bb cop cp1,cr11,cr11,cr11,0x2 ++ *[0-9a-f]*: e1 a0 3a 05 cop cp1,cr10,cr0,cr5,0x1 ++ *[0-9a-f]*: e1 a1 36 90 cop cp1,cr6,cr9,cr0,0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 af 3e ff ldc\.d cp1,cr14,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a0 30 ff ldc\.d cp1,cr0,r0\[0x3fc\] ++ *[0-9a-f]*: e9 a0 30 00 ldc\.d cp1,cr0,r0\[0x0\] ++ *[0-9a-f]*: ef a8 26 50 ldc\.d cp1,cr6,--r8 ++ *[0-9a-f]*: ef a7 28 50 ldc\.d cp1,cr8,--r7 ++ *[0-9a-f]*: ef aa 32 65 ldc\.d cp1,cr2,r10\[r5<<0x2\] ++ *[0-9a-f]*: ef a3 3c 46 ldc\.d cp1,cr12,r3\[r6\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 af 2f ff ldc\.w cp1,cr15,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a0 20 ff ldc\.w cp1,cr0,r0\[0x3fc\] ++ *[0-9a-f]*: e9 a0 20 00 ldc\.w cp1,cr0,r0\[0x0\] ++ *[0-9a-f]*: ef a8 27 40 ldc\.w cp1,cr7,--r8 ++ *[0-9a-f]*: ef a7 28 40 ldc\.w cp1,cr8,--r7 ++ *[0-9a-f]*: ef aa 31 25 ldc\.w cp1,cr1,r10\[r5<<0x2\] ++ *[0-9a-f]*: ef a3 3d 06 ldc\.w cp1,cr13,r3\[r6\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 24 ff ldcm\.d cp1,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 24 01 ldcm\.d cp1,r0,cr0-cr1 ++ *[0-9a-f]*: ed a7 24 80 ldcm\.d cp1,r7,cr14-cr15 ++ *[0-9a-f]*: ed a8 24 7f ldcm\.d cp1,r8,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 34 ff ldcm\.d cp1,pc\+\+,cr0-cr15 ++ *[0-9a-f]*: ed a0 34 01 ldcm\.d cp1,r0\+\+,cr0-cr1 ++ *[0-9a-f]*: ed a7 34 80 ldcm\.d cp1,r7\+\+,cr14-cr15 ++ *[0-9a-f]*: ed a8 34 7f ldcm\.d cp1,r8\+\+,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 20 ff ldcm\.w cp1,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 20 01 ldcm\.w cp1,r0,cr0 ++ *[0-9a-f]*: ed a7 20 80 ldcm\.w cp1,r7,cr7 ++ *[0-9a-f]*: ed a8 20 7f ldcm\.w cp1,r8,cr0-cr6 ++ *[0-9a-f]*: ed af 21 ff ldcm\.w cp1,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 21 01 ldcm\.w cp1,r0,cr8 ++ *[0-9a-f]*: ed a7 21 80 ldcm\.w cp1,r7,cr15 ++ *[0-9a-f]*: ed a8 21 7f ldcm\.w cp1,r8,cr8-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 30 ff ldcm\.w cp1,pc\+\+,cr0-cr7 ++ *[0-9a-f]*: ed a0 30 01 ldcm\.w cp1,r0\+\+,cr0 ++ *[0-9a-f]*: ed a7 30 80 ldcm\.w cp1,r7\+\+,cr7 ++ *[0-9a-f]*: ed a8 30 7f ldcm\.w cp1,r8\+\+,cr0-cr6 ++ *[0-9a-f]*: ed af 31 ff ldcm\.w cp1,pc\+\+,cr8-cr15 ++ *[0-9a-f]*: ed a0 31 01 ldcm\.w cp1,r0\+\+,cr8 ++ *[0-9a-f]*: ed a7 31 80 ldcm\.w cp1,r7\+\+,cr15 ++ *[0-9a-f]*: ed a8 31 7f ldcm\.w cp1,r8\+\+,cr8-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef ae 2e 30 mvrc\.d cp1,cr14,lr ++ *[0-9a-f]*: ef a0 20 30 mvrc\.d cp1,cr0,r0 ++ *[0-9a-f]*: ef a8 26 30 mvrc\.d cp1,cr6,r8 ++ *[0-9a-f]*: ef a6 28 30 mvrc\.d cp1,cr8,r6 ++ *[0-9a-f]*: ef ae 2e 10 mvcr\.d cp1,lr,cr14 ++ *[0-9a-f]*: ef a0 20 10 mvcr\.d cp1,r0,cr0 ++ *[0-9a-f]*: ef a8 26 10 mvcr\.d cp1,r8,cr6 ++ *[0-9a-f]*: ef a6 28 10 mvcr\.d cp1,r6,cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef af 2f 20 mvrc\.w cp1,cr15,pc ++ *[0-9a-f]*: ef a0 20 20 mvrc\.w cp1,cr0,r0 ++ *[0-9a-f]*: ef a8 27 20 mvrc\.w cp1,cr7,r8 ++ *[0-9a-f]*: ef a7 28 20 mvrc\.w cp1,cr8,r7 ++ *[0-9a-f]*: ef af 2f 00 mvcr\.w cp1,pc,cr15 ++ *[0-9a-f]*: ef a0 20 00 mvcr\.w cp1,r0,cr0 ++ *[0-9a-f]*: ef a8 27 00 mvcr\.w cp1,r8,cr7 ++ *[0-9a-f]*: ef a7 28 00 mvcr\.w cp1,r7,cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb af 3e ff stc\.d cp1,pc\[0x3fc\],cr14 ++ *[0-9a-f]*: eb a0 30 00 stc\.d cp1,r0\[0x0\],cr0 ++ *[0-9a-f]*: ef a8 26 70 stc\.d cp1,r8\+\+,cr6 ++ *[0-9a-f]*: ef a7 28 70 stc\.d cp1,r7\+\+,cr8 ++ *[0-9a-f]*: ef aa 32 e5 stc\.d cp1,r10\[r5<<0x2\],cr2 ++ *[0-9a-f]*: ef a3 3c c6 stc\.d cp1,r3\[r6\],cr12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb af 2f ff stc\.w cp1,pc\[0x3fc\],cr15 ++ *[0-9a-f]*: eb a0 20 00 stc\.w cp1,r0\[0x0\],cr0 ++ *[0-9a-f]*: ef a8 27 60 stc\.w cp1,r8\+\+,cr7 ++ *[0-9a-f]*: ef a7 28 60 stc\.w cp1,r7\+\+,cr8 ++ *[0-9a-f]*: ef aa 31 a5 stc\.w cp1,r10\[r5<<0x2\],cr1 ++ *[0-9a-f]*: ef a3 3d 86 stc\.w cp1,r3\[r6\],cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 25 ff stcm\.d cp1,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 25 01 stcm\.d cp1,r0,cr0-cr1 ++ *[0-9a-f]*: ed a7 25 80 stcm\.d cp1,r7,cr14-cr15 ++ *[0-9a-f]*: ed a8 25 7f stcm\.d cp1,r8,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 35 ff stcm\.d cp1,--pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 35 01 stcm\.d cp1,--r0,cr0-cr1 ++ *[0-9a-f]*: ed a7 35 80 stcm\.d cp1,--r7,cr14-cr15 ++ *[0-9a-f]*: ed a8 35 7f stcm\.d cp1,--r8,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 22 ff stcm\.w cp1,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 22 01 stcm\.w cp1,r0,cr0 ++ *[0-9a-f]*: ed a7 22 80 stcm\.w cp1,r7,cr7 ++ *[0-9a-f]*: ed a8 22 7f stcm\.w cp1,r8,cr0-cr6 ++ *[0-9a-f]*: ed af 23 ff stcm\.w cp1,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 23 01 stcm\.w cp1,r0,cr8 ++ *[0-9a-f]*: ed a7 23 80 stcm\.w cp1,r7,cr15 ++ *[0-9a-f]*: ed a8 23 7f stcm\.w cp1,r8,cr8-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 32 ff stcm\.w cp1,--pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 32 01 stcm\.w cp1,--r0,cr0 ++ *[0-9a-f]*: ed a7 32 80 stcm\.w cp1,--r7,cr7 ++ *[0-9a-f]*: ed a8 32 7f stcm\.w cp1,--r8,cr0-cr6 ++ *[0-9a-f]*: ed af 33 ff stcm\.w cp1,--pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 33 01 stcm\.w cp1,--r0,cr8 ++ *[0-9a-f]*: ed a7 33 80 stcm\.w cp1,--r7,cr15 ++ *[0-9a-f]*: ed a8 33 7f stcm\.w cp1,--r8,cr8-cr14 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pico.s +@@ -0,0 +1,144 @@ ++ ++ .text ++ .global picosvmac ++picosvmac: ++ picosvmac out0, in0, in0, in0 ++ picosvmac out2, in11, in11, in11 ++ picosvmac out1, in10, in0, in5 ++ picosvmac out3, in6, in9, in0 ++ .global picosvmul ++picosvmul: ++ picosvmul out0, in0, in0, in0 ++ picosvmul out2, in11, in11, in11 ++ picosvmul out1, in10, in0, in5 ++ picosvmul out3, in6, in9, in0 ++ .global picovmac ++picovmac: ++ picovmac out0, in0, in0, in0 ++ picovmac out2, in11, in11, in11 ++ picovmac out1, in10, in0, in5 ++ picovmac out3, in6, in9, in0 ++ .global picovmul ++picovmul: ++ picovmul out0, in0, in0, in0 ++ picovmul out2, in11, in11, in11 ++ picovmul out1, in10, in0, in5 ++ picovmul out3, in6, in9, in0 ++ .global picold_d ++picold_d: ++ picold.d vmu2_out, pc[1020] ++ picold.d inpix2, r0[1020] ++ picold.d inpix2, r0[0] ++ picold.d coeff0_a, --r8 ++ picold.d coeff1_a, --r7 ++ picold.d inpix0, r10[r5 << 2] ++ picold.d vmu0_out, r3[r6 << 0] ++ .global picold_w ++picold_w: ++ picold.w config, pc[1020] ++ picold.w inpix2, r0[1020] ++ picold.w inpix2, r0[0] ++ picold.w coeff0_b, --r8 ++ picold.w coeff1_a, --r7 ++ picold.w inpix1, r10[r5 << 2] ++ picold.w vmu1_out, r3[r6 << 0] ++ .global picoldm_d ++picoldm_d: ++ picoldm.d pc, inpix2-config ++ picoldm.d r0, inpix2, inpix1 ++ picoldm.d r7, vmu2_out, config ++ picoldm.d r8, inpix2-vmu1_out ++ .global picoldm_d_pu ++picoldm_d_pu: ++ picoldm.d pc++, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out, vmu2_out, config ++ picoldm.d r0++, inpix2, inpix1 ++ picoldm.d r7++, vmu2_out, config ++ picoldm.d r8++, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out ++ .global picoldm_w ++picoldm_w: ++ picoldm.w pc, inpix2-coeff0_b ++ picoldm.w r0, inpix2 ++ picoldm.w r7, coeff0_b ++ picoldm.w r8, inpix2-coeff0_a ++ picoldm.w pc, coeff1_a-config ++ picoldm.w r0, coeff1_a ++ picoldm.w r7, config ++ picoldm.w r8, coeff1_a-vmu2_out ++ .global picoldm_w_pu ++picoldm_w_pu: ++ picoldm.w pc++, inpix2-coeff0_b ++ picoldm.w r0++, inpix2 ++ picoldm.w r7++, coeff0_b ++ picoldm.w r8++, inpix2-coeff0_a ++ picoldm.w pc++, coeff1_a-config ++ picoldm.w r0++, coeff1_a ++ picoldm.w r7++, config ++ picoldm.w r8++, coeff1_a-vmu2_out ++ .global picomv_d ++picomv_d: ++ picomv.d vmu2_out, lr ++ picomv.d inpix2, r0 ++ picomv.d coeff0_a, r8 ++ picomv.d coeff1_a, r6 ++ picomv.d pc, vmu2_out ++ picomv.d r0, inpix2 ++ picomv.d r8, coeff0_a ++ picomv.d r6, coeff1_a ++ .global picomv_w ++picomv_w: ++ picomv.w config, pc ++ picomv.w inpix2, r0 ++ picomv.w coeff0_b, r8 ++ picomv.w coeff1_a, r7 ++ picomv.w pc, config ++ picomv.w r0, inpix2 ++ picomv.w r8, coeff0_b ++ picomv.w r7, coeff1_a ++ .global picost_d ++picost_d: ++ picost.d pc[1020], vmu2_out ++ picost.d r0[0], inpix2 ++ picost.d r8++, coeff0_a ++ picost.d r7++, coeff1_a ++ picost.d r10[r5 << 2], inpix0 ++ picost.d r3[r6 << 0], vmu0_out ++ .global picost_w ++picost_w: ++ picost.w pc[1020], config ++ picost.w r0[0], inpix2 ++ picost.w r8++, coeff0_b ++ picost.w r7++, coeff1_a ++ picost.w r10[r5 << 2], inpix1 ++ picost.w r3[r6 << 0], vmu1_out ++ .global picostm_d ++picostm_d: ++ picostm.d pc, inpix2-config ++ picostm.d r0, inpix2, inpix1 ++ picostm.d r7, vmu2_out, config ++ picostm.d r8, inpix2-vmu1_out ++ .global picostm_d_pu ++picostm_d_pu: ++ picostm.d --pc, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out, vmu2_out, config ++ picostm.d --r0, inpix2, inpix1 ++ picostm.d --r7, vmu2_out, config ++ picostm.d --r8, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out ++ .global picostm_w ++picostm_w: ++ picostm.w pc, inpix2-coeff0_b ++ picostm.w r0, inpix2 ++ picostm.w r7, coeff0_b ++ picostm.w r8, inpix2-coeff0_a ++ picostm.w pc, coeff1_a-config ++ picostm.w r0, coeff1_a ++ picostm.w r7, config ++ picostm.w r8, coeff1_a-vmu2_out ++ .global picostm_w_pu ++picostm_w_pu: ++ picostm.w --pc, inpix2-coeff0_b ++ picostm.w --r0, inpix2 ++ picostm.w --r7, coeff0_b ++ picostm.w --r8, inpix2-coeff0_a ++ picostm.w --pc, coeff1_a-config ++ picostm.w --r0, coeff1_a ++ picostm.w --r7, config ++ picostm.w --r8, coeff1_a-vmu2_out +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pic_reloc.d +@@ -0,0 +1,27 @@ ++#as: ++#objdump: -dr ++#name: pic_reloc ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f0 16 00 00 mcall r6\[0\] ++ 0: R_AVR32_GOT18SW extfunc ++ 4: f0 16 00 00 mcall r6\[0\] ++ 4: R_AVR32_GOT18SW \.L1 ++ 8: f0 16 00 00 mcall r6\[0\] ++ 8: R_AVR32_GOT18SW \.L2 ++ c: f0 16 00 00 mcall r6\[0\] ++ c: R_AVR32_GOT18SW mcall_got ++ ++00000010 : ++ 10: ec f0 00 00 ld.w r0,r6\[0\] ++ 10: R_AVR32_GOT16S extvar ++ 14: ec f0 00 00 ld.w r0,r6\[0\] ++ 14: R_AVR32_GOT16S \.L3 ++ 18: ec f0 00 00 ld.w r0,r6\[0\] ++ 18: R_AVR32_GOT16S \.L4 ++ 1c: ec f0 00 00 ld.w r0,r6\[0\] ++ 1c: R_AVR32_GOT16S ldw_got +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pic_reloc.s +@@ -0,0 +1,18 @@ ++ ++ .text ++ .global mcall_got ++mcall_got: ++.L1: ++ mcall r6[extfunc@got] ++ mcall r6[.L1@got] ++ mcall r6[.L2@got] ++ mcall r6[mcall_got@got] ++.L2: ++ ++ .global ldw_got ++ldw_got: ++.L3: ld.w r0,r6[extvar@got] ++ ld.w r0,r6[.L3@got] ++ ld.w r0,r6[.L4@got] ++ ld.w r0,r6[ldw_got@got] ++.L4: +--- /dev/null ++++ b/gas/testsuite/gas/avr32/symdiff.d +@@ -0,0 +1,24 @@ ++#source: symdiff.s ++#as: ++#objdump: -dr ++#name: symdiff ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: 00 00 add r0,r0 ++ 2: 00 04 add r4,r0 ++ ++00000004 : ++ 4: 00 04 add r4,r0 ++ ++00000006 : ++ 6: 04 00 add r0,r2 ++ ++00000008 : ++ 8: d7 03 nop ++ a: d7 03 nop ++ c: d7 03 nop ++ e: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/symdiff_linkrelax.d +@@ -0,0 +1,28 @@ ++#source: symdiff.s ++#as: --linkrelax ++#objdump: -dr ++#name: symdiff_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: 00 00 add r0,r0 ++ 0: R_AVR32_DIFF32 \.text\+0xa ++ 2: 00 04 add r4,r0 ++ ++00000004 : ++ 4: 00 04 add r4,r0 ++ 4: R_AVR32_DIFF16 \.text\+0xa ++ ++00000006 : ++ 6: 04 00 add r0,r2 ++ 6: R_AVR32_DIFF8 \.text\+0xa ++ 7: R_AVR32_ALIGN \*ABS\*\+0x1 ++ ++00000008 : ++ 8: d7 03 nop ++ a: d7 03 nop ++ c: d7 03 nop ++ e: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/symdiff.s +@@ -0,0 +1,19 @@ ++ ++ .text ++ .global diff32 ++diff32: ++ .long .L2 - .L1 ++ .global diff16 ++diff16: ++ .short .L2 - .L1 ++ .global diff8 ++diff8: ++ .byte .L2 - .L1 ++ ++ .global symdiff_test ++ .align 1 ++symdiff_test: ++ nop ++.L1: nop ++ nop ++.L2: nop +--- a/gas/write.c ++++ b/gas/write.c +@@ -2011,6 +2011,10 @@ relax_frag (segT segment, fragS *fragP, + + #endif /* defined (TC_GENERIC_RELAX_TABLE) */ + ++#ifdef TC_RELAX_ALIGN ++#define RELAX_ALIGN(SEG, FRAG, ADDR) TC_RELAX_ALIGN(SEG, FRAG, ADDR) ++#else ++#define RELAX_ALIGN(SEG, FRAG, ADDR) relax_align(ADDR, (FRAG)->fr_offset) + /* Relax_align. Advance location counter to next address that has 'alignment' + lowest order bits all 0s, return size of adjustment made. */ + static relax_addressT +@@ -2030,6 +2034,7 @@ relax_align (register relax_addressT add + #endif + return (new_address - address); + } ++#endif + + /* Now we have a segment, not a crowd of sub-segments, we can make + fr_address values. +@@ -2073,7 +2078,7 @@ relax_segment (struct frag *segment_frag + case rs_align_code: + case rs_align_test: + { +- addressT offset = relax_align (address, (int) fragP->fr_offset); ++ addressT offset = RELAX_ALIGN(segment, fragP, address); + + if (fragP->fr_subtype != 0 && offset > fragP->fr_subtype) + offset = 0; +@@ -2280,10 +2285,10 @@ relax_segment (struct frag *segment_frag + { + addressT oldoff, newoff; + +- oldoff = relax_align (was_address + fragP->fr_fix, +- (int) offset); +- newoff = relax_align (address + fragP->fr_fix, +- (int) offset); ++ oldoff = RELAX_ALIGN (segment, fragP, ++ was_address + fragP->fr_fix); ++ newoff = RELAX_ALIGN (segment, fragP, ++ address + fragP->fr_fix); + + if (fragP->fr_subtype != 0) + { +--- a/include/dis-asm.h ++++ b/include/dis-asm.h +@@ -222,6 +222,7 @@ typedef int (*disassembler_ftype) (bfd_v + + extern int print_insn_alpha (bfd_vma, disassemble_info *); + extern int print_insn_avr (bfd_vma, disassemble_info *); ++extern int print_insn_avr32 (bfd_vma, disassemble_info *); + extern int print_insn_bfin (bfd_vma, disassemble_info *); + extern int print_insn_big_arm (bfd_vma, disassemble_info *); + extern int print_insn_big_mips (bfd_vma, disassemble_info *); +@@ -304,7 +305,9 @@ extern void print_i386_disassembler_opti + extern void print_mips_disassembler_options (FILE *); + extern void print_ppc_disassembler_options (FILE *); + extern void print_arm_disassembler_options (FILE *); ++extern void print_avr32_disassembler_options (FILE *); + extern void parse_arm_disassembler_option (char *); ++extern void parse_avr32_disassembler_option (char *); + extern void print_s390_disassembler_options (FILE *); + extern int get_arm_regname_num_options (void); + extern int set_arm_regname_option (int); +--- /dev/null ++++ b/include/elf/avr32.h +@@ -0,0 +1,98 @@ ++/* AVR32 ELF support for BFD. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include "elf/reloc-macros.h" ++ ++/* CPU-specific flags for the ELF header e_flags field */ ++#define EF_AVR32_LINKRELAX 0x01 ++#define EF_AVR32_PIC 0x02 ++ ++START_RELOC_NUMBERS (elf_avr32_reloc_type) ++ RELOC_NUMBER (R_AVR32_NONE, 0) ++ ++ /* Data Relocations */ ++ RELOC_NUMBER (R_AVR32_32, 1) ++ RELOC_NUMBER (R_AVR32_16, 2) ++ RELOC_NUMBER (R_AVR32_8, 3) ++ RELOC_NUMBER (R_AVR32_32_PCREL, 4) ++ RELOC_NUMBER (R_AVR32_16_PCREL, 5) ++ RELOC_NUMBER (R_AVR32_8_PCREL, 6) ++ RELOC_NUMBER (R_AVR32_DIFF32, 7) ++ RELOC_NUMBER (R_AVR32_DIFF16, 8) ++ RELOC_NUMBER (R_AVR32_DIFF8, 9) ++ RELOC_NUMBER (R_AVR32_GOT32, 10) ++ RELOC_NUMBER (R_AVR32_GOT16, 11) ++ RELOC_NUMBER (R_AVR32_GOT8, 12) ++ ++ /* Normal Code Relocations */ ++ RELOC_NUMBER (R_AVR32_21S, 13) ++ RELOC_NUMBER (R_AVR32_16U, 14) ++ RELOC_NUMBER (R_AVR32_16S, 15) ++ RELOC_NUMBER (R_AVR32_8S, 16) ++ RELOC_NUMBER (R_AVR32_8S_EXT, 17) ++ ++ /* PC-Relative Code Relocations */ ++ RELOC_NUMBER (R_AVR32_22H_PCREL, 18) ++ RELOC_NUMBER (R_AVR32_18W_PCREL, 19) ++ RELOC_NUMBER (R_AVR32_16B_PCREL, 20) ++ RELOC_NUMBER (R_AVR32_16N_PCREL, 21) ++ RELOC_NUMBER (R_AVR32_14UW_PCREL, 22) ++ RELOC_NUMBER (R_AVR32_11H_PCREL, 23) ++ RELOC_NUMBER (R_AVR32_10UW_PCREL, 24) ++ RELOC_NUMBER (R_AVR32_9H_PCREL, 25) ++ RELOC_NUMBER (R_AVR32_9UW_PCREL, 26) ++ ++ /* Special Code Relocations */ ++ RELOC_NUMBER (R_AVR32_HI16, 27) ++ RELOC_NUMBER (R_AVR32_LO16, 28) ++ ++ /* PIC Relocations */ ++ RELOC_NUMBER (R_AVR32_GOTPC, 29) ++ RELOC_NUMBER (R_AVR32_GOTCALL, 30) ++ RELOC_NUMBER (R_AVR32_LDA_GOT, 31) ++ RELOC_NUMBER (R_AVR32_GOT21S, 32) ++ RELOC_NUMBER (R_AVR32_GOT18SW, 33) ++ RELOC_NUMBER (R_AVR32_GOT16S, 34) ++ RELOC_NUMBER (R_AVR32_GOT7UW, 35) ++ ++ /* Constant Pool Relocations */ ++ RELOC_NUMBER (R_AVR32_32_CPENT, 36) ++ RELOC_NUMBER (R_AVR32_CPCALL, 37) ++ RELOC_NUMBER (R_AVR32_16_CP, 38) ++ RELOC_NUMBER (R_AVR32_9W_CP, 39) ++ ++ /* Dynamic Relocations */ ++ RELOC_NUMBER (R_AVR32_RELATIVE, 40) ++ RELOC_NUMBER (R_AVR32_GLOB_DAT, 41) ++ RELOC_NUMBER (R_AVR32_JMP_SLOT, 42) ++ ++ /* Linkrelax Information */ ++ RELOC_NUMBER (R_AVR32_ALIGN, 43) ++ ++ RELOC_NUMBER (R_AVR32_15S, 44) ++ ++END_RELOC_NUMBERS (R_AVR32_max) ++ ++/* Processor specific dynamic array tags. */ ++ ++/* The total size in bytes of the Global Offset Table */ ++#define DT_AVR32_GOTSZ 0x70000001 +--- a/include/elf/common.h ++++ b/include/elf/common.h +@@ -286,7 +286,7 @@ + #define EM_INTEL182 182 /* Reserved by Intel */ + #define EM_res183 183 /* Reserved by ARM */ + #define EM_res184 184 /* Reserved by ARM */ +-#define EM_AVR32 185 /* Atmel Corporation 32-bit microprocessor family */ ++#define EM_AVR32_OLD 185 /* Atmel Corporation 32-bit microprocessor family */ + #define EM_STM8 186 /* STMicroeletronics STM8 8-bit microcontroller */ + #define EM_TILE64 187 /* Tilera TILE64 multicore architecture family */ + #define EM_TILEPRO 188 /* Tilera TILEPro multicore architecture family */ +@@ -365,6 +365,9 @@ + /* V850 backend magic number. Written in the absense of an ABI. */ + #define EM_CYGNUS_V850 0x9080 + ++/* AVR32 magic number, picked by IAR Systems. */ ++#define EM_AVR32 0x18ad ++ + /* old S/390 backend magic number. Written in the absence of an ABI. */ + #define EM_S390_OLD 0xa390 + +--- a/ld/configdoc.texi ++++ b/ld/configdoc.texi +@@ -7,6 +7,7 @@ + @set H8300 + @set HPPA + @set I960 ++@set AVR32 + @set M68HC11 + @set M68K + @set MMIX +--- a/ld/configure.tgt ++++ b/ld/configure.tgt +@@ -112,6 +112,9 @@ xscale-*-elf) targ_emul=armelf + avr-*-*) targ_emul=avr2 + targ_extra_emuls="avr1 avr25 avr3 avr31 avr35 avr4 avr5 avr51 avr6" + ;; ++avr32-*-none) targ_emul=avr32elf_ap7000 ++ targ_extra_emuls="avr32elf_ap7001 avr32elf_ap7002 avr32elf_ap7200 avr32elf_uc3a0128 avr32elf_uc3a0256 avr32elf_uc3a0512 avr32elf_uc3a0512es avr32elf_uc3a1128 avr32elf_uc3a1256 avr32elf_uc3a1512es avr32elf_uc3a1512 avr32elf_uc3a364 avr32elf_uc3a364s avr32elf_uc3a3128 avr32elf_uc3a3128s avr32elf_uc3a3256 avr32elf_uc3a3256s avr32elf_uc3b064 avr32elf_uc3b0128 avr32elf_uc3b0256es avr32elf_uc3b0256 avr32elf_uc3b0512 avr32elf_uc3b0512revc avr32elf_uc3b164 avr32elf_uc3b1128 avr32elf_uc3b1256es avr32elf_uc3b1256 avr32elf_uc3b1512 avr32elf_uc3b1512revc avr32elf_uc3c0512crevc avr32elf_uc3c1512crevc avr32elf_uc3c2512crevc avr32elf_atuc3l0256 avr32elf_mxt768e avr32elf_uc3l064 avr32elf_uc3l032 avr32elf_uc3l016 avr32elf_uc3l064revb avr32elf_uc3c064c avr32elf_uc3c0128c avr32elf_uc3c0256c avr32elf_uc3c0512c avr32elf_uc3c164c avr32elf_uc3c1128c avr32elf_uc3c1256c avr32elf_uc3c1512c avr32elf_uc3c264c avr32elf_uc3c2128c avr32elf_uc3c2256c avr32elf_uc3c2512c" ;; ++avr32-*-linux*) targ_emul=avr32linux ;; + bfin-*-elf) targ_emul=elf32bfin; + targ_extra_emuls="elf32bfinfd" + targ_extra_libpath=$targ_extra_emuls +--- /dev/null ++++ b/ld/emulparams/avr32elf.sh +@@ -0,0 +1,402 @@ ++# This script is called from ld/genscript.sh ++# There is a difference on how 'bash' and POSIX handles ++# the '.' (source) command in a script. ++# genscript.sh calls this script with argument ${EMULATION_NAME} ++# but that will fail on POSIX compilant shells like 'sh' or 'dash' ++# therefor I use the variable directly instead of $1 ++EMULATION=${EMULATION_NAME} ++SCRIPT_NAME=avr32 ++TEMPLATE_NAME=elf32 ++EXTRA_EM_FILE=avr32elf ++OUTPUT_FORMAT="elf32-avr32" ++ARCH=avr32 ++MAXPAGESIZE=4096 ++ENTRY=_start ++EMBEDDED=yes ++NO_SMALL_DATA=yes ++NOP=0xd703d703 ++ ++DATA_SEGMENT_ALIGN=8 ++BSS_ALIGNMENT=8 ++ ++RO_LMA_REGION="FLASH" ++RO_VMA_REGION="FLASH" ++RW_LMA_REGION="FLASH" ++RW_VMA_REGION="CPUSRAM" ++ ++STACK_SIZE=_stack_size ++STACK_ADDR="ORIGIN(CPUSRAM) + LENGTH(CPUSRAM) - ${STACK_SIZE}" ++ ++DATA_SEGMENT_END=" ++ __heap_start__ = ALIGN(8); ++ . = ${STACK_ADDR}; ++ __heap_end__ = .; ++" ++ ++case "$EMULATION" in ++avr32elf_ap*) ++ MACHINE=ap ++ INITIAL_READONLY_SECTIONS=" ++ .reset : { *(.reset) } >FLASH AT>FLASH ++ . = . & 0x9fffffff; ++" ++ TEXT_START_ADDR=0xa0000000 ++ case "$EMULATION" in ++ avr32elf_ap700[0-2]) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai) : ORIGIN = 0x00000000, LENGTH = 64M ++ CPUSRAM (rwxa) : ORIGIN = 0x24000000, LENGTH = 32K ++} ++" ++ ;; ++ avr32elf_ap7200) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai) : ORIGIN = 0x00000000, LENGTH = 64M ++ CPUSRAM (rwxa) : ORIGIN = 0x08000000, LENGTH = 64K ++} ++" ++ ;; ++ esac ++ ;; ++ ++avr32elf_mxt768e) ++ MACHINE=uc ++ INITIAL_READONLY_SECTIONS=".reset : { *(.reset) } >FLASH AT>FLASH" ++ TEXT_START_ADDR=0x80000000 ++ OTHER_SECTIONS=" ++ .userpage : { *(.userpage .userpage.*) } >USERPAGE AT>USERPAGE ++ .factorypage : { *(.factorypage .factorypage.*) } >FACTORYPAGE AT>FACTORYPAGE ++" ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++avr32elf_atuc3*) ++ MACHINE=uc ++ INITIAL_READONLY_SECTIONS=".reset : { *(.reset) } >FLASH AT>FLASH" ++ TEXT_START_ADDR=0x80000000 ++ OTHER_SECTIONS=" ++ .userpage : { *(.userpage .userpage.*) } >USERPAGE AT>USERPAGE ++ .factorypage : { *(.factorypage .factorypage.*) } >FACTORYPAGE AT>FACTORYPAGE ++" ++ case "$EMULATION" in ++ avr32elf_atuc3l0256) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ esac ++ ;; ++ ++avr32elf_uc3*) ++ MACHINE=uc ++ INITIAL_READONLY_SECTIONS=".reset : { *(.reset) } >FLASH AT>FLASH" ++ TEXT_START_ADDR=0x80000000 ++ OTHER_SECTIONS=" ++ .userpage : { *(.userpage .userpage.*) } >USERPAGE AT>USERPAGE ++ .factorypage : { *(.factorypage .factorypage.*) } >FACTORYPAGE AT>FACTORYPAGE ++" ++ ++ case "$EMULATION" in ++ avr32elf_uc3c[012]512c) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 512K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3c[012]256c) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3c[012]128c) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 128K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x7FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3c[012]64c) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3[ac][012]512*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 512K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3a[012]256*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3b[01]512revc) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 512K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x17FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ PADDING=" ++ .padding : { ++ QUAD(0) ++ QUAD(0) ++ QUAD(0) ++ QUAD(0) ++ } >FLASH AT>FLASH ++" ++ ;; ++ ++ avr32elf_uc3b[01]512) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 512K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x17FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3b[01]256*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x7FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3[ab][012]128*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 128K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x7FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3b[0123]64*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3a3256*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ HSBSRAM (wxa!ri) : ORIGIN = 0xFF000000, LENGTH = 64K ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .hsbsram : { *(.hsbsram .hsbsram.*) } >HSBSRAM AT>FLASH :FLASH ++" ++ ++ ;; ++ ++ avr32elf_uc3a3128*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 128K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ HSBSRAM (wxa!ri) : ORIGIN = 0xFF000000, LENGTH = 64K ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .hsbsram : { *(.hsbsram .hsbsram.*) } >HSBSRAM AT>FLASH :FLASH ++" ++ ;; ++ ++ avr32elf_uc3a364*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ HSBSRAM (wxa!ri) : ORIGIN = 0xFF000000, LENGTH = 64K ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .hsbsram : { *(.hsbsram .hsbsram.*) } >HSBSRAM AT>FLASH :FLASH ++" ++ ;; ++ ++ ++ avr32elf_uc3l[0123]64*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3l[0123]32*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 32K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3l[0123]16*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 16K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x1FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ ++ esac ++ ;; ++ ++esac +--- /dev/null ++++ b/ld/emulparams/avr32linux.sh +@@ -0,0 +1,14 @@ ++ARCH=avr32 ++SCRIPT_NAME=elf ++TEMPLATE_NAME=elf32 ++EXTRA_EM_FILE=avr32elf ++OUTPUT_FORMAT="elf32-avr32" ++GENERATE_SHLIB_SCRIPT=yes ++MAXPAGESIZE=0x1000 ++TEXT_START_ADDR=0x00001000 ++NOP=0xd703d703 ++ ++# This appears to place the GOT before the data section, which is ++# essential for uClinux. We don't use those .s* sections on AVR32 ++# anyway, so it shouldn't hurt for regular Linux either... ++NO_SMALL_DATA=yes +--- /dev/null ++++ b/ld/emultempl/avr32elf.em +@@ -0,0 +1,162 @@ ++# This shell script emits a C file. -*- C -*- ++# Copyright (C) 2007,2008,2009 Atmel Corporation ++# ++# This file is part of GLD, the Gnu Linker. ++# ++# This program is free software; you can redistribute it and/or modify ++# it under the terms of the GNU General Public License as published by ++# the Free Software Foundation; either version 2 of the License, or ++# (at your option) any later version. ++# ++# This program is distributed in the hope that it will be useful, ++# but WITHOUT ANY WARRANTY; without even the implied warranty of ++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++# GNU General Public License for more details. ++# ++# You should have received a copy of the GNU General Public License ++# along with this program; if not, write to the Free Software ++# Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. ++# ++ ++# This file is sourced from elf32.em, and defines extra avr32-elf ++# specific routines. ++# ++ ++# Generate linker script for writable rodata ++LD_FLAG=rodata-writable ++DATA_ALIGNMENT=${DATA_ALIGNMENT_} ++RELOCATING=" " ++WRITABLE_RODATA=" " ++( echo "/* Linker script for writable rodata */" ++ . ${CUSTOMIZER_SCRIPT} ${EMULATION_NAME} ++ . ${srcdir}/scripttempl/${SCRIPT_NAME}.sc ++) | sed -e '/^ *$/d;s/[ ]*$//' > ldscripts/${EMULATION_NAME}.xwr ++ ++ ++cat >> e${EMULATION_NAME}.c <children); ++ ++ lang_add_assignment (exp_assop ('=', "_stack_size", ++ exp_intop (stack_size))); ++ ++ stat_ptr = save; ++} ++ ++static char * gld${EMULATION_NAME}_get_script (int *isfile); ++ ++static char * avr32_elf_get_script (int *isfile) ++{ ++ if ( rodata_writable ) ++ { ++EOF ++if test -n "$COMPILE_IN" ++then ++# Scripts compiled in. ++ ++# sed commands to quote an ld script as a C string. ++sc="-f stringify.sed" ++ ++cat >>e${EMULATION_NAME}.c <> e${EMULATION_NAME}.c ++echo ';' >> e${EMULATION_NAME}.c ++else ++# Scripts read from the filesystem. ++ ++cat >>e${EMULATION_NAME}.c <>e${EMULATION_NAME}.c <: ++a0000000: d7 03 nop ++a0000002: d7 03 nop ++ ++a0000004 : ++a0000004: d7 03 nop ++a0000006: c0 28 rjmp a000000a ++a0000008: d7 03 nop ++a000000a: e0 8f 01 fb bral a0000400 ++ ++a000000e : ++a000000e: d7 03 nop ++a0000010 : ++a0000010: c0 2c rcall a0000014 ++a0000012: d7 03 nop ++a0000014: ee b0 ff f6 rcall a0200000 ++ ++a0000018 : ++a0000018: c0 31 brne a000001e ++a000001a: fe 9f ff ff bral a0000018 ++a000001e: ee 90 ff f1 breq a0200000 ++ ++a0000022 : ++a0000022: 48 30 lddpc r0,a000002c ++a0000024: 48 20 lddpc r0,a000002c ++a0000026: fe f0 7f da ld.w r0,pc\[32730\] ++ ... ++ ++a000002c : ++a000002c: d7 03 nop ++a000002e: d7 03 nop ++ ++a0000030 : ++a0000030: 48 20 lddpc r0,a0000038 ++a0000032: 48 30 lddpc r0,a000003c ++a0000034: 48 20 lddpc r0,a000003c ++a0000036: 00 00 add r0,r0 ++a0000038: d7 03 nop ++a000003a: d7 03 nop ++a000003c: d7 03 nop ++a000003e: d7 03 nop ++ ++Disassembly of section \.text\.init: ++a0000040 : ++a0000040: fe b0 ff e7 rcall a000000e ++a0000044: d7 03 nop ++a0000046: fe b0 ff e4 rcall a000000e ++a000004a: fe b0 ff e3 rcall a0000010 ++a000004e: d7 03 nop ++a0000050: fe b0 ff e0 rcall a0000010 ++ ++Disassembly of section \.text\.pcrel10: ++ ++a0000400 : ++a0000400: d7 03 nop ++ ++Disassembly of section \.text\.pcrel16: ++ ++a0008000 : ++a0008000: d7 03 nop ++ ++Disassembly of section \.text\.pcrel21: ++a0200000 : ++a0200000: d7 03 nop +--- /dev/null ++++ b/ld/testsuite/ld-avr32/pcrel.ld +@@ -0,0 +1,23 @@ ++ENTRY(_start) ++SECTIONS ++{ ++ .text 0xa0000000: ++ { ++ *(.text) ++ } ++ ++ .text.pcrel10 0xa0000400: ++ { ++ *(.text.pcrel10) ++ } ++ ++ .text.pcrel16 0xa0008000: ++ { ++ *(.text.pcrel16) ++ } ++ ++ .text.pcrel21 0xa0200000: ++ { ++ *(.text.pcrel21) ++ } ++} +--- /dev/null ++++ b/ld/testsuite/ld-avr32/symbols.s +@@ -0,0 +1,20 @@ ++ .text ++ .global _start ++_start: ++ nop ++ nop ++ ++ .section .text.pcrel10,"ax" ++ .global extsym10 ++extsym10: ++ nop ++ ++ .section .text.pcrel16,"ax" ++ .global extsym16 ++extsym16: ++ nop ++ ++ .section .text.pcrel21,"ax" ++ .global extsym21 ++extsym21: ++ nop +--- /dev/null ++++ b/opcodes/avr32-asm.c +@@ -0,0 +1,244 @@ ++/* Assembler interface for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include ++ ++#include "avr32-opc.h" ++#include "avr32-asm.h" ++ ++/* Structure for a register hash table entry. */ ++struct reg_entry ++{ ++ const char *name; ++ int number; ++}; ++ ++/* Integer Registers. */ ++static const struct reg_entry reg_table[] = ++ { ++ /* Primary names (used by the disassembler) */ ++ { "r0", 0 }, { "r1", 1 }, { "r2", 2 }, { "r3", 3 }, ++ { "r4", 4 }, { "r5", 5 }, { "r6", 6 }, { "r7", 7 }, ++ { "r8", 8 }, { "r9", 9 }, { "r10", 10 }, { "r11", 11 }, ++ { "r12", 12 }, { "sp", 13 }, { "lr", 14 }, { "pc", 15 }, ++ /* Alternatives to sp, lr and pc. */ ++ { "r13", 13 }, { "r14", 14 }, { "r15", 15 }, ++ }; ++#define AVR32_NR_INTREGS (sizeof(reg_table)/sizeof(reg_table[0])) ++ ++/* Coprocessor Registers. */ ++static const struct reg_entry cr_table[] = ++ { ++ { "cr0", 0 }, { "cr1", 1 }, { "cr2", 2 }, { "cr3", 3 }, ++ { "cr4", 4 }, { "cr5", 5 }, { "cr6", 6 }, { "cr7", 7 }, ++ { "cr8", 8 }, { "cr9", 9 }, { "cr10", 10 }, { "cr11", 11 }, ++ { "cr12", 12 }, { "cr13", 13 }, { "cr14", 14 }, { "cr15", 15 }, ++ }; ++#define AVR32_NR_CPREGS (sizeof(cr_table)/sizeof(cr_table[0])) ++ ++#define AVR32_NR_FPREGS (sizeof(fr_table)/sizeof(fr_table[0])) ++ ++/* PiCo Registers. */ ++static const struct reg_entry pico_table[] = ++ { ++ { "inpix2", 0 }, { "inpix1", 1 }, { "inpix0", 2 }, ++ { "outpix2", 3 }, { "outpix1", 4 }, { "outpix0", 5 }, ++ { "coeff0_a", 6 }, { "coeff0_b", 7 }, { "coeff1_a", 8 }, ++ { "coeff1_b", 9 }, { "coeff2_a", 10 }, { "coeff2_b", 11 }, ++ { "vmu0_out", 12 }, { "vmu1_out", 13 }, { "vmu2_out", 14 }, ++ { "config", 15 }, ++ }; ++#define AVR32_NR_PICOREGS (sizeof(pico_table)/sizeof(pico_table[0])) ++ ++int ++avr32_parse_intreg(const char *str) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < AVR32_NR_INTREGS; i++) ++ { ++ if (strcasecmp(reg_table[i].name, str) == 0) ++ return reg_table[i].number; ++ } ++ ++ return -1; ++} ++ ++int ++avr32_parse_cpreg(const char *str) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < AVR32_NR_CPREGS; i++) ++ { ++ if (strcasecmp(cr_table[i].name, str) == 0) ++ return cr_table[i].number; ++ } ++ ++ return -1; ++} ++ ++ ++int avr32_parse_picoreg(const char *str) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < AVR32_NR_PICOREGS; i++) ++ { ++ if (strcasecmp(pico_table[i].name, str) == 0) ++ return pico_table[i].number; ++ } ++ ++ return -1; ++} ++ ++static unsigned long ++parse_reglist(char *str, char **endptr, int (*parse_reg)(const char *)) ++{ ++ int reg_from, reg_to; ++ unsigned long result = 0; ++ char *p1, *p2, c; ++ ++ while (*str) ++ { ++ for (p1 = str; *p1; p1++) ++ if (*p1 == ',' || *p1 == '-') ++ break; ++ ++ c = *p1, *p1 = 0; ++ reg_from = parse_reg(str); ++ *p1 = c; ++ ++ if (reg_from < 0) ++ break; ++ ++ if (*p1 == '-') ++ { ++ for (p2 = ++p1; *p2; p2++) ++ if (*p2 == ',') ++ break; ++ ++ c = *p2, *p2 = 0; ++ /* printf("going to parse reg_to from `%s'\n", p1); */ ++ reg_to = parse_reg(p1); ++ *p2 = c; ++ ++ if (reg_to < 0) ++ break; ++ ++ while (reg_from <= reg_to) ++ result |= (1 << reg_from++); ++ p1 = p2; ++ } ++ else ++ result |= (1 << reg_from); ++ ++ str = p1; ++ if (*str) ++str; ++ } ++ ++ if (endptr) ++ *endptr = str; ++ ++ return result; ++} ++ ++unsigned long ++avr32_parse_reglist(char *str, char **endptr) ++{ ++ return parse_reglist(str, endptr, avr32_parse_intreg); ++} ++ ++unsigned long ++avr32_parse_cpreglist(char *str, char **endptr) ++{ ++ return parse_reglist(str, endptr, avr32_parse_cpreg); ++} ++ ++unsigned long ++avr32_parse_pico_reglist(char *str, char **endptr) ++{ ++ return parse_reglist(str, endptr, avr32_parse_picoreg); ++} ++ ++int ++avr32_make_regmask8(unsigned long regmask16, unsigned long *regmask8) ++{ ++ unsigned long result = 0; ++ ++ /* printf("convert regmask16 0x%04lx\n", regmask16); */ ++ ++ if (regmask16 & 0xf) ++ { ++ if ((regmask16 & 0xf) == 0xf) ++ result |= 1 << 0; ++ else ++ return -1; ++ } ++ if (regmask16 & 0xf0) ++ { ++ if ((regmask16 & 0xf0) == 0xf0) ++ result |= 1 << 1; ++ else ++ return -1; ++ } ++ if (regmask16 & 0x300) ++ { ++ if ((regmask16 & 0x300) == 0x300) ++ result |= 1 << 2; ++ else ++ return -1; ++ } ++ if (regmask16 & (1 << 13)) ++ return -1; ++ ++ if (regmask16 & (1 << 10)) ++ result |= 1 << 3; ++ if (regmask16 & (1 << 11)) ++ result |= 1 << 4; ++ if (regmask16 & (1 << 12)) ++ result |= 1 << 5; ++ if (regmask16 & (1 << 14)) ++ result |= 1 << 6; ++ if (regmask16 & (1 << 15)) ++ result |= 1 << 7; ++ ++ *regmask8 = result; ++ ++ return 0; ++} ++ ++#if 0 ++struct reg_map ++{ ++ const struct reg_entry *names; ++ int nr_regs; ++ struct hash_control *htab; ++ const char *errmsg; ++}; ++ ++struct reg_map all_reg_maps[] = ++ { ++ { reg_table, AVR32_NR_INTREGS, NULL, N_("integral register expected") }, ++ { cr_table, AVR32_NR_CPREGS, NULL, N_("coprocessor register expected") }, ++ }; ++#endif +--- /dev/null ++++ b/opcodes/avr32-asm.h +@@ -0,0 +1,40 @@ ++/* Assembler interface for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++#ifndef __OPCODES_AVR32_ASM_H ++#define __OPCODES_AVR32_ASM_H ++ ++extern int ++avr32_parse_intreg(const char *str); ++extern int ++avr32_parse_cpreg(const char *str); ++extern int ++avr32_parse_picoreg(const char *str); ++extern unsigned long ++avr32_parse_reglist(char *str, char **endptr); ++extern unsigned long ++avr32_parse_cpreglist(char *str, char **endptr); ++extern unsigned long ++avr32_parse_pico_reglist(char *str, char **endptr); ++extern int ++avr32_make_regmask8(unsigned long regmask16, unsigned long *regmask8); ++ ++#endif /* __OPCODES_AVR32_ASM_H */ +--- /dev/null ++++ b/opcodes/avr32-dis.c +@@ -0,0 +1,916 @@ ++/* Print AVR32 instructions for GDB and objdump. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include "sysdep.h" ++#include "dis-asm.h" ++#include "avr32-opc.h" ++#include "opintl.h" ++#include "safe-ctype.h" ++ ++/* TODO: Share this with -asm */ ++ ++/* Structure for a register hash table entry. */ ++struct reg_entry ++{ ++ const char *name; ++ int number; ++}; ++ ++#ifndef strneq ++#define strneq(a,b,n) (strncmp ((a), (b), (n)) == 0) ++#endif ++ ++static char avr32_opt_decode_fpu = 0; ++ ++static const struct reg_entry reg_table[] = ++ { ++ /* Primary names (used by the disassembler) */ ++ { "r0", 0 }, { "r1", 1 }, { "r2", 2 }, { "r3", 3 }, ++ { "r4", 4 }, { "r5", 5 }, { "r6", 6 }, { "r7", 7 }, ++ { "r8", 8 }, { "r9", 9 }, { "r10", 10 }, { "r11", 11 }, ++ { "r12", 12 }, { "sp", 13 }, { "lr", 14 }, { "pc", 15 }, ++ /* Alternatives to sp, lr and pc. */ ++ { "r13", 13 }, { "r14", 14 }, { "r15", 15 }, ++ }; ++#define AVR32_NR_INTREGS (sizeof(reg_table)/sizeof(reg_table[0])) ++ ++/* Coprocessor Registers. */ ++static const struct reg_entry cr_table[] = ++ { ++ { "cr0", 0 }, { "cr1", 1 }, { "cr2", 2 }, { "cr3", 3 }, ++ { "cr4", 4 }, { "cr5", 5 }, { "cr6", 6 }, { "cr7", 7 }, ++ { "cr8", 8 }, { "cr9", 9 }, { "cr10", 10 }, { "cr11", 11 }, ++ { "cr12", 12 }, { "cr13", 13 }, { "cr14", 14 }, { "cr15", 15 }, ++ }; ++#define AVR32_NR_CPREGS (sizeof(cr_table)/sizeof(cr_table[0])) ++ ++static const char bparts[4] = { 'b', 'l', 'u', 't' }; ++static bfd_vma current_pc; ++ ++struct avr32_field_value ++{ ++ const struct avr32_ifield *ifield; ++ unsigned long value; ++}; ++ ++struct avr32_operand ++{ ++ int id; ++ int is_pcrel; ++ int align_order; ++ int (*print)(struct avr32_operand *op, struct disassemble_info *info, ++ struct avr32_field_value *ifields); ++}; ++ ++static signed long ++get_signed_value(const struct avr32_field_value *fv) ++{ ++ signed long value = fv->value; ++ ++ if (fv->value & (1 << (fv->ifield->bitsize - 1))) ++ value |= (~0UL << fv->ifield->bitsize); ++ ++ return value; ++} ++ ++static void ++print_reglist_range(unsigned int first, unsigned int last, ++ const struct reg_entry *reg_names, ++ int need_comma, ++ struct disassemble_info *info) ++{ ++ if (need_comma) ++ info->fprintf_func(info->stream, ","); ++ ++ if (first == last) ++ info->fprintf_func(info->stream, "%s", ++ reg_names[first].name); ++ else ++ info->fprintf_func(info->stream, "%s-%s", ++ reg_names[first].name, reg_names[last].name); ++} ++ ++static int ++print_intreg(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regid = ifields[0].value << op->align_order; ++ ++ info->fprintf_func(info->stream, "%s", ++ reg_table[regid].name); ++ return 1; ++} ++ ++static int ++print_intreg_predec(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "--%s", ++ reg_table[ifields[0].value].name); ++ return 1; ++} ++ ++static int ++print_intreg_postinc(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s++", ++ reg_table[ifields[0].value].name); ++ return 1; ++} ++ ++static int ++print_intreg_lsl(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ const char *rp = reg_table[ifields[0].value].name; ++ unsigned long sa = ifields[1].value; ++ ++ if (sa) ++ info->fprintf_func(info->stream, "%s<<0x%lx", rp, sa); ++ else ++ info->fprintf_func(info->stream, "%s", rp); ++ ++ return 2; ++} ++ ++static int ++print_intreg_lsr(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ const char *rp = reg_table[ifields[0].value].name; ++ unsigned long sa = ifields[1].value; ++ ++ if (sa) ++ info->fprintf_func(info->stream, "%s>>0x%lx", rp, sa); ++ else ++ info->fprintf_func(info->stream, "%s", rp); ++ ++ return 2; ++} ++ ++static int ++print_intreg_bpart(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s:%c", ++ reg_table[ifields[0].value].name, ++ bparts[ifields[1].value]); ++ return 2; ++} ++ ++static int ++print_intreg_hpart(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s:%c", ++ reg_table[ifields[0].value].name, ++ ifields[1].value ? 't' : 'b'); ++ return 2; ++} ++ ++static int ++print_intreg_sdisp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ signed long disp; ++ ++ disp = get_signed_value(&ifields[1]) << op->align_order; ++ ++ info->fprintf_func(info->stream, "%s[%ld]", ++ reg_table[ifields[0].value].name, disp); ++ return 2; ++} ++ ++static int ++print_intreg_udisp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s[0x%lx]", ++ reg_table[ifields[0].value].name, ++ ifields[1].value << op->align_order); ++ return 2; ++} ++ ++static int ++print_intreg_index(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ const char *rb, *ri; ++ unsigned long sa = ifields[2].value; ++ ++ rb = reg_table[ifields[0].value].name; ++ ri = reg_table[ifields[1].value].name; ++ ++ if (sa) ++ info->fprintf_func(info->stream, "%s[%s<<0x%lx]", rb, ri, sa); ++ else ++ info->fprintf_func(info->stream, "%s[%s]", rb, ri); ++ ++ return 3; ++} ++ ++static int ++print_intreg_xindex(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s[%s:%c<<2]", ++ reg_table[ifields[0].value].name, ++ reg_table[ifields[1].value].name, ++ bparts[ifields[2].value]); ++ return 3; ++} ++ ++static int ++print_jmplabel(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ bfd_vma address, offset; ++ ++ offset = get_signed_value(ifields) << op->align_order; ++ address = (current_pc & (~0UL << op->align_order)) + offset; ++ ++ info->print_address_func(address, info); ++ ++ return 1; ++} ++ ++static int ++print_pc_disp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ bfd_vma address, offset; ++ ++ offset = ifields[0].value << op->align_order; ++ address = (current_pc & (~0UL << op->align_order)) + offset; ++ ++ info->print_address_func(address, info); ++ ++ return 1; ++} ++ ++static int ++print_sp(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields ATTRIBUTE_UNUSED) ++{ ++ info->fprintf_func(info->stream, "sp"); ++ return 1; ++} ++ ++static int ++print_sp_disp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "sp[0x%lx]", ++ ifields[0].value << op->align_order); ++ return 1; ++} ++ ++static int ++print_cpno(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "cp%lu", ifields[0].value); ++ return 1; ++} ++ ++static int ++print_cpreg(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "cr%lu", ++ ifields[0].value << op->align_order); ++ return 1; ++} ++ ++static int ++print_uconst(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "0x%lx", ++ ifields[0].value << op->align_order); ++ return 1; ++} ++ ++static int ++print_sconst(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%ld", ++ get_signed_value(ifields) << op->align_order); ++ return 1; ++} ++ ++static int ++print_reglist8_head(unsigned long regmask, int *commap, ++ struct disassemble_info *info) ++{ ++ int first = -1, last, i = 0; ++ int need_comma = 0; ++ ++ while (i < 12) ++ { ++ if (first == -1 && (regmask & 1)) ++ { ++ first = i; ++ } ++ else if (first != -1 && !(regmask & 1)) ++ { ++ last = i - 1; ++ ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ first = -1; ++ } ++ ++ if (i < 8) ++ i += 4; ++ else if (i < 10) ++ i += 2; ++ else ++ i++; ++ regmask >>= 1; ++ } ++ ++ *commap = need_comma; ++ return first; ++} ++ ++static void ++print_reglist8_tail(unsigned long regmask, int first, int need_comma, ++ struct disassemble_info *info) ++{ ++ int last = 11; ++ ++ if (regmask & 0x20) ++ { ++ if (first == -1) ++ first = 12; ++ last = 12; ++ } ++ ++ if (first != -1) ++ { ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ first = -1; ++ } ++ ++ if (regmask & 0x40) ++ { ++ if (first == -1) ++ first = 14; ++ last = 14; ++ } ++ ++ if (regmask & 0x80) ++ { ++ if (first == -1) ++ first = 15; ++ last = 15; ++ } ++ ++ if (first != -1) ++ print_reglist_range(first, last, reg_table, need_comma, info); ++} ++ ++static int ++print_reglist8(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ int first, need_comma; ++ ++ first = print_reglist8_head(regmask, &need_comma, info); ++ print_reglist8_tail(regmask, first, need_comma, info); ++ ++ return 1; ++} ++ ++static int ++print_reglist9(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value >> 1; ++ int first, last, need_comma; ++ ++ first = print_reglist8_head(regmask, &need_comma, info); ++ ++ if ((ifields[0].value & 0x101) == 0x101) ++ { ++ if (first != -1) ++ { ++ last = 11; ++ ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ first = -1; ++ } ++ ++ print_reglist_range(15, 15, reg_table, need_comma, info); ++ ++ regmask >>= 5; ++ ++ if ((regmask & 3) == 0) ++ info->fprintf_func(info->stream, ",r12=0"); ++ else if ((regmask & 3) == 1) ++ info->fprintf_func(info->stream, ",r12=1"); ++ else ++ info->fprintf_func(info->stream, ",r12=-1"); ++ } ++ else ++ print_reglist8_tail(regmask, first, need_comma, info); ++ ++ return 1; ++} ++ ++static int ++print_reglist16(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ unsigned int i = 0, first, last; ++ int need_comma = 0; ++ ++ while (i < 16) ++ { ++ if (regmask & 1) ++ { ++ first = i; ++ while (i < 16) ++ { ++ i++; ++ regmask >>= 1; ++ if (!(regmask & 1)) ++ break; ++ } ++ last = i - 1; ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ } ++ else ++ { ++ i++; ++ regmask >>= 1; ++ } ++ } ++ ++ return 1; ++} ++ ++static int ++print_reglist_ldm(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ int rp, w_bit; ++ int i, first, last; ++ unsigned long regmask; ++ ++ rp = ifields[0].value; ++ w_bit = ifields[1].value; ++ regmask = ifields[2].value; ++ ++ if (regmask & (1 << AVR32_REG_PC) && rp == AVR32_REG_PC) ++ { ++ if (w_bit) ++ info->fprintf_func(info->stream, "sp++"); ++ else ++ info->fprintf_func(info->stream, "sp"); ++ ++ for (i = 0; i < 12; ) ++ { ++ if (regmask & (1 << i)) ++ { ++ first = i; ++ while (i < 12) ++ { ++ i++; ++ if (!(regmask & (1 << i))) ++ break; ++ } ++ last = i - 1; ++ print_reglist_range(first, last, reg_table, 1, info); ++ } ++ else ++ i++; ++ } ++ ++ info->fprintf_func(info->stream, ",pc"); ++ if (regmask & (1 << AVR32_REG_LR)) ++ info->fprintf_func(info->stream, ",r12=-1"); ++ else if (regmask & (1 << AVR32_REG_R12)) ++ info->fprintf_func(info->stream, ",r12=1"); ++ else ++ info->fprintf_func(info->stream, ",r12=0"); ++ } ++ else ++ { ++ if (w_bit) ++ info->fprintf_func(info->stream, "%s++,", reg_table[rp].name); ++ else ++ info->fprintf_func(info->stream, "%s,", reg_table[rp].name); ++ ++ print_reglist16(op, info, ifields + 2); ++ } ++ ++ return 3; ++} ++ ++static int ++print_reglist_cp8(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ unsigned int i = 0, first, last, offset = 0; ++ int need_comma = 0; ++ ++ if (ifields[1].value) ++ offset = 8; ++ ++ while (i < 8) ++ { ++ if (regmask & 1) ++ { ++ first = i; ++ while (i < 8) ++ { ++ i++; ++ regmask >>= 1; ++ if (!(regmask & 1)) ++ break; ++ } ++ last = i - 1; ++ print_reglist_range(offset + first, offset + last, ++ cr_table, need_comma, info); ++ need_comma = 1; ++ } ++ else ++ { ++ i++; ++ regmask >>= 1; ++ } ++ } ++ ++ return 2; ++} ++ ++static int ++print_reglist_cpd8(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ unsigned int i = 0, first, last; ++ int need_comma = 0; ++ ++ while (i < 8) ++ { ++ if (regmask & 1) ++ { ++ first = 2 * i; ++ while (i < 8) ++ { ++ i++; ++ regmask >>= 1; ++ if (!(regmask & 1)) ++ break; ++ } ++ last = 2 * (i - 1) + 1; ++ print_reglist_range(first, last, cr_table, need_comma, info); ++ need_comma = 1; ++ } ++ else ++ { ++ i++; ++ regmask >>= 1; ++ } ++ } ++ ++ return 1; ++} ++ ++static int ++print_retval(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regid = ifields[0].value; ++ const char *retval; ++ ++ if (regid < AVR32_REG_SP) ++ retval = reg_table[regid].name; ++ else if (regid == AVR32_REG_SP) ++ retval = "0"; ++ else if (regid == AVR32_REG_LR) ++ retval = "-1"; ++ else ++ retval = "1"; ++ ++ info->fprintf_func(info->stream, "%s", retval); ++ ++ return 1; ++} ++ ++static int ++print_mcall(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regid = ifields[0].value; ++ ++ if (regid == AVR32_REG_PC) ++ print_jmplabel(op, info, ifields + 1); ++ else ++ print_intreg_sdisp(op, info, ifields); ++ ++ return 2; ++} ++ ++static int ++print_jospinc(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ signed long value = ifields[0].value; ++ ++ if (value >= 4) ++ value -= 8; ++ else ++ value += 1; ++ ++ info->fprintf_func(info->stream, "%ld", value); ++ ++ return 1; ++} ++ ++static int ++print_coh(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields ATTRIBUTE_UNUSED) ++{ ++ info->fprintf_func(info->stream, "COH"); ++ return 0; ++} ++ ++#define OP(name, sgn, pcrel, align, func) \ ++ { AVR32_OPERAND_##name, pcrel, align, print_##func } ++ ++struct avr32_operand operand[AVR32_NR_OPERANDS] = ++ { ++ OP(INTREG, 0, 0, 0, intreg), ++ OP(INTREG_PREDEC, 0, 0, 0, intreg_predec), ++ OP(INTREG_POSTINC, 0, 0, 0, intreg_postinc), ++ OP(INTREG_LSL, 0, 0, 0, intreg_lsl), ++ OP(INTREG_LSR, 0, 0, 0, intreg_lsr), ++ OP(INTREG_BSEL, 0, 0, 0, intreg_bpart), ++ OP(INTREG_HSEL, 0, 0, 1, intreg_hpart), ++ OP(INTREG_SDISP, 1, 0, 0, intreg_sdisp), ++ OP(INTREG_SDISP_H, 1, 0, 1, intreg_sdisp), ++ OP(INTREG_SDISP_W, 1, 0, 2, intreg_sdisp), ++ OP(INTREG_UDISP, 0, 0, 0, intreg_udisp), ++ OP(INTREG_UDISP_H, 0, 0, 1, intreg_udisp), ++ OP(INTREG_UDISP_W, 0, 0, 2, intreg_udisp), ++ OP(INTREG_INDEX, 0, 0, 0, intreg_index), ++ OP(INTREG_XINDEX, 0, 0, 0, intreg_xindex), ++ OP(DWREG, 0, 0, 1, intreg), ++ OP(PC_UDISP_W, 0, 1, 2, pc_disp), ++ OP(SP, 0, 0, 0, sp), ++ OP(SP_UDISP_W, 0, 0, 2, sp_disp), ++ OP(CPNO, 0, 0, 0, cpno), ++ OP(CPREG, 0, 0, 0, cpreg), ++ OP(CPREG_D, 0, 0, 1, cpreg), ++ OP(UNSIGNED_CONST, 0, 0, 0, uconst), ++ OP(UNSIGNED_CONST_W, 0, 0, 2, uconst), ++ OP(SIGNED_CONST, 1, 0, 0, sconst), ++ OP(SIGNED_CONST_W, 1, 0, 2, sconst), ++ OP(JMPLABEL, 1, 1, 1, jmplabel), ++ OP(UNSIGNED_NUMBER, 0, 0, 0, uconst), ++ OP(UNSIGNED_NUMBER_W, 0, 0, 2, uconst), ++ OP(REGLIST8, 0, 0, 0, reglist8), ++ OP(REGLIST9, 0, 0, 0, reglist9), ++ OP(REGLIST16, 0, 0, 0, reglist16), ++ OP(REGLIST_LDM, 0, 0, 0, reglist_ldm), ++ OP(REGLIST_CP8, 0, 0, 0, reglist_cp8), ++ OP(REGLIST_CPD8, 0, 0, 0, reglist_cpd8), ++ OP(RETVAL, 0, 0, 0, retval), ++ OP(MCALL, 1, 0, 2, mcall), ++ OP(JOSPINC, 0, 0, 0, jospinc), ++ OP(COH, 0, 0, 0, coh), ++ }; ++ ++static void ++print_opcode(bfd_vma insn_word, const struct avr32_opcode *opc, ++ bfd_vma pc, struct disassemble_info *info) ++{ ++ const struct avr32_syntax *syntax = opc->syntax; ++ struct avr32_field_value fields[AVR32_MAX_FIELDS]; ++ unsigned int i, next_field = 0, nr_operands; ++ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ opc->fields[i]->extract(opc->fields[i], &insn_word, &fields[i].value); ++ fields[i].ifield = opc->fields[i]; ++ } ++ ++ current_pc = pc; ++ info->fprintf_func(info->stream, "%s", syntax->mnemonic->name); ++ ++ if (syntax->nr_operands < 0) ++ nr_operands = (unsigned int) -syntax->nr_operands; ++ else ++ nr_operands = (unsigned int) syntax->nr_operands; ++ ++ for (i = 0; i < nr_operands; i++) ++ { ++ struct avr32_operand *op = &operand[syntax->operand[i]]; ++ ++ if (i) ++ info->fprintf_func(info->stream, ","); ++ else ++ info->fprintf_func(info->stream, "\t"); ++ next_field += op->print(op, info, &fields[next_field]); ++ } ++} ++ ++#define is_fpu_insn(iw) ((iw&0xf9f0e000)==0xe1a00000) ++ ++static const struct avr32_opcode * ++find_opcode(bfd_vma insn_word) ++{ ++ int i; ++ ++ for (i = 0; i < AVR32_NR_OPCODES; i++) ++ { ++ const struct avr32_opcode *opc = &avr32_opc_table[i]; ++ ++ if ((insn_word & opc->mask) == opc->value) ++ { ++ if (avr32_opt_decode_fpu) ++ { ++ if (is_fpu_insn(insn_word)) ++ { ++ if (opc->id != AVR32_OPC_COP) ++ return opc; ++ } ++ else ++ return opc; ++ } ++ else ++ return opc; ++ } ++ } ++ ++ return NULL; ++} ++ ++static int ++read_insn_word(bfd_vma pc, bfd_vma *valuep, ++ struct disassemble_info *info) ++{ ++ bfd_byte b[4]; ++ int status; ++ ++ status = info->read_memory_func(pc, b, 4, info); ++ if (status) ++ { ++ status = info->read_memory_func(pc, b, 2, info); ++ if (status) ++ { ++ info->memory_error_func(status, pc, info); ++ return -1; ++ } ++ b[3] = b[2] = 0; ++ } ++ ++ *valuep = (b[0] << 24) | (b[1] << 16) | (b[2] << 8) | b[3]; ++ return 0; ++} ++ ++/* Parse an individual disassembler option. */ ++ ++void ++parse_avr32_disassembler_option (option) ++ char * option; ++{ ++ if (option == NULL) ++ return; ++ ++ if (!strcmp(option,"decode-fpu")) ++ { ++ avr32_opt_decode_fpu = 1; ++ return; ++ } ++ ++ printf("\n%s--",option); ++ /* XXX - should break 'option' at following delimiter. */ ++ fprintf (stderr, _("Unrecognised disassembler option: %s\n"), option); ++ ++ return; ++} ++ ++/* Parse the string of disassembler options, spliting it at whitespaces ++ or commas. (Whitespace separators supported for backwards compatibility). */ ++ ++static void ++parse_disassembler_options (char *options) ++{ ++ if (options == NULL) ++ return; ++ ++ while (*options) ++ { ++ parse_avr32_disassembler_option (options); ++ ++ /* Skip forward to next seperator. */ ++ while ((*options) && (! ISSPACE (*options)) && (*options != ',')) ++ ++ options; ++ /* Skip forward past seperators. */ ++ while (ISSPACE (*options) || (*options == ',')) ++ ++ options; ++ } ++} ++ ++int ++print_insn_avr32(bfd_vma pc, struct disassemble_info *info) ++{ ++ bfd_vma insn_word; ++ const struct avr32_opcode *opc; ++ ++ if (info->disassembler_options) ++ { ++ parse_disassembler_options (info->disassembler_options); ++ ++ /* To avoid repeated parsing of these options, we remove them here. */ ++ info->disassembler_options = NULL; ++ } ++ ++ info->bytes_per_chunk = 1; ++ info->display_endian = BFD_ENDIAN_BIG; ++ ++ if (read_insn_word(pc, &insn_word, info)) ++ return -1; ++ ++ opc = find_opcode(insn_word); ++ if (opc) ++ { ++ print_opcode(insn_word, opc, pc, info); ++ return opc->size; ++ } ++ else ++ { ++ info->fprintf_func(info->stream, _("*unknown*")); ++ return 2; ++ } ++ ++} ++ ++void ++print_avr32_disassembler_options (FILE *stream ATTRIBUTE_UNUSED) ++{ ++ fprintf(stream, "\n AVR32 Specific Disassembler Options:\n"); ++ fprintf(stream, " -M decode-fpu Print FPU instructions instead of 'cop' \n"); ++} ++ +--- /dev/null ++++ b/opcodes/avr32-opc.c +@@ -0,0 +1,6906 @@ ++/* Opcode tables for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include ++#include ++ ++#include "avr32-opc.h" ++ ++#define PICO_CPNO 1 ++ ++void ++avr32_insert_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ word |= (value << field->shift) & field->mask; ++ bfd_putb32(word, buf); ++} ++ ++void ++avr32_insert_bit5c(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long value) ++{ ++ char *opcode = buf; ++ ++ opcode[0] = (opcode[0] & 0xe1) | (value & 0x1e); ++ opcode[1] = (opcode[1] & 0xef) | ((value & 1) << 4); ++} ++ ++void ++avr32_insert_k10(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long value) ++{ ++ char *opcode = buf; ++ ++ opcode[0] = (opcode[0] & 0xf0) | ((value & 0xf0) >> 4); ++ opcode[1] = ((opcode[1] & 0x0c) | ((value & 0x0f) << 4) ++ | ((value & 0x300) >> 8)); ++} ++ ++ ++void ++avr32_insert_k21(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ bfd_vma k21; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ k21 = ((value & 0xffff) | ((value & 0x10000) << 4) ++ | ((value & 0x1e0000) << 8)); ++ assert(!(k21 & ~field->mask)); ++ word |= k21; ++ bfd_putb32(word, buf); ++} ++ ++void ++avr32_insert_cpop(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ word |= (((value & 0x1e) << 15) | ((value & 0x60) << 20) ++ | ((value & 0x01) << 12)); ++ bfd_putb32(word, buf); ++} ++ ++void ++avr32_insert_k12cp(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ word |= ((value & 0xf00) << 4) | (value & 0xff); ++ bfd_putb32(word, buf); ++} ++ ++void avr32_extract_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long *value) ++{ ++ /* XXX: The disassembler has done any necessary byteswapping already */ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = (word & field->mask) >> field->shift; ++} ++ ++void avr32_extract_bit5c(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word >> 20) & 1) | ((word >> 24) & 0x1e); ++} ++ ++void avr32_extract_k10(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word >> 8) & 0x300) | ((word >> 20) & 0xff); ++} ++ ++void avr32_extract_k21(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word & 0xffff) | ((word >> 4) & 0x10000) ++ | ((word >> 8) & 0x1e0000)); ++} ++ ++void avr32_extract_cpop(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = (((word >> 12) & 1) | ((word >> 15) & 0x1e) ++ | ((word >> 20) & 0x60)); ++} ++ ++void avr32_extract_k12cp(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word >> 4) & 0xf00) | (word & 0xff); ++} ++ ++ ++#define IFLD(id, bitsz, shift, mask, func) \ ++ { AVR32_IFIELD_##id, bitsz, shift, mask, \ ++ avr32_insert_##func, avr32_extract_##func } ++ ++const struct avr32_ifield avr32_ifield_table[] = ++ { ++ IFLD(RX, 4, 25, 0x1e000000, simple), ++ IFLD(RY, 4, 16, 0x000f0000, simple), ++ IFLD(COND4C, 4, 20, 0x00f00000, simple), ++ IFLD(K8C, 8, 20, 0x0ff00000, simple), ++ IFLD(K7C, 7, 20, 0x07f00000, simple), ++ IFLD(K5C, 5, 20, 0x01f00000, simple), ++ IFLD(K3, 3, 20, 0x00700000, simple), ++ IFLD(RY_DW, 3, 17, 0x000e0000, simple), ++ IFLD(COND4E, 4, 8, 0x00000f00, simple), ++ IFLD(K8E, 8, 0, 0x000000ff, simple), ++ IFLD(BIT5C, 5, 20, 0x1e100000, bit5c), ++ IFLD(COND3, 3, 16, 0x00070000, simple), ++ IFLD(K10, 10, 16, 0x0ff30000, k10), ++ IFLD(POPM, 9, 19, 0x0ff80000, simple), ++ IFLD(K2, 2, 4, 0x00000030, simple), ++ IFLD(RD_E, 4, 0, 0x0000000f, simple), ++ IFLD(RD_DW, 3, 1, 0x0000000e, simple), ++ IFLD(X, 1, 5, 0x00000020, simple), ++ IFLD(Y, 1, 4, 0x00000010, simple), ++ IFLD(X2, 1, 13, 0x00002000, simple), ++ IFLD(Y2, 1, 12, 0x00001000, simple), ++ IFLD(K5E, 5, 0, 0x0000001f, simple), ++ IFLD(PART2, 2, 0, 0x00000003, simple), ++ IFLD(PART1, 1, 0, 0x00000001, simple), ++ IFLD(K16, 16, 0, 0x0000ffff, simple), ++ IFLD(CACHEOP, 5, 11, 0x0000f800, simple), ++ IFLD(K11, 11, 0, 0x000007ff, simple), ++ IFLD(K21, 21, 0, 0x1e10ffff, k21), ++ IFLD(CPOP, 7, 12, 0x060f1000, cpop), ++ IFLD(CPNO, 3, 13, 0x0000e000, simple), ++ IFLD(CRD_RI, 4, 8, 0x00000f00, simple), ++ IFLD(CRX, 4, 4, 0x000000f0, simple), ++ IFLD(CRY, 4, 0, 0x0000000f, simple), ++ IFLD(K7E, 7, 0, 0x0000007f, simple), ++ IFLD(CRD_DW, 3, 9, 0x00000e00, simple), ++ IFLD(PART1_K12, 1, 12, 0x00001000, simple), ++ IFLD(PART2_K12, 2, 12, 0x00003000, simple), ++ IFLD(K12, 12, 0, 0x00000fff, simple), ++ IFLD(S5, 5, 5, 0x000003e0, simple), ++ IFLD(K5E2, 5, 4, 0x000001f0, simple), ++ IFLD(K4, 4, 20, 0x00f00000, simple), ++ IFLD(COND4E2, 4, 4, 0x000000f0, simple), ++ IFLD(K8E2, 8, 4, 0x00000ff0, simple), ++ IFLD(K6, 6, 20, 0x03f00000, simple), ++ IFLD(MEM15, 15, 0, 0x00007fff, simple), ++ IFLD(MEMB5, 5, 15, 0x000f8000, simple), ++ IFLD(W, 1, 25, 0x02000000, simple), ++ /* Coprocessor Multiple High/Low */ ++ IFLD(CM_HL, 1, 8, 0x00000100, simple), ++ IFLD(K12CP, 12 ,0, 0x0000f0ff, k12cp), ++ IFLD(K9E, 9 ,0, 0x000001ff, simple), ++ IFLD (FP_RX, 4, 4, 0x000000F0, simple), ++ IFLD (FP_RY, 4, 0, 0x0000000F, simple), ++ IFLD (FP_RD, 4, 8, 0x00000F00, simple), ++ IFLD (FP_RA, 4, 16, 0x000F0000, simple) ++ }; ++#undef IFLD ++ ++ ++struct avr32_opcode avr32_opc_table[] = ++ { ++ { ++ AVR32_OPC_ABS, 2, 0x5c400000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ABS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_ACALL, 2, 0xd0000000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_ACALL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_ACR, 2, 0x5c000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ACR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ADC, 4, 0xe0000040, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADC], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ADD1, 2, 0x00000000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ADD1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_ADD2, 4, 0xe0000000, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADD2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_ADDABS, 4, 0xe0000e40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADDABS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ADDHH_W, 4, 0xe0000e00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADDHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_AND1, 2, 0x00600000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_AND1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_AND2, 4, 0xe1e00000, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_AND2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_AND3, 4, 0xe1e00200, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_AND3], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDH, 4, 0xe4100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDH_COH, 4, 0xe6100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDH_COH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDL, 4, 0xe0100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDL], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDL_COH, 4, 0xe2100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDL_COH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDN, 2, 0x00800000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDN], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_ASR1, 4, 0xe0000840, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_ASR1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ASR3, 4, 0xe0001400, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_ASR3], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_ASR2, 2, 0xa1400000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ASR2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_BLD, 4, 0xedb00000, 0xfff0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_BLD], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_BREQ1, 2, 0xc0000000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREQ1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRNE1, 2, 0xc0010000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRNE1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCC1, 2, 0xc0020000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRCC1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCS1, 2, 0xc0030000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRCS1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRGE1, 2, 0xc0040000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRGE1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLT1, 2, 0xc0050000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLT1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRMI1, 2, 0xc0060000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRMI1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRPL1, 2, 0xc0070000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRPL1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BREQ2, 4, 0xe0800000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREQ2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRNE2, 4, 0xe0810000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRNE2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCC2, 4, 0xe0820000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRHS2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCS2, 4, 0xe0830000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLO2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRGE2, 4, 0xe0840000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRGE2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLT2, 4, 0xe0850000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLT2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRMI2, 4, 0xe0860000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRMI2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRPL2, 4, 0xe0870000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRPL2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLS, 4, 0xe0880000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLS], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRGT, 4, 0xe0890000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRGT], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLE, 4, 0xe08a0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLE], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRHI, 4, 0xe08b0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRHI], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRVS, 4, 0xe08c0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRVS], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRVC, 4, 0xe08d0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRVC], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRQS, 4, 0xe08e0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRQS], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRAL, 4, 0xe08f0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRAL], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BREAKPOINT, 2, 0xd6730000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREAKPOINT], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_BREV, 2, 0x5c900000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREV], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_BST, 4, 0xefb00000, 0xfff0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_BST], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_CACHE, 4, 0xf4100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CACHE], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K11], ++ &avr32_ifield_table[AVR32_IFIELD_CACHEOP], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTS_B, 2, 0x5c600000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTS_B], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTS_H, 2, 0x5c800000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTS_H], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTU_B, 2, 0x5c500000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTU_B], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTU_H, 2, 0x5c700000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTU_H], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CBR, 2, 0xa1c00000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CBR], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_CLZ, 4, 0xe0001200, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CLZ], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_COM, 2, 0x5cd00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_COM], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_COP, 4, 0xe1a00000, 0xf9f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_COP], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_CRX], ++ &avr32_ifield_table[AVR32_IFIELD_CRY], ++ &avr32_ifield_table[AVR32_IFIELD_CPOP], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_B, 4, 0xe0001800, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_B], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_H, 4, 0xe0001900, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_H], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_W1, 2, 0x00300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_W1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_W2, 2, 0x58000000, 0xfc000000, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_W2], ++ BFD_RELOC_AVR32_6S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K6], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_W3, 4, 0xe0400000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_W3], ++ BFD_RELOC_AVR32_21S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_CPC1, 4, 0xe0001300, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CPC1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CPC2, 2, 0x5c200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CPC2], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CSRF, 2, 0xd4030000, 0xfe0f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_CSRF], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_CSRFCZ, 2, 0xd0030000, 0xfe0f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_CSRFCZ], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_DIVS, 4, 0xe0000c00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_DIVS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_DIVU, 4, 0xe0000d00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_DIVU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_EOR1, 2, 0x00500000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_EOR1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_EOR2, 4, 0xe1e02000, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_EOR2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ } ++ }, ++ { ++ AVR32_OPC_EOR3, 4, 0xe1e02200, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_EOR3], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ } ++ }, ++ { ++ AVR32_OPC_EORL, 4, 0xec100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_EORL], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_EORH, 4, 0xee100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_EORH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_FRS, 2, 0xd7430000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_FRS], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_ICALL, 2, 0x5d100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ICALL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_INCJOSP, 2, 0xd6830000, 0xff8f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_INCJOSP], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D1, 2, 0xa1010000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D2, 2, 0xa1100000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D3, 2, 0xa1000000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D3], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D5, 4, 0xe0000200, 0xe1f0ffc1, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D4, 4, 0xe0e00000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SB2, 4, 0xe0000600, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SB2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SB1, 4, 0xe1200000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SB1], ++ BFD_RELOC_AVR32_16S, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB1, 2, 0x01300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB2, 2, 0x01700000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB5, 4, 0xe0000700, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB3, 2, 0x01800000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB3], ++ BFD_RELOC_AVR32_3U, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB4, 4, 0xe1300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH1, 2, 0x01100000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH2, 2, 0x01500000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH5, 4, 0xe0000400, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH3, 2, 0x80000000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH3], ++ BFD_RELOC_AVR32_4UH, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH4, 4, 0xe1000000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH1, 2, 0x01200000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH2, 2, 0x01600000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH5, 4, 0xe0000500, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH3, 2, 0x80800000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH3], ++ BFD_RELOC_AVR32_4UH, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH4, 4, 0xe1100000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W1, 2, 0x01000000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W2, 2, 0x01400000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W5, 4, 0xe0000300, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W6, 4, 0xe0000f80, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W6], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W3, 2, 0x60000000, 0xe0000000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W3], ++ BFD_RELOC_AVR32_7UW, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W4, 4, 0xe0f00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_D1, 4, 0xe9a01000, 0xfff01100, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_D1], ++ BFD_RELOC_AVR32_10UW, 4, 3, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_D2, 4, 0xefa00050, 0xfff011ff, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_D2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_D3, 4, 0xefa01040, 0xfff011c0, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_D3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_W1, 4, 0xe9a00000, 0xfff01000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_W1], ++ BFD_RELOC_AVR32_10UW, 4, 3, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_W2, 4, 0xefa00040, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_W2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_W3, 4, 0xefa01000, 0xfff010c0, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_W3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC0_D, 4, 0xf3a00000, 0xfff00100, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC0_D], ++ BFD_RELOC_AVR32_14UW, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC0_W, 4, 0xf1a00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC0_W], ++ BFD_RELOC_AVR32_14UW, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_D, 4, 0xeda00400, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_D_PU, 4, 0xeda01400, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_D_PU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_W, 4, 0xeda00000, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_W_PU, 4, 0xeda01000, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_W_PU], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_LDDPC, 2, 0x48000000, 0xf8000000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDDPC], ++ BFD_RELOC_AVR32_9UW_PCREL, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K7C], ++ }, ++ }, ++ { ++ AVR32_OPC_LDDPC_EXT, 4, 0xfef00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDDPC_EXT], ++ BFD_RELOC_AVR32_16B_PCREL, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDDSP, 2, 0x40000000, 0xf8000000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDDSP], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K7C], ++ }, ++ }, ++ { ++ AVR32_OPC_LDINS_B, 4, 0xe1d04000, 0xe1f0c000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDINS_B], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_PART2_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDINS_H, 4, 0xe1d00000, 0xe1f0e000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDINS_H], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_PART1_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDM, 4, 0xe1c00000, 0xfdf00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDM], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_W], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDMTS, 4, 0xe5c00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDMTS], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDMTS_PU, 4, 0xe7c00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDMTS_PU], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDSWP_SH, 4, 0xe1d02000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDSWP_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDSWP_UH, 4, 0xe1d03000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDSWP_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDSWP_W, 4, 0xe1d08000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDSWP_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LSL1, 4, 0xe0000940, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSL1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LSL3, 4, 0xe0001500, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSL3], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_LSL2, 2, 0xa1600000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LSL2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_LSR1, 4, 0xe0000a40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSR1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LSR3, 4, 0xe0001600, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSR3], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_LSR2, 2, 0xa1800000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LSR2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_MAC, 4, 0xe0000340, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MAC], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MACHH_D, 4, 0xe0000580, 0xe1f0ffc1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACHH_D], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MACHH_W, 4, 0xe0000480, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MACHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MACS_D, 4, 0xe0000540, 0xe1f0fff1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACS_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MACSATHH_W, 4, 0xe0000680, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MACSATHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MACUD, 4, 0xe0000740, 0xe1f0fff1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACUD], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MACWH_D, 4, 0xe0000c80, 0xe1f0ffe1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACWH_D], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MAX, 4, 0xe0000c40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MAX], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MCALL, 4, 0xf0100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MCALL], ++ BFD_RELOC_AVR32_18W_PCREL, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_MFDR, 4, 0xe5b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MFDR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MFSR, 4, 0xe1b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MFSR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MIN, 4, 0xe0000d40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MIN], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MOV3, 2, 0x00900000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOV3], ++ BFD_RELOC_NONE, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOV1, 2, 0x30000000, 0xf0000000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOV1], ++ BFD_RELOC_AVR32_8S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_MOV2, 4, 0xe0600000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOV2], ++ BFD_RELOC_AVR32_21S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVEQ1, 4, 0xe0001700, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVEQ1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVNE1, 4, 0xe0001710, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVNE1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCC1, 4, 0xe0001720, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCS1, 4, 0xe0001730, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLO1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGE1, 4, 0xe0001740, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGE1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLT1, 4, 0xe0001750, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLT1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVMI1, 4, 0xe0001760, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVMI1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVPL1, 4, 0xe0001770, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVPL1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLS1, 4, 0xe0001780, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGT1, 4, 0xe0001790, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGT1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLE1, 4, 0xe00017a0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLE1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVHI1, 4, 0xe00017b0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHI1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVS1, 4, 0xe00017c0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVC1, 4, 0xe00017d0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVC1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVQS1, 4, 0xe00017e0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVQS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVAL1, 4, 0xe00017f0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVAL1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVEQ2, 4, 0xf9b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVEQ2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVNE2, 4, 0xf9b00100, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVNE2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCC2, 4, 0xf9b00200, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCS2, 4, 0xf9b00300, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLO2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGE2, 4, 0xf9b00400, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGE2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLT2, 4, 0xf9b00500, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLT2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVMI2, 4, 0xf9b00600, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVMI2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVPL2, 4, 0xf9b00700, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVPL2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLS2, 4, 0xf9b00800, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGT2, 4, 0xf9b00900, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGT2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLE2, 4, 0xf9b00a00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLE2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVHI2, 4, 0xf9b00b00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHI2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVS2, 4, 0xf9b00c00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVC2, 4, 0xf9b00d00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVC2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVQS2, 4, 0xf9b00e00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVQS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVAL2, 4, 0xf9b00f00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVAL2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MTDR, 4, 0xe7b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MTDR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MTSR, 4, 0xe3b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MTSR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MUL1, 2, 0xa1300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MUL1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MUL2, 4, 0xe0000240, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MUL2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MUL3, 4, 0xe0001000, 0xe1f0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MUL3], ++ BFD_RELOC_AVR32_8S_EXT, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MULHH_W, 4, 0xe0000780, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULNHH_W, 4, 0xe0000180, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULNHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULNWH_D, 4, 0xe0000280, 0xe1f0ffe1, ++ &avr32_syntax_table[AVR32_SYNTAX_MULNWH_D], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSD, 4, 0xe0000440, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSD], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATHH_H, 4, 0xe0000880, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATHH_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATHH_W, 4, 0xe0000980, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATRNDHH_H, 4, 0xe0000a80, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATRNDHH_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATRNDWH_W, 4, 0xe0000b80, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATRNDWH_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATWH_W, 4, 0xe0000e80, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATWH_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULU_D, 4, 0xe0000640, 0xe1f0fff1, ++ &avr32_syntax_table[AVR32_SYNTAX_MULU_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MULWH_D, 4, 0xe0000d80, 0xe1f0ffe1, ++ &avr32_syntax_table[AVR32_SYNTAX_MULWH_D], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MUSFR, 2, 0x5d300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MUSFR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_MUSTR, 2, 0x5d200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MUSTR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_MVCR_D, 4, 0xefa00010, 0xfff111ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVCR_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_MVCR_W, 4, 0xefa00000, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVCR_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_MVRC_D, 4, 0xefa00030, 0xfff111ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVRC_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_MVRC_W, 4, 0xefa00020, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVRC_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_NEG, 2, 0x5c300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_NEG], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_NOP, 2, 0xd7030000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_NOP], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_OR1, 2, 0x00400000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_OR1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_OR2, 4, 0xe1e01000, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_OR2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_OR3, 4, 0xe1e01200, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_OR3], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_ORH, 4, 0xea100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ORH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ORL, 4, 0xe8100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ORL], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_PABS_SB, 4, 0xe00023e0, 0xfff0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PABS_SB], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PABS_SH, 4, 0xe00023f0, 0xfff0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PABS_SH], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PACKSH_SB, 4, 0xe00024d0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PACKSH_SB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PACKSH_UB, 4, 0xe00024c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PACKSH_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PACKW_SH, 4, 0xe0002470, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PACKW_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADD_B, 4, 0xe0002300, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADD_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADD_H, 4, 0xe0002000, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADD_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDH_SH, 4, 0xe00020c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDH_UB, 4, 0xe0002360, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDH_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_SB, 4, 0xe0002320, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_SB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_SH, 4, 0xe0002040, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_UB, 4, 0xe0002340, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_UH, 4, 0xe0002080, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUB_H, 4, 0xe0002100, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUB_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUBH_SH, 4, 0xe0002280, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUBH_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUBS_SH, 4, 0xe0002180, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUBS_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUBS_UH, 4, 0xe0002200, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUBS_UH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDX_H, 4, 0xe0002020, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDX_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDXH_SH, 4, 0xe00020e0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDXH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDXS_SH, 4, 0xe0002060, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDXS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDXS_UH, 4, 0xe00020a0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDXS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PASR_B, 4, 0xe0002410, 0xe1f8fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PASR_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_COND3], ++ }, ++ }, ++ { ++ AVR32_OPC_PASR_H, 4, 0xe0002440, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PASR_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PAVG_SH, 4, 0xe00023d0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PAVG_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PAVG_UB, 4, 0xe00023c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PAVG_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSL_B, 4, 0xe0002420, 0xe1f8fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSL_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_COND3], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSL_H, 4, 0xe0002450, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSL_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSR_B, 4, 0xe0002430, 0xe1f8fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSR_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_COND3], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSR_H, 4, 0xe0002460, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSR_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMAX_SH, 4, 0xe0002390, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMAX_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMAX_UB, 4, 0xe0002380, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMAX_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMIN_SH, 4, 0xe00023b0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMIN_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMIN_UB, 4, 0xe00023a0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMIN_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_POPJC, 2, 0xd7130000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_POPJC], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_POPM, 2, 0xd0020000, 0xf0070000, ++ &avr32_syntax_table[AVR32_SYNTAX_POPM], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_POPM], ++ }, ++ }, ++ { ++ AVR32_OPC_POPM_E, 4, 0xe3cd0000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_POPM_E], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_PREF, 4, 0xf2100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_PREF], ++ BFD_RELOC_AVR32_16S, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_PSAD, 4, 0xe0002400, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSAD], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUB_B, 4, 0xe0002310, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUB_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUB_H, 4, 0xe0002010, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADD_H, 4, 0xe0002140, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADD_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADDH_SH, 4, 0xe00022c0, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADDH_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADDS_SH, 4, 0xe00021c0, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADDS_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADDS_UH, 4, 0xe0002240, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADDS_UH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBH_SH, 4, 0xe00020d0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBH_UB, 4, 0xe0002370, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBH_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_SB, 4, 0xe0002330, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_SB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_SH, 4, 0xe0002050, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_UB, 4, 0xe0002350, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_UH, 4, 0xe0002090, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBX_H, 4, 0xe0002030, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBX_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBXH_SH, 4, 0xe00020f0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBXH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBXS_SH, 4, 0xe0002070, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBXS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBXS_UH, 4, 0xe00020b0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBXS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PUNPCKSB_H, 4, 0xe00024a0, 0xe1ffffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_PUNPCKSB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PUNPCKUB_H, 4, 0xe0002480, 0xe1ffffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_PUNPCKUB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PUSHJC, 2, 0xd7230000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_PUSHJC], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_PUSHM, 2, 0xd0010000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_PUSHM], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_PUSHM_E, 4, 0xebcd0000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_PUSHM_E], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_RCALL1, 2, 0xc00c0000, 0xf00c0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RCALL1], ++ BFD_RELOC_AVR32_11H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K10], ++ }, ++ }, ++ { ++ AVR32_OPC_RCALL2, 4, 0xe0a00000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RCALL2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_RETEQ, 2, 0x5e000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETEQ], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETNE, 2, 0x5e100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETNE], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETCC, 2, 0x5e200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETHS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETCS, 2, 0x5e300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLO], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETGE, 2, 0x5e400000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETGE], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETLT, 2, 0x5e500000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLT], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETMI, 2, 0x5e600000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETMI], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETPL, 2, 0x5e700000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETPL], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETLS, 2, 0x5e800000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETGT, 2, 0x5e900000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETGT], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETLE, 2, 0x5ea00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLE], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETHI, 2, 0x5eb00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETHI], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETVS, 2, 0x5ec00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETVS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETVC, 2, 0x5ed00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETVC], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETQS, 2, 0x5ee00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETQS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETAL, 2, 0x5ef00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETAL], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETD, 2, 0xd6230000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETD], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETE, 2, 0xd6030000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETE], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETJ, 2, 0xd6330000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETJ], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETS, 2, 0xd6130000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETS], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RJMP, 2, 0xc0080000, 0xf00c0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RJMP], ++ BFD_RELOC_AVR32_11H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K10], ++ }, ++ }, ++ { ++ AVR32_OPC_ROL, 2, 0x5cf00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ROL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_ROR, 2, 0x5d000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ROR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_RSUB1, 2, 0x00200000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RSUB1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_RSUB2, 4, 0xe0001100, 0xe1f0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_RSUB2], ++ BFD_RELOC_AVR32_8S_EXT, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SATADD_H, 4, 0xe00002c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATADD_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATADD_W, 4, 0xe00000c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATADD_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATRNDS, 4, 0xf3b00000, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATRNDS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SATRNDU, 4, 0xf3b00400, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATRNDU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SATS, 4, 0xf1b00000, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SATSUB_H, 4, 0xe00003c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATSUB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATSUB_W1, 4, 0xe00001c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATSUB_W1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATSUB_W2, 4, 0xe0d00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SATSUB_W2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_SATU, 4, 0xf1b00400, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SBC, 4, 0xe0000140, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SBC], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SBR, 2, 0xa1a00000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SBR], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_SCALL, 2, 0xd7330000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SCALL], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_SCR, 2, 0x5c100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SCR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SLEEP, 4, 0xe9b00000, 0xffffff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SLEEP], ++ BFD_RELOC_AVR32_8S_EXT, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SREQ, 2, 0x5f000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SREQ], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRNE, 2, 0x5f100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRNE], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRCC, 2, 0x5f200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRHS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRCS, 2, 0x5f300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLO], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRGE, 2, 0x5f400000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRGE], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRLT, 2, 0x5f500000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLT], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRMI, 2, 0x5f600000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRMI], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRPL, 2, 0x5f700000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRPL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRLS, 2, 0x5f800000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRGT, 2, 0x5f900000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRGT], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRLE, 2, 0x5fa00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLE], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRHI, 2, 0x5fb00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRHI], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRVS, 2, 0x5fc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRVS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRVC, 2, 0x5fd00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRVC], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRQS, 2, 0x5fe00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRQS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRAL, 2, 0x5ff00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRAL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SSRF, 2, 0xd2030000, 0xfe0f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SSRF], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B1, 2, 0x00c00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B2, 2, 0x00f00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B5, 4, 0xe0000b00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B3, 2, 0xa0800000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B3], ++ BFD_RELOC_AVR32_3U, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B4, 4, 0xe1600000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D1, 2, 0xa1200000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D2, 2, 0xa1210000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D3, 2, 0xa1110000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D3], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D5, 4, 0xe0000800, 0xe1f0ffc1, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D4, 4, 0xe0e10000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H1, 2, 0x00b00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H2, 2, 0x00e00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H5, 4, 0xe0000a00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H3, 2, 0xa0000000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H3], ++ BFD_RELOC_AVR32_4UH, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H4, 4, 0xe1500000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W1, 2, 0x00a00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W2, 2, 0x00d00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W5, 4, 0xe0000900, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W3, 2, 0x81000000, 0xe1000000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W3], ++ BFD_RELOC_AVR32_6UW, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K4], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W4, 4, 0xe1400000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_D1, 4, 0xeba01000, 0xfff01100, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_D1], ++ BFD_RELOC_AVR32_10UW, 4, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_D2, 4, 0xefa00070, 0xfff011f0, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_D2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_D3, 4, 0xefa010c0, 0xfff011c0, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_D3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_W1, 4, 0xeba00000, 0xfff01000, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_W1], ++ BFD_RELOC_AVR32_10UW, 4, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_W2, 4, 0xefa00060, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_W2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_W3, 4, 0xefa01080, 0xfff010c0, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_W3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STC0_D, 4, 0xf7a00000, 0xfff00100, ++ &avr32_syntax_table[AVR32_SYNTAX_STC0_D], ++ BFD_RELOC_AVR32_14UW, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC0_W, 4, 0xf5a00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STC0_W], ++ BFD_RELOC_AVR32_14UW, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_D, 4, 0xeda00500, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_D_PU, 4, 0xeda01500, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_D_PU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_W, 4, 0xeda00200, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_W_PU, 4, 0xeda01200, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_W_PU], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_STCOND, 4, 0xe1700000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STCOND], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STDSP, 2, 0x50000000, 0xf8000000, ++ &avr32_syntax_table[AVR32_SYNTAX_STDSP], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K7C], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STHH_W2, 4, 0xe1e08000, 0xe1f0c0c0, ++ &avr32_syntax_table[AVR32_SYNTAX_STHH_W2], ++ BFD_RELOC_UNUSED, 7, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X2], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y2], ++ }, ++ }, ++ { ++ AVR32_OPC_STHH_W1, 4, 0xe1e0c000, 0xe1f0c000, ++ &avr32_syntax_table[AVR32_SYNTAX_STHH_W1], ++ BFD_RELOC_AVR32_STHH_W, 6, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K8E2], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X2], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y2], ++ }, ++ }, ++ { ++ AVR32_OPC_STM, 4, 0xe9c00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STM], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STM_PU, 4, 0xebc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STM_PU], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STMTS, 4, 0xedc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STMTS], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STMTS_PU, 4, 0xefc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STMTS_PU], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STSWP_H, 4, 0xe1d09000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_STSWP_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STSWP_W, 4, 0xe1d0a000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_STSWP_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB1, 2, 0x00100000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB2, 4, 0xe0000100, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB5, 4, 0xe0c00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB5], ++ BFD_RELOC_AVR32_SUB5, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB3_SP, 2, 0x200d0000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB3_SP], ++ BFD_RELOC_AVR32_10SW, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB3, 2, 0x20000000, 0xf0000000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB3], ++ BFD_RELOC_AVR32_8S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB4, 4, 0xe0200000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB4], ++ BFD_RELOC_AVR32_21S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBEQ, 4, 0xf7b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBEQ], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBNE, 4, 0xf7b00100, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBNE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBCC, 4, 0xf7b00200, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBHS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBCS, 4, 0xf7b00300, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLO], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBGE, 4, 0xf7b00400, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBGE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBLT, 4, 0xf7b00500, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBMI, 4, 0xf7b00600, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBMI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBPL, 4, 0xf7b00700, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBPL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBLS, 4, 0xf7b00800, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBGT, 4, 0xf7b00900, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBGT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBLE, 4, 0xf7b00a00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBHI, 4, 0xf7b00b00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBHI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBVS, 4, 0xf7b00c00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBVS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBVC, 4, 0xf7b00d00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBVC], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBQS, 4, 0xf7b00e00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBQS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBAL, 4, 0xf7b00f00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBAL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFEQ, 4, 0xf5b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFEQ], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFNE, 4, 0xf5b00100, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFNE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFCC, 4, 0xf5b00200, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFHS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFCS, 4, 0xf5b00300, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLO], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFGE, 4, 0xf5b00400, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFGE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFLT, 4, 0xf5b00500, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFMI, 4, 0xf5b00600, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFMI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFPL, 4, 0xf5b00700, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFPL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFLS, 4, 0xf5b00800, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFGT, 4, 0xf5b00900, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFGT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFLE, 4, 0xf5b00a00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFHI, 4, 0xf5b00b00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFHI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFVS, 4, 0xf5b00c00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFVS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFVC, 4, 0xf5b00d00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFVC], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFQS, 4, 0xf5b00e00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFQS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFAL, 4, 0xf5b00f00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFAL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBHH_W, 4, 0xe0000f00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_SWAP_B, 2, 0x5cb00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SWAP_B], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_SWAP_BH, 2, 0x5cc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SWAP_BH], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_SWAP_H, 2, 0x5ca00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SWAP_H], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_SYNC, 4, 0xebb00000, 0xffffff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SYNC], ++ BFD_RELOC_AVR32_8S_EXT, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ } ++ }, ++ { ++ AVR32_OPC_TLBR, 2, 0xd6430000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_TLBR], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_TLBS, 2, 0xd6530000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_TLBS], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_TLBW, 2, 0xd6630000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_TLBW], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_TNBZ, 2, 0x5ce00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_TNBZ], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_TST, 2, 0x00700000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_TST], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_XCHG, 4, 0xe0000b40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_XCHG], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MEMC, 4, 0xf6100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MEMC], ++ BFD_RELOC_AVR32_15S, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_MEM15], ++ &avr32_ifield_table[AVR32_IFIELD_MEMB5], ++ }, ++ }, ++ { ++ AVR32_OPC_MEMS, 4, 0xf8100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MEMS], ++ BFD_RELOC_AVR32_15S, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_MEM15], ++ &avr32_ifield_table[AVR32_IFIELD_MEMB5], ++ }, ++ }, ++ { ++ AVR32_OPC_MEMT, 4, 0xfa100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MEMT], ++ BFD_RELOC_AVR32_15S, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_MEM15], ++ &avr32_ifield_table[AVR32_IFIELD_MEMB5], ++ }, ++ }, ++ { ++ AVR32_OPC_BFEXTS, 4, 0xe1d0b000, 0xe1f0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_BFEXTS], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_BFEXTU, 4, 0xe1d0c000, 0xe1f0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_BFEXTU], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_BFINS, 4, 0xe1d0d000, 0xe1f0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_BFINS], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++#define AVR32_OPCODE_RSUBCOND(cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_RSUB ## cond_name , 4, \ ++ 0xfbb00000 | (cond_field << 8), 0xfff0ff00, \ ++ &avr32_syntax_table[AVR32_SYNTAX_RSUB ## cond_name ], \ ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ &avr32_ifield_table[AVR32_IFIELD_K8E], \ ++ }, \ ++ }, ++ ++ AVR32_OPCODE_RSUBCOND (EQ, 0) ++ AVR32_OPCODE_RSUBCOND (NE, 1) ++ AVR32_OPCODE_RSUBCOND (CC, 2) ++ AVR32_OPCODE_RSUBCOND (CS, 3) ++ AVR32_OPCODE_RSUBCOND (GE, 4) ++ AVR32_OPCODE_RSUBCOND (LT, 5) ++ AVR32_OPCODE_RSUBCOND (MI, 6) ++ AVR32_OPCODE_RSUBCOND (PL, 7) ++ AVR32_OPCODE_RSUBCOND (LS, 8) ++ AVR32_OPCODE_RSUBCOND (GT, 9) ++ AVR32_OPCODE_RSUBCOND (LE, 10) ++ AVR32_OPCODE_RSUBCOND (HI, 11) ++ AVR32_OPCODE_RSUBCOND (VS, 12) ++ AVR32_OPCODE_RSUBCOND (VC, 13) ++ AVR32_OPCODE_RSUBCOND (QS, 14) ++ AVR32_OPCODE_RSUBCOND (AL, 15) ++ ++#define AVR32_OPCODE_OP3_COND(op_name, op_field, cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_ ## op_name ## cond_name , 4, \ ++ 0xe1d0e000 | (cond_field << 8) | (op_field << 4), 0xe1f0fff0, \ ++ &avr32_syntax_table[AVR32_SYNTAX_ ## op_name ## cond_name ], \ ++ BFD_RELOC_UNUSED, 3, -1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], \ ++ &avr32_ifield_table[AVR32_IFIELD_RX], \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ }, \ ++ }, ++ ++ AVR32_OPCODE_OP3_COND (ADD, 0, EQ, 0) ++ AVR32_OPCODE_OP3_COND (ADD, 0, NE, 1) ++ AVR32_OPCODE_OP3_COND (ADD, 0, CC, 2) ++ AVR32_OPCODE_OP3_COND (ADD, 0, CS, 3) ++ AVR32_OPCODE_OP3_COND (ADD, 0, GE, 4) ++ AVR32_OPCODE_OP3_COND (ADD, 0, LT, 5) ++ AVR32_OPCODE_OP3_COND (ADD, 0, MI, 6) ++ AVR32_OPCODE_OP3_COND (ADD, 0, PL, 7) ++ AVR32_OPCODE_OP3_COND (ADD, 0, LS, 8) ++ AVR32_OPCODE_OP3_COND (ADD, 0, GT, 9) ++ AVR32_OPCODE_OP3_COND (ADD, 0, LE, 10) ++ AVR32_OPCODE_OP3_COND (ADD, 0, HI, 11) ++ AVR32_OPCODE_OP3_COND (ADD, 0, VS, 12) ++ AVR32_OPCODE_OP3_COND (ADD, 0, VC, 13) ++ AVR32_OPCODE_OP3_COND (ADD, 0, QS, 14) ++ AVR32_OPCODE_OP3_COND (ADD, 0, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (SUB2, 1, EQ, 0) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, NE, 1) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, CC, 2) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, CS, 3) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, GE, 4) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, LT, 5) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, MI, 6) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, PL, 7) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, LS, 8) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, GT, 9) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, LE, 10) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, HI, 11) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, VS, 12) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, VC, 13) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, QS, 14) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (AND, 2, EQ, 0) ++ AVR32_OPCODE_OP3_COND (AND, 2, NE, 1) ++ AVR32_OPCODE_OP3_COND (AND, 2, CC, 2) ++ AVR32_OPCODE_OP3_COND (AND, 2, CS, 3) ++ AVR32_OPCODE_OP3_COND (AND, 2, GE, 4) ++ AVR32_OPCODE_OP3_COND (AND, 2, LT, 5) ++ AVR32_OPCODE_OP3_COND (AND, 2, MI, 6) ++ AVR32_OPCODE_OP3_COND (AND, 2, PL, 7) ++ AVR32_OPCODE_OP3_COND (AND, 2, LS, 8) ++ AVR32_OPCODE_OP3_COND (AND, 2, GT, 9) ++ AVR32_OPCODE_OP3_COND (AND, 2, LE, 10) ++ AVR32_OPCODE_OP3_COND (AND, 2, HI, 11) ++ AVR32_OPCODE_OP3_COND (AND, 2, VS, 12) ++ AVR32_OPCODE_OP3_COND (AND, 2, VC, 13) ++ AVR32_OPCODE_OP3_COND (AND, 2, QS, 14) ++ AVR32_OPCODE_OP3_COND (AND, 2, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (OR, 3, EQ, 0) ++ AVR32_OPCODE_OP3_COND (OR, 3, NE, 1) ++ AVR32_OPCODE_OP3_COND (OR, 3, CC, 2) ++ AVR32_OPCODE_OP3_COND (OR, 3, CS, 3) ++ AVR32_OPCODE_OP3_COND (OR, 3, GE, 4) ++ AVR32_OPCODE_OP3_COND (OR, 3, LT, 5) ++ AVR32_OPCODE_OP3_COND (OR, 3, MI, 6) ++ AVR32_OPCODE_OP3_COND (OR, 3, PL, 7) ++ AVR32_OPCODE_OP3_COND (OR, 3, LS, 8) ++ AVR32_OPCODE_OP3_COND (OR, 3, GT, 9) ++ AVR32_OPCODE_OP3_COND (OR, 3, LE, 10) ++ AVR32_OPCODE_OP3_COND (OR, 3, HI, 11) ++ AVR32_OPCODE_OP3_COND (OR, 3, VS, 12) ++ AVR32_OPCODE_OP3_COND (OR, 3, VC, 13) ++ AVR32_OPCODE_OP3_COND (OR, 3, QS, 14) ++ AVR32_OPCODE_OP3_COND (OR, 3, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (EOR, 4, EQ, 0) ++ AVR32_OPCODE_OP3_COND (EOR, 4, NE, 1) ++ AVR32_OPCODE_OP3_COND (EOR, 4, CC, 2) ++ AVR32_OPCODE_OP3_COND (EOR, 4, CS, 3) ++ AVR32_OPCODE_OP3_COND (EOR, 4, GE, 4) ++ AVR32_OPCODE_OP3_COND (EOR, 4, LT, 5) ++ AVR32_OPCODE_OP3_COND (EOR, 4, MI, 6) ++ AVR32_OPCODE_OP3_COND (EOR, 4, PL, 7) ++ AVR32_OPCODE_OP3_COND (EOR, 4, LS, 8) ++ AVR32_OPCODE_OP3_COND (EOR, 4, GT, 9) ++ AVR32_OPCODE_OP3_COND (EOR, 4, LE, 10) ++ AVR32_OPCODE_OP3_COND (EOR, 4, HI, 11) ++ AVR32_OPCODE_OP3_COND (EOR, 4, VS, 12) ++ AVR32_OPCODE_OP3_COND (EOR, 4, VC, 13) ++ AVR32_OPCODE_OP3_COND (EOR, 4, QS, 14) ++ AVR32_OPCODE_OP3_COND (EOR, 4, AL, 15) ++ ++#define AVR32_OPCODE_LD_COND(op_name, op_field, cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_ ## op_name ## cond_name , 4, \ ++ 0xe1f00000 | (cond_field << 12) | (op_field << 9), 0xe1f0fe00, \ ++ &avr32_syntax_table[AVR32_SYNTAX_ ## op_name ## cond_name ], \ ++ BFD_RELOC_UNUSED, 3, -1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ &avr32_ifield_table[AVR32_IFIELD_RX], \ ++ &avr32_ifield_table[AVR32_IFIELD_K9E], \ ++ }, \ ++ }, ++ ++#define AVR32_OPCODE_ST_COND(op_name, op_field, cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_ ## op_name ## cond_name , 4, \ ++ 0xe1f00000 | (cond_field << 12) | (op_field << 9), 0xe1f0fe00, \ ++ &avr32_syntax_table[AVR32_SYNTAX_ ## op_name ## cond_name ], \ ++ BFD_RELOC_UNUSED, 3, -1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RX], \ ++ &avr32_ifield_table[AVR32_IFIELD_K9E], \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ }, \ ++ }, ++ ++ AVR32_OPCODE_LD_COND (LD_W, 0, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_W, 0, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_W, 0, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_W, 0, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_W, 0, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_W, 0, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_W, 0, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_W, 0, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_W, 0, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_W, 0, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_W, 0, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_W, 0, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_W, 0, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_W, 0, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_W, 0, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_W, 0, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_SH, 1, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_UH, 2, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_SB, 3, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_UB, 4, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, AL, 15) ++ ++ AVR32_OPCODE_ST_COND (ST_W, 5, EQ, 0) ++ AVR32_OPCODE_ST_COND (ST_W, 5, NE, 1) ++ AVR32_OPCODE_ST_COND (ST_W, 5, CC, 2) ++ AVR32_OPCODE_ST_COND (ST_W, 5, CS, 3) ++ AVR32_OPCODE_ST_COND (ST_W, 5, GE, 4) ++ AVR32_OPCODE_ST_COND (ST_W, 5, LT, 5) ++ AVR32_OPCODE_ST_COND (ST_W, 5, MI, 6) ++ AVR32_OPCODE_ST_COND (ST_W, 5, PL, 7) ++ AVR32_OPCODE_ST_COND (ST_W, 5, LS, 8) ++ AVR32_OPCODE_ST_COND (ST_W, 5, GT, 9) ++ AVR32_OPCODE_ST_COND (ST_W, 5, LE, 10) ++ AVR32_OPCODE_ST_COND (ST_W, 5, HI, 11) ++ AVR32_OPCODE_ST_COND (ST_W, 5, VS, 12) ++ AVR32_OPCODE_ST_COND (ST_W, 5, VC, 13) ++ AVR32_OPCODE_ST_COND (ST_W, 5, QS, 14) ++ AVR32_OPCODE_ST_COND (ST_W, 5, AL, 15) ++ ++ AVR32_OPCODE_ST_COND (ST_H, 6, EQ, 0) ++ AVR32_OPCODE_ST_COND (ST_H, 6, NE, 1) ++ AVR32_OPCODE_ST_COND (ST_H, 6, CC, 2) ++ AVR32_OPCODE_ST_COND (ST_H, 6, CS, 3) ++ AVR32_OPCODE_ST_COND (ST_H, 6, GE, 4) ++ AVR32_OPCODE_ST_COND (ST_H, 6, LT, 5) ++ AVR32_OPCODE_ST_COND (ST_H, 6, MI, 6) ++ AVR32_OPCODE_ST_COND (ST_H, 6, PL, 7) ++ AVR32_OPCODE_ST_COND (ST_H, 6, LS, 8) ++ AVR32_OPCODE_ST_COND (ST_H, 6, GT, 9) ++ AVR32_OPCODE_ST_COND (ST_H, 6, LE, 10) ++ AVR32_OPCODE_ST_COND (ST_H, 6, HI, 11) ++ AVR32_OPCODE_ST_COND (ST_H, 6, VS, 12) ++ AVR32_OPCODE_ST_COND (ST_H, 6, VC, 13) ++ AVR32_OPCODE_ST_COND (ST_H, 6, QS, 14) ++ AVR32_OPCODE_ST_COND (ST_H, 6, AL, 15) ++ ++ AVR32_OPCODE_ST_COND (ST_B, 7, EQ, 0) ++ AVR32_OPCODE_ST_COND (ST_B, 7, NE, 1) ++ AVR32_OPCODE_ST_COND (ST_B, 7, CC, 2) ++ AVR32_OPCODE_ST_COND (ST_B, 7, CS, 3) ++ AVR32_OPCODE_ST_COND (ST_B, 7, GE, 4) ++ AVR32_OPCODE_ST_COND (ST_B, 7, LT, 5) ++ AVR32_OPCODE_ST_COND (ST_B, 7, MI, 6) ++ AVR32_OPCODE_ST_COND (ST_B, 7, PL, 7) ++ AVR32_OPCODE_ST_COND (ST_B, 7, LS, 8) ++ AVR32_OPCODE_ST_COND (ST_B, 7, GT, 9) ++ AVR32_OPCODE_ST_COND (ST_B, 7, LE, 10) ++ AVR32_OPCODE_ST_COND (ST_B, 7, HI, 11) ++ AVR32_OPCODE_ST_COND (ST_B, 7, VS, 12) ++ AVR32_OPCODE_ST_COND (ST_B, 7, VC, 13) ++ AVR32_OPCODE_ST_COND (ST_B, 7, QS, 14) ++ AVR32_OPCODE_ST_COND (ST_B, 7, AL, 15) ++ ++ { ++ AVR32_OPC_MOVH, 4, 0xfc100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_SSCALL, 2, 0xd7530000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SSCALL], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETSS, 2, 0xd7630000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETSS], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ ++ { ++ AVR32_OPC_FMAC_S, 4, 0xE1A00000, 0xFFF0F000, ++ &avr32_syntax_table[AVR32_SYNTAX_FMAC_S], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RA], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FNMAC_S, 4, 0xE1A01000, 0xFFF0F000, ++ &avr32_syntax_table[AVR32_SYNTAX_FNMAC_S], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RA], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FMSC_S, 4, 0xE3A00000, 0xFFF0F000, ++ &avr32_syntax_table[AVR32_SYNTAX_FMSC_S], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RA], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FNMSC_S, 4, 0xE3A01000, 0xFFF0F000, ++ &avr32_syntax_table[AVR32_SYNTAX_FNMSC_S], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RA], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FMUL_S, 4, 0xE5A20000, 0xFFFFF000, ++ &avr32_syntax_table[AVR32_SYNTAX_FMUL_S], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FNMUL_S, 4, 0xE5A30000, 0xFFFFF000, ++ &avr32_syntax_table[AVR32_SYNTAX_FNMUL_S], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FADD_S, 4, 0xE5A00000, 0xFFFFF000, ++ &avr32_syntax_table[AVR32_SYNTAX_FADD_S], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FSUB_S, 4, 0xE5A10000, 0xFFFFF000, ++ &avr32_syntax_table[AVR32_SYNTAX_FSUB_S], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCASTRS_SW, 4, 0xE5AB0000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FCASTRS_SW], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCASTRS_UW, 4, 0xE5A90000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FCASTRS_UW], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCASTSW_S, 4, 0xE5A60000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FCASTSW_S], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCASTUW_S, 4, 0xE5A40000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FCASTUW_S], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCMP_S, 4, 0xE5AC0000, 0xFFFFFF00, ++ &avr32_syntax_table[AVR32_SYNTAX_FCMP_S], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCHK_S, 4, 0xE5AD0000, 0xFFFFFFF0, ++ &avr32_syntax_table[AVR32_SYNTAX_FCHK_S], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FRCPA_S, 4, 0xE5AE0000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FRCPA_S], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FRSQRTA_S, 4, 0xE5AF0000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FRSQRTA_S], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ } ++ ++}; ++ ++ ++const struct avr32_alias avr32_alias_table[] = ++ { ++ { ++ AVR32_ALIAS_PICOSVMAC0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0c }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMAC1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0d }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMAC2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0e }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMAC3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0f }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x08 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x09 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0a }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0b }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x04 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x05 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x06 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x07 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x00 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x01 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x02 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x03 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_D1, ++ &avr32_opc_table[AVR32_OPC_LDC_D1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_D2, ++ &avr32_opc_table[AVR32_OPC_LDC_D2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_D3, ++ &avr32_opc_table[AVR32_OPC_LDC_D3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_W1, ++ &avr32_opc_table[AVR32_OPC_LDC_W1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_W2, ++ &avr32_opc_table[AVR32_OPC_LDC_W2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_W3, ++ &avr32_opc_table[AVR32_OPC_LDC_W3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_D, ++ &avr32_opc_table[AVR32_OPC_LDCM_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_D_PU, ++ &avr32_opc_table[AVR32_OPC_LDCM_D_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_W, ++ &avr32_opc_table[AVR32_OPC_LDCM_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_W_PU, ++ &avr32_opc_table[AVR32_OPC_LDCM_W_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_D1, ++ &avr32_opc_table[AVR32_OPC_MVCR_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_D2, ++ &avr32_opc_table[AVR32_OPC_MVRC_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_W1, ++ &avr32_opc_table[AVR32_OPC_MVCR_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_W2, ++ &avr32_opc_table[AVR32_OPC_MVRC_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_D1, ++ &avr32_opc_table[AVR32_OPC_STC_D1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_D2, ++ &avr32_opc_table[AVR32_OPC_STC_D2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_D3, ++ &avr32_opc_table[AVR32_OPC_STC_D3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_W1, ++ &avr32_opc_table[AVR32_OPC_STC_W1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_W2, ++ &avr32_opc_table[AVR32_OPC_STC_W2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_W3, ++ &avr32_opc_table[AVR32_OPC_STC_W3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_D, ++ &avr32_opc_table[AVR32_OPC_STCM_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_D_PU, ++ &avr32_opc_table[AVR32_OPC_STCM_D_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_W, ++ &avr32_opc_table[AVR32_OPC_STCM_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_W_PU, ++ &avr32_opc_table[AVR32_OPC_STCM_W_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ }; ++ ++ ++#define SYNTAX_NORMAL0(id, mne, opc, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 0, { } \ ++ } ++#define SYNTAX_NORMAL1(id, mne, opc, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMALM1(id, mne, opc, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, -1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMAL2(id, mne, opc, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMALM2(id, mne, opc, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, -2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMAL3(id, mne, opc, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++#define SYNTAX_NORMALM3(id, mne, opc, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, -3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++#define SYNTAX_NORMAL4(id, mne, opc, op0, op1, op2, op3, arch)\ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 4, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, AVR32_OPERAND_##op3, \ ++ } \ ++ } ++#define SYNTAX_NORMAL5(id, mne, opc, op0, op1, op2, op3, op4, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 5, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, AVR32_OPERAND_##op3, \ ++ AVR32_OPERAND_##op4, \ ++ } \ ++ } ++ ++#define SYNTAX_NORMAL_C1(id, mne, opc, nxt, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], 1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_CM1(id, mne, opc, nxt, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], -1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_C2(id, mne, opc, nxt, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], 2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_CM2(id, mne, opc, nxt, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], -2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_C3(id, mne, opc, nxt, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], 3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_CM3(id, mne, opc, nxt, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], -3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++ ++ ++const struct avr32_syntax avr32_syntax_table[] = ++ { ++ SYNTAX_NORMAL1(ABS, ABS, ABS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(ACALL, ACALL, ACALL, UNSIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL1(ACR, ACR, ACR, INTREG,AVR32_V1), ++ SYNTAX_NORMAL3(ADC, ADC, ADC, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ADD1, ADD, ADD1, ADD2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(ADD2, ADD, ADD2, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(ADDABS, ADDABS, ADDABS, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(ADDHH_W, ADDHH_W, ADDHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL_C2(AND1, AND, AND1, AND2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(AND2, AND, AND2, AND3, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(AND3, AND, AND3, INTREG, INTREG, INTREG_LSR, AVR32_V1), ++ SYNTAX_NORMAL_C2(ANDH, ANDH, ANDH, ANDH_COH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(ANDH_COH, ANDH, ANDH_COH, INTREG, UNSIGNED_CONST, COH, AVR32_V1), ++ SYNTAX_NORMAL_C2(ANDL, ANDL, ANDL, ANDL_COH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(ANDL_COH, ANDL, ANDL_COH, INTREG, UNSIGNED_CONST, COH, AVR32_V1), ++ SYNTAX_NORMAL2(ANDN, ANDN, ANDN, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(ASR1, ASR, ASR1, ASR3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(ASR3, ASR, ASR3, ASR2, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(ASR2, ASR, ASR2, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL4(BFEXTS, BFEXTS, BFEXTS, INTREG, INTREG, UNSIGNED_NUMBER, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL4(BFEXTU, BFEXTU, BFEXTU, INTREG, INTREG, UNSIGNED_NUMBER, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL4(BFINS, BFINS, BFINS, INTREG, INTREG, UNSIGNED_NUMBER, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(BLD, BLD, BLD, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL_C1(BREQ1, BREQ, BREQ1, BREQ2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRNE1, BRNE, BRNE1, BRNE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRCC1, BRCC, BRCC1, BRCC2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRCS1, BRCS, BRCS1, BRCS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRGE1, BRGE, BRGE1, BRGE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRLT1, BRLT, BRLT1, BRLT2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRMI1, BRMI, BRMI1, BRMI2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRPL1, BRPL, BRPL1, BRPL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRHS1, BRHS, BRCC1, BRHS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRLO1, BRLO, BRCS1, BRLO2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BREQ2, BREQ, BREQ2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRNE2, BRNE, BRNE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRCC2, BRCC, BRCC2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRCS2, BRCS, BRCS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRGE2, BRGE, BRGE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLT2, BRLT, BRLT2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRMI2, BRMI, BRMI2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRPL2, BRPL, BRPL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLS, BRLS, BRLS, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRGT, BRGT, BRGT, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLE, BRLE, BRLE, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRHI, BRHI, BRHI, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRVS, BRVS, BRVS, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRVC, BRVC, BRVC, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRQS, BRQS, BRQS, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRAL, BRAL, BRAL, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRHS2, BRHS, BRCC2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLO2, BRLO, BRCS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL0(BREAKPOINT, BREAKPOINT, BREAKPOINT, AVR32_V1), ++ SYNTAX_NORMAL1(BREV, BREV, BREV, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(BST, BST, BST, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(CACHE, CACHE, CACHE, INTREG_SDISP, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL1(CASTS_B, CASTS_B, CASTS_B, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CASTS_H, CASTS_H, CASTS_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CASTU_B, CASTU_B, CASTU_B, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CASTU_H, CASTU_H, CASTU_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(CBR, CBR, CBR, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(CLZ, CLZ, CLZ, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(COM, COM, COM, INTREG, AVR32_V1), ++ SYNTAX_NORMAL5(COP, COP, COP, CPNO, CPREG, CPREG, CPREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(CP_B, CP_B, CP_B, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(CP_H, CP_H, CP_H, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(CP_W1, CP_W, CP_W1, CP_W2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(CP_W2, CP_W, CP_W2, CP_W3, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(CP_W3, CP_W, CP_W3, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(CPC1, CPC, CPC1, CPC2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CPC2, CPC, CPC2, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CSRF, CSRF, CSRF, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL1(CSRFCZ, CSRFCZ, CSRFCZ, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL3(DIVS, DIVS, DIVS, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(DIVU, DIVU, DIVU, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(EOR1, EOR, EOR1, EOR2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(EOR2, EOR, EOR2, EOR3, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(EOR3, EOR, EOR3, INTREG, INTREG, INTREG_LSR, AVR32_V1), ++ SYNTAX_NORMAL2(EORL, EORL, EORL, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(EORH, EORH, EORH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL0(FRS, FRS, FRS, AVR32_V1), ++ SYNTAX_NORMAL0(SSCALL, SSCALL, SSCALL, AVR32_V3), ++ SYNTAX_NORMAL0(RETSS, RETSS, RETSS, AVR32_V3), ++ SYNTAX_NORMAL1(ICALL, ICALL, ICALL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(INCJOSP, INCJOSP, INCJOSP, JOSPINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D1, LD_D, LD_D1, LD_D2, DWREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D2, LD_D, LD_D2, LD_D3, DWREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D3, LD_D, LD_D3, LD_D5, DWREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D5, LD_D, LD_D5, LD_D4, DWREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL2(LD_D4, LD_D, LD_D4, DWREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SB2, LD_SB, LD_SB2, LD_SB1, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL2(LD_SB1, LD_SB, LD_SB1, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB1, LD_UB, LD_UB1, LD_UB2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB2, LD_UB, LD_UB2, LD_UB5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB5, LD_UB, LD_UB5, LD_UB3, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB3, LD_UB, LD_UB3, LD_UB4, INTREG, INTREG_UDISP, AVR32_V1), ++ SYNTAX_NORMAL2(LD_UB4, LD_UB, LD_UB4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH1, LD_SH, LD_SH1, LD_SH2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH2, LD_SH, LD_SH2, LD_SH5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH5, LD_SH, LD_SH5, LD_SH3, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH3, LD_SH, LD_SH3, LD_SH4, INTREG, INTREG_UDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LD_SH4, LD_SH, LD_SH4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH1, LD_UH, LD_UH1, LD_UH2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH2, LD_UH, LD_UH2, LD_UH5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH5, LD_UH, LD_UH5, LD_UH3, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH3, LD_UH, LD_UH3, LD_UH4, INTREG, INTREG_UDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LD_UH4, LD_UH, LD_UH4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W1, LD_W, LD_W1, LD_W2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W2, LD_W, LD_W2, LD_W5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W5, LD_W, LD_W5, LD_W6, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W6, LD_W, LD_W6, LD_W3, INTREG, INTREG_XINDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W3, LD_W, LD_W3, LD_W4, INTREG, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LD_W4, LD_W, LD_W4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL3(LDC_D1, LDC_D, LDC_D1, CPNO, CPREG_D, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_D2, LDC_D, LDC_D2, LDC_D1, CPNO, CPREG_D, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_D3, LDC_D, LDC_D3, LDC_D2, CPNO, CPREG_D, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL3(LDC_W1, LDC_W, LDC_W1, CPNO, CPREG, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_W2, LDC_W, LDC_W2, LDC_W1, CPNO, CPREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_W3, LDC_W, LDC_W3, LDC_W2, CPNO, CPREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL2(LDC0_D, LDC0_D, LDC0_D, CPREG_D, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LDC0_W, LDC0_W, LDC0_W, CPREG, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_CM3(LDCM_D, LDCM_D, LDCM_D, LDCM_D_PU, CPNO, INTREG, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMALM3(LDCM_D_PU, LDCM_D, LDCM_D_PU, CPNO, INTREG_POSTINC, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMAL_CM3(LDCM_W, LDCM_W, LDCM_W, LDCM_W_PU, CPNO, INTREG, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMALM3(LDCM_W_PU, LDCM_W, LDCM_W_PU, CPNO, INTREG_POSTINC, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMAL2(LDDPC, LDDPC, LDDPC, INTREG, PC_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LDDPC_EXT, LDDPC, LDDPC_EXT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(LDDSP, LDDSP, LDDSP, INTREG, SP_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LDINS_B, LDINS_B, LDINS_B, INTREG_BSEL, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL2(LDINS_H, LDINS_H, LDINS_H, INTREG_HSEL, INTREG_SDISP_H, AVR32_V1), ++ SYNTAX_NORMALM1(LDM, LDM, LDM, REGLIST_LDM, AVR32_V1), ++ SYNTAX_NORMAL_CM2(LDMTS, LDMTS, LDMTS, LDMTS_PU, INTREG, REGLIST16, AVR32_V1), ++ SYNTAX_NORMALM2(LDMTS_PU, LDMTS, LDMTS_PU, INTREG_POSTINC, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL2(LDSWP_SH, LDSWP_SH, LDSWP_SH, INTREG, INTREG_SDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LDSWP_UH, LDSWP_UH, LDSWP_UH, INTREG, INTREG_SDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LDSWP_W, LDSWP_W, LDSWP_W, INTREG, INTREG_SDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSL1, LSL, LSL1, LSL3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSL3, LSL, LSL3, LSL2, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(LSL2, LSL, LSL2, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSR1, LSR, LSR1, LSR3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSR3, LSR, LSR3, LSR2, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(LSR2, LSR, LSR2, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL3(MAC, MAC, MAC, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MACHH_D, MACHH_D, MACHH_D, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MACHH_W, MACHH_W, MACHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MACS_D, MACS_D, MACS_D, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MACSATHH_W, MACSATHH_W, MACSATHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MACUD, MACU_D, MACUD, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MACWH_D, MACWH_D, MACWH_D, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MAX, MAX, MAX, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(MCALL, MCALL, MCALL, MCALL, AVR32_V1), ++ SYNTAX_NORMAL2(MFDR, MFDR, MFDR, INTREG, UNSIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL2(MFSR, MFSR, MFSR, INTREG, UNSIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL3(MIN, MIN, MIN, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOV3, MOV, MOV3, MOV1, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOV1, MOV, MOV1, MOV2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOV2, MOV, MOV2,INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVEQ1, MOVEQ, MOVEQ1, MOVEQ2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVNE1, MOVNE, MOVNE1, MOVNE2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVCC1, MOVCC, MOVCC1, MOVCC2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVCS1, MOVCS, MOVCS1, MOVCS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVGE1, MOVGE, MOVGE1, MOVGE2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLT1, MOVLT, MOVLT1, MOVLT2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVMI1, MOVMI, MOVMI1, MOVMI2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVPL1, MOVPL, MOVPL1, MOVPL2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLS1, MOVLS, MOVLS1, MOVLS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVGT1, MOVGT, MOVGT1, MOVGT2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLE1, MOVLE, MOVLE1, MOVLE2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVHI1, MOVHI, MOVHI1, MOVHI2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVVS1, MOVVS, MOVVS1, MOVVS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVVC1, MOVVC, MOVVC1, MOVVC2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVQS1, MOVQS, MOVQS1, MOVQS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVAL1, MOVAL, MOVAL1, MOVAL2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVHS1, MOVHS, MOVCC1, MOVHS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLO1, MOVLO, MOVCS1, MOVLO2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(MOVEQ2, MOVEQ, MOVEQ2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVNE2, MOVNE, MOVNE2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVCC2, MOVCC, MOVCC2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVCS2, MOVCS, MOVCS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVGE2, MOVGE, MOVGE2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLT2, MOVLT, MOVLT2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVMI2, MOVMI, MOVMI2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVPL2, MOVPL, MOVPL2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLS2, MOVLS, MOVLS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVGT2, MOVGT, MOVGT2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLE2, MOVLE, MOVLE2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVHI2, MOVHI, MOVHI2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVVS2, MOVVS, MOVVS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVVC2, MOVVC, MOVVC2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVQS2, MOVQS, MOVQS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVAL2, MOVAL, MOVAL2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVHS2, MOVHS, MOVCC2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLO2, MOVLO, MOVCS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MTDR, MTDR, MTDR, UNSIGNED_CONST_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(MTSR, MTSR, MTSR, UNSIGNED_CONST_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MUL1, MUL, MUL1, MUL2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(MUL2, MUL, MUL2, MUL3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MUL3, MUL, MUL3, INTREG, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(MULHH_W, MULHH_W, MULHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULNHH_W, MULNHH_W, MULNHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULNWH_D, MULNWH_D, MULNWH_D, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSD, MULS_D, MULSD, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MULSATHH_H, MULSATHH_H, MULSATHH_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATHH_W, MULSATHH_W, MULSATHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATRNDHH_H, MULSATRNDHH_H, MULSATRNDHH_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATRNDWH_W, MULSATRNDWH_W, MULSATRNDWH_W, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATWH_W, MULSATWH_W, MULSATWH_W, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULU_D, MULU_D, MULU_D, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MULWH_D, MULWH_D, MULWH_D, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL1(MUSFR, MUSFR, MUSFR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(MUSTR, MUSTR, MUSTR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MVCR_D, MVCR_D, MVCR_D, CPNO, DWREG, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL3(MVCR_W, MVCR_W, MVCR_W, CPNO, INTREG, CPREG, AVR32_V1), ++ SYNTAX_NORMAL3(MVRC_D, MVRC_D, MVRC_D, CPNO, CPREG_D, DWREG, AVR32_V1), ++ SYNTAX_NORMAL3(MVRC_W, MVRC_W, MVRC_W, CPNO, CPREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(NEG, NEG, NEG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL0(NOP, NOP, NOP, AVR32_V1), ++ SYNTAX_NORMAL_C2(OR1, OR, OR1, OR2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(OR2, OR, OR2, OR3, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(OR3, OR, OR3, INTREG, INTREG, INTREG_LSR, AVR32_V1), ++ SYNTAX_NORMAL2(ORH, ORH, ORH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(ORL, ORL, ORL, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(PABS_SB, PABS_SB, PABS_SB, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL2(PABS_SH, PABS_SH, PABS_SH, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PACKSH_SB, PACKSH_SB, PACKSH_SB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PACKSH_UB, PACKSH_UB, PACKSH_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PACKW_SH, PACKW_SH, PACKW_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADD_B, PADD_B, PADD_B, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADD_H, PADD_H, PADD_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDH_SH, PADDH_SH, PADDH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDH_UB, PADDH_UB, PADDH_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_SB, PADDS_SB, PADDS_SB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_SH, PADDS_SH, PADDS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_UB, PADDS_UB, PADDS_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_UH, PADDS_UH, PADDS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUB_H, PADDSUB_H, PADDSUB_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUBH_SH, PADDSUBH_SH, PADDSUBH_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUBS_SH, PADDSUBS_SH, PADDSUBS_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUBS_UH, PADDSUBS_UH, PADDSUBS_UH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDX_H, PADDX_H, PADDX_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDXH_SH, PADDXH_SH, PADDXH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDXS_SH, PADDXS_SH, PADDXS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDXS_UH, PADDXS_UH, PADDXS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PASR_B, PASR_B, PASR_B, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PASR_H, PASR_H, PASR_H, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PAVG_SH, PAVG_SH, PAVG_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PAVG_UB, PAVG_UB, PAVG_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSL_B, PLSL_B, PLSL_B, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSL_H, PLSL_H, PLSL_H, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSR_B, PLSR_B, PLSR_B, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSR_H, PLSR_H, PLSR_H, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMAX_SH, PMAX_SH, PMAX_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMAX_UB, PMAX_UB, PMAX_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMIN_SH, PMIN_SH, PMIN_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMIN_UB, PMIN_UB, PMIN_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL0(POPJC, POPJC, POPJC, AVR32_V1), ++ SYNTAX_NORMAL_CM1(POPM, POPM, POPM, POPM_E, REGLIST9, AVR32_V1), ++ SYNTAX_NORMALM1(POPM_E, POPM, POPM_E, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL1(PREF, PREF, PREF, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL3(PSAD, PSAD, PSAD, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUB_B, PSUB_B, PSUB_B, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUB_H, PSUB_H, PSUB_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADD_H, PSUBADD_H, PSUBADD_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADDH_SH, PSUBADDH_SH, PSUBADDH_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADDS_SH, PSUBADDS_SH, PSUBADDS_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADDS_UH, PSUBADDS_UH, PSUBADDS_UH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBH_SH, PSUBH_SH, PSUBH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBH_UB, PSUBH_UB, PSUBH_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_SB, PSUBS_SB, PSUBS_SB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_SH, PSUBS_SH, PSUBS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_UB, PSUBS_UB, PSUBS_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_UH, PSUBS_UH, PSUBS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBX_H, PSUBX_H, PSUBX_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBXH_SH, PSUBXH_SH, PSUBXH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBXS_SH, PSUBXS_SH, PSUBXS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBXS_UH, PSUBXS_UH, PSUBXS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL2(PUNPCKSB_H, PUNPCKSB_H, PUNPCKSB_H, INTREG, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL2(PUNPCKUB_H, PUNPCKUB_H, PUNPCKUB_H, INTREG, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL0(PUSHJC, PUSHJC, PUSHJC, AVR32_V1), ++ SYNTAX_NORMAL_CM1(PUSHM, PUSHM, PUSHM, PUSHM_E, REGLIST8, AVR32_V1), ++ SYNTAX_NORMALM1(PUSHM_E, PUSHM, PUSHM_E, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL_C1(RCALL1, RCALL, RCALL1, RCALL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(RCALL2, RCALL, RCALL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(RETEQ, RETEQ, RETEQ, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETNE, RETNE, RETNE, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETCC, RETCC, RETCC, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETCS, RETCS, RETCS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETGE, RETGE, RETGE, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLT, RETLT, RETLT, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETMI, RETMI, RETMI, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETPL, RETPL, RETPL, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLS, RETLS, RETLS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETGT, RETGT, RETGT, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLE, RETLE, RETLE, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETHI, RETHI, RETHI, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETVS, RETVS, RETVS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETVC, RETVC, RETVC, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETQS, RETQS, RETQS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETAL, RETAL, RETAL, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETHS, RETHS, RETCC, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLO, RETLO, RETCS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL0(RETD, RETD, RETD, AVR32_V1), ++ SYNTAX_NORMAL0(RETE, RETE, RETE, AVR32_V1), ++ SYNTAX_NORMAL0(RETJ, RETJ, RETJ, AVR32_V1), ++ SYNTAX_NORMAL0(RETS, RETS, RETS, AVR32_V1), ++ SYNTAX_NORMAL1(RJMP, RJMP, RJMP, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(ROL, ROL, ROL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(ROR, ROR, ROR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(RSUB1, RSUB, RSUB1, RSUB2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(RSUB2, RSUB, RSUB2, INTREG, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(SATADD_H, SATADD_H, SATADD_H, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL3(SATADD_W, SATADD_W, SATADD_W, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL2(SATRNDS, SATRNDS, SATRNDS, INTREG_LSR, UNSIGNED_NUMBER, AVR32_DSP), ++ SYNTAX_NORMAL2(SATRNDU, SATRNDU, SATRNDU, INTREG_LSR, UNSIGNED_NUMBER, AVR32_DSP), ++ SYNTAX_NORMAL2(SATS, SATS, SATS, INTREG_LSR, UNSIGNED_NUMBER, AVR32_DSP), ++ SYNTAX_NORMAL3(SATSUB_H, SATSUB_H, SATSUB_H, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL_C3(SATSUB_W1, SATSUB_W, SATSUB_W1, SATSUB_W2, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL3(SATSUB_W2, SATSUB_W, SATSUB_W2, INTREG, INTREG, SIGNED_CONST, AVR32_DSP), ++ SYNTAX_NORMAL2(SATU, SATU, SATU, INTREG_LSR, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL3(SBC, SBC, SBC, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(SBR, SBR, SBR, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL0(SCALL, SCALL, SCALL, AVR32_V1), ++ SYNTAX_NORMAL1(SCR, SCR, SCR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SLEEP, SLEEP, SLEEP, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL1(SREQ, SREQ, SREQ, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRNE, SRNE, SRNE, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRCC, SRCC, SRCC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRCS, SRCS, SRCS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRGE, SRGE, SRGE, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLT, SRLT, SRLT, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRMI, SRMI, SRMI, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRPL, SRPL, SRPL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLS, SRLS, SRLS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRGT, SRGT, SRGT, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLE, SRLE, SRLE, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRHI, SRHI, SRHI, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRVS, SRVS, SRVS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRVC, SRVC, SRVC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRQS, SRQS, SRQS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRAL, SRAL, SRAL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRHS, SRHS, SRCC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLO, SRLO, SRCS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SSRF, SSRF, SSRF, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B1, ST_B, ST_B1, ST_B2, INTREG_POSTINC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B2, ST_B, ST_B2, ST_B5, INTREG_PREDEC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B5, ST_B, ST_B5, ST_B3, INTREG_INDEX, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B3, ST_B, ST_B3, ST_B4, INTREG_UDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_B4, ST_B, ST_B4, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D1, ST_D, ST_D1, ST_D2, INTREG_POSTINC, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D2, ST_D, ST_D2, ST_D3, INTREG_PREDEC, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D3, ST_D, ST_D3, ST_D5, INTREG, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D5, ST_D, ST_D5, ST_D4, INTREG_INDEX, DWREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_D4, ST_D, ST_D4, INTREG_SDISP, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H1, ST_H, ST_H1, ST_H2, INTREG_POSTINC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H2, ST_H, ST_H2, ST_H5, INTREG_PREDEC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H5, ST_H, ST_H5, ST_H3, INTREG_INDEX, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H3, ST_H, ST_H3, ST_H4, INTREG_UDISP_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_H4, ST_H, ST_H4, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W1, ST_W, ST_W1, ST_W2, INTREG_POSTINC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W2, ST_W, ST_W2, ST_W5, INTREG_PREDEC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W5, ST_W, ST_W5, ST_W3, INTREG_INDEX, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W3, ST_W, ST_W3, ST_W4, INTREG_UDISP_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_W4, ST_W, ST_W4, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(STC_D1, STC_D, STC_D1, CPNO, INTREG_UDISP_W, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_D2, STC_D, STC_D2, STC_D1, CPNO, INTREG_POSTINC, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_D3, STC_D, STC_D3, STC_D2, CPNO, INTREG_INDEX, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL3(STC_W1, STC_W, STC_W1, CPNO, INTREG_UDISP_W, CPREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_W2, STC_W, STC_W2, STC_W1, CPNO, INTREG_POSTINC, CPREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_W3, STC_W, STC_W3, STC_W2, CPNO, INTREG_INDEX, CPREG, AVR32_V1), ++ SYNTAX_NORMAL2(STC0_D, STC0_D, STC0_D, INTREG_UDISP_W, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL2(STC0_W, STC0_W, STC0_W, INTREG_UDISP_W, CPREG, AVR32_V1), ++ SYNTAX_NORMAL_CM3(STCM_D, STCM_D, STCM_D, STCM_D_PU, CPNO, INTREG, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMALM3(STCM_D_PU, STCM_D, STCM_D_PU, CPNO, INTREG_PREDEC, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMAL_CM3(STCM_W, STCM_W, STCM_W, STCM_W_PU, CPNO, INTREG, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMALM3(STCM_W_PU, STCM_W, STCM_W_PU, CPNO, INTREG_PREDEC, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMAL2(STCOND, STCOND, STCOND, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(STDSP, STDSP, STDSP, SP_UDISP_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(STHH_W2, STHH_W, STHH_W2, STHH_W1, INTREG_INDEX, INTREG_HSEL, INTREG_HSEL, AVR32_V1), ++ SYNTAX_NORMAL3(STHH_W1, STHH_W, STHH_W1, INTREG_UDISP_W, INTREG_HSEL, INTREG_HSEL, AVR32_V1), ++ SYNTAX_NORMAL_CM2(STM, STM, STM, STM_PU, INTREG, REGLIST16, AVR32_V1), ++ SYNTAX_NORMALM2(STM_PU, STM, STM_PU, INTREG_PREDEC, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL_CM2(STMTS, STMTS, STMTS, STMTS_PU, INTREG, REGLIST16, AVR32_V1), ++ SYNTAX_NORMALM2(STMTS_PU, STMTS, STMTS_PU, INTREG_PREDEC, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL2(STSWP_H, STSWP_H, STSWP_H, INTREG_SDISP_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(STSWP_W, STSWP_W, STSWP_W, INTREG_SDISP_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUB1, SUB, SUB1, SUB2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(SUB2, SUB, SUB2, SUB5, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL_C3(SUB5, SUB, SUB5, SUB3_SP, INTREG, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUB3_SP, SUB, SUB3_SP, SUB3, SP, SIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUB3, SUB, SUB3, SUB4, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUB4, SUB, SUB4, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBEQ, SUBEQ, SUBEQ, SUB2EQ, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBNE, SUBNE, SUBNE, SUB2NE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBCC, SUBCC, SUBCC, SUB2CC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBCS, SUBCS, SUBCS, SUB2CS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBGE, SUBGE, SUBGE, SUB2GE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLT, SUBLT, SUBLT, SUB2LT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBMI, SUBMI, SUBMI, SUB2MI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBPL, SUBPL, SUBPL, SUB2PL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLS, SUBLS, SUBLS, SUB2LS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBGT, SUBGT, SUBGT, SUB2GT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLE, SUBLE, SUBLE, SUB2LE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBHI, SUBHI, SUBHI, SUB2HI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBVS, SUBVS, SUBVS, SUB2VS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBVC, SUBVC, SUBVC, SUB2VC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBQS, SUBQS, SUBQS, SUB2QS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBAL, SUBAL, SUBAL, SUB2AL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBHS, SUBHS, SUBCC, SUB2CC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLO, SUBLO, SUBCS, SUB2CS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFEQ, SUBFEQ, SUBFEQ, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFNE, SUBFNE, SUBFNE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFCC, SUBFCC, SUBFCC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFCS, SUBFCS, SUBFCS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFGE, SUBFGE, SUBFGE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLT, SUBFLT, SUBFLT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFMI, SUBFMI, SUBFMI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFPL, SUBFPL, SUBFPL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLS, SUBFLS, SUBFLS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFGT, SUBFGT, SUBFGT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLE, SUBFLE, SUBFLE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFHI, SUBFHI, SUBFHI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFVS, SUBFVS, SUBFVS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFVC, SUBFVC, SUBFVC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFQS, SUBFQS, SUBFQS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFAL, SUBFAL, SUBFAL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFHS, SUBFHS, SUBFCC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLO, SUBFLO, SUBFCS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(SUBHH_W, SUBHH_W, SUBHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL1(SWAP_B, SWAP_B, SWAP_B, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SWAP_BH, SWAP_BH, SWAP_BH, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SWAP_H, SWAP_H, SWAP_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SYNC, SYNC, SYNC, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL0(TLBR, TLBR, TLBR, AVR32_V1), ++ SYNTAX_NORMAL0(TLBS, TLBS, TLBS, AVR32_V1), ++ SYNTAX_NORMAL0(TLBW, TLBW, TLBW, AVR32_V1), ++ SYNTAX_NORMAL1(TNBZ, TNBZ, TNBZ, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(TST, TST, TST, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(XCHG, XCHG, XCHG, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(MEMC, MEMC, MEMC, SIGNED_CONST_W, UNSIGNED_NUMBER, AVR32_RMW), ++ SYNTAX_NORMAL2(MEMS, MEMS, MEMS, SIGNED_CONST_W, UNSIGNED_NUMBER, AVR32_RMW), ++ SYNTAX_NORMAL2(MEMT, MEMT, MEMT, SIGNED_CONST_W, UNSIGNED_NUMBER, AVR32_RMW), ++ SYNTAX_NORMAL4 (FMAC_S, FMAC_S, FMAC_S, INTREG, INTREG, INTREG, INTREG, ++ AVR32_V3FP), ++ SYNTAX_NORMAL4 (FNMAC_S, FNMAC_S, FNMAC_S, INTREG, INTREG, INTREG, INTREG, ++ AVR32_V3FP), ++ SYNTAX_NORMAL4 (FMSC_S, FMSC_S, FMSC_S, INTREG, INTREG, INTREG, INTREG, ++ AVR32_V3FP), ++ SYNTAX_NORMAL4 (FNMSC_S, FNMSC_S, FNMSC_S, INTREG, INTREG, INTREG, INTREG, ++ AVR32_V3FP), ++ SYNTAX_NORMAL3 (FMUL_S, FMUL_S, FMUL_S, INTREG, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL3 (FNMUL_S, FNMUL_S, FNMUL_S, INTREG, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL3 (FADD_S, FADD_S, FADD_S, INTREG, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL3 (FSUB_S, FSUB_S, FSUB_S, INTREG, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FCASTRS_SW, FCASTRS_SW, FCASTRS_SW, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FCASTRS_UW, FCASTRS_UW, FCASTRS_UW, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FCASTSW_S, FCASTSW_S, FCASTSW_S, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FCASTUW_S, FCASTUW_S, FCASTUW_S, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FCMP_S, FCMP_S, FCMP_S, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL1 (FCHK_S, FCHK_S, FCHK_S, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FRCPA_S, FRCPA_S, FRCPA_S, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FRSQRTA_S, FRSQRTA_S, FRSQRTA_S, INTREG, INTREG, AVR32_V3FP), ++ { ++ AVR32_SYNTAX_LDA_W, ++ AVR32_V1, NULL, AVR32_PARSER_LDA, ++ { NULL }, NULL, ++ 2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_SIGNED_CONST, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_CALL, ++ AVR32_V1, NULL, AVR32_PARSER_CALL, ++ { NULL }, NULL, ++ 1, ++ { ++ AVR32_OPERAND_JMPLABEL, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMAC1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMAC2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMAC3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMUL1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMUL2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMUL3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMAC1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMAC2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMAC3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMUL1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMUL2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMUL3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_D2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_D2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_D3], 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_INTREG_PREDEC, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_D3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_D3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_D1], 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_INTREG_INDEX, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_D1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_D1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_INTREG_UDISP_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_W2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_W2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_W3], 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG_PREDEC, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_W3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_W3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_W1], 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG_INDEX, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_W1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_W1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG_UDISP_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_D, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_D] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLDM_D_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_D_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_D_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_W, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_W] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLDM_W_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_W_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_W_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_D1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_D1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOMV_D2], 2, ++ { ++ AVR32_OPERAND_DWREG, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_D2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_D2] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_DWREG, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_W1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_W1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOMV_W2], 2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_W2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_W2] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_D2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_D2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_D3], 2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_D3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_D3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_D1], 2, ++ { ++ AVR32_OPERAND_INTREG_INDEX, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_D1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_D1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_INTREG_UDISP_W, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_W2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_W2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_W3], 2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_W3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_W3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_W1], 2, ++ { ++ AVR32_OPERAND_INTREG_INDEX, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_W1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_W1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_INTREG_UDISP_W, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_D, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_D] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSTM_D_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_D_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_D_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_PREDEC, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_W, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_W] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSTM_W_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_W_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_W_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_PREDEC, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ SYNTAX_NORMAL2(RSUBEQ, RSUBEQ, RSUBEQ, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(RSUBNE, RSUBNE, RSUBNE, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBCC, RSUBCC, RSUBCC, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBCS, RSUBCS, RSUBCS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBGE, RSUBGE, RSUBGE, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLT, RSUBLT, RSUBLT, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBMI, RSUBMI, RSUBMI, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBPL, RSUBPL, RSUBPL, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLS, RSUBLS, RSUBLS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBGT, RSUBGT, RSUBGT, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLE, RSUBLE, RSUBLE, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBHI, RSUBHI, RSUBHI, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBVS, RSUBVS, RSUBVS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBVC, RSUBVC, RSUBVC, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBQS, RSUBQS, RSUBQS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBAL, RSUBAL, RSUBAL, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBHS, RSUBHS, RSUBCC, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLO, RSUBLO, RSUBCS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL3(ADDEQ, ADDEQ, ADDEQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDNE, ADDNE, ADDNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDCC, ADDCC, ADDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDCS, ADDCS, ADDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDGE, ADDGE, ADDGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLT, ADDLT, ADDLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDMI, ADDMI, ADDMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDPL, ADDPL, ADDPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLS, ADDLS, ADDLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDGT, ADDGT, ADDGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLE, ADDLE, ADDLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDHI, ADDHI, ADDHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDVS, ADDVS, ADDVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDVC, ADDVC, ADDVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDQS, ADDQS, ADDQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDAL, ADDAL, ADDAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDHS, ADDHS, ADDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLO, ADDLO, ADDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2EQ, SUBEQ, SUB2EQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2NE, SUBNE, SUB2NE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2CC, SUBCC, SUB2CC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2CS, SUBCS, SUB2CS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2GE, SUBGE, SUB2GE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LT, SUBLT, SUB2LT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2MI, SUBMI, SUB2MI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2PL, SUBPL, SUB2PL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LS, SUBLS, SUB2LS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2GT, SUBGT, SUB2GT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LE, SUBLE, SUB2LE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2HI, SUBHI, SUB2HI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2VS, SUBVS, SUB2VS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2VC, SUBVC, SUB2VC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2QS, SUBQS, SUB2QS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2AL, SUBAL, SUB2AL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2HS, SUBHS, SUB2CC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LO, SUBLO, SUB2CS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDEQ, ANDEQ, ANDEQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDNE, ANDNE, ANDNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDCC, ANDCC, ANDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDCS, ANDCS, ANDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDGE, ANDGE, ANDGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLT, ANDLT, ANDLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDMI, ANDMI, ANDMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDPL, ANDPL, ANDPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLS, ANDLS, ANDLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDGT, ANDGT, ANDGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLE, ANDLE, ANDLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDHI, ANDHI, ANDHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDVS, ANDVS, ANDVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDVC, ANDVC, ANDVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDQS, ANDQS, ANDQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDAL, ANDAL, ANDAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDHS, ANDHS, ANDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLO, ANDLO, ANDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(OREQ, OREQ, OREQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORNE, ORNE, ORNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORCC, ORCC, ORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORCS, ORCS, ORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORGE, ORGE, ORGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLT, ORLT, ORLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORMI, ORMI, ORMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORPL, ORPL, ORPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLS, ORLS, ORLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORGT, ORGT, ORGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLE, ORLE, ORLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORHI, ORHI, ORHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORVS, ORVS, ORVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORVC, ORVC, ORVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORQS, ORQS, ORQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORAL, ORAL, ORAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORHS, ORHS, ORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLO, ORLO, ORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EOREQ, EOREQ, EOREQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORNE, EORNE, EORNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORCC, EORCC, EORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORCS, EORCS, EORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORGE, EORGE, EORGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLT, EORLT, EORLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORMI, EORMI, EORMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORPL, EORPL, EORPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLS, EORLS, EORLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORGT, EORGT, EORGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLE, EORLE, EORLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORHI, EORHI, EORHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORVS, EORVS, EORVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORVC, EORVC, EORVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORQS, EORQS, EORQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORAL, EORAL, EORAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORHS, EORHS, EORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLO, EORLO, EORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WEQ, LD_WEQ, LD_WEQ, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WNE, LD_WNE, LD_WNE, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WCC, LD_WCC, LD_WCC, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WCS, LD_WCS, LD_WCS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WGE, LD_WGE, LD_WGE, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLT, LD_WLT, LD_WLT, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WMI, LD_WMI, LD_WMI, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WPL, LD_WPL, LD_WPL, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLS, LD_WLS, LD_WLS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WGT, LD_WGT, LD_WGT, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLE, LD_WLE, LD_WLE, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WHI, LD_WHI, LD_WHI, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WVS, LD_WVS, LD_WVS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WVC, LD_WVC, LD_WVC, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WQS, LD_WQS, LD_WQS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WAL, LD_WAL, LD_WAL, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WHS, LD_WHS, LD_WCC, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLO, LD_WLO, LD_WCS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHEQ, LD_SHEQ, LD_SHEQ, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHNE, LD_SHNE, LD_SHNE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHCC, LD_SHCC, LD_SHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHCS, LD_SHCS, LD_SHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHGE, LD_SHGE, LD_SHGE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLT, LD_SHLT, LD_SHLT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHMI, LD_SHMI, LD_SHMI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHPL, LD_SHPL, LD_SHPL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLS, LD_SHLS, LD_SHLS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHGT, LD_SHGT, LD_SHGT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLE, LD_SHLE, LD_SHLE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHHI, LD_SHHI, LD_SHHI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHVS, LD_SHVS, LD_SHVS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHVC, LD_SHVC, LD_SHVC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHQS, LD_SHQS, LD_SHQS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHAL, LD_SHAL, LD_SHAL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHHS, LD_SHHS, LD_SHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLO, LD_SHLO, LD_SHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHEQ, LD_UHEQ, LD_UHEQ, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHNE, LD_UHNE, LD_UHNE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHCC, LD_UHCC, LD_UHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHCS, LD_UHCS, LD_UHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHGE, LD_UHGE, LD_UHGE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLT, LD_UHLT, LD_UHLT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHMI, LD_UHMI, LD_UHMI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHPL, LD_UHPL, LD_UHPL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLS, LD_UHLS, LD_UHLS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHGT, LD_UHGT, LD_UHGT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLE, LD_UHLE, LD_UHLE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHHI, LD_UHHI, LD_UHHI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHVS, LD_UHVS, LD_UHVS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHVC, LD_UHVC, LD_UHVC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHQS, LD_UHQS, LD_UHQS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHAL, LD_UHAL, LD_UHAL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHHS, LD_UHHS, LD_UHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLO, LD_UHLO, LD_UHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBEQ, LD_SBEQ, LD_SBEQ, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBNE, LD_SBNE, LD_SBNE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBCC, LD_SBCC, LD_SBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBCS, LD_SBCS, LD_SBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBGE, LD_SBGE, LD_SBGE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLT, LD_SBLT, LD_SBLT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBMI, LD_SBMI, LD_SBMI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBPL, LD_SBPL, LD_SBPL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLS, LD_SBLS, LD_SBLS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBGT, LD_SBGT, LD_SBGT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLE, LD_SBLE, LD_SBLE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBHI, LD_SBHI, LD_SBHI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBVS, LD_SBVS, LD_SBVS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBVC, LD_SBVC, LD_SBVC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBQS, LD_SBQS, LD_SBQS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBAL, LD_SBAL, LD_SBAL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBHS, LD_SBHS, LD_SBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLO, LD_SBLO, LD_SBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBEQ, LD_UBEQ, LD_UBEQ, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBNE, LD_UBNE, LD_UBNE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBCC, LD_UBCC, LD_UBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBCS, LD_UBCS, LD_UBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBGE, LD_UBGE, LD_UBGE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLT, LD_UBLT, LD_UBLT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBMI, LD_UBMI, LD_UBMI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBPL, LD_UBPL, LD_UBPL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLS, LD_UBLS, LD_UBLS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBGT, LD_UBGT, LD_UBGT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLE, LD_UBLE, LD_UBLE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBHI, LD_UBHI, LD_UBHI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBVS, LD_UBVS, LD_UBVS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBVC, LD_UBVC, LD_UBVC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBQS, LD_UBQS, LD_UBQS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBAL, LD_UBAL, LD_UBAL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBHS, LD_UBHS, LD_UBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLO, LD_UBLO, LD_UBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WEQ, ST_WEQ, ST_WEQ, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WNE, ST_WNE, ST_WNE, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WCC, ST_WCC, ST_WCC, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WCS, ST_WCS, ST_WCS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WGE, ST_WGE, ST_WGE, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLT, ST_WLT, ST_WLT, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WMI, ST_WMI, ST_WMI, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WPL, ST_WPL, ST_WPL, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLS, ST_WLS, ST_WLS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WGT, ST_WGT, ST_WGT, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLE, ST_WLE, ST_WLE, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WHI, ST_WHI, ST_WHI, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WVS, ST_WVS, ST_WVS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WVC, ST_WVC, ST_WVC, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WQS, ST_WQS, ST_WQS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WAL, ST_WAL, ST_WAL, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WHS, ST_WHS, ST_WCC, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLO, ST_WLO, ST_WCS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HEQ, ST_HEQ, ST_HEQ, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HNE, ST_HNE, ST_HNE, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HCC, ST_HCC, ST_HCC, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HCS, ST_HCS, ST_HCS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HGE, ST_HGE, ST_HGE, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLT, ST_HLT, ST_HLT, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HMI, ST_HMI, ST_HMI, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HPL, ST_HPL, ST_HPL, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLS, ST_HLS, ST_HLS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HGT, ST_HGT, ST_HGT, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLE, ST_HLE, ST_HLE, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HHI, ST_HHI, ST_HHI, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HVS, ST_HVS, ST_HVS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HVC, ST_HVC, ST_HVC, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HQS, ST_HQS, ST_HQS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HAL, ST_HAL, ST_HAL, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HHS, ST_HHS, ST_HCC, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLO, ST_HLO, ST_HCS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BEQ, ST_BEQ, ST_BEQ, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BNE, ST_BNE, ST_BNE, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BCC, ST_BCC, ST_BCC, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BCS, ST_BCS, ST_BCS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BGE, ST_BGE, ST_BGE, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLT, ST_BLT, ST_BLT, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BMI, ST_BMI, ST_BMI, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BPL, ST_BPL, ST_BPL, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLS, ST_BLS, ST_BLS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BGT, ST_BGT, ST_BGT, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLE, ST_BLE, ST_BLE, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BHI, ST_BHI, ST_BHI, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BVS, ST_BVS, ST_BVS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BVC, ST_BVC, ST_BVC, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BQS, ST_BQS, ST_BQS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BAL, ST_BAL, ST_BAL, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BHS, ST_BHS, ST_BCC, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLO, ST_BLO, ST_BCS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(MOVH, MOVH, MOVH, INTREG, UNSIGNED_CONST, AVR32_V2), ++ ++ }; ++ ++#define NORMAL_MNEMONIC(name, syntax, str) \ ++ { \ ++ AVR32_MNEMONIC_##name, str, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##syntax], \ ++ } ++#define FP_MNEMONIC(name, syntax, str) \ ++ NORMAL_MNEMONIC(name##_S, syntax##_S, str ".s"), \ ++ NORMAL_MNEMONIC(name##_D, syntax##_D, str ".d") ++ ++const struct avr32_mnemonic avr32_mnemonic_table[] = ++ { ++ NORMAL_MNEMONIC(ABS, ABS, "abs"), ++ NORMAL_MNEMONIC(ACALL, ACALL, "acall"), ++ NORMAL_MNEMONIC(ACR, ACR, "acr"), ++ NORMAL_MNEMONIC(ADC, ADC, "adc"), ++ NORMAL_MNEMONIC(ADD, ADD1, "add"), ++ NORMAL_MNEMONIC(ADDABS, ADDABS, "addabs"), ++ NORMAL_MNEMONIC(ADDHH_W, ADDHH_W, "addhh.w"), ++ NORMAL_MNEMONIC(AND, AND1, "and"), ++ NORMAL_MNEMONIC(ANDH, ANDH, "andh"), ++ NORMAL_MNEMONIC(ANDL, ANDL, "andl"), ++ NORMAL_MNEMONIC(ANDN, ANDN, "andn"), ++ NORMAL_MNEMONIC(ASR, ASR1, "asr"), ++ NORMAL_MNEMONIC(BFEXTS, BFEXTS, "bfexts"), ++ NORMAL_MNEMONIC(BFEXTU, BFEXTU, "bfextu"), ++ NORMAL_MNEMONIC(BFINS, BFINS, "bfins"), ++ NORMAL_MNEMONIC(BLD, BLD, "bld"), ++ NORMAL_MNEMONIC(BREQ, BREQ1, "breq"), ++ NORMAL_MNEMONIC(BRNE, BRNE1, "brne"), ++ NORMAL_MNEMONIC(BRCC, BRCC1, "brcc"), ++ NORMAL_MNEMONIC(BRCS, BRCS1, "brcs"), ++ NORMAL_MNEMONIC(BRGE, BRGE1, "brge"), ++ NORMAL_MNEMONIC(BRLT, BRLT1, "brlt"), ++ NORMAL_MNEMONIC(BRMI, BRMI1, "brmi"), ++ NORMAL_MNEMONIC(BRPL, BRPL1, "brpl"), ++ NORMAL_MNEMONIC(BRHS, BRHS1, "brhs"), ++ NORMAL_MNEMONIC(BRLO, BRLO1, "brlo"), ++ NORMAL_MNEMONIC(BRLS, BRLS, "brls"), ++ NORMAL_MNEMONIC(BRGT, BRGT, "brgt"), ++ NORMAL_MNEMONIC(BRLE, BRLE, "brle"), ++ NORMAL_MNEMONIC(BRHI, BRHI, "brhi"), ++ NORMAL_MNEMONIC(BRVS, BRVS, "brvs"), ++ NORMAL_MNEMONIC(BRVC, BRVC, "brvc"), ++ NORMAL_MNEMONIC(BRQS, BRQS, "brqs"), ++ NORMAL_MNEMONIC(BRAL, BRAL, "bral"), ++ NORMAL_MNEMONIC(BREAKPOINT, BREAKPOINT, "breakpoint"), ++ NORMAL_MNEMONIC(BREV, BREV, "brev"), ++ NORMAL_MNEMONIC(BST, BST, "bst"), ++ NORMAL_MNEMONIC(CACHE, CACHE, "cache"), ++ NORMAL_MNEMONIC(CASTS_B, CASTS_B, "casts.b"), ++ NORMAL_MNEMONIC(CASTS_H, CASTS_H, "casts.h"), ++ NORMAL_MNEMONIC(CASTU_B, CASTU_B, "castu.b"), ++ NORMAL_MNEMONIC(CASTU_H, CASTU_H, "castu.h"), ++ NORMAL_MNEMONIC(CBR, CBR, "cbr"), ++ NORMAL_MNEMONIC(CLZ, CLZ, "clz"), ++ NORMAL_MNEMONIC(COM, COM, "com"), ++ NORMAL_MNEMONIC(COP, COP, "cop"), ++ NORMAL_MNEMONIC(CP_B, CP_B, "cp.b"), ++ NORMAL_MNEMONIC(CP_H, CP_H, "cp.h"), ++ NORMAL_MNEMONIC(CP_W, CP_W1, "cp.w"), ++ NORMAL_MNEMONIC(CP, CP_W1, "cp"), ++ NORMAL_MNEMONIC(CPC, CPC1, "cpc"), ++ NORMAL_MNEMONIC(CSRF, CSRF, "csrf"), ++ NORMAL_MNEMONIC(CSRFCZ, CSRFCZ, "csrfcz"), ++ NORMAL_MNEMONIC(DIVS, DIVS, "divs"), ++ NORMAL_MNEMONIC(DIVU, DIVU, "divu"), ++ NORMAL_MNEMONIC(EOR, EOR1, "eor"), ++ NORMAL_MNEMONIC(EORL, EORL, "eorl"), ++ NORMAL_MNEMONIC(EORH, EORH, "eorh"), ++ NORMAL_MNEMONIC(FRS, FRS, "frs"), ++ NORMAL_MNEMONIC(SSCALL, SSCALL, "sscall"), ++ NORMAL_MNEMONIC(RETSS, RETSS, "retss"), ++ NORMAL_MNEMONIC(ICALL, ICALL, "icall"), ++ NORMAL_MNEMONIC(INCJOSP, INCJOSP, "incjosp"), ++ NORMAL_MNEMONIC(LD_D, LD_D1, "ld.d"), ++ NORMAL_MNEMONIC(LD_SB, LD_SB2, "ld.sb"), ++ NORMAL_MNEMONIC(LD_UB, LD_UB1, "ld.ub"), ++ NORMAL_MNEMONIC(LD_SH, LD_SH1, "ld.sh"), ++ NORMAL_MNEMONIC(LD_UH, LD_UH1, "ld.uh"), ++ NORMAL_MNEMONIC(LD_W, LD_W1, "ld.w"), ++ NORMAL_MNEMONIC(LDC_D, LDC_D3, "ldc.d"), ++ NORMAL_MNEMONIC(LDC_W, LDC_W3, "ldc.w"), ++ NORMAL_MNEMONIC(LDC0_D, LDC0_D, "ldc0.d"), ++ NORMAL_MNEMONIC(LDC0_W, LDC0_W, "ldc0.w"), ++ NORMAL_MNEMONIC(LDCM_D, LDCM_D, "ldcm.d"), ++ NORMAL_MNEMONIC(LDCM_W, LDCM_W, "ldcm.w"), ++ NORMAL_MNEMONIC(LDDPC, LDDPC, "lddpc"), ++ NORMAL_MNEMONIC(LDDSP, LDDSP, "lddsp"), ++ NORMAL_MNEMONIC(LDINS_B, LDINS_B, "ldins.b"), ++ NORMAL_MNEMONIC(LDINS_H, LDINS_H, "ldins.h"), ++ NORMAL_MNEMONIC(LDM, LDM, "ldm"), ++ NORMAL_MNEMONIC(LDMTS, LDMTS, "ldmts"), ++ NORMAL_MNEMONIC(LDSWP_SH, LDSWP_SH, "ldswp.sh"), ++ NORMAL_MNEMONIC(LDSWP_UH, LDSWP_UH, "ldswp.uh"), ++ NORMAL_MNEMONIC(LDSWP_W, LDSWP_W, "ldswp.w"), ++ NORMAL_MNEMONIC(LSL, LSL1, "lsl"), ++ NORMAL_MNEMONIC(LSR, LSR1, "lsr"), ++ NORMAL_MNEMONIC(MAC, MAC, "mac"), ++ NORMAL_MNEMONIC(MACHH_D, MACHH_D, "machh.d"), ++ NORMAL_MNEMONIC(MACHH_W, MACHH_W, "machh.w"), ++ NORMAL_MNEMONIC(MACS_D, MACS_D, "macs.d"), ++ NORMAL_MNEMONIC(MACSATHH_W, MACSATHH_W, "macsathh.w"), ++ NORMAL_MNEMONIC(MACU_D, MACUD, "macu.d"), ++ NORMAL_MNEMONIC(MACWH_D, MACWH_D, "macwh.d"), ++ NORMAL_MNEMONIC(MAX, MAX, "max"), ++ NORMAL_MNEMONIC(MCALL, MCALL, "mcall"), ++ NORMAL_MNEMONIC(MFDR, MFDR, "mfdr"), ++ NORMAL_MNEMONIC(MFSR, MFSR, "mfsr"), ++ NORMAL_MNEMONIC(MIN, MIN, "min"), ++ NORMAL_MNEMONIC(MOV, MOV3, "mov"), ++ NORMAL_MNEMONIC(MOVEQ, MOVEQ1, "moveq"), ++ NORMAL_MNEMONIC(MOVNE, MOVNE1, "movne"), ++ NORMAL_MNEMONIC(MOVCC, MOVCC1, "movcc"), ++ NORMAL_MNEMONIC(MOVCS, MOVCS1, "movcs"), ++ NORMAL_MNEMONIC(MOVGE, MOVGE1, "movge"), ++ NORMAL_MNEMONIC(MOVLT, MOVLT1, "movlt"), ++ NORMAL_MNEMONIC(MOVMI, MOVMI1, "movmi"), ++ NORMAL_MNEMONIC(MOVPL, MOVPL1, "movpl"), ++ NORMAL_MNEMONIC(MOVLS, MOVLS1, "movls"), ++ NORMAL_MNEMONIC(MOVGT, MOVGT1, "movgt"), ++ NORMAL_MNEMONIC(MOVLE, MOVLE1, "movle"), ++ NORMAL_MNEMONIC(MOVHI, MOVHI1, "movhi"), ++ NORMAL_MNEMONIC(MOVVS, MOVVS1, "movvs"), ++ NORMAL_MNEMONIC(MOVVC, MOVVC1, "movvc"), ++ NORMAL_MNEMONIC(MOVQS, MOVQS1, "movqs"), ++ NORMAL_MNEMONIC(MOVAL, MOVAL1, "moval"), ++ NORMAL_MNEMONIC(MOVHS, MOVHS1, "movhs"), ++ NORMAL_MNEMONIC(MOVLO, MOVLO1, "movlo"), ++ NORMAL_MNEMONIC(MTDR, MTDR, "mtdr"), ++ NORMAL_MNEMONIC(MTSR, MTSR, "mtsr"), ++ NORMAL_MNEMONIC(MUL, MUL1, "mul"), ++ NORMAL_MNEMONIC(MULHH_W, MULHH_W, "mulhh.w"), ++ NORMAL_MNEMONIC(MULNHH_W, MULNHH_W, "mulnhh.w"), ++ NORMAL_MNEMONIC(MULNWH_D, MULNWH_D, "mulnwh.d"), ++ NORMAL_MNEMONIC(MULS_D, MULSD, "muls.d"), ++ NORMAL_MNEMONIC(MULSATHH_H, MULSATHH_H, "mulsathh.h"), ++ NORMAL_MNEMONIC(MULSATHH_W, MULSATHH_W, "mulsathh.w"), ++ NORMAL_MNEMONIC(MULSATRNDHH_H, MULSATRNDHH_H, "mulsatrndhh.h"), ++ NORMAL_MNEMONIC(MULSATRNDWH_W, MULSATRNDWH_W, "mulsatrndwh.w"), ++ NORMAL_MNEMONIC(MULSATWH_W, MULSATWH_W, "mulsatwh.w"), ++ NORMAL_MNEMONIC(MULU_D, MULU_D, "mulu.d"), ++ NORMAL_MNEMONIC(MULWH_D, MULWH_D, "mulwh.d"), ++ NORMAL_MNEMONIC(MUSFR, MUSFR, "musfr"), ++ NORMAL_MNEMONIC(MUSTR, MUSTR, "mustr"), ++ NORMAL_MNEMONIC(MVCR_D, MVCR_D, "mvcr.d"), ++ NORMAL_MNEMONIC(MVCR_W, MVCR_W, "mvcr.w"), ++ NORMAL_MNEMONIC(MVRC_D, MVRC_D, "mvrc.d"), ++ NORMAL_MNEMONIC(MVRC_W, MVRC_W, "mvrc.w"), ++ NORMAL_MNEMONIC(NEG, NEG, "neg"), ++ NORMAL_MNEMONIC(NOP, NOP, "nop"), ++ NORMAL_MNEMONIC(OR, OR1, "or"), ++ NORMAL_MNEMONIC(ORH, ORH, "orh"), ++ NORMAL_MNEMONIC(ORL, ORL, "orl"), ++ NORMAL_MNEMONIC(PABS_SB, PABS_SB, "pabs.sb"), ++ NORMAL_MNEMONIC(PABS_SH, PABS_SH, "pabs.sh"), ++ NORMAL_MNEMONIC(PACKSH_SB, PACKSH_SB, "packsh.sb"), ++ NORMAL_MNEMONIC(PACKSH_UB, PACKSH_UB, "packsh.ub"), ++ NORMAL_MNEMONIC(PACKW_SH, PACKW_SH, "packw.sh"), ++ NORMAL_MNEMONIC(PADD_B, PADD_B, "padd.b"), ++ NORMAL_MNEMONIC(PADD_H, PADD_H, "padd.h"), ++ NORMAL_MNEMONIC(PADDH_SH, PADDH_SH, "paddh.sh"), ++ NORMAL_MNEMONIC(PADDH_UB, PADDH_UB, "paddh.ub"), ++ NORMAL_MNEMONIC(PADDS_SB, PADDS_SB, "padds.sb"), ++ NORMAL_MNEMONIC(PADDS_SH, PADDS_SH, "padds.sh"), ++ NORMAL_MNEMONIC(PADDS_UB, PADDS_UB, "padds.ub"), ++ NORMAL_MNEMONIC(PADDS_UH, PADDS_UH, "padds.uh"), ++ NORMAL_MNEMONIC(PADDSUB_H, PADDSUB_H, "paddsub.h"), ++ NORMAL_MNEMONIC(PADDSUBH_SH, PADDSUBH_SH, "paddsubh.sh"), ++ NORMAL_MNEMONIC(PADDSUBS_SH, PADDSUBS_SH, "paddsubs.sh"), ++ NORMAL_MNEMONIC(PADDSUBS_UH, PADDSUBS_UH, "paddsubs.uh"), ++ NORMAL_MNEMONIC(PADDX_H, PADDX_H, "paddx.h"), ++ NORMAL_MNEMONIC(PADDXH_SH, PADDXH_SH, "paddxh.sh"), ++ NORMAL_MNEMONIC(PADDXS_SH, PADDXS_SH, "paddxs.sh"), ++ NORMAL_MNEMONIC(PADDXS_UH, PADDXS_UH, "paddxs.uh"), ++ NORMAL_MNEMONIC(PASR_B, PASR_B, "pasr.b"), ++ NORMAL_MNEMONIC(PASR_H, PASR_H, "pasr.h"), ++ NORMAL_MNEMONIC(PAVG_SH, PAVG_SH, "pavg.sh"), ++ NORMAL_MNEMONIC(PAVG_UB, PAVG_UB, "pavg.ub"), ++ NORMAL_MNEMONIC(PLSL_B, PLSL_B, "plsl.b"), ++ NORMAL_MNEMONIC(PLSL_H, PLSL_H, "plsl.h"), ++ NORMAL_MNEMONIC(PLSR_B, PLSR_B, "plsr.b"), ++ NORMAL_MNEMONIC(PLSR_H, PLSR_H, "plsr.h"), ++ NORMAL_MNEMONIC(PMAX_SH, PMAX_SH, "pmax.sh"), ++ NORMAL_MNEMONIC(PMAX_UB, PMAX_UB, "pmax.ub"), ++ NORMAL_MNEMONIC(PMIN_SH, PMIN_SH, "pmin.sh"), ++ NORMAL_MNEMONIC(PMIN_UB, PMIN_UB, "pmin.ub"), ++ NORMAL_MNEMONIC(POPJC, POPJC, "popjc"), ++ NORMAL_MNEMONIC(POPM, POPM, "popm"), ++ NORMAL_MNEMONIC(PREF, PREF, "pref"), ++ NORMAL_MNEMONIC(PSAD, PSAD, "psad"), ++ NORMAL_MNEMONIC(PSUB_B, PSUB_B, "psub.b"), ++ NORMAL_MNEMONIC(PSUB_H, PSUB_H, "psub.h"), ++ NORMAL_MNEMONIC(PSUBADD_H, PSUBADD_H, "psubadd.h"), ++ NORMAL_MNEMONIC(PSUBADDH_SH, PSUBADDH_SH, "psubaddh.sh"), ++ NORMAL_MNEMONIC(PSUBADDS_SH, PSUBADDS_SH, "psubadds.sh"), ++ NORMAL_MNEMONIC(PSUBADDS_UH, PSUBADDS_UH, "psubadds.uh"), ++ NORMAL_MNEMONIC(PSUBH_SH, PSUBH_SH, "psubh.sh"), ++ NORMAL_MNEMONIC(PSUBH_UB, PSUBH_UB, "psubh.ub"), ++ NORMAL_MNEMONIC(PSUBS_SB, PSUBS_SB, "psubs.sb"), ++ NORMAL_MNEMONIC(PSUBS_SH, PSUBS_SH, "psubs.sh"), ++ NORMAL_MNEMONIC(PSUBS_UB, PSUBS_UB, "psubs.ub"), ++ NORMAL_MNEMONIC(PSUBS_UH, PSUBS_UH, "psubs.uh"), ++ NORMAL_MNEMONIC(PSUBX_H, PSUBX_H, "psubx.h"), ++ NORMAL_MNEMONIC(PSUBXH_SH, PSUBXH_SH, "psubxh.sh"), ++ NORMAL_MNEMONIC(PSUBXS_SH, PSUBXS_SH, "psubxs.sh"), ++ NORMAL_MNEMONIC(PSUBXS_UH, PSUBXS_UH, "psubxs.uh"), ++ NORMAL_MNEMONIC(PUNPCKSB_H, PUNPCKSB_H, "punpcksb.h"), ++ NORMAL_MNEMONIC(PUNPCKUB_H, PUNPCKUB_H, "punpckub.h"), ++ NORMAL_MNEMONIC(PUSHJC, PUSHJC, "pushjc"), ++ NORMAL_MNEMONIC(PUSHM, PUSHM, "pushm"), ++ NORMAL_MNEMONIC(RCALL, RCALL1, "rcall"), ++ NORMAL_MNEMONIC(RETEQ, RETEQ, "reteq"), ++ NORMAL_MNEMONIC(RETNE, RETNE, "retne"), ++ NORMAL_MNEMONIC(RETCC, RETCC, "retcc"), ++ NORMAL_MNEMONIC(RETCS, RETCS, "retcs"), ++ NORMAL_MNEMONIC(RETGE, RETGE, "retge"), ++ NORMAL_MNEMONIC(RETLT, RETLT, "retlt"), ++ NORMAL_MNEMONIC(RETMI, RETMI, "retmi"), ++ NORMAL_MNEMONIC(RETPL, RETPL, "retpl"), ++ NORMAL_MNEMONIC(RETLS, RETLS, "retls"), ++ NORMAL_MNEMONIC(RETGT, RETGT, "retgt"), ++ NORMAL_MNEMONIC(RETLE, RETLE, "retle"), ++ NORMAL_MNEMONIC(RETHI, RETHI, "rethi"), ++ NORMAL_MNEMONIC(RETVS, RETVS, "retvs"), ++ NORMAL_MNEMONIC(RETVC, RETVC, "retvc"), ++ NORMAL_MNEMONIC(RETQS, RETQS, "retqs"), ++ NORMAL_MNEMONIC(RETAL, RETAL, "retal"), ++ NORMAL_MNEMONIC(RETHS, RETHS, "reths"), ++ NORMAL_MNEMONIC(RETLO, RETLO, "retlo"), ++ NORMAL_MNEMONIC(RET, RETAL, "ret"), ++ NORMAL_MNEMONIC(RETD, RETD, "retd"), ++ NORMAL_MNEMONIC(RETE, RETE, "rete"), ++ NORMAL_MNEMONIC(RETJ, RETJ, "retj"), ++ NORMAL_MNEMONIC(RETS, RETS, "rets"), ++ NORMAL_MNEMONIC(RJMP, RJMP, "rjmp"), ++ NORMAL_MNEMONIC(ROL, ROL, "rol"), ++ NORMAL_MNEMONIC(ROR, ROR, "ror"), ++ NORMAL_MNEMONIC(RSUB, RSUB1, "rsub"), ++ NORMAL_MNEMONIC(SATADD_H, SATADD_H, "satadd.h"), ++ NORMAL_MNEMONIC(SATADD_W, SATADD_W, "satadd.w"), ++ NORMAL_MNEMONIC(SATRNDS, SATRNDS, "satrnds"), ++ NORMAL_MNEMONIC(SATRNDU, SATRNDU, "satrndu"), ++ NORMAL_MNEMONIC(SATS, SATS, "sats"), ++ NORMAL_MNEMONIC(SATSUB_H, SATSUB_H, "satsub.h"), ++ NORMAL_MNEMONIC(SATSUB_W, SATSUB_W1, "satsub.w"), ++ NORMAL_MNEMONIC(SATU, SATU, "satu"), ++ NORMAL_MNEMONIC(SBC, SBC, "sbc"), ++ NORMAL_MNEMONIC(SBR, SBR, "sbr"), ++ NORMAL_MNEMONIC(SCALL, SCALL, "scall"), ++ NORMAL_MNEMONIC(SCR, SCR, "scr"), ++ NORMAL_MNEMONIC(SLEEP, SLEEP, "sleep"), ++ NORMAL_MNEMONIC(SREQ, SREQ, "sreq"), ++ NORMAL_MNEMONIC(SRNE, SRNE, "srne"), ++ NORMAL_MNEMONIC(SRCC, SRCC, "srcc"), ++ NORMAL_MNEMONIC(SRCS, SRCS, "srcs"), ++ NORMAL_MNEMONIC(SRGE, SRGE, "srge"), ++ NORMAL_MNEMONIC(SRLT, SRLT, "srlt"), ++ NORMAL_MNEMONIC(SRMI, SRMI, "srmi"), ++ NORMAL_MNEMONIC(SRPL, SRPL, "srpl"), ++ NORMAL_MNEMONIC(SRLS, SRLS, "srls"), ++ NORMAL_MNEMONIC(SRGT, SRGT, "srgt"), ++ NORMAL_MNEMONIC(SRLE, SRLE, "srle"), ++ NORMAL_MNEMONIC(SRHI, SRHI, "srhi"), ++ NORMAL_MNEMONIC(SRVS, SRVS, "srvs"), ++ NORMAL_MNEMONIC(SRVC, SRVC, "srvc"), ++ NORMAL_MNEMONIC(SRQS, SRQS, "srqs"), ++ NORMAL_MNEMONIC(SRAL, SRAL, "sral"), ++ NORMAL_MNEMONIC(SRHS, SRHS, "srhs"), ++ NORMAL_MNEMONIC(SRLO, SRLO, "srlo"), ++ NORMAL_MNEMONIC(SSRF, SSRF, "ssrf"), ++ NORMAL_MNEMONIC(ST_B, ST_B1, "st.b"), ++ NORMAL_MNEMONIC(ST_D, ST_D1, "st.d"), ++ NORMAL_MNEMONIC(ST_H, ST_H1, "st.h"), ++ NORMAL_MNEMONIC(ST_W, ST_W1, "st.w"), ++ NORMAL_MNEMONIC(STC_D, STC_D3, "stc.d"), ++ NORMAL_MNEMONIC(STC_W, STC_W3, "stc.w"), ++ NORMAL_MNEMONIC(STC0_D, STC0_D, "stc0.d"), ++ NORMAL_MNEMONIC(STC0_W, STC0_W, "stc0.w"), ++ NORMAL_MNEMONIC(STCM_D, STCM_D, "stcm.d"), ++ NORMAL_MNEMONIC(STCM_W, STCM_W, "stcm.w"), ++ NORMAL_MNEMONIC(STCOND, STCOND, "stcond"), ++ NORMAL_MNEMONIC(STDSP, STDSP, "stdsp"), ++ NORMAL_MNEMONIC(STHH_W, STHH_W2, "sthh.w"), ++ NORMAL_MNEMONIC(STM, STM, "stm"), ++ NORMAL_MNEMONIC(STMTS, STMTS, "stmts"), ++ NORMAL_MNEMONIC(STSWP_H, STSWP_H, "stswp.h"), ++ NORMAL_MNEMONIC(STSWP_W, STSWP_W, "stswp.w"), ++ NORMAL_MNEMONIC(SUB, SUB1, "sub"), ++ NORMAL_MNEMONIC(SUBEQ, SUBEQ, "subeq"), ++ NORMAL_MNEMONIC(SUBNE, SUBNE, "subne"), ++ NORMAL_MNEMONIC(SUBCC, SUBCC, "subcc"), ++ NORMAL_MNEMONIC(SUBCS, SUBCS, "subcs"), ++ NORMAL_MNEMONIC(SUBGE, SUBGE, "subge"), ++ NORMAL_MNEMONIC(SUBLT, SUBLT, "sublt"), ++ NORMAL_MNEMONIC(SUBMI, SUBMI, "submi"), ++ NORMAL_MNEMONIC(SUBPL, SUBPL, "subpl"), ++ NORMAL_MNEMONIC(SUBLS, SUBLS, "subls"), ++ NORMAL_MNEMONIC(SUBGT, SUBGT, "subgt"), ++ NORMAL_MNEMONIC(SUBLE, SUBLE, "suble"), ++ NORMAL_MNEMONIC(SUBHI, SUBHI, "subhi"), ++ NORMAL_MNEMONIC(SUBVS, SUBVS, "subvs"), ++ NORMAL_MNEMONIC(SUBVC, SUBVC, "subvc"), ++ NORMAL_MNEMONIC(SUBQS, SUBQS, "subqs"), ++ NORMAL_MNEMONIC(SUBAL, SUBAL, "subal"), ++ NORMAL_MNEMONIC(SUBHS, SUBHS, "subhs"), ++ NORMAL_MNEMONIC(SUBLO, SUBLO, "sublo"), ++ NORMAL_MNEMONIC(SUBFEQ, SUBFEQ, "subfeq"), ++ NORMAL_MNEMONIC(SUBFNE, SUBFNE, "subfne"), ++ NORMAL_MNEMONIC(SUBFCC, SUBFCC, "subfcc"), ++ NORMAL_MNEMONIC(SUBFCS, SUBFCS, "subfcs"), ++ NORMAL_MNEMONIC(SUBFGE, SUBFGE, "subfge"), ++ NORMAL_MNEMONIC(SUBFLT, SUBFLT, "subflt"), ++ NORMAL_MNEMONIC(SUBFMI, SUBFMI, "subfmi"), ++ NORMAL_MNEMONIC(SUBFPL, SUBFPL, "subfpl"), ++ NORMAL_MNEMONIC(SUBFLS, SUBFLS, "subfls"), ++ NORMAL_MNEMONIC(SUBFGT, SUBFGT, "subfgt"), ++ NORMAL_MNEMONIC(SUBFLE, SUBFLE, "subfle"), ++ NORMAL_MNEMONIC(SUBFHI, SUBFHI, "subfhi"), ++ NORMAL_MNEMONIC(SUBFVS, SUBFVS, "subfvs"), ++ NORMAL_MNEMONIC(SUBFVC, SUBFVC, "subfvc"), ++ NORMAL_MNEMONIC(SUBFQS, SUBFQS, "subfqs"), ++ NORMAL_MNEMONIC(SUBFAL, SUBFAL, "subfal"), ++ NORMAL_MNEMONIC(SUBFHS, SUBFHS, "subfhs"), ++ NORMAL_MNEMONIC(SUBFLO, SUBFLO, "subflo"), ++ NORMAL_MNEMONIC(SUBHH_W, SUBHH_W, "subhh.w"), ++ NORMAL_MNEMONIC(SWAP_B, SWAP_B, "swap.b"), ++ NORMAL_MNEMONIC(SWAP_BH, SWAP_BH, "swap.bh"), ++ NORMAL_MNEMONIC(SWAP_H, SWAP_H, "swap.h"), ++ NORMAL_MNEMONIC(SYNC, SYNC, "sync"), ++ NORMAL_MNEMONIC(TLBR, TLBR, "tlbr"), ++ NORMAL_MNEMONIC(TLBS, TLBS, "tlbs"), ++ NORMAL_MNEMONIC(TLBW, TLBW, "tlbw"), ++ NORMAL_MNEMONIC(TNBZ, TNBZ, "tnbz"), ++ NORMAL_MNEMONIC(TST, TST, "tst"), ++ NORMAL_MNEMONIC(XCHG, XCHG, "xchg"), ++ NORMAL_MNEMONIC(MEMC, MEMC, "memc"), ++ NORMAL_MNEMONIC(MEMS, MEMS, "mems"), ++ NORMAL_MNEMONIC(MEMT, MEMT, "memt"), ++ NORMAL_MNEMONIC (FMAC_S, FMAC_S, "fmac.s"), ++ NORMAL_MNEMONIC (FNMAC_S, FNMAC_S, "fnmac.s"), ++ NORMAL_MNEMONIC (FMSC_S, FMSC_S, "fmsc.s"), ++ NORMAL_MNEMONIC (FNMSC_S, FNMSC_S, "fnmsc.s"), ++ NORMAL_MNEMONIC (FMUL_S, FMUL_S, "fmul.s"), ++ NORMAL_MNEMONIC (FNMUL_S, FNMUL_S, "fnmul.s"), ++ NORMAL_MNEMONIC (FADD_S, FADD_S, "fadd.s"), ++ NORMAL_MNEMONIC (FSUB_S, FSUB_S, "fsub.s"), ++ NORMAL_MNEMONIC (FCASTRS_SW, FCASTRS_SW, "fcastrs.sw"), ++ NORMAL_MNEMONIC (FCASTRS_UW, FCASTRS_UW, "fcastrs.uw"), ++ NORMAL_MNEMONIC (FCASTSW_S, FCASTSW_S, "fcastsw.s"), ++ NORMAL_MNEMONIC (FCASTUW_S, FCASTUW_S, "fcastuw.s"), ++ NORMAL_MNEMONIC (FCMP_S, FCMP_S, "fcmp.s"), ++ NORMAL_MNEMONIC (FCHK_S, FCHK_S, "fchk.s"), ++ NORMAL_MNEMONIC (FRCPA_S, FRCPA_S, "frcpa.s"), ++ NORMAL_MNEMONIC (FRSQRTA_S, FRSQRTA_S, "frsqrta.s"), ++ NORMAL_MNEMONIC(LDA_W, LDA_W, "lda.w"), ++ NORMAL_MNEMONIC(CALL, CALL, "call"), ++ NORMAL_MNEMONIC(PICOSVMAC, PICOSVMAC0, "picosvmac"), ++ NORMAL_MNEMONIC(PICOSVMUL, PICOSVMUL0, "picosvmul"), ++ NORMAL_MNEMONIC(PICOVMAC, PICOVMAC0, "picovmac"), ++ NORMAL_MNEMONIC(PICOVMUL, PICOVMUL0, "picovmul"), ++ NORMAL_MNEMONIC(PICOLD_D, PICOLD_D2, "picold.d"), ++ NORMAL_MNEMONIC(PICOLD_W, PICOLD_W2, "picold.w"), ++ NORMAL_MNEMONIC(PICOLDM_D, PICOLDM_D, "picoldm.d"), ++ NORMAL_MNEMONIC(PICOLDM_W, PICOLDM_W, "picoldm.w"), ++ NORMAL_MNEMONIC(PICOMV_D, PICOMV_D1, "picomv.d"), ++ NORMAL_MNEMONIC(PICOMV_W, PICOMV_W1, "picomv.w"), ++ NORMAL_MNEMONIC(PICOST_D, PICOST_D2, "picost.d"), ++ NORMAL_MNEMONIC(PICOST_W, PICOST_W2, "picost.w"), ++ NORMAL_MNEMONIC(PICOSTM_D, PICOSTM_D, "picostm.d"), ++ NORMAL_MNEMONIC(PICOSTM_W, PICOSTM_W, "picostm.w"), ++ NORMAL_MNEMONIC(RSUBEQ, RSUBEQ, "rsubeq"), ++ NORMAL_MNEMONIC(RSUBNE, RSUBNE, "rsubne"), ++ NORMAL_MNEMONIC(RSUBCC, RSUBCC, "rsubcc"), ++ NORMAL_MNEMONIC(RSUBCS, RSUBCS, "rsubcs"), ++ NORMAL_MNEMONIC(RSUBGE, RSUBGE, "rsubge"), ++ NORMAL_MNEMONIC(RSUBLT, RSUBLT, "rsublt"), ++ NORMAL_MNEMONIC(RSUBMI, RSUBMI, "rsubmi"), ++ NORMAL_MNEMONIC(RSUBPL, RSUBPL, "rsubpl"), ++ NORMAL_MNEMONIC(RSUBLS, RSUBLS, "rsubls"), ++ NORMAL_MNEMONIC(RSUBGT, RSUBGT, "rsubgt"), ++ NORMAL_MNEMONIC(RSUBLE, RSUBLE, "rsuble"), ++ NORMAL_MNEMONIC(RSUBHI, RSUBHI, "rsubhi"), ++ NORMAL_MNEMONIC(RSUBVS, RSUBVS, "rsubvs"), ++ NORMAL_MNEMONIC(RSUBVC, RSUBVC, "rsubvc"), ++ NORMAL_MNEMONIC(RSUBQS, RSUBQS, "rsubqs"), ++ NORMAL_MNEMONIC(RSUBAL, RSUBAL, "rsubal"), ++ NORMAL_MNEMONIC(RSUBHS, RSUBHS, "rsubhs"), ++ NORMAL_MNEMONIC(RSUBLO, RSUBLO, "rsublo"), ++ NORMAL_MNEMONIC(ADDEQ, ADDEQ, "addeq"), ++ NORMAL_MNEMONIC(ADDNE, ADDNE, "addne"), ++ NORMAL_MNEMONIC(ADDCC, ADDCC, "addcc"), ++ NORMAL_MNEMONIC(ADDCS, ADDCS, "addcs"), ++ NORMAL_MNEMONIC(ADDGE, ADDGE, "addge"), ++ NORMAL_MNEMONIC(ADDLT, ADDLT, "addlt"), ++ NORMAL_MNEMONIC(ADDMI, ADDMI, "addmi"), ++ NORMAL_MNEMONIC(ADDPL, ADDPL, "addpl"), ++ NORMAL_MNEMONIC(ADDLS, ADDLS, "addls"), ++ NORMAL_MNEMONIC(ADDGT, ADDGT, "addgt"), ++ NORMAL_MNEMONIC(ADDLE, ADDLE, "addle"), ++ NORMAL_MNEMONIC(ADDHI, ADDHI, "addhi"), ++ NORMAL_MNEMONIC(ADDVS, ADDVS, "addvs"), ++ NORMAL_MNEMONIC(ADDVC, ADDVC, "addvc"), ++ NORMAL_MNEMONIC(ADDQS, ADDQS, "addqs"), ++ NORMAL_MNEMONIC(ADDAL, ADDAL, "addal"), ++ NORMAL_MNEMONIC(ADDHS, ADDHS, "addhs"), ++ NORMAL_MNEMONIC(ADDLO, ADDLO, "addlo"), ++ NORMAL_MNEMONIC(ANDEQ, ANDEQ, "andeq"), ++ NORMAL_MNEMONIC(ANDNE, ANDNE, "andne"), ++ NORMAL_MNEMONIC(ANDCC, ANDCC, "andcc"), ++ NORMAL_MNEMONIC(ANDCS, ANDCS, "andcs"), ++ NORMAL_MNEMONIC(ANDGE, ANDGE, "andge"), ++ NORMAL_MNEMONIC(ANDLT, ANDLT, "andlt"), ++ NORMAL_MNEMONIC(ANDMI, ANDMI, "andmi"), ++ NORMAL_MNEMONIC(ANDPL, ANDPL, "andpl"), ++ NORMAL_MNEMONIC(ANDLS, ANDLS, "andls"), ++ NORMAL_MNEMONIC(ANDGT, ANDGT, "andgt"), ++ NORMAL_MNEMONIC(ANDLE, ANDLE, "andle"), ++ NORMAL_MNEMONIC(ANDHI, ANDHI, "andhi"), ++ NORMAL_MNEMONIC(ANDVS, ANDVS, "andvs"), ++ NORMAL_MNEMONIC(ANDVC, ANDVC, "andvc"), ++ NORMAL_MNEMONIC(ANDQS, ANDQS, "andqs"), ++ NORMAL_MNEMONIC(ANDAL, ANDAL, "andal"), ++ NORMAL_MNEMONIC(ANDHS, ANDHS, "andhs"), ++ NORMAL_MNEMONIC(ANDLO, ANDLO, "andlo"), ++ NORMAL_MNEMONIC(OREQ, OREQ, "oreq"), ++ NORMAL_MNEMONIC(ORNE, ORNE, "orne"), ++ NORMAL_MNEMONIC(ORCC, ORCC, "orcc"), ++ NORMAL_MNEMONIC(ORCS, ORCS, "orcs"), ++ NORMAL_MNEMONIC(ORGE, ORGE, "orge"), ++ NORMAL_MNEMONIC(ORLT, ORLT, "orlt"), ++ NORMAL_MNEMONIC(ORMI, ORMI, "ormi"), ++ NORMAL_MNEMONIC(ORPL, ORPL, "orpl"), ++ NORMAL_MNEMONIC(ORLS, ORLS, "orls"), ++ NORMAL_MNEMONIC(ORGT, ORGT, "orgt"), ++ NORMAL_MNEMONIC(ORLE, ORLE, "orle"), ++ NORMAL_MNEMONIC(ORHI, ORHI, "orhi"), ++ NORMAL_MNEMONIC(ORVS, ORVS, "orvs"), ++ NORMAL_MNEMONIC(ORVC, ORVC, "orvc"), ++ NORMAL_MNEMONIC(ORQS, ORQS, "orqs"), ++ NORMAL_MNEMONIC(ORAL, ORAL, "oral"), ++ NORMAL_MNEMONIC(ORHS, ORHS, "orhs"), ++ NORMAL_MNEMONIC(ORLO, ORLO, "orlo"), ++ NORMAL_MNEMONIC(EOREQ, EOREQ, "eoreq"), ++ NORMAL_MNEMONIC(EORNE, EORNE, "eorne"), ++ NORMAL_MNEMONIC(EORCC, EORCC, "eorcc"), ++ NORMAL_MNEMONIC(EORCS, EORCS, "eorcs"), ++ NORMAL_MNEMONIC(EORGE, EORGE, "eorge"), ++ NORMAL_MNEMONIC(EORLT, EORLT, "eorlt"), ++ NORMAL_MNEMONIC(EORMI, EORMI, "eormi"), ++ NORMAL_MNEMONIC(EORPL, EORPL, "eorpl"), ++ NORMAL_MNEMONIC(EORLS, EORLS, "eorls"), ++ NORMAL_MNEMONIC(EORGT, EORGT, "eorgt"), ++ NORMAL_MNEMONIC(EORLE, EORLE, "eorle"), ++ NORMAL_MNEMONIC(EORHI, EORHI, "eorhi"), ++ NORMAL_MNEMONIC(EORVS, EORVS, "eorvs"), ++ NORMAL_MNEMONIC(EORVC, EORVC, "eorvc"), ++ NORMAL_MNEMONIC(EORQS, EORQS, "eorqs"), ++ NORMAL_MNEMONIC(EORAL, EORAL, "eoral"), ++ NORMAL_MNEMONIC(EORHS, EORHS, "eorhs"), ++ NORMAL_MNEMONIC(EORLO, EORLO, "eorlo"), ++ NORMAL_MNEMONIC(LD_WEQ, LD_WEQ, "ld.weq"), ++ NORMAL_MNEMONIC(LD_WNE, LD_WNE, "ld.wne"), ++ NORMAL_MNEMONIC(LD_WCC, LD_WCC, "ld.wcc"), ++ NORMAL_MNEMONIC(LD_WCS, LD_WCS, "ld.wcs"), ++ NORMAL_MNEMONIC(LD_WGE, LD_WGE, "ld.wge"), ++ NORMAL_MNEMONIC(LD_WLT, LD_WLT, "ld.wlt"), ++ NORMAL_MNEMONIC(LD_WMI, LD_WMI, "ld.wmi"), ++ NORMAL_MNEMONIC(LD_WPL, LD_WPL, "ld.wpl"), ++ NORMAL_MNEMONIC(LD_WLS, LD_WLS, "ld.wls"), ++ NORMAL_MNEMONIC(LD_WGT, LD_WGT, "ld.wgt"), ++ NORMAL_MNEMONIC(LD_WLE, LD_WLE, "ld.wle"), ++ NORMAL_MNEMONIC(LD_WHI, LD_WHI, "ld.whi"), ++ NORMAL_MNEMONIC(LD_WVS, LD_WVS, "ld.wvs"), ++ NORMAL_MNEMONIC(LD_WVC, LD_WVC, "ld.wvc"), ++ NORMAL_MNEMONIC(LD_WQS, LD_WQS, "ld.wqs"), ++ NORMAL_MNEMONIC(LD_WAL, LD_WAL, "ld.wal"), ++ NORMAL_MNEMONIC(LD_WHS, LD_WHS, "ld.whs"), ++ NORMAL_MNEMONIC(LD_WLO, LD_WLO, "ld.wlo"), ++ NORMAL_MNEMONIC(LD_SHEQ, LD_SHEQ, "ld.sheq"), ++ NORMAL_MNEMONIC(LD_SHNE, LD_SHNE, "ld.shne"), ++ NORMAL_MNEMONIC(LD_SHCC, LD_SHCC, "ld.shcc"), ++ NORMAL_MNEMONIC(LD_SHCS, LD_SHCS, "ld.shcs"), ++ NORMAL_MNEMONIC(LD_SHGE, LD_SHGE, "ld.shge"), ++ NORMAL_MNEMONIC(LD_SHLT, LD_SHLT, "ld.shlt"), ++ NORMAL_MNEMONIC(LD_SHMI, LD_SHMI, "ld.shmi"), ++ NORMAL_MNEMONIC(LD_SHPL, LD_SHPL, "ld.shpl"), ++ NORMAL_MNEMONIC(LD_SHLS, LD_SHLS, "ld.shls"), ++ NORMAL_MNEMONIC(LD_SHGT, LD_SHGT, "ld.shgt"), ++ NORMAL_MNEMONIC(LD_SHLE, LD_SHLE, "ld.shle"), ++ NORMAL_MNEMONIC(LD_SHHI, LD_SHHI, "ld.shhi"), ++ NORMAL_MNEMONIC(LD_SHVS, LD_SHVS, "ld.shvs"), ++ NORMAL_MNEMONIC(LD_SHVC, LD_SHVC, "ld.shvc"), ++ NORMAL_MNEMONIC(LD_SHQS, LD_SHQS, "ld.shqs"), ++ NORMAL_MNEMONIC(LD_SHAL, LD_SHAL, "ld.shal"), ++ NORMAL_MNEMONIC(LD_SHHS, LD_SHHS, "ld.shhs"), ++ NORMAL_MNEMONIC(LD_SHLO, LD_SHLO, "ld.shlo"), ++ NORMAL_MNEMONIC(LD_UHEQ, LD_UHEQ, "ld.uheq"), ++ NORMAL_MNEMONIC(LD_UHNE, LD_UHNE, "ld.uhne"), ++ NORMAL_MNEMONIC(LD_UHCC, LD_UHCC, "ld.uhcc"), ++ NORMAL_MNEMONIC(LD_UHCS, LD_UHCS, "ld.uhcs"), ++ NORMAL_MNEMONIC(LD_UHGE, LD_UHGE, "ld.uhge"), ++ NORMAL_MNEMONIC(LD_UHLT, LD_UHLT, "ld.uhlt"), ++ NORMAL_MNEMONIC(LD_UHMI, LD_UHMI, "ld.uhmi"), ++ NORMAL_MNEMONIC(LD_UHPL, LD_UHPL, "ld.uhpl"), ++ NORMAL_MNEMONIC(LD_UHLS, LD_UHLS, "ld.uhls"), ++ NORMAL_MNEMONIC(LD_UHGT, LD_UHGT, "ld.uhgt"), ++ NORMAL_MNEMONIC(LD_UHLE, LD_UHLE, "ld.uhle"), ++ NORMAL_MNEMONIC(LD_UHHI, LD_UHHI, "ld.uhhi"), ++ NORMAL_MNEMONIC(LD_UHVS, LD_UHVS, "ld.uhvs"), ++ NORMAL_MNEMONIC(LD_UHVC, LD_UHVC, "ld.uhvc"), ++ NORMAL_MNEMONIC(LD_UHQS, LD_UHQS, "ld.uhqs"), ++ NORMAL_MNEMONIC(LD_UHAL, LD_UHAL, "ld.uhal"), ++ NORMAL_MNEMONIC(LD_UHHS, LD_UHHS, "ld.uhhs"), ++ NORMAL_MNEMONIC(LD_UHLO, LD_UHLO, "ld.uhlo"), ++ NORMAL_MNEMONIC(LD_SBEQ, LD_SBEQ, "ld.sbeq"), ++ NORMAL_MNEMONIC(LD_SBNE, LD_SBNE, "ld.sbne"), ++ NORMAL_MNEMONIC(LD_SBCC, LD_SBCC, "ld.sbcc"), ++ NORMAL_MNEMONIC(LD_SBCS, LD_SBCS, "ld.sbcs"), ++ NORMAL_MNEMONIC(LD_SBGE, LD_SBGE, "ld.sbge"), ++ NORMAL_MNEMONIC(LD_SBLT, LD_SBLT, "ld.sblt"), ++ NORMAL_MNEMONIC(LD_SBMI, LD_SBMI, "ld.sbmi"), ++ NORMAL_MNEMONIC(LD_SBPL, LD_SBPL, "ld.sbpl"), ++ NORMAL_MNEMONIC(LD_SBLS, LD_SBLS, "ld.sbls"), ++ NORMAL_MNEMONIC(LD_SBGT, LD_SBGT, "ld.sbgt"), ++ NORMAL_MNEMONIC(LD_SBLE, LD_SBLE, "ld.sble"), ++ NORMAL_MNEMONIC(LD_SBHI, LD_SBHI, "ld.sbhi"), ++ NORMAL_MNEMONIC(LD_SBVS, LD_SBVS, "ld.sbvs"), ++ NORMAL_MNEMONIC(LD_SBVC, LD_SBVC, "ld.sbvc"), ++ NORMAL_MNEMONIC(LD_SBQS, LD_SBQS, "ld.sbqs"), ++ NORMAL_MNEMONIC(LD_SBAL, LD_SBAL, "ld.sbal"), ++ NORMAL_MNEMONIC(LD_SBHS, LD_SBHS, "ld.sbhs"), ++ NORMAL_MNEMONIC(LD_SBLO, LD_SBLO, "ld.sblo"), ++ NORMAL_MNEMONIC(LD_UBEQ, LD_UBEQ, "ld.ubeq"), ++ NORMAL_MNEMONIC(LD_UBNE, LD_UBNE, "ld.ubne"), ++ NORMAL_MNEMONIC(LD_UBCC, LD_UBCC, "ld.ubcc"), ++ NORMAL_MNEMONIC(LD_UBCS, LD_UBCS, "ld.ubcs"), ++ NORMAL_MNEMONIC(LD_UBGE, LD_UBGE, "ld.ubge"), ++ NORMAL_MNEMONIC(LD_UBLT, LD_UBLT, "ld.ublt"), ++ NORMAL_MNEMONIC(LD_UBMI, LD_UBMI, "ld.ubmi"), ++ NORMAL_MNEMONIC(LD_UBPL, LD_UBPL, "ld.ubpl"), ++ NORMAL_MNEMONIC(LD_UBLS, LD_UBLS, "ld.ubls"), ++ NORMAL_MNEMONIC(LD_UBGT, LD_UBGT, "ld.ubgt"), ++ NORMAL_MNEMONIC(LD_UBLE, LD_UBLE, "ld.uble"), ++ NORMAL_MNEMONIC(LD_UBHI, LD_UBHI, "ld.ubhi"), ++ NORMAL_MNEMONIC(LD_UBVS, LD_UBVS, "ld.ubvs"), ++ NORMAL_MNEMONIC(LD_UBVC, LD_UBVC, "ld.ubvc"), ++ NORMAL_MNEMONIC(LD_UBQS, LD_UBQS, "ld.ubqs"), ++ NORMAL_MNEMONIC(LD_UBAL, LD_UBAL, "ld.ubal"), ++ NORMAL_MNEMONIC(LD_UBHS, LD_UBHS, "ld.ubhs"), ++ NORMAL_MNEMONIC(LD_UBLO, LD_UBLO, "ld.ublo"), ++ NORMAL_MNEMONIC(ST_WEQ, ST_WEQ, "st.weq"), ++ NORMAL_MNEMONIC(ST_WNE, ST_WNE, "st.wne"), ++ NORMAL_MNEMONIC(ST_WCC, ST_WCC, "st.wcc"), ++ NORMAL_MNEMONIC(ST_WCS, ST_WCS, "st.wcs"), ++ NORMAL_MNEMONIC(ST_WGE, ST_WGE, "st.wge"), ++ NORMAL_MNEMONIC(ST_WLT, ST_WLT, "st.wlt"), ++ NORMAL_MNEMONIC(ST_WMI, ST_WMI, "st.wmi"), ++ NORMAL_MNEMONIC(ST_WPL, ST_WPL, "st.wpl"), ++ NORMAL_MNEMONIC(ST_WLS, ST_WLS, "st.wls"), ++ NORMAL_MNEMONIC(ST_WGT, ST_WGT, "st.wgt"), ++ NORMAL_MNEMONIC(ST_WLE, ST_WLE, "st.wle"), ++ NORMAL_MNEMONIC(ST_WHI, ST_WHI, "st.whi"), ++ NORMAL_MNEMONIC(ST_WVS, ST_WVS, "st.wvs"), ++ NORMAL_MNEMONIC(ST_WVC, ST_WVC, "st.wvc"), ++ NORMAL_MNEMONIC(ST_WQS, ST_WQS, "st.wqs"), ++ NORMAL_MNEMONIC(ST_WAL, ST_WAL, "st.wal"), ++ NORMAL_MNEMONIC(ST_WHS, ST_WHS, "st.whs"), ++ NORMAL_MNEMONIC(ST_WLO, ST_WLO, "st.wlo"), ++ NORMAL_MNEMONIC(ST_HEQ, ST_HEQ, "st.heq"), ++ NORMAL_MNEMONIC(ST_HNE, ST_HNE, "st.hne"), ++ NORMAL_MNEMONIC(ST_HCC, ST_HCC, "st.hcc"), ++ NORMAL_MNEMONIC(ST_HCS, ST_HCS, "st.hcs"), ++ NORMAL_MNEMONIC(ST_HGE, ST_HGE, "st.hge"), ++ NORMAL_MNEMONIC(ST_HLT, ST_HLT, "st.hlt"), ++ NORMAL_MNEMONIC(ST_HMI, ST_HMI, "st.hmi"), ++ NORMAL_MNEMONIC(ST_HPL, ST_HPL, "st.hpl"), ++ NORMAL_MNEMONIC(ST_HLS, ST_HLS, "st.hls"), ++ NORMAL_MNEMONIC(ST_HGT, ST_HGT, "st.hgt"), ++ NORMAL_MNEMONIC(ST_HLE, ST_HLE, "st.hle"), ++ NORMAL_MNEMONIC(ST_HHI, ST_HHI, "st.hhi"), ++ NORMAL_MNEMONIC(ST_HVS, ST_HVS, "st.hvs"), ++ NORMAL_MNEMONIC(ST_HVC, ST_HVC, "st.hvc"), ++ NORMAL_MNEMONIC(ST_HQS, ST_HQS, "st.hqs"), ++ NORMAL_MNEMONIC(ST_HAL, ST_HAL, "st.hal"), ++ NORMAL_MNEMONIC(ST_HHS, ST_HHS, "st.hhs"), ++ NORMAL_MNEMONIC(ST_HLO, ST_HLO, "st.hlo"), ++ NORMAL_MNEMONIC(ST_BEQ, ST_BEQ, "st.beq"), ++ NORMAL_MNEMONIC(ST_BNE, ST_BNE, "st.bne"), ++ NORMAL_MNEMONIC(ST_BCC, ST_BCC, "st.bcc"), ++ NORMAL_MNEMONIC(ST_BCS, ST_BCS, "st.bcs"), ++ NORMAL_MNEMONIC(ST_BGE, ST_BGE, "st.bge"), ++ NORMAL_MNEMONIC(ST_BLT, ST_BLT, "st.blt"), ++ NORMAL_MNEMONIC(ST_BMI, ST_BMI, "st.bmi"), ++ NORMAL_MNEMONIC(ST_BPL, ST_BPL, "st.bpl"), ++ NORMAL_MNEMONIC(ST_BLS, ST_BLS, "st.bls"), ++ NORMAL_MNEMONIC(ST_BGT, ST_BGT, "st.bgt"), ++ NORMAL_MNEMONIC(ST_BLE, ST_BLE, "st.ble"), ++ NORMAL_MNEMONIC(ST_BHI, ST_BHI, "st.bhi"), ++ NORMAL_MNEMONIC(ST_BVS, ST_BVS, "st.bvs"), ++ NORMAL_MNEMONIC(ST_BVC, ST_BVC, "st.bvc"), ++ NORMAL_MNEMONIC(ST_BQS, ST_BQS, "st.bqs"), ++ NORMAL_MNEMONIC(ST_BAL, ST_BAL, "st.bal"), ++ NORMAL_MNEMONIC(ST_BHS, ST_BHS, "st.bhs"), ++ NORMAL_MNEMONIC(ST_BLO, ST_BLO, "st.blo"), ++ NORMAL_MNEMONIC(MOVH, MOVH, "movh"), ++ ++ }; ++#undef NORMAL_MNEMONIC ++#undef ALIAS_MNEMONIC ++#undef FP_MNEMONIC +--- /dev/null ++++ b/opcodes/avr32-opc.h +@@ -0,0 +1,2341 @@ ++/* Opcode tables for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include "bfd.h" ++ ++#define AVR32_MAX_OPERANDS 8 ++#define AVR32_MAX_FIELDS 8 ++ ++#define AVR32_V1 (1 << 1) ++#define AVR32_SIMD (1 << 2) ++#define AVR32_DSP (1 << 3) ++#define AVR32_RMW (1 << 4) ++#define AVR32_V2 (1 << 5) ++#define AVR32_V3 (1 << 6) ++#define AVR32_V3FP (1 << 7) ++#define AVR32_PICO (1 << 17) ++ ++/* Registers we commonly refer to */ ++#define AVR32_REG_R12 12 ++#define AVR32_REG_SP 13 ++#define AVR32_REG_LR 14 ++#define AVR32_REG_PC 15 ++ ++struct avr32_ifield ++{ ++ int id; ++ unsigned short bitsize; ++ unsigned short shift; ++ unsigned long mask; ++ ++ /* If the value doesn't fit, it will be truncated with no warning */ ++ void (*insert)(const struct avr32_ifield *, void *, unsigned long); ++ void (*extract)(const struct avr32_ifield *, void *, unsigned long *); ++}; ++ ++struct avr32_opcode ++{ ++ int id; ++ int size; ++ unsigned long value; ++ unsigned long mask; ++ const struct avr32_syntax *syntax; ++ bfd_reloc_code_real_type reloc_type; ++ unsigned int nr_fields; ++ /* if relaxable, which field is variable, otherwise -1 */ ++ int var_field; ++ const struct avr32_ifield *fields[AVR32_MAX_FIELDS]; ++}; ++ ++struct avr32_alias ++{ ++ int id; ++ const struct avr32_opcode *opc; ++ struct { ++ int is_opindex; ++ unsigned long value; ++ } operand_map[AVR32_MAX_OPERANDS]; ++}; ++ ++struct avr32_syntax ++{ ++ int id; ++ unsigned long isa_flags; ++ const struct avr32_mnemonic *mnemonic; ++ int type; ++ union { ++ const struct avr32_opcode *opc; ++ const struct avr32_alias *alias; ++ } u; ++ const struct avr32_syntax *next; ++ /* negative means "vararg" */ ++ int nr_operands; ++ int operand[AVR32_MAX_OPERANDS]; ++}; ++ ++#if 0 ++#define AVR32_ALIAS_MAKE_CONST(val) ((val) | 0x80000000UL) ++#define AVR32_ALIAS_IS_CONST(mapval) (((mapval) & 0x80000000UL) != 0) ++#define AVR32_ALIAS_GET_CONST(mapval) ((mapval) & ~0x80000000UL) ++#endif ++ ++struct avr32_mnemonic ++{ ++ int id; ++ const char *name; ++ const struct avr32_syntax *syntax; ++}; ++ ++extern const struct avr32_ifield avr32_ifield_table[]; ++extern struct avr32_opcode avr32_opc_table[]; ++extern const struct avr32_syntax avr32_syntax_table[]; ++extern const struct avr32_alias avr32_alias_table[]; ++extern const struct avr32_mnemonic avr32_mnemonic_table[]; ++ ++extern void avr32_insert_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_bit5c(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_k10(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_k21(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_cpop(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_k12cp(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++ ++extern void avr32_extract_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_bit5c(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_k10(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_k21(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_cpop(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_k12cp(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++ ++enum avr32_operand_type ++{ ++ AVR32_OPERAND_INTREG, /* just a register */ ++ AVR32_OPERAND_INTREG_PREDEC, /* register with pre-decrement */ ++ AVR32_OPERAND_INTREG_POSTINC, /* register with post-increment */ ++ AVR32_OPERAND_INTREG_LSL, /* register with left shift */ ++ AVR32_OPERAND_INTREG_LSR, /* register with right shift */ ++ AVR32_OPERAND_INTREG_BSEL, /* register with byte selector */ ++ AVR32_OPERAND_INTREG_HSEL, /* register with halfword selector */ ++ AVR32_OPERAND_INTREG_SDISP, /* Rp[signed disp] */ ++ AVR32_OPERAND_INTREG_SDISP_H, /* Rp[signed hword-aligned disp] */ ++ AVR32_OPERAND_INTREG_SDISP_W, /* Rp[signed word-aligned disp] */ ++ AVR32_OPERAND_INTREG_UDISP, /* Rp[unsigned disp] */ ++ AVR32_OPERAND_INTREG_UDISP_H, /* Rp[unsigned hword-aligned disp] */ ++ AVR32_OPERAND_INTREG_UDISP_W, /* Rp[unsigned word-aligned disp] */ ++ AVR32_OPERAND_INTREG_INDEX, /* Rp[Ri << sa] */ ++ AVR32_OPERAND_INTREG_XINDEX, /* Rp[Ri:bytesel << 2] */ ++ AVR32_OPERAND_DWREG, /* Even-numbered register */ ++ AVR32_OPERAND_PC_UDISP_W, /* PC[unsigned word-aligned disp] or label */ ++ AVR32_OPERAND_SP, /* Just SP */ ++ AVR32_OPERAND_SP_UDISP_W, /* SP[unsigned word-aligned disp] */ ++ AVR32_OPERAND_CPNO, ++ AVR32_OPERAND_CPREG, ++ AVR32_OPERAND_CPREG_D, ++ AVR32_OPERAND_UNSIGNED_CONST, ++ AVR32_OPERAND_UNSIGNED_CONST_W, ++ AVR32_OPERAND_SIGNED_CONST, ++ AVR32_OPERAND_SIGNED_CONST_W, ++ AVR32_OPERAND_JMPLABEL, ++ AVR32_OPERAND_UNSIGNED_NUMBER, ++ AVR32_OPERAND_UNSIGNED_NUMBER_W, ++ AVR32_OPERAND_REGLIST8, ++ AVR32_OPERAND_REGLIST9, ++ AVR32_OPERAND_REGLIST16, ++ AVR32_OPERAND_REGLIST_LDM, ++ AVR32_OPERAND_REGLIST_CP8, ++ AVR32_OPERAND_REGLIST_CPD8, ++ AVR32_OPERAND_RETVAL, ++ AVR32_OPERAND_MCALL, ++ AVR32_OPERAND_JOSPINC, ++ AVR32_OPERAND_COH, ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND__END_ ++}; ++#define AVR32_OPERAND_UNKNOWN AVR32_OPERAND__END_ ++#define AVR32_NR_OPERANDS AVR32_OPERAND__END_ ++ ++enum avr32_ifield_type ++{ ++ AVR32_IFIELD_RX, ++ AVR32_IFIELD_RY, ++ AVR32_IFIELD_COND4C, ++ AVR32_IFIELD_K8C, ++ AVR32_IFIELD_K7C, ++ AVR32_IFIELD_K5C, ++ AVR32_IFIELD_K3, ++ AVR32_IFIELD_RY_DW, ++ AVR32_IFIELD_COND4E, ++ AVR32_IFIELD_K8E, ++ AVR32_IFIELD_BIT5C, ++ AVR32_IFIELD_COND3, ++ AVR32_IFIELD_K10, ++ AVR32_IFIELD_POPM, ++ AVR32_IFIELD_K2, ++ AVR32_IFIELD_RD_E, ++ AVR32_IFIELD_RD_DW, ++ AVR32_IFIELD_X, ++ AVR32_IFIELD_Y, ++ AVR32_IFIELD_X2, ++ AVR32_IFIELD_Y2, ++ AVR32_IFIELD_K5E, ++ AVR32_IFIELD_PART2, ++ AVR32_IFIELD_PART1, ++ AVR32_IFIELD_K16, ++ AVR32_IFIELD_CACHEOP, ++ AVR32_IFIELD_K11, ++ AVR32_IFIELD_K21, ++ AVR32_IFIELD_CPOP, ++ AVR32_IFIELD_CPNO, ++ AVR32_IFIELD_CRD_RI, ++ AVR32_IFIELD_CRX, ++ AVR32_IFIELD_CRY, ++ AVR32_IFIELD_K7E, ++ AVR32_IFIELD_CRD_DW, ++ AVR32_IFIELD_PART1_K12, ++ AVR32_IFIELD_PART2_K12, ++ AVR32_IFIELD_K12, ++ AVR32_IFIELD_S5, ++ AVR32_IFIELD_K5E2, ++ AVR32_IFIELD_K4, ++ AVR32_IFIELD_COND4E2, ++ AVR32_IFIELD_K8E2, ++ AVR32_IFIELD_K6, ++ AVR32_IFIELD_MEM15, ++ AVR32_IFIELD_MEMB5, ++ AVR32_IFIELD_W, ++ AVR32_IFIELD_CM_HL, ++ AVR32_IFIELD_K12CP, ++ AVR32_IFIELD_K9E, ++ AVR32_IFIELD_FP_RX, ++ AVR32_IFIELD_FP_RY, ++ AVR32_IFIELD_FP_RD, ++ AVR32_IFIELD_FP_RA, ++ AVR32_IFIELD__END_, ++}; ++#define AVR32_NR_IFIELDS AVR32_IFIELD__END_ ++ ++enum avr32_opc_type ++{ ++ AVR32_OPC_ABS, ++ AVR32_OPC_ACALL, ++ AVR32_OPC_ACR, ++ AVR32_OPC_ADC, ++ AVR32_OPC_ADD1, ++ AVR32_OPC_ADD2, ++ AVR32_OPC_ADDABS, ++ AVR32_OPC_ADDHH_W, ++ AVR32_OPC_AND1, ++ AVR32_OPC_AND2, ++ AVR32_OPC_AND3, ++ AVR32_OPC_ANDH, ++ AVR32_OPC_ANDH_COH, ++ AVR32_OPC_ANDL, ++ AVR32_OPC_ANDL_COH, ++ AVR32_OPC_ANDN, ++ AVR32_OPC_ASR1, ++ AVR32_OPC_ASR3, ++ AVR32_OPC_ASR2, ++ AVR32_OPC_BLD, ++ AVR32_OPC_BREQ1, ++ AVR32_OPC_BRNE1, ++ AVR32_OPC_BRCC1, ++ AVR32_OPC_BRCS1, ++ AVR32_OPC_BRGE1, ++ AVR32_OPC_BRLT1, ++ AVR32_OPC_BRMI1, ++ AVR32_OPC_BRPL1, ++ AVR32_OPC_BREQ2, ++ AVR32_OPC_BRNE2, ++ AVR32_OPC_BRCC2, ++ AVR32_OPC_BRCS2, ++ AVR32_OPC_BRGE2, ++ AVR32_OPC_BRLT2, ++ AVR32_OPC_BRMI2, ++ AVR32_OPC_BRPL2, ++ AVR32_OPC_BRLS, ++ AVR32_OPC_BRGT, ++ AVR32_OPC_BRLE, ++ AVR32_OPC_BRHI, ++ AVR32_OPC_BRVS, ++ AVR32_OPC_BRVC, ++ AVR32_OPC_BRQS, ++ AVR32_OPC_BRAL, ++ AVR32_OPC_BREAKPOINT, ++ AVR32_OPC_BREV, ++ AVR32_OPC_BST, ++ AVR32_OPC_CACHE, ++ AVR32_OPC_CASTS_B, ++ AVR32_OPC_CASTS_H, ++ AVR32_OPC_CASTU_B, ++ AVR32_OPC_CASTU_H, ++ AVR32_OPC_CBR, ++ AVR32_OPC_CLZ, ++ AVR32_OPC_COM, ++ AVR32_OPC_COP, ++ AVR32_OPC_CP_B, ++ AVR32_OPC_CP_H, ++ AVR32_OPC_CP_W1, ++ AVR32_OPC_CP_W2, ++ AVR32_OPC_CP_W3, ++ AVR32_OPC_CPC1, ++ AVR32_OPC_CPC2, ++ AVR32_OPC_CSRF, ++ AVR32_OPC_CSRFCZ, ++ AVR32_OPC_DIVS, ++ AVR32_OPC_DIVU, ++ AVR32_OPC_EOR1, ++ AVR32_OPC_EOR2, ++ AVR32_OPC_EOR3, ++ AVR32_OPC_EORL, ++ AVR32_OPC_EORH, ++ AVR32_OPC_FRS, ++ AVR32_OPC_ICALL, ++ AVR32_OPC_INCJOSP, ++ AVR32_OPC_LD_D1, ++ AVR32_OPC_LD_D2, ++ AVR32_OPC_LD_D3, ++ AVR32_OPC_LD_D5, ++ AVR32_OPC_LD_D4, ++ AVR32_OPC_LD_SB2, ++ AVR32_OPC_LD_SB1, ++ AVR32_OPC_LD_UB1, ++ AVR32_OPC_LD_UB2, ++ AVR32_OPC_LD_UB5, ++ AVR32_OPC_LD_UB3, ++ AVR32_OPC_LD_UB4, ++ AVR32_OPC_LD_SH1, ++ AVR32_OPC_LD_SH2, ++ AVR32_OPC_LD_SH5, ++ AVR32_OPC_LD_SH3, ++ AVR32_OPC_LD_SH4, ++ AVR32_OPC_LD_UH1, ++ AVR32_OPC_LD_UH2, ++ AVR32_OPC_LD_UH5, ++ AVR32_OPC_LD_UH3, ++ AVR32_OPC_LD_UH4, ++ AVR32_OPC_LD_W1, ++ AVR32_OPC_LD_W2, ++ AVR32_OPC_LD_W5, ++ AVR32_OPC_LD_W6, ++ AVR32_OPC_LD_W3, ++ AVR32_OPC_LD_W4, ++ AVR32_OPC_LDC_D1, ++ AVR32_OPC_LDC_D2, ++ AVR32_OPC_LDC_D3, ++ AVR32_OPC_LDC_W1, ++ AVR32_OPC_LDC_W2, ++ AVR32_OPC_LDC_W3, ++ AVR32_OPC_LDC0_D, ++ AVR32_OPC_LDC0_W, ++ AVR32_OPC_LDCM_D, ++ AVR32_OPC_LDCM_D_PU, ++ AVR32_OPC_LDCM_W, ++ AVR32_OPC_LDCM_W_PU, ++ AVR32_OPC_LDDPC, ++ AVR32_OPC_LDDPC_EXT, ++ AVR32_OPC_LDDSP, ++ AVR32_OPC_LDINS_B, ++ AVR32_OPC_LDINS_H, ++ AVR32_OPC_LDM, ++ AVR32_OPC_LDMTS, ++ AVR32_OPC_LDMTS_PU, ++ AVR32_OPC_LDSWP_SH, ++ AVR32_OPC_LDSWP_UH, ++ AVR32_OPC_LDSWP_W, ++ AVR32_OPC_LSL1, ++ AVR32_OPC_LSL3, ++ AVR32_OPC_LSL2, ++ AVR32_OPC_LSR1, ++ AVR32_OPC_LSR3, ++ AVR32_OPC_LSR2, ++ AVR32_OPC_MAC, ++ AVR32_OPC_MACHH_D, ++ AVR32_OPC_MACHH_W, ++ AVR32_OPC_MACS_D, ++ AVR32_OPC_MACSATHH_W, ++ AVR32_OPC_MACUD, ++ AVR32_OPC_MACWH_D, ++ AVR32_OPC_MAX, ++ AVR32_OPC_MCALL, ++ AVR32_OPC_MFDR, ++ AVR32_OPC_MFSR, ++ AVR32_OPC_MIN, ++ AVR32_OPC_MOV3, ++ AVR32_OPC_MOV1, ++ AVR32_OPC_MOV2, ++ AVR32_OPC_MOVEQ1, ++ AVR32_OPC_MOVNE1, ++ AVR32_OPC_MOVCC1, ++ AVR32_OPC_MOVCS1, ++ AVR32_OPC_MOVGE1, ++ AVR32_OPC_MOVLT1, ++ AVR32_OPC_MOVMI1, ++ AVR32_OPC_MOVPL1, ++ AVR32_OPC_MOVLS1, ++ AVR32_OPC_MOVGT1, ++ AVR32_OPC_MOVLE1, ++ AVR32_OPC_MOVHI1, ++ AVR32_OPC_MOVVS1, ++ AVR32_OPC_MOVVC1, ++ AVR32_OPC_MOVQS1, ++ AVR32_OPC_MOVAL1, ++ AVR32_OPC_MOVEQ2, ++ AVR32_OPC_MOVNE2, ++ AVR32_OPC_MOVCC2, ++ AVR32_OPC_MOVCS2, ++ AVR32_OPC_MOVGE2, ++ AVR32_OPC_MOVLT2, ++ AVR32_OPC_MOVMI2, ++ AVR32_OPC_MOVPL2, ++ AVR32_OPC_MOVLS2, ++ AVR32_OPC_MOVGT2, ++ AVR32_OPC_MOVLE2, ++ AVR32_OPC_MOVHI2, ++ AVR32_OPC_MOVVS2, ++ AVR32_OPC_MOVVC2, ++ AVR32_OPC_MOVQS2, ++ AVR32_OPC_MOVAL2, ++ AVR32_OPC_MTDR, ++ AVR32_OPC_MTSR, ++ AVR32_OPC_MUL1, ++ AVR32_OPC_MUL2, ++ AVR32_OPC_MUL3, ++ AVR32_OPC_MULHH_W, ++ AVR32_OPC_MULNHH_W, ++ AVR32_OPC_MULNWH_D, ++ AVR32_OPC_MULSD, ++ AVR32_OPC_MULSATHH_H, ++ AVR32_OPC_MULSATHH_W, ++ AVR32_OPC_MULSATRNDHH_H, ++ AVR32_OPC_MULSATRNDWH_W, ++ AVR32_OPC_MULSATWH_W, ++ AVR32_OPC_MULU_D, ++ AVR32_OPC_MULWH_D, ++ AVR32_OPC_MUSFR, ++ AVR32_OPC_MUSTR, ++ AVR32_OPC_MVCR_D, ++ AVR32_OPC_MVCR_W, ++ AVR32_OPC_MVRC_D, ++ AVR32_OPC_MVRC_W, ++ AVR32_OPC_NEG, ++ AVR32_OPC_NOP, ++ AVR32_OPC_OR1, ++ AVR32_OPC_OR2, ++ AVR32_OPC_OR3, ++ AVR32_OPC_ORH, ++ AVR32_OPC_ORL, ++ AVR32_OPC_PABS_SB, ++ AVR32_OPC_PABS_SH, ++ AVR32_OPC_PACKSH_SB, ++ AVR32_OPC_PACKSH_UB, ++ AVR32_OPC_PACKW_SH, ++ AVR32_OPC_PADD_B, ++ AVR32_OPC_PADD_H, ++ AVR32_OPC_PADDH_SH, ++ AVR32_OPC_PADDH_UB, ++ AVR32_OPC_PADDS_SB, ++ AVR32_OPC_PADDS_SH, ++ AVR32_OPC_PADDS_UB, ++ AVR32_OPC_PADDS_UH, ++ AVR32_OPC_PADDSUB_H, ++ AVR32_OPC_PADDSUBH_SH, ++ AVR32_OPC_PADDSUBS_SH, ++ AVR32_OPC_PADDSUBS_UH, ++ AVR32_OPC_PADDX_H, ++ AVR32_OPC_PADDXH_SH, ++ AVR32_OPC_PADDXS_SH, ++ AVR32_OPC_PADDXS_UH, ++ AVR32_OPC_PASR_B, ++ AVR32_OPC_PASR_H, ++ AVR32_OPC_PAVG_SH, ++ AVR32_OPC_PAVG_UB, ++ AVR32_OPC_PLSL_B, ++ AVR32_OPC_PLSL_H, ++ AVR32_OPC_PLSR_B, ++ AVR32_OPC_PLSR_H, ++ AVR32_OPC_PMAX_SH, ++ AVR32_OPC_PMAX_UB, ++ AVR32_OPC_PMIN_SH, ++ AVR32_OPC_PMIN_UB, ++ AVR32_OPC_POPJC, ++ AVR32_OPC_POPM, ++ AVR32_OPC_POPM_E, ++ AVR32_OPC_PREF, ++ AVR32_OPC_PSAD, ++ AVR32_OPC_PSUB_B, ++ AVR32_OPC_PSUB_H, ++ AVR32_OPC_PSUBADD_H, ++ AVR32_OPC_PSUBADDH_SH, ++ AVR32_OPC_PSUBADDS_SH, ++ AVR32_OPC_PSUBADDS_UH, ++ AVR32_OPC_PSUBH_SH, ++ AVR32_OPC_PSUBH_UB, ++ AVR32_OPC_PSUBS_SB, ++ AVR32_OPC_PSUBS_SH, ++ AVR32_OPC_PSUBS_UB, ++ AVR32_OPC_PSUBS_UH, ++ AVR32_OPC_PSUBX_H, ++ AVR32_OPC_PSUBXH_SH, ++ AVR32_OPC_PSUBXS_SH, ++ AVR32_OPC_PSUBXS_UH, ++ AVR32_OPC_PUNPCKSB_H, ++ AVR32_OPC_PUNPCKUB_H, ++ AVR32_OPC_PUSHJC, ++ AVR32_OPC_PUSHM, ++ AVR32_OPC_PUSHM_E, ++ AVR32_OPC_RCALL1, ++ AVR32_OPC_RCALL2, ++ AVR32_OPC_RETEQ, ++ AVR32_OPC_RETNE, ++ AVR32_OPC_RETCC, ++ AVR32_OPC_RETCS, ++ AVR32_OPC_RETGE, ++ AVR32_OPC_RETLT, ++ AVR32_OPC_RETMI, ++ AVR32_OPC_RETPL, ++ AVR32_OPC_RETLS, ++ AVR32_OPC_RETGT, ++ AVR32_OPC_RETLE, ++ AVR32_OPC_RETHI, ++ AVR32_OPC_RETVS, ++ AVR32_OPC_RETVC, ++ AVR32_OPC_RETQS, ++ AVR32_OPC_RETAL, ++ AVR32_OPC_RETD, ++ AVR32_OPC_RETE, ++ AVR32_OPC_RETJ, ++ AVR32_OPC_RETS, ++ AVR32_OPC_RJMP, ++ AVR32_OPC_ROL, ++ AVR32_OPC_ROR, ++ AVR32_OPC_RSUB1, ++ AVR32_OPC_RSUB2, ++ AVR32_OPC_SATADD_H, ++ AVR32_OPC_SATADD_W, ++ AVR32_OPC_SATRNDS, ++ AVR32_OPC_SATRNDU, ++ AVR32_OPC_SATS, ++ AVR32_OPC_SATSUB_H, ++ AVR32_OPC_SATSUB_W1, ++ AVR32_OPC_SATSUB_W2, ++ AVR32_OPC_SATU, ++ AVR32_OPC_SBC, ++ AVR32_OPC_SBR, ++ AVR32_OPC_SCALL, ++ AVR32_OPC_SCR, ++ AVR32_OPC_SLEEP, ++ AVR32_OPC_SREQ, ++ AVR32_OPC_SRNE, ++ AVR32_OPC_SRCC, ++ AVR32_OPC_SRCS, ++ AVR32_OPC_SRGE, ++ AVR32_OPC_SRLT, ++ AVR32_OPC_SRMI, ++ AVR32_OPC_SRPL, ++ AVR32_OPC_SRLS, ++ AVR32_OPC_SRGT, ++ AVR32_OPC_SRLE, ++ AVR32_OPC_SRHI, ++ AVR32_OPC_SRVS, ++ AVR32_OPC_SRVC, ++ AVR32_OPC_SRQS, ++ AVR32_OPC_SRAL, ++ AVR32_OPC_SSRF, ++ AVR32_OPC_ST_B1, ++ AVR32_OPC_ST_B2, ++ AVR32_OPC_ST_B5, ++ AVR32_OPC_ST_B3, ++ AVR32_OPC_ST_B4, ++ AVR32_OPC_ST_D1, ++ AVR32_OPC_ST_D2, ++ AVR32_OPC_ST_D3, ++ AVR32_OPC_ST_D5, ++ AVR32_OPC_ST_D4, ++ AVR32_OPC_ST_H1, ++ AVR32_OPC_ST_H2, ++ AVR32_OPC_ST_H5, ++ AVR32_OPC_ST_H3, ++ AVR32_OPC_ST_H4, ++ AVR32_OPC_ST_W1, ++ AVR32_OPC_ST_W2, ++ AVR32_OPC_ST_W5, ++ AVR32_OPC_ST_W3, ++ AVR32_OPC_ST_W4, ++ AVR32_OPC_STC_D1, ++ AVR32_OPC_STC_D2, ++ AVR32_OPC_STC_D3, ++ AVR32_OPC_STC_W1, ++ AVR32_OPC_STC_W2, ++ AVR32_OPC_STC_W3, ++ AVR32_OPC_STC0_D, ++ AVR32_OPC_STC0_W, ++ AVR32_OPC_STCM_D, ++ AVR32_OPC_STCM_D_PU, ++ AVR32_OPC_STCM_W, ++ AVR32_OPC_STCM_W_PU, ++ AVR32_OPC_STCOND, ++ AVR32_OPC_STDSP, ++ AVR32_OPC_STHH_W2, ++ AVR32_OPC_STHH_W1, ++ AVR32_OPC_STM, ++ AVR32_OPC_STM_PU, ++ AVR32_OPC_STMTS, ++ AVR32_OPC_STMTS_PU, ++ AVR32_OPC_STSWP_H, ++ AVR32_OPC_STSWP_W, ++ AVR32_OPC_SUB1, ++ AVR32_OPC_SUB2, ++ AVR32_OPC_SUB5, ++ AVR32_OPC_SUB3_SP, ++ AVR32_OPC_SUB3, ++ AVR32_OPC_SUB4, ++ AVR32_OPC_SUBEQ, ++ AVR32_OPC_SUBNE, ++ AVR32_OPC_SUBCC, ++ AVR32_OPC_SUBCS, ++ AVR32_OPC_SUBGE, ++ AVR32_OPC_SUBLT, ++ AVR32_OPC_SUBMI, ++ AVR32_OPC_SUBPL, ++ AVR32_OPC_SUBLS, ++ AVR32_OPC_SUBGT, ++ AVR32_OPC_SUBLE, ++ AVR32_OPC_SUBHI, ++ AVR32_OPC_SUBVS, ++ AVR32_OPC_SUBVC, ++ AVR32_OPC_SUBQS, ++ AVR32_OPC_SUBAL, ++ AVR32_OPC_SUBFEQ, ++ AVR32_OPC_SUBFNE, ++ AVR32_OPC_SUBFCC, ++ AVR32_OPC_SUBFCS, ++ AVR32_OPC_SUBFGE, ++ AVR32_OPC_SUBFLT, ++ AVR32_OPC_SUBFMI, ++ AVR32_OPC_SUBFPL, ++ AVR32_OPC_SUBFLS, ++ AVR32_OPC_SUBFGT, ++ AVR32_OPC_SUBFLE, ++ AVR32_OPC_SUBFHI, ++ AVR32_OPC_SUBFVS, ++ AVR32_OPC_SUBFVC, ++ AVR32_OPC_SUBFQS, ++ AVR32_OPC_SUBFAL, ++ AVR32_OPC_SUBHH_W, ++ AVR32_OPC_SWAP_B, ++ AVR32_OPC_SWAP_BH, ++ AVR32_OPC_SWAP_H, ++ AVR32_OPC_SYNC, ++ AVR32_OPC_TLBR, ++ AVR32_OPC_TLBS, ++ AVR32_OPC_TLBW, ++ AVR32_OPC_TNBZ, ++ AVR32_OPC_TST, ++ AVR32_OPC_XCHG, ++ AVR32_OPC_MEMC, ++ AVR32_OPC_MEMS, ++ AVR32_OPC_MEMT, ++ AVR32_OPC_BFEXTS, ++ AVR32_OPC_BFEXTU, ++ AVR32_OPC_BFINS, ++ AVR32_OPC_RSUBEQ, ++ AVR32_OPC_RSUBNE, ++ AVR32_OPC_RSUBCC, ++ AVR32_OPC_RSUBCS, ++ AVR32_OPC_RSUBGE, ++ AVR32_OPC_RSUBLT, ++ AVR32_OPC_RSUBMI, ++ AVR32_OPC_RSUBPL, ++ AVR32_OPC_RSUBLS, ++ AVR32_OPC_RSUBGT, ++ AVR32_OPC_RSUBLE, ++ AVR32_OPC_RSUBHI, ++ AVR32_OPC_RSUBVS, ++ AVR32_OPC_RSUBVC, ++ AVR32_OPC_RSUBQS, ++ AVR32_OPC_RSUBAL, ++ AVR32_OPC_ADDEQ, ++ AVR32_OPC_ADDNE, ++ AVR32_OPC_ADDCC, ++ AVR32_OPC_ADDCS, ++ AVR32_OPC_ADDGE, ++ AVR32_OPC_ADDLT, ++ AVR32_OPC_ADDMI, ++ AVR32_OPC_ADDPL, ++ AVR32_OPC_ADDLS, ++ AVR32_OPC_ADDGT, ++ AVR32_OPC_ADDLE, ++ AVR32_OPC_ADDHI, ++ AVR32_OPC_ADDVS, ++ AVR32_OPC_ADDVC, ++ AVR32_OPC_ADDQS, ++ AVR32_OPC_ADDAL, ++ AVR32_OPC_SUB2EQ, ++ AVR32_OPC_SUB2NE, ++ AVR32_OPC_SUB2CC, ++ AVR32_OPC_SUB2CS, ++ AVR32_OPC_SUB2GE, ++ AVR32_OPC_SUB2LT, ++ AVR32_OPC_SUB2MI, ++ AVR32_OPC_SUB2PL, ++ AVR32_OPC_SUB2LS, ++ AVR32_OPC_SUB2GT, ++ AVR32_OPC_SUB2LE, ++ AVR32_OPC_SUB2HI, ++ AVR32_OPC_SUB2VS, ++ AVR32_OPC_SUB2VC, ++ AVR32_OPC_SUB2QS, ++ AVR32_OPC_SUB2AL, ++ AVR32_OPC_ANDEQ, ++ AVR32_OPC_ANDNE, ++ AVR32_OPC_ANDCC, ++ AVR32_OPC_ANDCS, ++ AVR32_OPC_ANDGE, ++ AVR32_OPC_ANDLT, ++ AVR32_OPC_ANDMI, ++ AVR32_OPC_ANDPL, ++ AVR32_OPC_ANDLS, ++ AVR32_OPC_ANDGT, ++ AVR32_OPC_ANDLE, ++ AVR32_OPC_ANDHI, ++ AVR32_OPC_ANDVS, ++ AVR32_OPC_ANDVC, ++ AVR32_OPC_ANDQS, ++ AVR32_OPC_ANDAL, ++ AVR32_OPC_OREQ, ++ AVR32_OPC_ORNE, ++ AVR32_OPC_ORCC, ++ AVR32_OPC_ORCS, ++ AVR32_OPC_ORGE, ++ AVR32_OPC_ORLT, ++ AVR32_OPC_ORMI, ++ AVR32_OPC_ORPL, ++ AVR32_OPC_ORLS, ++ AVR32_OPC_ORGT, ++ AVR32_OPC_ORLE, ++ AVR32_OPC_ORHI, ++ AVR32_OPC_ORVS, ++ AVR32_OPC_ORVC, ++ AVR32_OPC_ORQS, ++ AVR32_OPC_ORAL, ++ AVR32_OPC_EOREQ, ++ AVR32_OPC_EORNE, ++ AVR32_OPC_EORCC, ++ AVR32_OPC_EORCS, ++ AVR32_OPC_EORGE, ++ AVR32_OPC_EORLT, ++ AVR32_OPC_EORMI, ++ AVR32_OPC_EORPL, ++ AVR32_OPC_EORLS, ++ AVR32_OPC_EORGT, ++ AVR32_OPC_EORLE, ++ AVR32_OPC_EORHI, ++ AVR32_OPC_EORVS, ++ AVR32_OPC_EORVC, ++ AVR32_OPC_EORQS, ++ AVR32_OPC_EORAL, ++ AVR32_OPC_LD_WEQ, ++ AVR32_OPC_LD_WNE, ++ AVR32_OPC_LD_WCC, ++ AVR32_OPC_LD_WCS, ++ AVR32_OPC_LD_WGE, ++ AVR32_OPC_LD_WLT, ++ AVR32_OPC_LD_WMI, ++ AVR32_OPC_LD_WPL, ++ AVR32_OPC_LD_WLS, ++ AVR32_OPC_LD_WGT, ++ AVR32_OPC_LD_WLE, ++ AVR32_OPC_LD_WHI, ++ AVR32_OPC_LD_WVS, ++ AVR32_OPC_LD_WVC, ++ AVR32_OPC_LD_WQS, ++ AVR32_OPC_LD_WAL, ++ AVR32_OPC_LD_SHEQ, ++ AVR32_OPC_LD_SHNE, ++ AVR32_OPC_LD_SHCC, ++ AVR32_OPC_LD_SHCS, ++ AVR32_OPC_LD_SHGE, ++ AVR32_OPC_LD_SHLT, ++ AVR32_OPC_LD_SHMI, ++ AVR32_OPC_LD_SHPL, ++ AVR32_OPC_LD_SHLS, ++ AVR32_OPC_LD_SHGT, ++ AVR32_OPC_LD_SHLE, ++ AVR32_OPC_LD_SHHI, ++ AVR32_OPC_LD_SHVS, ++ AVR32_OPC_LD_SHVC, ++ AVR32_OPC_LD_SHQS, ++ AVR32_OPC_LD_SHAL, ++ AVR32_OPC_LD_UHEQ, ++ AVR32_OPC_LD_UHNE, ++ AVR32_OPC_LD_UHCC, ++ AVR32_OPC_LD_UHCS, ++ AVR32_OPC_LD_UHGE, ++ AVR32_OPC_LD_UHLT, ++ AVR32_OPC_LD_UHMI, ++ AVR32_OPC_LD_UHPL, ++ AVR32_OPC_LD_UHLS, ++ AVR32_OPC_LD_UHGT, ++ AVR32_OPC_LD_UHLE, ++ AVR32_OPC_LD_UHHI, ++ AVR32_OPC_LD_UHVS, ++ AVR32_OPC_LD_UHVC, ++ AVR32_OPC_LD_UHQS, ++ AVR32_OPC_LD_UHAL, ++ AVR32_OPC_LD_SBEQ, ++ AVR32_OPC_LD_SBNE, ++ AVR32_OPC_LD_SBCC, ++ AVR32_OPC_LD_SBCS, ++ AVR32_OPC_LD_SBGE, ++ AVR32_OPC_LD_SBLT, ++ AVR32_OPC_LD_SBMI, ++ AVR32_OPC_LD_SBPL, ++ AVR32_OPC_LD_SBLS, ++ AVR32_OPC_LD_SBGT, ++ AVR32_OPC_LD_SBLE, ++ AVR32_OPC_LD_SBHI, ++ AVR32_OPC_LD_SBVS, ++ AVR32_OPC_LD_SBVC, ++ AVR32_OPC_LD_SBQS, ++ AVR32_OPC_LD_SBAL, ++ AVR32_OPC_LD_UBEQ, ++ AVR32_OPC_LD_UBNE, ++ AVR32_OPC_LD_UBCC, ++ AVR32_OPC_LD_UBCS, ++ AVR32_OPC_LD_UBGE, ++ AVR32_OPC_LD_UBLT, ++ AVR32_OPC_LD_UBMI, ++ AVR32_OPC_LD_UBPL, ++ AVR32_OPC_LD_UBLS, ++ AVR32_OPC_LD_UBGT, ++ AVR32_OPC_LD_UBLE, ++ AVR32_OPC_LD_UBHI, ++ AVR32_OPC_LD_UBVS, ++ AVR32_OPC_LD_UBVC, ++ AVR32_OPC_LD_UBQS, ++ AVR32_OPC_LD_UBAL, ++ AVR32_OPC_ST_WEQ, ++ AVR32_OPC_ST_WNE, ++ AVR32_OPC_ST_WCC, ++ AVR32_OPC_ST_WCS, ++ AVR32_OPC_ST_WGE, ++ AVR32_OPC_ST_WLT, ++ AVR32_OPC_ST_WMI, ++ AVR32_OPC_ST_WPL, ++ AVR32_OPC_ST_WLS, ++ AVR32_OPC_ST_WGT, ++ AVR32_OPC_ST_WLE, ++ AVR32_OPC_ST_WHI, ++ AVR32_OPC_ST_WVS, ++ AVR32_OPC_ST_WVC, ++ AVR32_OPC_ST_WQS, ++ AVR32_OPC_ST_WAL, ++ AVR32_OPC_ST_HEQ, ++ AVR32_OPC_ST_HNE, ++ AVR32_OPC_ST_HCC, ++ AVR32_OPC_ST_HCS, ++ AVR32_OPC_ST_HGE, ++ AVR32_OPC_ST_HLT, ++ AVR32_OPC_ST_HMI, ++ AVR32_OPC_ST_HPL, ++ AVR32_OPC_ST_HLS, ++ AVR32_OPC_ST_HGT, ++ AVR32_OPC_ST_HLE, ++ AVR32_OPC_ST_HHI, ++ AVR32_OPC_ST_HVS, ++ AVR32_OPC_ST_HVC, ++ AVR32_OPC_ST_HQS, ++ AVR32_OPC_ST_HAL, ++ AVR32_OPC_ST_BEQ, ++ AVR32_OPC_ST_BNE, ++ AVR32_OPC_ST_BCC, ++ AVR32_OPC_ST_BCS, ++ AVR32_OPC_ST_BGE, ++ AVR32_OPC_ST_BLT, ++ AVR32_OPC_ST_BMI, ++ AVR32_OPC_ST_BPL, ++ AVR32_OPC_ST_BLS, ++ AVR32_OPC_ST_BGT, ++ AVR32_OPC_ST_BLE, ++ AVR32_OPC_ST_BHI, ++ AVR32_OPC_ST_BVS, ++ AVR32_OPC_ST_BVC, ++ AVR32_OPC_ST_BQS, ++ AVR32_OPC_ST_BAL, ++ AVR32_OPC_MOVH, ++ AVR32_OPC_SSCALL, ++ AVR32_OPC_RETSS, ++ AVR32_OPC_FMAC_S, ++ AVR32_OPC_FNMAC_S, ++ AVR32_OPC_FMSC_S, ++ AVR32_OPC_FNMSC_S, ++ AVR32_OPC_FMUL_S, ++ AVR32_OPC_FNMUL_S, ++ AVR32_OPC_FADD_S, ++ AVR32_OPC_FSUB_S, ++ AVR32_OPC_FCASTRS_SW, ++ AVR32_OPC_FCASTRS_UW, ++ AVR32_OPC_FCASTSW_S, ++ AVR32_OPC_FCASTUW_S, ++ AVR32_OPC_FCMP_S, ++ AVR32_OPC_FCHK_S, ++ AVR32_OPC_FRCPA_S, ++ AVR32_OPC_FRSQRTA_S, ++ AVR32_OPC__END_ ++}; ++#define AVR32_NR_OPCODES AVR32_OPC__END_ ++ ++enum avr32_syntax_type ++{ ++ AVR32_SYNTAX_ABS, ++ AVR32_SYNTAX_ACALL, ++ AVR32_SYNTAX_ACR, ++ AVR32_SYNTAX_ADC, ++ AVR32_SYNTAX_ADD1, ++ AVR32_SYNTAX_ADD2, ++ AVR32_SYNTAX_ADDABS, ++ AVR32_SYNTAX_ADDHH_W, ++ AVR32_SYNTAX_AND1, ++ AVR32_SYNTAX_AND2, ++ AVR32_SYNTAX_AND3, ++ AVR32_SYNTAX_ANDH, ++ AVR32_SYNTAX_ANDH_COH, ++ AVR32_SYNTAX_ANDL, ++ AVR32_SYNTAX_ANDL_COH, ++ AVR32_SYNTAX_ANDN, ++ AVR32_SYNTAX_ASR1, ++ AVR32_SYNTAX_ASR3, ++ AVR32_SYNTAX_ASR2, ++ AVR32_SYNTAX_BFEXTS, ++ AVR32_SYNTAX_BFEXTU, ++ AVR32_SYNTAX_BFINS, ++ AVR32_SYNTAX_BLD, ++ AVR32_SYNTAX_BREQ1, ++ AVR32_SYNTAX_BRNE1, ++ AVR32_SYNTAX_BRCC1, ++ AVR32_SYNTAX_BRCS1, ++ AVR32_SYNTAX_BRGE1, ++ AVR32_SYNTAX_BRLT1, ++ AVR32_SYNTAX_BRMI1, ++ AVR32_SYNTAX_BRPL1, ++ AVR32_SYNTAX_BRHS1, ++ AVR32_SYNTAX_BRLO1, ++ AVR32_SYNTAX_BREQ2, ++ AVR32_SYNTAX_BRNE2, ++ AVR32_SYNTAX_BRCC2, ++ AVR32_SYNTAX_BRCS2, ++ AVR32_SYNTAX_BRGE2, ++ AVR32_SYNTAX_BRLT2, ++ AVR32_SYNTAX_BRMI2, ++ AVR32_SYNTAX_BRPL2, ++ AVR32_SYNTAX_BRLS, ++ AVR32_SYNTAX_BRGT, ++ AVR32_SYNTAX_BRLE, ++ AVR32_SYNTAX_BRHI, ++ AVR32_SYNTAX_BRVS, ++ AVR32_SYNTAX_BRVC, ++ AVR32_SYNTAX_BRQS, ++ AVR32_SYNTAX_BRAL, ++ AVR32_SYNTAX_BRHS2, ++ AVR32_SYNTAX_BRLO2, ++ AVR32_SYNTAX_BREAKPOINT, ++ AVR32_SYNTAX_BREV, ++ AVR32_SYNTAX_BST, ++ AVR32_SYNTAX_CACHE, ++ AVR32_SYNTAX_CASTS_B, ++ AVR32_SYNTAX_CASTS_H, ++ AVR32_SYNTAX_CASTU_B, ++ AVR32_SYNTAX_CASTU_H, ++ AVR32_SYNTAX_CBR, ++ AVR32_SYNTAX_CLZ, ++ AVR32_SYNTAX_COM, ++ AVR32_SYNTAX_COP, ++ AVR32_SYNTAX_CP_B, ++ AVR32_SYNTAX_CP_H, ++ AVR32_SYNTAX_CP_W1, ++ AVR32_SYNTAX_CP_W2, ++ AVR32_SYNTAX_CP_W3, ++ AVR32_SYNTAX_CPC1, ++ AVR32_SYNTAX_CPC2, ++ AVR32_SYNTAX_CSRF, ++ AVR32_SYNTAX_CSRFCZ, ++ AVR32_SYNTAX_DIVS, ++ AVR32_SYNTAX_DIVU, ++ AVR32_SYNTAX_EOR1, ++ AVR32_SYNTAX_EOR2, ++ AVR32_SYNTAX_EOR3, ++ AVR32_SYNTAX_EORL, ++ AVR32_SYNTAX_EORH, ++ AVR32_SYNTAX_FRS, ++ AVR32_SYNTAX_SSCALL, ++ AVR32_SYNTAX_RETSS, ++ AVR32_SYNTAX_ICALL, ++ AVR32_SYNTAX_INCJOSP, ++ AVR32_SYNTAX_LD_D1, ++ AVR32_SYNTAX_LD_D2, ++ AVR32_SYNTAX_LD_D3, ++ AVR32_SYNTAX_LD_D5, ++ AVR32_SYNTAX_LD_D4, ++ AVR32_SYNTAX_LD_SB2, ++ AVR32_SYNTAX_LD_SB1, ++ AVR32_SYNTAX_LD_UB1, ++ AVR32_SYNTAX_LD_UB2, ++ AVR32_SYNTAX_LD_UB5, ++ AVR32_SYNTAX_LD_UB3, ++ AVR32_SYNTAX_LD_UB4, ++ AVR32_SYNTAX_LD_SH1, ++ AVR32_SYNTAX_LD_SH2, ++ AVR32_SYNTAX_LD_SH5, ++ AVR32_SYNTAX_LD_SH3, ++ AVR32_SYNTAX_LD_SH4, ++ AVR32_SYNTAX_LD_UH1, ++ AVR32_SYNTAX_LD_UH2, ++ AVR32_SYNTAX_LD_UH5, ++ AVR32_SYNTAX_LD_UH3, ++ AVR32_SYNTAX_LD_UH4, ++ AVR32_SYNTAX_LD_W1, ++ AVR32_SYNTAX_LD_W2, ++ AVR32_SYNTAX_LD_W5, ++ AVR32_SYNTAX_LD_W6, ++ AVR32_SYNTAX_LD_W3, ++ AVR32_SYNTAX_LD_W4, ++ AVR32_SYNTAX_LDC_D1, ++ AVR32_SYNTAX_LDC_D2, ++ AVR32_SYNTAX_LDC_D3, ++ AVR32_SYNTAX_LDC_W1, ++ AVR32_SYNTAX_LDC_W2, ++ AVR32_SYNTAX_LDC_W3, ++ AVR32_SYNTAX_LDC0_D, ++ AVR32_SYNTAX_LDC0_W, ++ AVR32_SYNTAX_LDCM_D, ++ AVR32_SYNTAX_LDCM_D_PU, ++ AVR32_SYNTAX_LDCM_W, ++ AVR32_SYNTAX_LDCM_W_PU, ++ AVR32_SYNTAX_LDDPC, ++ AVR32_SYNTAX_LDDPC_EXT, ++ AVR32_SYNTAX_LDDSP, ++ AVR32_SYNTAX_LDINS_B, ++ AVR32_SYNTAX_LDINS_H, ++ AVR32_SYNTAX_LDM, ++ AVR32_SYNTAX_LDMTS, ++ AVR32_SYNTAX_LDMTS_PU, ++ AVR32_SYNTAX_LDSWP_SH, ++ AVR32_SYNTAX_LDSWP_UH, ++ AVR32_SYNTAX_LDSWP_W, ++ AVR32_SYNTAX_LSL1, ++ AVR32_SYNTAX_LSL3, ++ AVR32_SYNTAX_LSL2, ++ AVR32_SYNTAX_LSR1, ++ AVR32_SYNTAX_LSR3, ++ AVR32_SYNTAX_LSR2, ++ AVR32_SYNTAX_MAC, ++ AVR32_SYNTAX_MACHH_D, ++ AVR32_SYNTAX_MACHH_W, ++ AVR32_SYNTAX_MACS_D, ++ AVR32_SYNTAX_MACSATHH_W, ++ AVR32_SYNTAX_MACUD, ++ AVR32_SYNTAX_MACWH_D, ++ AVR32_SYNTAX_MAX, ++ AVR32_SYNTAX_MCALL, ++ AVR32_SYNTAX_MFDR, ++ AVR32_SYNTAX_MFSR, ++ AVR32_SYNTAX_MIN, ++ AVR32_SYNTAX_MOV3, ++ AVR32_SYNTAX_MOV1, ++ AVR32_SYNTAX_MOV2, ++ AVR32_SYNTAX_MOVEQ1, ++ AVR32_SYNTAX_MOVNE1, ++ AVR32_SYNTAX_MOVCC1, ++ AVR32_SYNTAX_MOVCS1, ++ AVR32_SYNTAX_MOVGE1, ++ AVR32_SYNTAX_MOVLT1, ++ AVR32_SYNTAX_MOVMI1, ++ AVR32_SYNTAX_MOVPL1, ++ AVR32_SYNTAX_MOVLS1, ++ AVR32_SYNTAX_MOVGT1, ++ AVR32_SYNTAX_MOVLE1, ++ AVR32_SYNTAX_MOVHI1, ++ AVR32_SYNTAX_MOVVS1, ++ AVR32_SYNTAX_MOVVC1, ++ AVR32_SYNTAX_MOVQS1, ++ AVR32_SYNTAX_MOVAL1, ++ AVR32_SYNTAX_MOVHS1, ++ AVR32_SYNTAX_MOVLO1, ++ AVR32_SYNTAX_MOVEQ2, ++ AVR32_SYNTAX_MOVNE2, ++ AVR32_SYNTAX_MOVCC2, ++ AVR32_SYNTAX_MOVCS2, ++ AVR32_SYNTAX_MOVGE2, ++ AVR32_SYNTAX_MOVLT2, ++ AVR32_SYNTAX_MOVMI2, ++ AVR32_SYNTAX_MOVPL2, ++ AVR32_SYNTAX_MOVLS2, ++ AVR32_SYNTAX_MOVGT2, ++ AVR32_SYNTAX_MOVLE2, ++ AVR32_SYNTAX_MOVHI2, ++ AVR32_SYNTAX_MOVVS2, ++ AVR32_SYNTAX_MOVVC2, ++ AVR32_SYNTAX_MOVQS2, ++ AVR32_SYNTAX_MOVAL2, ++ AVR32_SYNTAX_MOVHS2, ++ AVR32_SYNTAX_MOVLO2, ++ AVR32_SYNTAX_MTDR, ++ AVR32_SYNTAX_MTSR, ++ AVR32_SYNTAX_MUL1, ++ AVR32_SYNTAX_MUL2, ++ AVR32_SYNTAX_MUL3, ++ AVR32_SYNTAX_MULHH_W, ++ AVR32_SYNTAX_MULNHH_W, ++ AVR32_SYNTAX_MULNWH_D, ++ AVR32_SYNTAX_MULSD, ++ AVR32_SYNTAX_MULSATHH_H, ++ AVR32_SYNTAX_MULSATHH_W, ++ AVR32_SYNTAX_MULSATRNDHH_H, ++ AVR32_SYNTAX_MULSATRNDWH_W, ++ AVR32_SYNTAX_MULSATWH_W, ++ AVR32_SYNTAX_MULU_D, ++ AVR32_SYNTAX_MULWH_D, ++ AVR32_SYNTAX_MUSFR, ++ AVR32_SYNTAX_MUSTR, ++ AVR32_SYNTAX_MVCR_D, ++ AVR32_SYNTAX_MVCR_W, ++ AVR32_SYNTAX_MVRC_D, ++ AVR32_SYNTAX_MVRC_W, ++ AVR32_SYNTAX_NEG, ++ AVR32_SYNTAX_NOP, ++ AVR32_SYNTAX_OR1, ++ AVR32_SYNTAX_OR2, ++ AVR32_SYNTAX_OR3, ++ AVR32_SYNTAX_ORH, ++ AVR32_SYNTAX_ORL, ++ AVR32_SYNTAX_PABS_SB, ++ AVR32_SYNTAX_PABS_SH, ++ AVR32_SYNTAX_PACKSH_SB, ++ AVR32_SYNTAX_PACKSH_UB, ++ AVR32_SYNTAX_PACKW_SH, ++ AVR32_SYNTAX_PADD_B, ++ AVR32_SYNTAX_PADD_H, ++ AVR32_SYNTAX_PADDH_SH, ++ AVR32_SYNTAX_PADDH_UB, ++ AVR32_SYNTAX_PADDS_SB, ++ AVR32_SYNTAX_PADDS_SH, ++ AVR32_SYNTAX_PADDS_UB, ++ AVR32_SYNTAX_PADDS_UH, ++ AVR32_SYNTAX_PADDSUB_H, ++ AVR32_SYNTAX_PADDSUBH_SH, ++ AVR32_SYNTAX_PADDSUBS_SH, ++ AVR32_SYNTAX_PADDSUBS_UH, ++ AVR32_SYNTAX_PADDX_H, ++ AVR32_SYNTAX_PADDXH_SH, ++ AVR32_SYNTAX_PADDXS_SH, ++ AVR32_SYNTAX_PADDXS_UH, ++ AVR32_SYNTAX_PASR_B, ++ AVR32_SYNTAX_PASR_H, ++ AVR32_SYNTAX_PAVG_SH, ++ AVR32_SYNTAX_PAVG_UB, ++ AVR32_SYNTAX_PLSL_B, ++ AVR32_SYNTAX_PLSL_H, ++ AVR32_SYNTAX_PLSR_B, ++ AVR32_SYNTAX_PLSR_H, ++ AVR32_SYNTAX_PMAX_SH, ++ AVR32_SYNTAX_PMAX_UB, ++ AVR32_SYNTAX_PMIN_SH, ++ AVR32_SYNTAX_PMIN_UB, ++ AVR32_SYNTAX_POPJC, ++ AVR32_SYNTAX_POPM, ++ AVR32_SYNTAX_POPM_E, ++ AVR32_SYNTAX_PREF, ++ AVR32_SYNTAX_PSAD, ++ AVR32_SYNTAX_PSUB_B, ++ AVR32_SYNTAX_PSUB_H, ++ AVR32_SYNTAX_PSUBADD_H, ++ AVR32_SYNTAX_PSUBADDH_SH, ++ AVR32_SYNTAX_PSUBADDS_SH, ++ AVR32_SYNTAX_PSUBADDS_UH, ++ AVR32_SYNTAX_PSUBH_SH, ++ AVR32_SYNTAX_PSUBH_UB, ++ AVR32_SYNTAX_PSUBS_SB, ++ AVR32_SYNTAX_PSUBS_SH, ++ AVR32_SYNTAX_PSUBS_UB, ++ AVR32_SYNTAX_PSUBS_UH, ++ AVR32_SYNTAX_PSUBX_H, ++ AVR32_SYNTAX_PSUBXH_SH, ++ AVR32_SYNTAX_PSUBXS_SH, ++ AVR32_SYNTAX_PSUBXS_UH, ++ AVR32_SYNTAX_PUNPCKSB_H, ++ AVR32_SYNTAX_PUNPCKUB_H, ++ AVR32_SYNTAX_PUSHJC, ++ AVR32_SYNTAX_PUSHM, ++ AVR32_SYNTAX_PUSHM_E, ++ AVR32_SYNTAX_RCALL1, ++ AVR32_SYNTAX_RCALL2, ++ AVR32_SYNTAX_RETEQ, ++ AVR32_SYNTAX_RETNE, ++ AVR32_SYNTAX_RETCC, ++ AVR32_SYNTAX_RETCS, ++ AVR32_SYNTAX_RETGE, ++ AVR32_SYNTAX_RETLT, ++ AVR32_SYNTAX_RETMI, ++ AVR32_SYNTAX_RETPL, ++ AVR32_SYNTAX_RETLS, ++ AVR32_SYNTAX_RETGT, ++ AVR32_SYNTAX_RETLE, ++ AVR32_SYNTAX_RETHI, ++ AVR32_SYNTAX_RETVS, ++ AVR32_SYNTAX_RETVC, ++ AVR32_SYNTAX_RETQS, ++ AVR32_SYNTAX_RETAL, ++ AVR32_SYNTAX_RETHS, ++ AVR32_SYNTAX_RETLO, ++ AVR32_SYNTAX_RETD, ++ AVR32_SYNTAX_RETE, ++ AVR32_SYNTAX_RETJ, ++ AVR32_SYNTAX_RETS, ++ AVR32_SYNTAX_RJMP, ++ AVR32_SYNTAX_ROL, ++ AVR32_SYNTAX_ROR, ++ AVR32_SYNTAX_RSUB1, ++ AVR32_SYNTAX_RSUB2, ++ AVR32_SYNTAX_SATADD_H, ++ AVR32_SYNTAX_SATADD_W, ++ AVR32_SYNTAX_SATRNDS, ++ AVR32_SYNTAX_SATRNDU, ++ AVR32_SYNTAX_SATS, ++ AVR32_SYNTAX_SATSUB_H, ++ AVR32_SYNTAX_SATSUB_W1, ++ AVR32_SYNTAX_SATSUB_W2, ++ AVR32_SYNTAX_SATU, ++ AVR32_SYNTAX_SBC, ++ AVR32_SYNTAX_SBR, ++ AVR32_SYNTAX_SCALL, ++ AVR32_SYNTAX_SCR, ++ AVR32_SYNTAX_SLEEP, ++ AVR32_SYNTAX_SREQ, ++ AVR32_SYNTAX_SRNE, ++ AVR32_SYNTAX_SRCC, ++ AVR32_SYNTAX_SRCS, ++ AVR32_SYNTAX_SRGE, ++ AVR32_SYNTAX_SRLT, ++ AVR32_SYNTAX_SRMI, ++ AVR32_SYNTAX_SRPL, ++ AVR32_SYNTAX_SRLS, ++ AVR32_SYNTAX_SRGT, ++ AVR32_SYNTAX_SRLE, ++ AVR32_SYNTAX_SRHI, ++ AVR32_SYNTAX_SRVS, ++ AVR32_SYNTAX_SRVC, ++ AVR32_SYNTAX_SRQS, ++ AVR32_SYNTAX_SRAL, ++ AVR32_SYNTAX_SRHS, ++ AVR32_SYNTAX_SRLO, ++ AVR32_SYNTAX_SSRF, ++ AVR32_SYNTAX_ST_B1, ++ AVR32_SYNTAX_ST_B2, ++ AVR32_SYNTAX_ST_B5, ++ AVR32_SYNTAX_ST_B3, ++ AVR32_SYNTAX_ST_B4, ++ AVR32_SYNTAX_ST_D1, ++ AVR32_SYNTAX_ST_D2, ++ AVR32_SYNTAX_ST_D3, ++ AVR32_SYNTAX_ST_D5, ++ AVR32_SYNTAX_ST_D4, ++ AVR32_SYNTAX_ST_H1, ++ AVR32_SYNTAX_ST_H2, ++ AVR32_SYNTAX_ST_H5, ++ AVR32_SYNTAX_ST_H3, ++ AVR32_SYNTAX_ST_H4, ++ AVR32_SYNTAX_ST_W1, ++ AVR32_SYNTAX_ST_W2, ++ AVR32_SYNTAX_ST_W5, ++ AVR32_SYNTAX_ST_W3, ++ AVR32_SYNTAX_ST_W4, ++ AVR32_SYNTAX_STC_D1, ++ AVR32_SYNTAX_STC_D2, ++ AVR32_SYNTAX_STC_D3, ++ AVR32_SYNTAX_STC_W1, ++ AVR32_SYNTAX_STC_W2, ++ AVR32_SYNTAX_STC_W3, ++ AVR32_SYNTAX_STC0_D, ++ AVR32_SYNTAX_STC0_W, ++ AVR32_SYNTAX_STCM_D, ++ AVR32_SYNTAX_STCM_D_PU, ++ AVR32_SYNTAX_STCM_W, ++ AVR32_SYNTAX_STCM_W_PU, ++ AVR32_SYNTAX_STCOND, ++ AVR32_SYNTAX_STDSP, ++ AVR32_SYNTAX_STHH_W2, ++ AVR32_SYNTAX_STHH_W1, ++ AVR32_SYNTAX_STM, ++ AVR32_SYNTAX_STM_PU, ++ AVR32_SYNTAX_STMTS, ++ AVR32_SYNTAX_STMTS_PU, ++ AVR32_SYNTAX_STSWP_H, ++ AVR32_SYNTAX_STSWP_W, ++ AVR32_SYNTAX_SUB1, ++ AVR32_SYNTAX_SUB2, ++ AVR32_SYNTAX_SUB5, ++ AVR32_SYNTAX_SUB3_SP, ++ AVR32_SYNTAX_SUB3, ++ AVR32_SYNTAX_SUB4, ++ AVR32_SYNTAX_SUBEQ, ++ AVR32_SYNTAX_SUBNE, ++ AVR32_SYNTAX_SUBCC, ++ AVR32_SYNTAX_SUBCS, ++ AVR32_SYNTAX_SUBGE, ++ AVR32_SYNTAX_SUBLT, ++ AVR32_SYNTAX_SUBMI, ++ AVR32_SYNTAX_SUBPL, ++ AVR32_SYNTAX_SUBLS, ++ AVR32_SYNTAX_SUBGT, ++ AVR32_SYNTAX_SUBLE, ++ AVR32_SYNTAX_SUBHI, ++ AVR32_SYNTAX_SUBVS, ++ AVR32_SYNTAX_SUBVC, ++ AVR32_SYNTAX_SUBQS, ++ AVR32_SYNTAX_SUBAL, ++ AVR32_SYNTAX_SUBHS, ++ AVR32_SYNTAX_SUBLO, ++ AVR32_SYNTAX_SUBFEQ, ++ AVR32_SYNTAX_SUBFNE, ++ AVR32_SYNTAX_SUBFCC, ++ AVR32_SYNTAX_SUBFCS, ++ AVR32_SYNTAX_SUBFGE, ++ AVR32_SYNTAX_SUBFLT, ++ AVR32_SYNTAX_SUBFMI, ++ AVR32_SYNTAX_SUBFPL, ++ AVR32_SYNTAX_SUBFLS, ++ AVR32_SYNTAX_SUBFGT, ++ AVR32_SYNTAX_SUBFLE, ++ AVR32_SYNTAX_SUBFHI, ++ AVR32_SYNTAX_SUBFVS, ++ AVR32_SYNTAX_SUBFVC, ++ AVR32_SYNTAX_SUBFQS, ++ AVR32_SYNTAX_SUBFAL, ++ AVR32_SYNTAX_SUBFHS, ++ AVR32_SYNTAX_SUBFLO, ++ AVR32_SYNTAX_SUBHH_W, ++ AVR32_SYNTAX_SWAP_B, ++ AVR32_SYNTAX_SWAP_BH, ++ AVR32_SYNTAX_SWAP_H, ++ AVR32_SYNTAX_SYNC, ++ AVR32_SYNTAX_TLBR, ++ AVR32_SYNTAX_TLBS, ++ AVR32_SYNTAX_TLBW, ++ AVR32_SYNTAX_TNBZ, ++ AVR32_SYNTAX_TST, ++ AVR32_SYNTAX_XCHG, ++ AVR32_SYNTAX_MEMC, ++ AVR32_SYNTAX_MEMS, ++ AVR32_SYNTAX_MEMT, ++ AVR32_SYNTAX_FMAC_S, ++ AVR32_SYNTAX_FNMAC_S, ++ AVR32_SYNTAX_FMSC_S, ++ AVR32_SYNTAX_FNMSC_S, ++ AVR32_SYNTAX_FMUL_S, ++ AVR32_SYNTAX_FNMUL_S, ++ AVR32_SYNTAX_FADD_S, ++ AVR32_SYNTAX_FSUB_S, ++ AVR32_SYNTAX_FCASTRS_SW, ++ AVR32_SYNTAX_FCASTRS_UW, ++ AVR32_SYNTAX_FCASTSW_S, ++ AVR32_SYNTAX_FCASTUW_S, ++ AVR32_SYNTAX_FCMP_S, ++ AVR32_SYNTAX_FCHK_S, ++ AVR32_SYNTAX_FRCPA_S, ++ AVR32_SYNTAX_FRSQRTA_S, ++ AVR32_SYNTAX_LDA_W, ++ AVR32_SYNTAX_CALL, ++ AVR32_SYNTAX_PICOSVMAC0, ++ AVR32_SYNTAX_PICOSVMAC1, ++ AVR32_SYNTAX_PICOSVMAC2, ++ AVR32_SYNTAX_PICOSVMAC3, ++ AVR32_SYNTAX_PICOSVMUL0, ++ AVR32_SYNTAX_PICOSVMUL1, ++ AVR32_SYNTAX_PICOSVMUL2, ++ AVR32_SYNTAX_PICOSVMUL3, ++ AVR32_SYNTAX_PICOVMAC0, ++ AVR32_SYNTAX_PICOVMAC1, ++ AVR32_SYNTAX_PICOVMAC2, ++ AVR32_SYNTAX_PICOVMAC3, ++ AVR32_SYNTAX_PICOVMUL0, ++ AVR32_SYNTAX_PICOVMUL1, ++ AVR32_SYNTAX_PICOVMUL2, ++ AVR32_SYNTAX_PICOVMUL3, ++ AVR32_SYNTAX_PICOLD_D2, ++ AVR32_SYNTAX_PICOLD_D3, ++ AVR32_SYNTAX_PICOLD_D1, ++ AVR32_SYNTAX_PICOLD_W2, ++ AVR32_SYNTAX_PICOLD_W3, ++ AVR32_SYNTAX_PICOLD_W1, ++ AVR32_SYNTAX_PICOLDM_D, ++ AVR32_SYNTAX_PICOLDM_D_PU, ++ AVR32_SYNTAX_PICOLDM_W, ++ AVR32_SYNTAX_PICOLDM_W_PU, ++ AVR32_SYNTAX_PICOMV_D1, ++ AVR32_SYNTAX_PICOMV_D2, ++ AVR32_SYNTAX_PICOMV_W1, ++ AVR32_SYNTAX_PICOMV_W2, ++ AVR32_SYNTAX_PICOST_D2, ++ AVR32_SYNTAX_PICOST_D3, ++ AVR32_SYNTAX_PICOST_D1, ++ AVR32_SYNTAX_PICOST_W2, ++ AVR32_SYNTAX_PICOST_W3, ++ AVR32_SYNTAX_PICOST_W1, ++ AVR32_SYNTAX_PICOSTM_D, ++ AVR32_SYNTAX_PICOSTM_D_PU, ++ AVR32_SYNTAX_PICOSTM_W, ++ AVR32_SYNTAX_PICOSTM_W_PU, ++ AVR32_SYNTAX_RSUBEQ, ++ AVR32_SYNTAX_RSUBNE, ++ AVR32_SYNTAX_RSUBCC, ++ AVR32_SYNTAX_RSUBCS, ++ AVR32_SYNTAX_RSUBGE, ++ AVR32_SYNTAX_RSUBLT, ++ AVR32_SYNTAX_RSUBMI, ++ AVR32_SYNTAX_RSUBPL, ++ AVR32_SYNTAX_RSUBLS, ++ AVR32_SYNTAX_RSUBGT, ++ AVR32_SYNTAX_RSUBLE, ++ AVR32_SYNTAX_RSUBHI, ++ AVR32_SYNTAX_RSUBVS, ++ AVR32_SYNTAX_RSUBVC, ++ AVR32_SYNTAX_RSUBQS, ++ AVR32_SYNTAX_RSUBAL, ++ AVR32_SYNTAX_RSUBHS, ++ AVR32_SYNTAX_RSUBLO, ++ AVR32_SYNTAX_ADDEQ, ++ AVR32_SYNTAX_ADDNE, ++ AVR32_SYNTAX_ADDCC, ++ AVR32_SYNTAX_ADDCS, ++ AVR32_SYNTAX_ADDGE, ++ AVR32_SYNTAX_ADDLT, ++ AVR32_SYNTAX_ADDMI, ++ AVR32_SYNTAX_ADDPL, ++ AVR32_SYNTAX_ADDLS, ++ AVR32_SYNTAX_ADDGT, ++ AVR32_SYNTAX_ADDLE, ++ AVR32_SYNTAX_ADDHI, ++ AVR32_SYNTAX_ADDVS, ++ AVR32_SYNTAX_ADDVC, ++ AVR32_SYNTAX_ADDQS, ++ AVR32_SYNTAX_ADDAL, ++ AVR32_SYNTAX_ADDHS, ++ AVR32_SYNTAX_ADDLO, ++ AVR32_SYNTAX_SUB2EQ, ++ AVR32_SYNTAX_SUB2NE, ++ AVR32_SYNTAX_SUB2CC, ++ AVR32_SYNTAX_SUB2CS, ++ AVR32_SYNTAX_SUB2GE, ++ AVR32_SYNTAX_SUB2LT, ++ AVR32_SYNTAX_SUB2MI, ++ AVR32_SYNTAX_SUB2PL, ++ AVR32_SYNTAX_SUB2LS, ++ AVR32_SYNTAX_SUB2GT, ++ AVR32_SYNTAX_SUB2LE, ++ AVR32_SYNTAX_SUB2HI, ++ AVR32_SYNTAX_SUB2VS, ++ AVR32_SYNTAX_SUB2VC, ++ AVR32_SYNTAX_SUB2QS, ++ AVR32_SYNTAX_SUB2AL, ++ AVR32_SYNTAX_SUB2HS, ++ AVR32_SYNTAX_SUB2LO, ++ AVR32_SYNTAX_ANDEQ, ++ AVR32_SYNTAX_ANDNE, ++ AVR32_SYNTAX_ANDCC, ++ AVR32_SYNTAX_ANDCS, ++ AVR32_SYNTAX_ANDGE, ++ AVR32_SYNTAX_ANDLT, ++ AVR32_SYNTAX_ANDMI, ++ AVR32_SYNTAX_ANDPL, ++ AVR32_SYNTAX_ANDLS, ++ AVR32_SYNTAX_ANDGT, ++ AVR32_SYNTAX_ANDLE, ++ AVR32_SYNTAX_ANDHI, ++ AVR32_SYNTAX_ANDVS, ++ AVR32_SYNTAX_ANDVC, ++ AVR32_SYNTAX_ANDQS, ++ AVR32_SYNTAX_ANDAL, ++ AVR32_SYNTAX_ANDHS, ++ AVR32_SYNTAX_ANDLO, ++ AVR32_SYNTAX_OREQ, ++ AVR32_SYNTAX_ORNE, ++ AVR32_SYNTAX_ORCC, ++ AVR32_SYNTAX_ORCS, ++ AVR32_SYNTAX_ORGE, ++ AVR32_SYNTAX_ORLT, ++ AVR32_SYNTAX_ORMI, ++ AVR32_SYNTAX_ORPL, ++ AVR32_SYNTAX_ORLS, ++ AVR32_SYNTAX_ORGT, ++ AVR32_SYNTAX_ORLE, ++ AVR32_SYNTAX_ORHI, ++ AVR32_SYNTAX_ORVS, ++ AVR32_SYNTAX_ORVC, ++ AVR32_SYNTAX_ORQS, ++ AVR32_SYNTAX_ORAL, ++ AVR32_SYNTAX_ORHS, ++ AVR32_SYNTAX_ORLO, ++ AVR32_SYNTAX_EOREQ, ++ AVR32_SYNTAX_EORNE, ++ AVR32_SYNTAX_EORCC, ++ AVR32_SYNTAX_EORCS, ++ AVR32_SYNTAX_EORGE, ++ AVR32_SYNTAX_EORLT, ++ AVR32_SYNTAX_EORMI, ++ AVR32_SYNTAX_EORPL, ++ AVR32_SYNTAX_EORLS, ++ AVR32_SYNTAX_EORGT, ++ AVR32_SYNTAX_EORLE, ++ AVR32_SYNTAX_EORHI, ++ AVR32_SYNTAX_EORVS, ++ AVR32_SYNTAX_EORVC, ++ AVR32_SYNTAX_EORQS, ++ AVR32_SYNTAX_EORAL, ++ AVR32_SYNTAX_EORHS, ++ AVR32_SYNTAX_EORLO, ++ AVR32_SYNTAX_LD_WEQ, ++ AVR32_SYNTAX_LD_WNE, ++ AVR32_SYNTAX_LD_WCC, ++ AVR32_SYNTAX_LD_WCS, ++ AVR32_SYNTAX_LD_WGE, ++ AVR32_SYNTAX_LD_WLT, ++ AVR32_SYNTAX_LD_WMI, ++ AVR32_SYNTAX_LD_WPL, ++ AVR32_SYNTAX_LD_WLS, ++ AVR32_SYNTAX_LD_WGT, ++ AVR32_SYNTAX_LD_WLE, ++ AVR32_SYNTAX_LD_WHI, ++ AVR32_SYNTAX_LD_WVS, ++ AVR32_SYNTAX_LD_WVC, ++ AVR32_SYNTAX_LD_WQS, ++ AVR32_SYNTAX_LD_WAL, ++ AVR32_SYNTAX_LD_WHS, ++ AVR32_SYNTAX_LD_WLO, ++ AVR32_SYNTAX_LD_SHEQ, ++ AVR32_SYNTAX_LD_SHNE, ++ AVR32_SYNTAX_LD_SHCC, ++ AVR32_SYNTAX_LD_SHCS, ++ AVR32_SYNTAX_LD_SHGE, ++ AVR32_SYNTAX_LD_SHLT, ++ AVR32_SYNTAX_LD_SHMI, ++ AVR32_SYNTAX_LD_SHPL, ++ AVR32_SYNTAX_LD_SHLS, ++ AVR32_SYNTAX_LD_SHGT, ++ AVR32_SYNTAX_LD_SHLE, ++ AVR32_SYNTAX_LD_SHHI, ++ AVR32_SYNTAX_LD_SHVS, ++ AVR32_SYNTAX_LD_SHVC, ++ AVR32_SYNTAX_LD_SHQS, ++ AVR32_SYNTAX_LD_SHAL, ++ AVR32_SYNTAX_LD_SHHS, ++ AVR32_SYNTAX_LD_SHLO, ++ AVR32_SYNTAX_LD_UHEQ, ++ AVR32_SYNTAX_LD_UHNE, ++ AVR32_SYNTAX_LD_UHCC, ++ AVR32_SYNTAX_LD_UHCS, ++ AVR32_SYNTAX_LD_UHGE, ++ AVR32_SYNTAX_LD_UHLT, ++ AVR32_SYNTAX_LD_UHMI, ++ AVR32_SYNTAX_LD_UHPL, ++ AVR32_SYNTAX_LD_UHLS, ++ AVR32_SYNTAX_LD_UHGT, ++ AVR32_SYNTAX_LD_UHLE, ++ AVR32_SYNTAX_LD_UHHI, ++ AVR32_SYNTAX_LD_UHVS, ++ AVR32_SYNTAX_LD_UHVC, ++ AVR32_SYNTAX_LD_UHQS, ++ AVR32_SYNTAX_LD_UHAL, ++ AVR32_SYNTAX_LD_UHHS, ++ AVR32_SYNTAX_LD_UHLO, ++ AVR32_SYNTAX_LD_SBEQ, ++ AVR32_SYNTAX_LD_SBNE, ++ AVR32_SYNTAX_LD_SBCC, ++ AVR32_SYNTAX_LD_SBCS, ++ AVR32_SYNTAX_LD_SBGE, ++ AVR32_SYNTAX_LD_SBLT, ++ AVR32_SYNTAX_LD_SBMI, ++ AVR32_SYNTAX_LD_SBPL, ++ AVR32_SYNTAX_LD_SBLS, ++ AVR32_SYNTAX_LD_SBGT, ++ AVR32_SYNTAX_LD_SBLE, ++ AVR32_SYNTAX_LD_SBHI, ++ AVR32_SYNTAX_LD_SBVS, ++ AVR32_SYNTAX_LD_SBVC, ++ AVR32_SYNTAX_LD_SBQS, ++ AVR32_SYNTAX_LD_SBAL, ++ AVR32_SYNTAX_LD_SBHS, ++ AVR32_SYNTAX_LD_SBLO, ++ AVR32_SYNTAX_LD_UBEQ, ++ AVR32_SYNTAX_LD_UBNE, ++ AVR32_SYNTAX_LD_UBCC, ++ AVR32_SYNTAX_LD_UBCS, ++ AVR32_SYNTAX_LD_UBGE, ++ AVR32_SYNTAX_LD_UBLT, ++ AVR32_SYNTAX_LD_UBMI, ++ AVR32_SYNTAX_LD_UBPL, ++ AVR32_SYNTAX_LD_UBLS, ++ AVR32_SYNTAX_LD_UBGT, ++ AVR32_SYNTAX_LD_UBLE, ++ AVR32_SYNTAX_LD_UBHI, ++ AVR32_SYNTAX_LD_UBVS, ++ AVR32_SYNTAX_LD_UBVC, ++ AVR32_SYNTAX_LD_UBQS, ++ AVR32_SYNTAX_LD_UBAL, ++ AVR32_SYNTAX_LD_UBHS, ++ AVR32_SYNTAX_LD_UBLO, ++ AVR32_SYNTAX_ST_WEQ, ++ AVR32_SYNTAX_ST_WNE, ++ AVR32_SYNTAX_ST_WCC, ++ AVR32_SYNTAX_ST_WCS, ++ AVR32_SYNTAX_ST_WGE, ++ AVR32_SYNTAX_ST_WLT, ++ AVR32_SYNTAX_ST_WMI, ++ AVR32_SYNTAX_ST_WPL, ++ AVR32_SYNTAX_ST_WLS, ++ AVR32_SYNTAX_ST_WGT, ++ AVR32_SYNTAX_ST_WLE, ++ AVR32_SYNTAX_ST_WHI, ++ AVR32_SYNTAX_ST_WVS, ++ AVR32_SYNTAX_ST_WVC, ++ AVR32_SYNTAX_ST_WQS, ++ AVR32_SYNTAX_ST_WAL, ++ AVR32_SYNTAX_ST_WHS, ++ AVR32_SYNTAX_ST_WLO, ++ AVR32_SYNTAX_ST_HEQ, ++ AVR32_SYNTAX_ST_HNE, ++ AVR32_SYNTAX_ST_HCC, ++ AVR32_SYNTAX_ST_HCS, ++ AVR32_SYNTAX_ST_HGE, ++ AVR32_SYNTAX_ST_HLT, ++ AVR32_SYNTAX_ST_HMI, ++ AVR32_SYNTAX_ST_HPL, ++ AVR32_SYNTAX_ST_HLS, ++ AVR32_SYNTAX_ST_HGT, ++ AVR32_SYNTAX_ST_HLE, ++ AVR32_SYNTAX_ST_HHI, ++ AVR32_SYNTAX_ST_HVS, ++ AVR32_SYNTAX_ST_HVC, ++ AVR32_SYNTAX_ST_HQS, ++ AVR32_SYNTAX_ST_HAL, ++ AVR32_SYNTAX_ST_HHS, ++ AVR32_SYNTAX_ST_HLO, ++ AVR32_SYNTAX_ST_BEQ, ++ AVR32_SYNTAX_ST_BNE, ++ AVR32_SYNTAX_ST_BCC, ++ AVR32_SYNTAX_ST_BCS, ++ AVR32_SYNTAX_ST_BGE, ++ AVR32_SYNTAX_ST_BLT, ++ AVR32_SYNTAX_ST_BMI, ++ AVR32_SYNTAX_ST_BPL, ++ AVR32_SYNTAX_ST_BLS, ++ AVR32_SYNTAX_ST_BGT, ++ AVR32_SYNTAX_ST_BLE, ++ AVR32_SYNTAX_ST_BHI, ++ AVR32_SYNTAX_ST_BVS, ++ AVR32_SYNTAX_ST_BVC, ++ AVR32_SYNTAX_ST_BQS, ++ AVR32_SYNTAX_ST_BAL, ++ AVR32_SYNTAX_ST_BHS, ++ AVR32_SYNTAX_ST_BLO, ++ AVR32_SYNTAX_MOVH, ++ AVR32_SYNTAX__END_ ++}; ++#define AVR32_NR_SYNTAX AVR32_SYNTAX__END_ ++ ++enum avr32_alias_type ++ { ++ AVR32_ALIAS_PICOSVMAC0, ++ AVR32_ALIAS_PICOSVMAC1, ++ AVR32_ALIAS_PICOSVMAC2, ++ AVR32_ALIAS_PICOSVMAC3, ++ AVR32_ALIAS_PICOSVMUL0, ++ AVR32_ALIAS_PICOSVMUL1, ++ AVR32_ALIAS_PICOSVMUL2, ++ AVR32_ALIAS_PICOSVMUL3, ++ AVR32_ALIAS_PICOVMAC0, ++ AVR32_ALIAS_PICOVMAC1, ++ AVR32_ALIAS_PICOVMAC2, ++ AVR32_ALIAS_PICOVMAC3, ++ AVR32_ALIAS_PICOVMUL0, ++ AVR32_ALIAS_PICOVMUL1, ++ AVR32_ALIAS_PICOVMUL2, ++ AVR32_ALIAS_PICOVMUL3, ++ AVR32_ALIAS_PICOLD_D1, ++ AVR32_ALIAS_PICOLD_D2, ++ AVR32_ALIAS_PICOLD_D3, ++ AVR32_ALIAS_PICOLD_W1, ++ AVR32_ALIAS_PICOLD_W2, ++ AVR32_ALIAS_PICOLD_W3, ++ AVR32_ALIAS_PICOLDM_D, ++ AVR32_ALIAS_PICOLDM_D_PU, ++ AVR32_ALIAS_PICOLDM_W, ++ AVR32_ALIAS_PICOLDM_W_PU, ++ AVR32_ALIAS_PICOMV_D1, ++ AVR32_ALIAS_PICOMV_D2, ++ AVR32_ALIAS_PICOMV_W1, ++ AVR32_ALIAS_PICOMV_W2, ++ AVR32_ALIAS_PICOST_D1, ++ AVR32_ALIAS_PICOST_D2, ++ AVR32_ALIAS_PICOST_D3, ++ AVR32_ALIAS_PICOST_W1, ++ AVR32_ALIAS_PICOST_W2, ++ AVR32_ALIAS_PICOST_W3, ++ AVR32_ALIAS_PICOSTM_D, ++ AVR32_ALIAS_PICOSTM_D_PU, ++ AVR32_ALIAS_PICOSTM_W, ++ AVR32_ALIAS_PICOSTM_W_PU, ++ AVR32_ALIAS__END_ ++ }; ++#define AVR32_NR_ALIAS AVR32_ALIAS__END_ ++ ++enum avr32_mnemonic_type ++{ ++ AVR32_MNEMONIC_ABS, ++ AVR32_MNEMONIC_ACALL, ++ AVR32_MNEMONIC_ACR, ++ AVR32_MNEMONIC_ADC, ++ AVR32_MNEMONIC_ADD, ++ AVR32_MNEMONIC_ADDABS, ++ AVR32_MNEMONIC_ADDHH_W, ++ AVR32_MNEMONIC_AND, ++ AVR32_MNEMONIC_ANDH, ++ AVR32_MNEMONIC_ANDL, ++ AVR32_MNEMONIC_ANDN, ++ AVR32_MNEMONIC_ASR, ++ AVR32_MNEMONIC_BFEXTS, ++ AVR32_MNEMONIC_BFEXTU, ++ AVR32_MNEMONIC_BFINS, ++ AVR32_MNEMONIC_BLD, ++ AVR32_MNEMONIC_BREQ, ++ AVR32_MNEMONIC_BRNE, ++ AVR32_MNEMONIC_BRCC, ++ AVR32_MNEMONIC_BRCS, ++ AVR32_MNEMONIC_BRGE, ++ AVR32_MNEMONIC_BRLT, ++ AVR32_MNEMONIC_BRMI, ++ AVR32_MNEMONIC_BRPL, ++ AVR32_MNEMONIC_BRHS, ++ AVR32_MNEMONIC_BRLO, ++ AVR32_MNEMONIC_BRLS, ++ AVR32_MNEMONIC_BRGT, ++ AVR32_MNEMONIC_BRLE, ++ AVR32_MNEMONIC_BRHI, ++ AVR32_MNEMONIC_BRVS, ++ AVR32_MNEMONIC_BRVC, ++ AVR32_MNEMONIC_BRQS, ++ AVR32_MNEMONIC_BRAL, ++ AVR32_MNEMONIC_BREAKPOINT, ++ AVR32_MNEMONIC_BREV, ++ AVR32_MNEMONIC_BST, ++ AVR32_MNEMONIC_CACHE, ++ AVR32_MNEMONIC_CASTS_B, ++ AVR32_MNEMONIC_CASTS_H, ++ AVR32_MNEMONIC_CASTU_B, ++ AVR32_MNEMONIC_CASTU_H, ++ AVR32_MNEMONIC_CBR, ++ AVR32_MNEMONIC_CLZ, ++ AVR32_MNEMONIC_COM, ++ AVR32_MNEMONIC_COP, ++ AVR32_MNEMONIC_CP_B, ++ AVR32_MNEMONIC_CP_H, ++ AVR32_MNEMONIC_CP_W, ++ AVR32_MNEMONIC_CP, ++ AVR32_MNEMONIC_CPC, ++ AVR32_MNEMONIC_CSRF, ++ AVR32_MNEMONIC_CSRFCZ, ++ AVR32_MNEMONIC_DIVS, ++ AVR32_MNEMONIC_DIVU, ++ AVR32_MNEMONIC_EOR, ++ AVR32_MNEMONIC_EORL, ++ AVR32_MNEMONIC_EORH, ++ AVR32_MNEMONIC_FRS, ++ AVR32_MNEMONIC_SSCALL, ++ AVR32_MNEMONIC_RETSS, ++ AVR32_MNEMONIC_ICALL, ++ AVR32_MNEMONIC_INCJOSP, ++ AVR32_MNEMONIC_LD_D, ++ AVR32_MNEMONIC_LD_SB, ++ AVR32_MNEMONIC_LD_UB, ++ AVR32_MNEMONIC_LD_SH, ++ AVR32_MNEMONIC_LD_UH, ++ AVR32_MNEMONIC_LD_W, ++ AVR32_MNEMONIC_LDC_D, ++ AVR32_MNEMONIC_LDC_W, ++ AVR32_MNEMONIC_LDC0_D, ++ AVR32_MNEMONIC_LDC0_W, ++ AVR32_MNEMONIC_LDCM_D, ++ AVR32_MNEMONIC_LDCM_W, ++ AVR32_MNEMONIC_LDDPC, ++ AVR32_MNEMONIC_LDDSP, ++ AVR32_MNEMONIC_LDINS_B, ++ AVR32_MNEMONIC_LDINS_H, ++ AVR32_MNEMONIC_LDM, ++ AVR32_MNEMONIC_LDMTS, ++ AVR32_MNEMONIC_LDSWP_SH, ++ AVR32_MNEMONIC_LDSWP_UH, ++ AVR32_MNEMONIC_LDSWP_W, ++ AVR32_MNEMONIC_LSL, ++ AVR32_MNEMONIC_LSR, ++ AVR32_MNEMONIC_MAC, ++ AVR32_MNEMONIC_MACHH_D, ++ AVR32_MNEMONIC_MACHH_W, ++ AVR32_MNEMONIC_MACS_D, ++ AVR32_MNEMONIC_MACSATHH_W, ++ AVR32_MNEMONIC_MACU_D, ++ AVR32_MNEMONIC_MACWH_D, ++ AVR32_MNEMONIC_MAX, ++ AVR32_MNEMONIC_MCALL, ++ AVR32_MNEMONIC_MFDR, ++ AVR32_MNEMONIC_MFSR, ++ AVR32_MNEMONIC_MIN, ++ AVR32_MNEMONIC_MOV, ++ AVR32_MNEMONIC_MOVEQ, ++ AVR32_MNEMONIC_MOVNE, ++ AVR32_MNEMONIC_MOVCC, ++ AVR32_MNEMONIC_MOVCS, ++ AVR32_MNEMONIC_MOVGE, ++ AVR32_MNEMONIC_MOVLT, ++ AVR32_MNEMONIC_MOVMI, ++ AVR32_MNEMONIC_MOVPL, ++ AVR32_MNEMONIC_MOVLS, ++ AVR32_MNEMONIC_MOVGT, ++ AVR32_MNEMONIC_MOVLE, ++ AVR32_MNEMONIC_MOVHI, ++ AVR32_MNEMONIC_MOVVS, ++ AVR32_MNEMONIC_MOVVC, ++ AVR32_MNEMONIC_MOVQS, ++ AVR32_MNEMONIC_MOVAL, ++ AVR32_MNEMONIC_MOVHS, ++ AVR32_MNEMONIC_MOVLO, ++ AVR32_MNEMONIC_MTDR, ++ AVR32_MNEMONIC_MTSR, ++ AVR32_MNEMONIC_MUL, ++ AVR32_MNEMONIC_MULHH_W, ++ AVR32_MNEMONIC_MULNHH_W, ++ AVR32_MNEMONIC_MULNWH_D, ++ AVR32_MNEMONIC_MULS_D, ++ AVR32_MNEMONIC_MULSATHH_H, ++ AVR32_MNEMONIC_MULSATHH_W, ++ AVR32_MNEMONIC_MULSATRNDHH_H, ++ AVR32_MNEMONIC_MULSATRNDWH_W, ++ AVR32_MNEMONIC_MULSATWH_W, ++ AVR32_MNEMONIC_MULU_D, ++ AVR32_MNEMONIC_MULWH_D, ++ AVR32_MNEMONIC_MUSFR, ++ AVR32_MNEMONIC_MUSTR, ++ AVR32_MNEMONIC_MVCR_D, ++ AVR32_MNEMONIC_MVCR_W, ++ AVR32_MNEMONIC_MVRC_D, ++ AVR32_MNEMONIC_MVRC_W, ++ AVR32_MNEMONIC_NEG, ++ AVR32_MNEMONIC_NOP, ++ AVR32_MNEMONIC_OR, ++ AVR32_MNEMONIC_ORH, ++ AVR32_MNEMONIC_ORL, ++ AVR32_MNEMONIC_PABS_SB, ++ AVR32_MNEMONIC_PABS_SH, ++ AVR32_MNEMONIC_PACKSH_SB, ++ AVR32_MNEMONIC_PACKSH_UB, ++ AVR32_MNEMONIC_PACKW_SH, ++ AVR32_MNEMONIC_PADD_B, ++ AVR32_MNEMONIC_PADD_H, ++ AVR32_MNEMONIC_PADDH_SH, ++ AVR32_MNEMONIC_PADDH_UB, ++ AVR32_MNEMONIC_PADDS_SB, ++ AVR32_MNEMONIC_PADDS_SH, ++ AVR32_MNEMONIC_PADDS_UB, ++ AVR32_MNEMONIC_PADDS_UH, ++ AVR32_MNEMONIC_PADDSUB_H, ++ AVR32_MNEMONIC_PADDSUBH_SH, ++ AVR32_MNEMONIC_PADDSUBS_SH, ++ AVR32_MNEMONIC_PADDSUBS_UH, ++ AVR32_MNEMONIC_PADDX_H, ++ AVR32_MNEMONIC_PADDXH_SH, ++ AVR32_MNEMONIC_PADDXS_SH, ++ AVR32_MNEMONIC_PADDXS_UH, ++ AVR32_MNEMONIC_PASR_B, ++ AVR32_MNEMONIC_PASR_H, ++ AVR32_MNEMONIC_PAVG_SH, ++ AVR32_MNEMONIC_PAVG_UB, ++ AVR32_MNEMONIC_PLSL_B, ++ AVR32_MNEMONIC_PLSL_H, ++ AVR32_MNEMONIC_PLSR_B, ++ AVR32_MNEMONIC_PLSR_H, ++ AVR32_MNEMONIC_PMAX_SH, ++ AVR32_MNEMONIC_PMAX_UB, ++ AVR32_MNEMONIC_PMIN_SH, ++ AVR32_MNEMONIC_PMIN_UB, ++ AVR32_MNEMONIC_POPJC, ++ AVR32_MNEMONIC_POPM, ++ AVR32_MNEMONIC_PREF, ++ AVR32_MNEMONIC_PSAD, ++ AVR32_MNEMONIC_PSUB_B, ++ AVR32_MNEMONIC_PSUB_H, ++ AVR32_MNEMONIC_PSUBADD_H, ++ AVR32_MNEMONIC_PSUBADDH_SH, ++ AVR32_MNEMONIC_PSUBADDS_SH, ++ AVR32_MNEMONIC_PSUBADDS_UH, ++ AVR32_MNEMONIC_PSUBH_SH, ++ AVR32_MNEMONIC_PSUBH_UB, ++ AVR32_MNEMONIC_PSUBS_SB, ++ AVR32_MNEMONIC_PSUBS_SH, ++ AVR32_MNEMONIC_PSUBS_UB, ++ AVR32_MNEMONIC_PSUBS_UH, ++ AVR32_MNEMONIC_PSUBX_H, ++ AVR32_MNEMONIC_PSUBXH_SH, ++ AVR32_MNEMONIC_PSUBXS_SH, ++ AVR32_MNEMONIC_PSUBXS_UH, ++ AVR32_MNEMONIC_PUNPCKSB_H, ++ AVR32_MNEMONIC_PUNPCKUB_H, ++ AVR32_MNEMONIC_PUSHJC, ++ AVR32_MNEMONIC_PUSHM, ++ AVR32_MNEMONIC_RCALL, ++ AVR32_MNEMONIC_RETEQ, ++ AVR32_MNEMONIC_RETNE, ++ AVR32_MNEMONIC_RETCC, ++ AVR32_MNEMONIC_RETCS, ++ AVR32_MNEMONIC_RETGE, ++ AVR32_MNEMONIC_RETLT, ++ AVR32_MNEMONIC_RETMI, ++ AVR32_MNEMONIC_RETPL, ++ AVR32_MNEMONIC_RETLS, ++ AVR32_MNEMONIC_RETGT, ++ AVR32_MNEMONIC_RETLE, ++ AVR32_MNEMONIC_RETHI, ++ AVR32_MNEMONIC_RETVS, ++ AVR32_MNEMONIC_RETVC, ++ AVR32_MNEMONIC_RETQS, ++ AVR32_MNEMONIC_RETAL, ++ AVR32_MNEMONIC_RETHS, ++ AVR32_MNEMONIC_RETLO, ++ AVR32_MNEMONIC_RET, ++ AVR32_MNEMONIC_RETD, ++ AVR32_MNEMONIC_RETE, ++ AVR32_MNEMONIC_RETJ, ++ AVR32_MNEMONIC_RETS, ++ AVR32_MNEMONIC_RJMP, ++ AVR32_MNEMONIC_ROL, ++ AVR32_MNEMONIC_ROR, ++ AVR32_MNEMONIC_RSUB, ++ AVR32_MNEMONIC_SATADD_H, ++ AVR32_MNEMONIC_SATADD_W, ++ AVR32_MNEMONIC_SATRNDS, ++ AVR32_MNEMONIC_SATRNDU, ++ AVR32_MNEMONIC_SATS, ++ AVR32_MNEMONIC_SATSUB_H, ++ AVR32_MNEMONIC_SATSUB_W, ++ AVR32_MNEMONIC_SATU, ++ AVR32_MNEMONIC_SBC, ++ AVR32_MNEMONIC_SBR, ++ AVR32_MNEMONIC_SCALL, ++ AVR32_MNEMONIC_SCR, ++ AVR32_MNEMONIC_SLEEP, ++ AVR32_MNEMONIC_SREQ, ++ AVR32_MNEMONIC_SRNE, ++ AVR32_MNEMONIC_SRCC, ++ AVR32_MNEMONIC_SRCS, ++ AVR32_MNEMONIC_SRGE, ++ AVR32_MNEMONIC_SRLT, ++ AVR32_MNEMONIC_SRMI, ++ AVR32_MNEMONIC_SRPL, ++ AVR32_MNEMONIC_SRLS, ++ AVR32_MNEMONIC_SRGT, ++ AVR32_MNEMONIC_SRLE, ++ AVR32_MNEMONIC_SRHI, ++ AVR32_MNEMONIC_SRVS, ++ AVR32_MNEMONIC_SRVC, ++ AVR32_MNEMONIC_SRQS, ++ AVR32_MNEMONIC_SRAL, ++ AVR32_MNEMONIC_SRHS, ++ AVR32_MNEMONIC_SRLO, ++ AVR32_MNEMONIC_SSRF, ++ AVR32_MNEMONIC_ST_B, ++ AVR32_MNEMONIC_ST_D, ++ AVR32_MNEMONIC_ST_H, ++ AVR32_MNEMONIC_ST_W, ++ AVR32_MNEMONIC_STC_D, ++ AVR32_MNEMONIC_STC_W, ++ AVR32_MNEMONIC_STC0_D, ++ AVR32_MNEMONIC_STC0_W, ++ AVR32_MNEMONIC_STCM_D, ++ AVR32_MNEMONIC_STCM_W, ++ AVR32_MNEMONIC_STCOND, ++ AVR32_MNEMONIC_STDSP, ++ AVR32_MNEMONIC_STHH_W, ++ AVR32_MNEMONIC_STM, ++ AVR32_MNEMONIC_STMTS, ++ AVR32_MNEMONIC_STSWP_H, ++ AVR32_MNEMONIC_STSWP_W, ++ AVR32_MNEMONIC_SUB, ++ AVR32_MNEMONIC_SUBEQ, ++ AVR32_MNEMONIC_SUBNE, ++ AVR32_MNEMONIC_SUBCC, ++ AVR32_MNEMONIC_SUBCS, ++ AVR32_MNEMONIC_SUBGE, ++ AVR32_MNEMONIC_SUBLT, ++ AVR32_MNEMONIC_SUBMI, ++ AVR32_MNEMONIC_SUBPL, ++ AVR32_MNEMONIC_SUBLS, ++ AVR32_MNEMONIC_SUBGT, ++ AVR32_MNEMONIC_SUBLE, ++ AVR32_MNEMONIC_SUBHI, ++ AVR32_MNEMONIC_SUBVS, ++ AVR32_MNEMONIC_SUBVC, ++ AVR32_MNEMONIC_SUBQS, ++ AVR32_MNEMONIC_SUBAL, ++ AVR32_MNEMONIC_SUBHS, ++ AVR32_MNEMONIC_SUBLO, ++ AVR32_MNEMONIC_SUBFEQ, ++ AVR32_MNEMONIC_SUBFNE, ++ AVR32_MNEMONIC_SUBFCC, ++ AVR32_MNEMONIC_SUBFCS, ++ AVR32_MNEMONIC_SUBFGE, ++ AVR32_MNEMONIC_SUBFLT, ++ AVR32_MNEMONIC_SUBFMI, ++ AVR32_MNEMONIC_SUBFPL, ++ AVR32_MNEMONIC_SUBFLS, ++ AVR32_MNEMONIC_SUBFGT, ++ AVR32_MNEMONIC_SUBFLE, ++ AVR32_MNEMONIC_SUBFHI, ++ AVR32_MNEMONIC_SUBFVS, ++ AVR32_MNEMONIC_SUBFVC, ++ AVR32_MNEMONIC_SUBFQS, ++ AVR32_MNEMONIC_SUBFAL, ++ AVR32_MNEMONIC_SUBFHS, ++ AVR32_MNEMONIC_SUBFLO, ++ AVR32_MNEMONIC_SUBHH_W, ++ AVR32_MNEMONIC_SWAP_B, ++ AVR32_MNEMONIC_SWAP_BH, ++ AVR32_MNEMONIC_SWAP_H, ++ AVR32_MNEMONIC_SYNC, ++ AVR32_MNEMONIC_TLBR, ++ AVR32_MNEMONIC_TLBS, ++ AVR32_MNEMONIC_TLBW, ++ AVR32_MNEMONIC_TNBZ, ++ AVR32_MNEMONIC_TST, ++ AVR32_MNEMONIC_XCHG, ++ AVR32_MNEMONIC_MEMC, ++ AVR32_MNEMONIC_MEMS, ++ AVR32_MNEMONIC_MEMT, ++ AVR32_MNEMONIC_FMAC_S, ++ AVR32_MNEMONIC_FNMAC_S, ++ AVR32_MNEMONIC_FMSC_S, ++ AVR32_MNEMONIC_FNMSC_S, ++ AVR32_MNEMONIC_FMUL_S, ++ AVR32_MNEMONIC_FNMUL_S, ++ AVR32_MNEMONIC_FADD_S, ++ AVR32_MNEMONIC_FSUB_S, ++ AVR32_MNEMONIC_FCASTRS_SW, ++ AVR32_MNEMONIC_FCASTRS_UW, ++ AVR32_MNEMONIC_FCASTSW_S, ++ AVR32_MNEMONIC_FCASTUW_S, ++ AVR32_MNEMONIC_FCMP_S, ++ AVR32_MNEMONIC_FCHK_S, ++ AVR32_MNEMONIC_FRCPA_S, ++ AVR32_MNEMONIC_FRSQRTA_S, ++ /* AVR32_MNEMONIC_FLD_S, ++ AVR32_MNEMONIC_FLD_D, ++ AVR32_MNEMONIC_FST_S, ++ AVR32_MNEMONIC_FST_D, */ ++ AVR32_MNEMONIC_LDA_W, ++ AVR32_MNEMONIC_CALL, ++ AVR32_MNEMONIC_PICOSVMAC, ++ AVR32_MNEMONIC_PICOSVMUL, ++ AVR32_MNEMONIC_PICOVMAC, ++ AVR32_MNEMONIC_PICOVMUL, ++ AVR32_MNEMONIC_PICOLD_D, ++ AVR32_MNEMONIC_PICOLD_W, ++ AVR32_MNEMONIC_PICOLDM_D, ++ AVR32_MNEMONIC_PICOLDM_W, ++ AVR32_MNEMONIC_PICOMV_D, ++ AVR32_MNEMONIC_PICOMV_W, ++ AVR32_MNEMONIC_PICOST_D, ++ AVR32_MNEMONIC_PICOST_W, ++ AVR32_MNEMONIC_PICOSTM_D, ++ AVR32_MNEMONIC_PICOSTM_W, ++ AVR32_MNEMONIC_RSUBEQ, ++ AVR32_MNEMONIC_RSUBNE, ++ AVR32_MNEMONIC_RSUBCC, ++ AVR32_MNEMONIC_RSUBCS, ++ AVR32_MNEMONIC_RSUBGE, ++ AVR32_MNEMONIC_RSUBLT, ++ AVR32_MNEMONIC_RSUBMI, ++ AVR32_MNEMONIC_RSUBPL, ++ AVR32_MNEMONIC_RSUBLS, ++ AVR32_MNEMONIC_RSUBGT, ++ AVR32_MNEMONIC_RSUBLE, ++ AVR32_MNEMONIC_RSUBHI, ++ AVR32_MNEMONIC_RSUBVS, ++ AVR32_MNEMONIC_RSUBVC, ++ AVR32_MNEMONIC_RSUBQS, ++ AVR32_MNEMONIC_RSUBAL, ++ AVR32_MNEMONIC_RSUBHS, ++ AVR32_MNEMONIC_RSUBLO, ++ AVR32_MNEMONIC_ADDEQ, ++ AVR32_MNEMONIC_ADDNE, ++ AVR32_MNEMONIC_ADDCC, ++ AVR32_MNEMONIC_ADDCS, ++ AVR32_MNEMONIC_ADDGE, ++ AVR32_MNEMONIC_ADDLT, ++ AVR32_MNEMONIC_ADDMI, ++ AVR32_MNEMONIC_ADDPL, ++ AVR32_MNEMONIC_ADDLS, ++ AVR32_MNEMONIC_ADDGT, ++ AVR32_MNEMONIC_ADDLE, ++ AVR32_MNEMONIC_ADDHI, ++ AVR32_MNEMONIC_ADDVS, ++ AVR32_MNEMONIC_ADDVC, ++ AVR32_MNEMONIC_ADDQS, ++ AVR32_MNEMONIC_ADDAL, ++ AVR32_MNEMONIC_ADDHS, ++ AVR32_MNEMONIC_ADDLO, ++ AVR32_MNEMONIC_ANDEQ, ++ AVR32_MNEMONIC_ANDNE, ++ AVR32_MNEMONIC_ANDCC, ++ AVR32_MNEMONIC_ANDCS, ++ AVR32_MNEMONIC_ANDGE, ++ AVR32_MNEMONIC_ANDLT, ++ AVR32_MNEMONIC_ANDMI, ++ AVR32_MNEMONIC_ANDPL, ++ AVR32_MNEMONIC_ANDLS, ++ AVR32_MNEMONIC_ANDGT, ++ AVR32_MNEMONIC_ANDLE, ++ AVR32_MNEMONIC_ANDHI, ++ AVR32_MNEMONIC_ANDVS, ++ AVR32_MNEMONIC_ANDVC, ++ AVR32_MNEMONIC_ANDQS, ++ AVR32_MNEMONIC_ANDAL, ++ AVR32_MNEMONIC_ANDHS, ++ AVR32_MNEMONIC_ANDLO, ++ AVR32_MNEMONIC_OREQ, ++ AVR32_MNEMONIC_ORNE, ++ AVR32_MNEMONIC_ORCC, ++ AVR32_MNEMONIC_ORCS, ++ AVR32_MNEMONIC_ORGE, ++ AVR32_MNEMONIC_ORLT, ++ AVR32_MNEMONIC_ORMI, ++ AVR32_MNEMONIC_ORPL, ++ AVR32_MNEMONIC_ORLS, ++ AVR32_MNEMONIC_ORGT, ++ AVR32_MNEMONIC_ORLE, ++ AVR32_MNEMONIC_ORHI, ++ AVR32_MNEMONIC_ORVS, ++ AVR32_MNEMONIC_ORVC, ++ AVR32_MNEMONIC_ORQS, ++ AVR32_MNEMONIC_ORAL, ++ AVR32_MNEMONIC_ORHS, ++ AVR32_MNEMONIC_ORLO, ++ AVR32_MNEMONIC_EOREQ, ++ AVR32_MNEMONIC_EORNE, ++ AVR32_MNEMONIC_EORCC, ++ AVR32_MNEMONIC_EORCS, ++ AVR32_MNEMONIC_EORGE, ++ AVR32_MNEMONIC_EORLT, ++ AVR32_MNEMONIC_EORMI, ++ AVR32_MNEMONIC_EORPL, ++ AVR32_MNEMONIC_EORLS, ++ AVR32_MNEMONIC_EORGT, ++ AVR32_MNEMONIC_EORLE, ++ AVR32_MNEMONIC_EORHI, ++ AVR32_MNEMONIC_EORVS, ++ AVR32_MNEMONIC_EORVC, ++ AVR32_MNEMONIC_EORQS, ++ AVR32_MNEMONIC_EORAL, ++ AVR32_MNEMONIC_EORHS, ++ AVR32_MNEMONIC_EORLO, ++ AVR32_MNEMONIC_LD_WEQ, ++ AVR32_MNEMONIC_LD_WNE, ++ AVR32_MNEMONIC_LD_WCC, ++ AVR32_MNEMONIC_LD_WCS, ++ AVR32_MNEMONIC_LD_WGE, ++ AVR32_MNEMONIC_LD_WLT, ++ AVR32_MNEMONIC_LD_WMI, ++ AVR32_MNEMONIC_LD_WPL, ++ AVR32_MNEMONIC_LD_WLS, ++ AVR32_MNEMONIC_LD_WGT, ++ AVR32_MNEMONIC_LD_WLE, ++ AVR32_MNEMONIC_LD_WHI, ++ AVR32_MNEMONIC_LD_WVS, ++ AVR32_MNEMONIC_LD_WVC, ++ AVR32_MNEMONIC_LD_WQS, ++ AVR32_MNEMONIC_LD_WAL, ++ AVR32_MNEMONIC_LD_WHS, ++ AVR32_MNEMONIC_LD_WLO, ++ AVR32_MNEMONIC_LD_SHEQ, ++ AVR32_MNEMONIC_LD_SHNE, ++ AVR32_MNEMONIC_LD_SHCC, ++ AVR32_MNEMONIC_LD_SHCS, ++ AVR32_MNEMONIC_LD_SHGE, ++ AVR32_MNEMONIC_LD_SHLT, ++ AVR32_MNEMONIC_LD_SHMI, ++ AVR32_MNEMONIC_LD_SHPL, ++ AVR32_MNEMONIC_LD_SHLS, ++ AVR32_MNEMONIC_LD_SHGT, ++ AVR32_MNEMONIC_LD_SHLE, ++ AVR32_MNEMONIC_LD_SHHI, ++ AVR32_MNEMONIC_LD_SHVS, ++ AVR32_MNEMONIC_LD_SHVC, ++ AVR32_MNEMONIC_LD_SHQS, ++ AVR32_MNEMONIC_LD_SHAL, ++ AVR32_MNEMONIC_LD_SHHS, ++ AVR32_MNEMONIC_LD_SHLO, ++ AVR32_MNEMONIC_LD_UHEQ, ++ AVR32_MNEMONIC_LD_UHNE, ++ AVR32_MNEMONIC_LD_UHCC, ++ AVR32_MNEMONIC_LD_UHCS, ++ AVR32_MNEMONIC_LD_UHGE, ++ AVR32_MNEMONIC_LD_UHLT, ++ AVR32_MNEMONIC_LD_UHMI, ++ AVR32_MNEMONIC_LD_UHPL, ++ AVR32_MNEMONIC_LD_UHLS, ++ AVR32_MNEMONIC_LD_UHGT, ++ AVR32_MNEMONIC_LD_UHLE, ++ AVR32_MNEMONIC_LD_UHHI, ++ AVR32_MNEMONIC_LD_UHVS, ++ AVR32_MNEMONIC_LD_UHVC, ++ AVR32_MNEMONIC_LD_UHQS, ++ AVR32_MNEMONIC_LD_UHAL, ++ AVR32_MNEMONIC_LD_UHHS, ++ AVR32_MNEMONIC_LD_UHLO, ++ AVR32_MNEMONIC_LD_SBEQ, ++ AVR32_MNEMONIC_LD_SBNE, ++ AVR32_MNEMONIC_LD_SBCC, ++ AVR32_MNEMONIC_LD_SBCS, ++ AVR32_MNEMONIC_LD_SBGE, ++ AVR32_MNEMONIC_LD_SBLT, ++ AVR32_MNEMONIC_LD_SBMI, ++ AVR32_MNEMONIC_LD_SBPL, ++ AVR32_MNEMONIC_LD_SBLS, ++ AVR32_MNEMONIC_LD_SBGT, ++ AVR32_MNEMONIC_LD_SBLE, ++ AVR32_MNEMONIC_LD_SBHI, ++ AVR32_MNEMONIC_LD_SBVS, ++ AVR32_MNEMONIC_LD_SBVC, ++ AVR32_MNEMONIC_LD_SBQS, ++ AVR32_MNEMONIC_LD_SBAL, ++ AVR32_MNEMONIC_LD_SBHS, ++ AVR32_MNEMONIC_LD_SBLO, ++ AVR32_MNEMONIC_LD_UBEQ, ++ AVR32_MNEMONIC_LD_UBNE, ++ AVR32_MNEMONIC_LD_UBCC, ++ AVR32_MNEMONIC_LD_UBCS, ++ AVR32_MNEMONIC_LD_UBGE, ++ AVR32_MNEMONIC_LD_UBLT, ++ AVR32_MNEMONIC_LD_UBMI, ++ AVR32_MNEMONIC_LD_UBPL, ++ AVR32_MNEMONIC_LD_UBLS, ++ AVR32_MNEMONIC_LD_UBGT, ++ AVR32_MNEMONIC_LD_UBLE, ++ AVR32_MNEMONIC_LD_UBHI, ++ AVR32_MNEMONIC_LD_UBVS, ++ AVR32_MNEMONIC_LD_UBVC, ++ AVR32_MNEMONIC_LD_UBQS, ++ AVR32_MNEMONIC_LD_UBAL, ++ AVR32_MNEMONIC_LD_UBHS, ++ AVR32_MNEMONIC_LD_UBLO, ++ AVR32_MNEMONIC_ST_WEQ, ++ AVR32_MNEMONIC_ST_WNE, ++ AVR32_MNEMONIC_ST_WCC, ++ AVR32_MNEMONIC_ST_WCS, ++ AVR32_MNEMONIC_ST_WGE, ++ AVR32_MNEMONIC_ST_WLT, ++ AVR32_MNEMONIC_ST_WMI, ++ AVR32_MNEMONIC_ST_WPL, ++ AVR32_MNEMONIC_ST_WLS, ++ AVR32_MNEMONIC_ST_WGT, ++ AVR32_MNEMONIC_ST_WLE, ++ AVR32_MNEMONIC_ST_WHI, ++ AVR32_MNEMONIC_ST_WVS, ++ AVR32_MNEMONIC_ST_WVC, ++ AVR32_MNEMONIC_ST_WQS, ++ AVR32_MNEMONIC_ST_WAL, ++ AVR32_MNEMONIC_ST_WHS, ++ AVR32_MNEMONIC_ST_WLO, ++ AVR32_MNEMONIC_ST_HEQ, ++ AVR32_MNEMONIC_ST_HNE, ++ AVR32_MNEMONIC_ST_HCC, ++ AVR32_MNEMONIC_ST_HCS, ++ AVR32_MNEMONIC_ST_HGE, ++ AVR32_MNEMONIC_ST_HLT, ++ AVR32_MNEMONIC_ST_HMI, ++ AVR32_MNEMONIC_ST_HPL, ++ AVR32_MNEMONIC_ST_HLS, ++ AVR32_MNEMONIC_ST_HGT, ++ AVR32_MNEMONIC_ST_HLE, ++ AVR32_MNEMONIC_ST_HHI, ++ AVR32_MNEMONIC_ST_HVS, ++ AVR32_MNEMONIC_ST_HVC, ++ AVR32_MNEMONIC_ST_HQS, ++ AVR32_MNEMONIC_ST_HAL, ++ AVR32_MNEMONIC_ST_HHS, ++ AVR32_MNEMONIC_ST_HLO, ++ AVR32_MNEMONIC_ST_BEQ, ++ AVR32_MNEMONIC_ST_BNE, ++ AVR32_MNEMONIC_ST_BCC, ++ AVR32_MNEMONIC_ST_BCS, ++ AVR32_MNEMONIC_ST_BGE, ++ AVR32_MNEMONIC_ST_BLT, ++ AVR32_MNEMONIC_ST_BMI, ++ AVR32_MNEMONIC_ST_BPL, ++ AVR32_MNEMONIC_ST_BLS, ++ AVR32_MNEMONIC_ST_BGT, ++ AVR32_MNEMONIC_ST_BLE, ++ AVR32_MNEMONIC_ST_BHI, ++ AVR32_MNEMONIC_ST_BVS, ++ AVR32_MNEMONIC_ST_BVC, ++ AVR32_MNEMONIC_ST_BQS, ++ AVR32_MNEMONIC_ST_BAL, ++ AVR32_MNEMONIC_ST_BHS, ++ AVR32_MNEMONIC_ST_BLO, ++ AVR32_MNEMONIC_MOVH, ++ AVR32_MNEMONIC__END_ ++}; ++#define AVR32_NR_MNEMONICS AVR32_MNEMONIC__END_ ++ ++enum avr32_syntax_parser ++ { ++ AVR32_PARSER_NORMAL, ++ AVR32_PARSER_ALIAS, ++ AVR32_PARSER_LDA, ++ AVR32_PARSER_CALL, ++ AVR32_PARSER__END_ ++ }; ++#define AVR32_NR_PARSERS AVR32_PARSER__END_ +--- a/opcodes/configure.in ++++ b/opcodes/configure.in +@@ -223,6 +223,7 @@ if test x${all_targets} = xfalse ; then + bfd_arc_arch) ta="$ta arc-dis.lo arc-opc.lo arc-ext.lo" ;; + bfd_arm_arch) ta="$ta arm-dis.lo" ;; + bfd_avr_arch) ta="$ta avr-dis.lo" ;; ++ bfd_avr32_arch) ta="$ta avr32-asm.lo avr32-dis.lo avr32-opc.lo" ;; + bfd_bfin_arch) ta="$ta bfin-dis.lo" ;; + bfd_cr16_arch) ta="$ta cr16-dis.lo cr16-opc.lo" ;; + bfd_cris_arch) ta="$ta cris-dis.lo cris-opc.lo cgen-bitset.lo" ;; +@@ -285,7 +286,7 @@ if test x${all_targets} = xfalse ; then + ta="$ta sh64-dis.lo sh64-opc.lo" + archdefs="$archdefs -DINCLUDE_SHMEDIA" + break;; +- esac; ++ esac + done + ta="$ta sh-dis.lo cgen-bitset.lo" ;; + bfd_sparc_arch) ta="$ta sparc-dis.lo sparc-opc.lo" ;; +--- a/opcodes/disassemble.c ++++ b/opcodes/disassemble.c +@@ -27,6 +27,7 @@ + #define ARCH_arc + #define ARCH_arm + #define ARCH_avr ++#define ARCH_avr32 + #define ARCH_bfin + #define ARCH_cr16 + #define ARCH_cris +@@ -131,6 +132,11 @@ disassembler (abfd) + disassemble = print_insn_avr; + break; + #endif ++#ifdef ARCH_avr32 ++ case bfd_arch_avr32: ++ disassemble = print_insn_avr32; ++ break; ++#endif + #ifdef ARCH_bfin + case bfd_arch_bfin: + disassemble = print_insn_bfin; +@@ -485,6 +491,9 @@ disassembler_usage (stream) + #ifdef ARCH_i386 + print_i386_disassembler_options (stream); + #endif ++#ifdef ARCH_avr32 ++ print_avr32_disassembler_options (stream); ++#endif + #ifdef ARCH_s390 + print_s390_disassembler_options (stream); + #endif +--- a/bfd/configure ++++ b/bfd/configure +@@ -14787,6 +14787,7 @@ do + bfd_pei_ia64_vec) tb="$tb pei-ia64.lo pepigen.lo cofflink.lo"; target_size=64 ;; + bfd_elf32_am33lin_vec) tb="$tb elf32-am33lin.lo elf32.lo $elf" ;; + bfd_elf32_avr_vec) tb="$tb elf32-avr.lo elf32.lo $elf" ;; ++ bfd_elf32_avr32_vec) tb="$tb elf32-avr32.lo elf32.lo $elf" ;; + bfd_elf32_bfin_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_bfinfdpic_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_big_generic_vec) tb="$tb elf32-gen.lo elf32.lo $elf" ;; +--- a/opcodes/configure ++++ b/opcodes/configure +@@ -12284,6 +12284,7 @@ if test x${all_targets} = xfalse ; then + bfd_arc_arch) ta="$ta arc-dis.lo arc-opc.lo arc-ext.lo" ;; + bfd_arm_arch) ta="$ta arm-dis.lo" ;; + bfd_avr_arch) ta="$ta avr-dis.lo" ;; ++ bfd_avr32_arch) ta="$ta avr32-asm.lo avr32-dis.lo avr32-opc.lo" ;; + bfd_bfin_arch) ta="$ta bfin-dis.lo" ;; + bfd_cr16_arch) ta="$ta cr16-dis.lo cr16-opc.lo" ;; + bfd_cris_arch) ta="$ta cris-dis.lo cris-opc.lo cgen-bitset.lo" ;; +--- a/bfd/libbfd.h ++++ b/bfd/libbfd.h +@@ -1646,6 +1646,48 @@ static const char *const bfd_reloc_code_ + "BFD_RELOC_AVR_LDI", + "BFD_RELOC_AVR_6", + "BFD_RELOC_AVR_6_ADIW", ++ "BFD_RELOC_AVR32_DIFF32", ++ "BFD_RELOC_AVR32_DIFF16", ++ "BFD_RELOC_AVR32_DIFF8", ++ "BFD_RELOC_AVR32_GOT32", ++ "BFD_RELOC_AVR32_GOT16", ++ "BFD_RELOC_AVR32_GOT8", ++ "BFD_RELOC_AVR32_21S", ++ "BFD_RELOC_AVR32_16U", ++ "BFD_RELOC_AVR32_16S", ++ "BFD_RELOC_AVR32_SUB5", ++ "BFD_RELOC_AVR32_8S_EXT", ++ "BFD_RELOC_AVR32_8S", ++ "BFD_RELOC_AVR32_15S", ++ "BFD_RELOC_AVR32_22H_PCREL", ++ "BFD_RELOC_AVR32_18W_PCREL", ++ "BFD_RELOC_AVR32_16B_PCREL", ++ "BFD_RELOC_AVR32_16N_PCREL", ++ "BFD_RELOC_AVR32_14UW_PCREL", ++ "BFD_RELOC_AVR32_11H_PCREL", ++ "BFD_RELOC_AVR32_10UW_PCREL", ++ "BFD_RELOC_AVR32_9H_PCREL", ++ "BFD_RELOC_AVR32_9UW_PCREL", ++ "BFD_RELOC_AVR32_GOTPC", ++ "BFD_RELOC_AVR32_GOTCALL", ++ "BFD_RELOC_AVR32_LDA_GOT", ++ "BFD_RELOC_AVR32_GOT21S", ++ "BFD_RELOC_AVR32_GOT18SW", ++ "BFD_RELOC_AVR32_GOT16S", ++ "BFD_RELOC_AVR32_32_CPENT", ++ "BFD_RELOC_AVR32_CPCALL", ++ "BFD_RELOC_AVR32_16_CP", ++ "BFD_RELOC_AVR32_9W_CP", ++ "BFD_RELOC_AVR32_ALIGN", ++ "BFD_RELOC_AVR32_14UW", ++ "BFD_RELOC_AVR32_10UW", ++ "BFD_RELOC_AVR32_10SW", ++ "BFD_RELOC_AVR32_STHH_W", ++ "BFD_RELOC_AVR32_7UW", ++ "BFD_RELOC_AVR32_6S", ++ "BFD_RELOC_AVR32_6UW", ++ "BFD_RELOC_AVR32_4UH", ++ "BFD_RELOC_AVR32_3U", + "BFD_RELOC_390_12", + "BFD_RELOC_390_GOT12", + "BFD_RELOC_390_PLT32", +--- a/ld/Makefile.in ++++ b/ld/Makefile.in +@@ -434,6 +434,53 @@ ALL_EMULATIONS = \ + eavr5.o \ + eavr51.o \ + eavr6.o \ ++ eavr32elf_ap7000.o \ ++ eavr32elf_ap7001.o \ ++ eavr32elf_ap7002.o \ ++ eavr32elf_ap7200.o \ ++ eavr32elf_uc3a0128.o \ ++ eavr32elf_uc3a0256.o \ ++ eavr32elf_uc3a0512.o \ ++ eavr32elf_uc3a0512es.o \ ++ eavr32elf_uc3a1128.o \ ++ eavr32elf_uc3a1256.o \ ++ eavr32elf_uc3a1512es.o \ ++ eavr32elf_uc3a1512.o \ ++ eavr32elf_uc3a364.o \ ++ eavr32elf_uc3a364s.o \ ++ eavr32elf_uc3a3128.o \ ++ eavr32elf_uc3a3128s.o \ ++ eavr32elf_uc3a3256.o \ ++ eavr32elf_uc3a3256s.o \ ++ eavr32elf_uc3b064.o \ ++ eavr32elf_uc3b0128.o \ ++ eavr32elf_uc3b0256es.o \ ++ eavr32elf_uc3b0256.o \ ++ eavr32elf_uc3b0512.o \ ++ eavr32elf_uc3b0512revc.o \ ++ eavr32elf_uc3b164.o \ ++ eavr32elf_uc3b1128.o \ ++ eavr32elf_uc3b1256es.o \ ++ eavr32elf_uc3b1256.o \ ++ eavr32elf_uc3b1512.o \ ++ eavr32elf_uc3b1512revc.o \ ++ eavr32elf_uc3c064c.o \ ++ eavr32elf_uc3c0128c.o \ ++ eavr32elf_uc3c0256c.o \ ++ eavr32elf_uc3c0512crevc.o \ ++ eavr32elf_uc3c164c.o \ ++ eavr32elf_uc3c1128c.o \ ++ eavr32elf_uc3c1256c.o \ ++ eavr32elf_uc3c1512crevc.o \ ++ eavr32elf_uc3c264c.o \ ++ eavr32elf_uc3c2128c.o \ ++ eavr32elf_uc3c2256c.o \ ++ eavr32elf_uc3c2512crevc.o \ ++ eavr32elf_uc3l064.o \ ++ eavr32elf_uc3l032.o \ ++ eavr32elf_uc3l016.o \ ++ eavr32elf_uc3l064revb.o \ ++ eavr32linux.o \ + ecoff_i860.o \ + ecoff_sparc.o \ + eelf32_spu.o \ +@@ -2069,6 +2116,194 @@ eavr6.c: $(srcdir)/emulparams/avr6.sh $( + $(ELF_DEPS) $(srcdir)/scripttempl/avr.sc \ + ${GEN_DEPENDS} + ${GENSCRIPTS} avr6 "$(tdir_avr2)" ++eavr32elf_ap7000.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_ap7000 "$(tdir_avr32)" avr32elf ++eavr32elf_ap7001.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_ap7001 "$(tdir_avr32)" avr32elf ++eavr32elf_ap7002.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_ap7002 "$(tdir_avr32)" avr32elf ++eavr32elf_ap7200.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_ap7200 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3a0128.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3a0128 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3a0256.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3a0256 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3a0512.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3a0512 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3a0512es.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3a0512es "$(tdir_avr32)" avr32elf ++eavr32elf_uc3a1128.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3a1128 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3a1256.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3a1256 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3a1512.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3a1512 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3a1512es.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3a1512es "$(tdir_avr32)" avr32elf ++eavr32elf_uc3a364.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3a364 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3a364s.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3a364s "$(tdir_avr32)" avr32elf ++eavr32elf_uc3a3128.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3a3128 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3a3128s.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3a3128s "$(tdir_avr32)" avr32elf ++eavr32elf_uc3a3256.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3a3256 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3a3256s.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3a3256s "$(tdir_avr32)" avr32elf ++eavr32elf_uc3b064.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3b064 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3b0128.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3b0128 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3b0256.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3b0256 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3b0256es.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3b0256es "$(tdir_avr32)" avr32elf ++eavr32elf_uc3b0512.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3b0512 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3b0512revc.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3b0512revc "$(tdir_avr32)" avr32elf ++eavr32elf_uc3b164.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3b164 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3b1128.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3b1128 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3b1256.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3b1256 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3b1256es.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3b1256es "$(tdir_avr32)" avr32elf ++eavr32elf_uc3b1512.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3b1512 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3b1512revc.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3b1512revc "$(tdir_avr32)" avr32elf ++eavr32elf_uc3c064c.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3c064c "$(tdir_avr32)" avr32elf ++eavr32elf_uc3c0128c.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3c0128c "$(tdir_avr32)" avr32elf ++eavr32elf_uc3c0256c.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3c0256c "$(tdir_avr32)" avr32elf ++eavr32elf_uc3c0512crevc.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3c0512crevc "$(tdir_avr32)" avr32elf ++eavr32elf_uc3c164c.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3c164c "$(tdir_avr32)" avr32elf ++eavr32elf_uc3c1128c.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3c1128c "$(tdir_avr32)" avr32elf ++eavr32elf_uc3c1256c.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3c1256c "$(tdir_avr32)" avr32elf ++eavr32elf_uc3c1512crevc.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3c1512crevc "$(tdir_avr32)" avr32elf ++eavr32elf_uc3c264c.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3c264c "$(tdir_avr32)" avr32elf ++eavr32elf_uc3c2128c.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3c2128c "$(tdir_avr32)" avr32elf ++eavr32elf_uc3c2256c.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3c2256c "$(tdir_avr32)" avr32elf ++eavr32elf_uc3c2512crevc.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3c2512crevc "$(tdir_avr32)" avr32elf ++eavr32elf_uc3l064.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3l064 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3l032.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3l032 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3l016.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3l016 "$(tdir_avr32)" avr32elf ++eavr32elf_uc3l064revb.c: $(srcdir)/emulparams/avr32elf.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/avr32.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32elf_uc3l064revb "$(tdir_avr32)" avr32elf ++eavr32linux.c: $(srcdir)/emulparams/avr32linux.sh \ ++ $(srcdir)/emultempl/elf32.em $(srcdir)/emultempl/avr32elf.em \ ++ $(srcdir)/scripttempl/elf.sc ${GEN_DEPENDS} ++ ${GENSCRIPTS} avr32linux "$(tdir_avr32)" + ecoff_i860.c: $(srcdir)/emulparams/coff_i860.sh \ + $(srcdir)/emultempl/generic.em $(srcdir)/scripttempl/i860coff.sc ${GEN_DEPENDS} + ${GENSCRIPTS} coff_i860 "$(tdir_coff_i860)" +--- a/gas/Makefile.in ++++ b/gas/Makefile.in +@@ -309,6 +309,7 @@ CPU_TYPES = \ + arc \ + arm \ + avr \ ++ avr32 \ + bfin \ + cr16 \ + cris \ +@@ -508,6 +509,7 @@ TARGET_CPU_CFILES = \ + config/tc-arc.c \ + config/tc-arm.c \ + config/tc-avr.c \ ++ config/tc-avr32.c \ + config/tc-bfin.c \ + config/tc-cr16.c \ + config/tc-cris.c \ +@@ -571,6 +573,7 @@ TARGET_CPU_HFILES = \ + config/tc-arc.h \ + config/tc-arm.h \ + config/tc-avr.h \ ++ config/tc-avr32.h \ + config/tc-bfin.h \ + config/tc-cr16.h \ + config/tc-cris.h \ +@@ -949,6 +952,7 @@ distclean-compile: + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-arc.Po@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-arm.Po@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-avr.Po@am__quote@ ++@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-avr32.Po@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-bfin.Po@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-cr16.Po@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-cris.Po@am__quote@ +@@ -1086,6 +1090,20 @@ tc-avr.obj: config/tc-avr.c + @AMDEP_TRUE@@am__fastdepCC_FALSE@ DEPDIR=$(DEPDIR) $(CCDEPMODE) $(depcomp) @AMDEPBACKSLASH@ + @am__fastdepCC_FALSE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -c -o tc-avr.obj `if test -f 'config/tc-avr.c'; then $(CYGPATH_W) 'config/tc-avr.c'; else $(CYGPATH_W) '$(srcdir)/config/tc-avr.c'; fi` + ++tc-avr32.o: config/tc-avr32.c ++@am__fastdepCC_TRUE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -MT tc-avr32.o -MD -MP -MF $(DEPDIR)/tc-avr32.Tpo -c -o tc-avr32.o `test -f 'config/tc-avr32.c' || echo '$(srcdir)/'`config/tc-avr32.c ++@am__fastdepCC_TRUE@ $(am__mv) $(DEPDIR)/tc-avr32.Tpo $(DEPDIR)/tc-avr32.Po ++@AMDEP_TRUE@@am__fastdepCC_FALSE@ source='config/tc-avr32.c' object='tc-avr32.o' libtool=no @AMDEPBACKSLASH@ ++@AMDEP_TRUE@@am__fastdepCC_FALSE@ DEPDIR=$(DEPDIR) $(CCDEPMODE) $(depcomp) @AMDEPBACKSLASH@ ++@am__fastdepCC_FALSE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -c -o tc-avr32.o `test -f 'config/tc-avr32.c' || echo '$(srcdir)/'`config/tc-avr32.c ++ ++tc-avr32.obj: config/tc-avr32.c ++@am__fastdepCC_TRUE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -MT tc-avr32.obj -MD -MP -MF $(DEPDIR)/tc-avr32.Tpo -c -o tc-avr32.obj `if test -f 'config/tc-avr32.c'; then $(CYGPATH_W) 'config/tc-avr32.c'; else $(CYGPATH_W) '$(srcdir)/config/tc-avr32.c'; fi` ++@am__fastdepCC_TRUE@ $(am__mv) $(DEPDIR)/tc-avr32.Tpo $(DEPDIR)/tc-avr32.Po ++@AMDEP_TRUE@@am__fastdepCC_FALSE@ source='config/tc-avr32.c' object='tc-avr32.obj' libtool=no @AMDEPBACKSLASH@ ++@AMDEP_TRUE@@am__fastdepCC_FALSE@ DEPDIR=$(DEPDIR) $(CCDEPMODE) $(depcomp) @AMDEPBACKSLASH@ ++@am__fastdepCC_FALSE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -c -o tc-avr32.obj `if test -f 'config/tc-avr32.c'; then $(CYGPATH_W) 'config/tc-avr32.c'; else $(CYGPATH_W) '$(srcdir)/config/tc-avr32.c'; fi` ++ + tc-bfin.o: config/tc-bfin.c + @am__fastdepCC_TRUE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -MT tc-bfin.o -MD -MP -MF $(DEPDIR)/tc-bfin.Tpo -c -o tc-bfin.o `test -f 'config/tc-bfin.c' || echo '$(srcdir)/'`config/tc-bfin.c + @am__fastdepCC_TRUE@ $(am__mv) $(DEPDIR)/tc-bfin.Tpo $(DEPDIR)/tc-bfin.Po +--- a/bfd/bfd-in2.h ++++ b/bfd/bfd-in2.h +@@ -2042,6 +2042,12 @@ enum bfd_architecture + #define bfd_mach_avr5 5 + #define bfd_mach_avr51 51 + #define bfd_mach_avr6 6 ++ bfd_arch_avr32, /* Atmel AVR32 */ ++#define bfd_mach_avr32_ap 7000 ++#define bfd_mach_avr32_uc 3000 ++#define bfd_mach_avr32_ucr1 3001 ++#define bfd_mach_avr32_ucr2 3002 ++#define bfd_mach_avr32_ucr3 3003 + bfd_arch_bfin, /* ADI Blackfin */ + #define bfd_mach_bfin 1 + bfd_arch_cr16, /* National Semiconductor CompactRISC (ie CR16). */ +@@ -3851,6 +3857,88 @@ instructions */ + instructions */ + BFD_RELOC_AVR_6_ADIW, + ++/* Difference between two labels: L2 - L1. The value of L1 is encoded ++as sym + addend, while the initial difference after assembly is ++inserted into the object file by the assembler. */ ++ BFD_RELOC_AVR32_DIFF32, ++ BFD_RELOC_AVR32_DIFF16, ++ BFD_RELOC_AVR32_DIFF8, ++ ++/* Reference to a symbol through the Global Offset Table. The linker ++will allocate an entry for symbol in the GOT and insert the offset ++of this entry as the relocation value. */ ++ BFD_RELOC_AVR32_GOT32, ++ BFD_RELOC_AVR32_GOT16, ++ BFD_RELOC_AVR32_GOT8, ++ ++/* Normal (non-pc-relative) code relocations. Alignment and signedness ++is indicated by the suffixes. S means signed, U means unsigned. W ++means word-aligned, H means halfword-aligned, neither means ++byte-aligned (no alignment.) SUB5 is the same relocation as 16S. */ ++ BFD_RELOC_AVR32_21S, ++ BFD_RELOC_AVR32_16U, ++ BFD_RELOC_AVR32_16S, ++ BFD_RELOC_AVR32_SUB5, ++ BFD_RELOC_AVR32_8S_EXT, ++ BFD_RELOC_AVR32_8S, ++ BFD_RELOC_AVR32_15S, ++ ++/* PC-relative relocations are signed if neither 'U' nor 'S' is ++specified. However, we explicitly tack on a 'B' to indicate no ++alignment, to avoid confusion with data relocs. All of these resolve ++to sym + addend - offset, except the one with 'N' (negated) suffix. ++This particular one resolves to offset - sym - addend. */ ++ BFD_RELOC_AVR32_22H_PCREL, ++ BFD_RELOC_AVR32_18W_PCREL, ++ BFD_RELOC_AVR32_16B_PCREL, ++ BFD_RELOC_AVR32_16N_PCREL, ++ BFD_RELOC_AVR32_14UW_PCREL, ++ BFD_RELOC_AVR32_11H_PCREL, ++ BFD_RELOC_AVR32_10UW_PCREL, ++ BFD_RELOC_AVR32_9H_PCREL, ++ BFD_RELOC_AVR32_9UW_PCREL, ++ ++/* Subtract the link-time address of the GOT from (symbol + addend) ++and insert the result. */ ++ BFD_RELOC_AVR32_GOTPC, ++ ++/* Reference to a symbol through the GOT. The linker will allocate an ++entry for symbol in the GOT and insert the offset of this entry as ++the relocation value. addend must be zero. As usual, 'S' means ++signed, 'W' means word-aligned, etc. */ ++ BFD_RELOC_AVR32_GOTCALL, ++ BFD_RELOC_AVR32_LDA_GOT, ++ BFD_RELOC_AVR32_GOT21S, ++ BFD_RELOC_AVR32_GOT18SW, ++ BFD_RELOC_AVR32_GOT16S, ++ ++/* 32-bit constant pool entry. I don't think 8- and 16-bit entries make ++a whole lot of sense. */ ++ BFD_RELOC_AVR32_32_CPENT, ++ ++/* Constant pool references. Some of these relocations are signed, ++others are unsigned. It doesn't really matter, since the constant ++pool always comes after the code that references it. */ ++ BFD_RELOC_AVR32_CPCALL, ++ BFD_RELOC_AVR32_16_CP, ++ BFD_RELOC_AVR32_9W_CP, ++ ++/* sym must be the absolute symbol. The addend specifies the alignment ++order, e.g. if addend is 2, the linker must add padding so that the ++next address is aligned to a 4-byte boundary. */ ++ BFD_RELOC_AVR32_ALIGN, ++ ++/* Code relocations that will never make it to the output file. */ ++ BFD_RELOC_AVR32_14UW, ++ BFD_RELOC_AVR32_10UW, ++ BFD_RELOC_AVR32_10SW, ++ BFD_RELOC_AVR32_STHH_W, ++ BFD_RELOC_AVR32_7UW, ++ BFD_RELOC_AVR32_6S, ++ BFD_RELOC_AVR32_6UW, ++ BFD_RELOC_AVR32_4UH, ++ BFD_RELOC_AVR32_3U, ++ + /* Direct 12 bit. */ + BFD_RELOC_390_12, + diff --git a/toolchain/binutils/patches/2.21.1/110-arm-eabi-conf.patch b/toolchain/binutils/patches/2.21.1/110-arm-eabi-conf.patch new file mode 100644 index 000000000..7a3dc8da9 --- /dev/null +++ b/toolchain/binutils/patches/2.21.1/110-arm-eabi-conf.patch @@ -0,0 +1,22 @@ +--- a/configure ++++ b/configure +@@ -3180,7 +3180,7 @@ case "${target}" in + noconfigdirs="$noconfigdirs target-libffi target-qthreads" + libgloss_dir=arm + ;; +- arm*-*-linux-gnueabi) ++ arm*-*-linux-*gnueabi) + noconfigdirs="$noconfigdirs target-qthreads" + case ${with_newlib} in + no) noconfigdirs="$noconfigdirs target-newlib target-libgloss" +--- a/configure.ac ++++ b/configure.ac +@@ -652,7 +652,7 @@ case "${target}" in + noconfigdirs="$noconfigdirs target-libffi target-qthreads" + libgloss_dir=arm + ;; +- arm*-*-linux-gnueabi) ++ arm*-*-linux-*gnueabi) + noconfigdirs="$noconfigdirs target-qthreads" + case ${with_newlib} in + no) noconfigdirs="$noconfigdirs target-newlib target-libgloss" diff --git a/toolchain/binutils/patches/2.21.1/111-pr7093.elf32-arm.c.patch b/toolchain/binutils/patches/2.21.1/111-pr7093.elf32-arm.c.patch new file mode 100644 index 000000000..7d6cb7ba7 --- /dev/null +++ b/toolchain/binutils/patches/2.21.1/111-pr7093.elf32-arm.c.patch @@ -0,0 +1,13 @@ +--- a/bfd/elf32-arm.c ++++ b/bfd/elf32-arm.c +@@ -5631,6 +5631,10 @@ bfd_elf32_arm_init_maps (bfd *abfd) + if (! is_arm_elf (abfd)) + return; + ++ /* PR 7093: Make sure that we are dealing with an arm elf binary. */ ++ if (! is_arm_elf (abfd)) ++ return; ++ + if ((abfd->flags & DYNAMIC) != 0) + return; + diff --git a/toolchain/binutils/patches/2.21.1/112-arm-uclibc-gas-needs-libm.patch b/toolchain/binutils/patches/2.21.1/112-arm-uclibc-gas-needs-libm.patch new file mode 100644 index 000000000..636639221 --- /dev/null +++ b/toolchain/binutils/patches/2.21.1/112-arm-uclibc-gas-needs-libm.patch @@ -0,0 +1,35 @@ +Source: Khem Raj +Disposition: submit upstream. + +Description: + +We do not need to have the libtool patch anymore for binutils after +libtool has been updated upstream it include support for it. However +for building gas natively on uclibc systems we have to link it with +-lm so that it picks up missing symbols. + +/local/build_area/BUILD/arm_v5t_le_uclibc/binutils-2.17.50/objdir/libiberty/pic/libiberty.a(floatformat.o): In function `floatformat_from_double': +floatformat.c:(.text+0x1ec): undefined reference to `frexp' +floatformat.c:(.text+0x2f8): undefined reference to `ldexp' +/local/build_area/BUILD/arm_v5t_le_uclibc/binutils-2.17.50/objdir/libiberty/pic/libiberty.a(floatformat.o): In function `floatformat_to_double': +floatformat.c:(.text+0x38a): undefined reference to `ldexp' +floatformat.c:(.text+0x3d2): undefined reference to `ldexp' +floatformat.c:(.text+0x43e): undefined reference to `ldexp' floatformat.c:(.text+0x4e2): undefined reference to `ldexp' +collect2: ld returned 1 exit status +make[4]: *** [as-new] Error 1 + +--- a/gas/configure.tgt ++++ b/gas/configure.tgt +@@ -431,6 +431,12 @@ case ${generic_target} in + *-*-netware) fmt=elf em=netware ;; + esac + ++case ${generic_target} in ++ arm-*-*uclibc*) ++ need_libm=yes ++ ;; ++esac ++ + case ${cpu_type} in + alpha | arm | i386 | ia64 | microblaze | mips | ns32k | pdp11 | ppc | sparc | z80 | z8k) + bfd_gas=yes diff --git a/toolchain/binutils/patches/2.21.1/120-sh-conf.patch b/toolchain/binutils/patches/2.21.1/120-sh-conf.patch new file mode 100644 index 000000000..caef550d8 --- /dev/null +++ b/toolchain/binutils/patches/2.21.1/120-sh-conf.patch @@ -0,0 +1,40 @@ +--- a/configure ++++ b/configure +@@ -3148,7 +3148,7 @@ case "${target}" in + am33_2.0-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; +- sh-*-linux*) ++ sh*-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; + sh*-*-pe|mips*-*-pe|*arm-wince-pe) +@@ -3487,7 +3487,7 @@ case "${target}" in + romp-*-*) + noconfigdirs="$noconfigdirs bfd binutils ld gas opcodes target-libgloss ${libgcj}" + ;; +- sh-*-* | sh64-*-*) ++ sh*-*-* | sh64-*-*) + case "${host}" in + i[3456789]86-*-vsta) ;; # don't add gprof back in + i[3456789]86-*-go32*) ;; # don't add gprof back in +--- a/configure.ac ++++ b/configure.ac +@@ -620,7 +620,7 @@ case "${target}" in + am33_2.0-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; +- sh-*-linux*) ++ sh*-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; + sh*-*-pe|mips*-*-pe|*arm-wince-pe) +@@ -959,7 +959,7 @@ case "${target}" in + romp-*-*) + noconfigdirs="$noconfigdirs bfd binutils ld gas opcodes target-libgloss ${libgcj}" + ;; +- sh-*-* | sh64-*-*) ++ sh*-*-* | sh64-*-*) + case "${host}" in + i[[3456789]]86-*-vsta) ;; # don't add gprof back in + i[[3456789]]86-*-go32*) ;; # don't add gprof back in diff --git a/toolchain/binutils/patches/2.21.1/200-mips_non_pic.patch b/toolchain/binutils/patches/2.21.1/200-mips_non_pic.patch new file mode 100644 index 000000000..298f3cbfd --- /dev/null +++ b/toolchain/binutils/patches/2.21.1/200-mips_non_pic.patch @@ -0,0 +1,209 @@ +--- a/bfd/elf32-mips.c ++++ b/bfd/elf32-mips.c +@@ -1663,6 +1663,15 @@ static const struct ecoff_debug_swap mip + #define elf_backend_plt_readonly 1 + #define elf_backend_plt_sym_val _bfd_mips_elf_plt_sym_val + ++/* Most MIPS ELF files do not contain a traditional PLT; only VxWorks ++ and non-PIC dynamic executables do. These settings only affect ++ _bfd_elf_create_dynamic_sections, which is only called when we ++ do want a traditional PLT. */ ++#undef elf_backend_want_plt_sym ++#define elf_backend_want_plt_sym 1 ++#undef elf_backend_plt_readonly ++#define elf_backend_plt_readonly 1 ++ + #define elf_backend_discard_info _bfd_mips_elf_discard_info + #define elf_backend_ignore_discarded_relocs \ + _bfd_mips_elf_ignore_discarded_relocs +@@ -1686,6 +1695,8 @@ static const struct ecoff_debug_swap mip + #define bfd_elf32_bfd_print_private_bfd_data \ + _bfd_mips_elf_print_private_bfd_data + ++#define elf_backend_plt_sym_val _bfd_mips_elf_plt_sym_val ++ + /* Support for SGI-ish mips targets. */ + #define TARGET_LITTLE_SYM bfd_elf32_littlemips_vec + #define TARGET_LITTLE_NAME "elf32-littlemips" +@@ -1789,6 +1800,7 @@ mips_vxworks_final_write_processing (bfd + #undef elf_backend_additional_program_headers + #undef elf_backend_modify_segment_map + #undef elf_backend_symbol_processing ++#undef elf_backend_plt_sym_val + /* NOTE: elf_backend_rela_normal is not defined for MIPS. */ + + #include "elf32-target.h" +--- a/bfd/elfxx-mips.c ++++ b/bfd/elfxx-mips.c +@@ -713,6 +713,11 @@ static bfd *reldyn_sorting_bfd; + /* Nonzero if ABFD is using NewABI conventions. */ + #define NEWABI_P(abfd) (ABI_N32_P (abfd) || ABI_64_P (abfd)) + ++/* Nonzero if ABFD is a non-PIC object. */ ++#define NON_PIC_P(abfd) \ ++ (((elf_elfheader (abfd)->e_flags & EF_MIPS_PIC) == 0) \ ++ && ((elf_elfheader (abfd)->e_flags & EF_MIPS_CPIC) == EF_MIPS_CPIC)) ++ + /* The IRIX compatibility level we are striving for. */ + #define IRIX_COMPAT(abfd) \ + (get_elf_backend_data (abfd)->elf_backend_mips_irix_compat (abfd)) +@@ -725,6 +730,9 @@ static bfd *reldyn_sorting_bfd; + #define MIPS_ELF_OPTIONS_SECTION_NAME(abfd) \ + (NEWABI_P (abfd) ? ".MIPS.options" : ".options") + ++/* The name of the section holding non-PIC to PIC call stubs. */ ++#define NON_PIC_TO_PIC_STUB_SECTION_NAME ".MIPS.pic_stubs" ++ + /* True if NAME is the recognized name of any SHT_MIPS_OPTIONS section. + Some IRIX system files do not use MIPS_ELF_OPTIONS_SECTION_NAME. */ + #define MIPS_ELF_OPTIONS_SECTION_NAME_P(NAME) \ +@@ -7686,7 +7694,9 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + + /* We need a stub, not a plt entry for the undefined + function. But we record it as if it needs plt. See +- _bfd_elf_adjust_dynamic_symbol. */ ++ _bfd_elf_adjust_dynamic_symbol. Note that these relocations ++ are always used for PIC calls, even when using the new ++ non-PIC ABI. */ + h->needs_plt = 1; + h->type = STT_FUNC; + } +@@ -7793,6 +7803,8 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + case R_MIPS_32: + case R_MIPS_REL32: + case R_MIPS_64: ++ if (h != NULL) ++ h->non_got_ref = TRUE; + /* In VxWorks executables, references to external symbols + are handled using copy relocs or PLT stubs, so there's + no need to add a .rela.dyn entry for this relocation. */ +@@ -7848,11 +7860,21 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + case R_MIPS_GPREL16: + case R_MIPS_LITERAL: + case R_MIPS_GPREL32: ++ if (h != NULL ++ && (r_type == R_MIPS_GPREL16 || r_type == R_MIPS_GPREL32)) ++ h->non_got_ref = TRUE; ++ + if (SGI_COMPAT (abfd)) + mips_elf_hash_table (info)->compact_rel_size += + sizeof (Elf32_External_crinfo); + break; + ++ case R_MIPS_HI16: ++ case R_MIPS_LO16: ++ if (h != NULL && strcmp (h->root.root.string, "_gp_disp") != 0) ++ h->non_got_ref = TRUE; ++ break; ++ + /* This relocation describes the C++ object vtable hierarchy. + Reconstruct it for later use during GC. */ + case R_MIPS_GNU_VTINHERIT: +@@ -7875,20 +7897,20 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + + /* We must not create a stub for a symbol that has relocations + related to taking the function's address. This doesn't apply to +- VxWorks, where CALL relocs refer to a .got.plt entry instead of +- a normal .got entry. */ ++ VxWorks or the non-PIC ABI, where CALL relocs refer to a ++ .got.plt entry instead of a normal .got entry. */ + if (!htab->is_vxworks && h != NULL) + switch (r_type) + { +- default: +- ((struct mips_elf_link_hash_entry *) h)->no_fn_stub = TRUE; +- break; + case R_MIPS16_CALL16: + case R_MIPS_CALL16: + case R_MIPS_CALL_HI16: + case R_MIPS_CALL_LO16: + case R_MIPS_JALR: + break; ++ default: ++ ((struct mips_elf_link_hash_entry *) h)->no_fn_stub = TRUE; ++ break; + } + + /* See if this reloc would need to refer to a MIPS16 hard-float stub, +@@ -12601,7 +12623,9 @@ _bfd_mips_elf_merge_private_bfd_data (bf + break; + } + } +- if (null_input_bfd) ++ /* Dynamic objects normally have no sections, and do not reach ++ here - but they might if used as DYNOBJ. */ ++ if (null_input_bfd || (ibfd->flags & DYNAMIC) != 0) + return TRUE; + + ok = TRUE; +--- a/bfd/elfxx-mips.h ++++ b/bfd/elfxx-mips.h +@@ -64,6 +64,9 @@ extern bfd_boolean _bfd_mips_elf_finish_ + extern bfd_boolean _bfd_mips_vxworks_finish_dynamic_symbol + (bfd *, struct bfd_link_info *, struct elf_link_hash_entry *, + Elf_Internal_Sym *); ++extern bfd_boolean _bfd_mips_nonpic_finish_dynamic_symbol ++ (bfd *, struct bfd_link_info *, struct elf_link_hash_entry *, ++ Elf_Internal_Sym *); + extern bfd_boolean _bfd_mips_elf_finish_dynamic_sections + (bfd *, struct bfd_link_info *); + extern void _bfd_mips_elf_final_write_processing +@@ -158,6 +161,15 @@ gprel16_reloc_p (unsigned int r_type) + return r_type == R_MIPS_GPREL16 || r_type == R_MIPS16_GPREL; + } + ++extern bfd_vma _bfd_mips_elf_plt_sym_val ++ (bfd_vma, const asection *, const arelent *); ++extern void _bfd_mips_elf_begin_write_processing ++ (bfd *abfd, struct bfd_link_info *link_info); ++extern bfd_boolean bfd_mips_elf_maybe_create_non_pic_to_pic_stubs_section ++ (struct bfd_link_info *); ++extern void _bfd_mips_post_process_headers ++ (bfd *abfd, struct bfd_link_info *link_info); ++ + #define elf_backend_common_definition _bfd_mips_elf_common_definition + #define elf_backend_name_local_section_symbols \ + _bfd_mips_elf_name_local_section_symbols +--- a/gas/config/tc-mips.c ++++ b/gas/config/tc-mips.c +@@ -1900,6 +1900,12 @@ md_begin (void) + as_bad (_("-G may not be used in position-independent code")); + g_switch_value = 0; + } ++ else if (mips_abicalls) ++ { ++ if (g_switch_seen && g_switch_value != 0) ++ as_bad (_("-G may not be used with abicalls")); ++ g_switch_value = 0; ++ } + + if (! bfd_set_arch_mach (stdoutput, bfd_arch_mips, file_mips_arch)) + as_warn (_("Could not set architecture and machine")); +@@ -11270,6 +11276,7 @@ enum options + OPTION_PDR, + OPTION_NO_PDR, + OPTION_MVXWORKS_PIC, ++ OPTION_NON_PIC_ABICALLS, + #endif /* OBJ_ELF */ + OPTION_END_OF_ENUM + }; +@@ -11377,6 +11384,7 @@ struct option md_longopts[] = + {"mpdr", no_argument, NULL, OPTION_PDR}, + {"mno-pdr", no_argument, NULL, OPTION_NO_PDR}, + {"mvxworks-pic", no_argument, NULL, OPTION_MVXWORKS_PIC}, ++ {"mnon-pic-abicalls", no_argument, NULL, OPTION_NON_PIC_ABICALLS}, + #endif /* OBJ_ELF */ + + {NULL, no_argument, NULL, 0} +@@ -11825,6 +11833,11 @@ md_parse_option (int c, char *arg) + case OPTION_MVXWORKS_PIC: + mips_pic = VXWORKS_PIC; + break; ++ ++ case OPTION_NON_PIC_ABICALLS: ++ mips_pic = NO_PIC; ++ mips_abicalls = TRUE; ++ break; + #endif /* OBJ_ELF */ + + default: diff --git a/toolchain/binutils/patches/2.21.1/300-001_ld_makefile_patch.patch b/toolchain/binutils/patches/2.21.1/300-001_ld_makefile_patch.patch new file mode 100644 index 000000000..275987269 --- /dev/null +++ b/toolchain/binutils/patches/2.21.1/300-001_ld_makefile_patch.patch @@ -0,0 +1,22 @@ +--- a/ld/Makefile.am ++++ b/ld/Makefile.am +@@ -37,7 +37,7 @@ endif + # We put the scripts in the directory $(scriptdir)/ldscripts. + # We can't put the scripts in $(datadir) because the SEARCH_DIR + # directives need to be different for native and cross linkers. +-scriptdir = $(tooldir)/lib ++scriptdir = $(libdir) + + EMUL = @EMUL@ + EMULATION_OFILES = @EMULATION_OFILES@ +--- a/ld/Makefile.in ++++ b/ld/Makefile.in +@@ -360,7 +360,7 @@ AM_CFLAGS = $(WARN_CFLAGS) + # We put the scripts in the directory $(scriptdir)/ldscripts. + # We can't put the scripts in $(datadir) because the SEARCH_DIR + # directives need to be different for native and cross linkers. +-scriptdir = $(tooldir)/lib ++scriptdir = $(libdir) + BASEDIR = $(srcdir)/.. + BFDDIR = $(BASEDIR)/bfd + INCDIR = $(BASEDIR)/include diff --git a/toolchain/binutils/patches/2.21.1/300-012_check_ldrunpath_length.patch b/toolchain/binutils/patches/2.21.1/300-012_check_ldrunpath_length.patch new file mode 100644 index 000000000..3746f0307 --- /dev/null +++ b/toolchain/binutils/patches/2.21.1/300-012_check_ldrunpath_length.patch @@ -0,0 +1,20 @@ +--- a/ld/emultempl/elf32.em ++++ b/ld/emultempl/elf32.em +@@ -1270,6 +1270,8 @@ fragment <link_next) + if (bfd_get_flavour (abfd) == bfd_target_elf_flavour) diff --git a/toolchain/binutils/patches/2.21.1/700-avr32.patch b/toolchain/binutils/patches/2.21.1/700-avr32.patch new file mode 100644 index 000000000..b33a3b267 --- /dev/null +++ b/toolchain/binutils/patches/2.21.1/700-avr32.patch @@ -0,0 +1,30879 @@ +--- a/bfd/archures.c ++++ b/bfd/archures.c +@@ -373,6 +373,12 @@ DESCRIPTION + .#define bfd_mach_avr5 5 + .#define bfd_mach_avr51 51 + .#define bfd_mach_avr6 6 ++. bfd_arch_avr32, {* Atmel AVR32 *} ++.#define bfd_mach_avr32_ap 7000 ++.#define bfd_mach_avr32_uc 3000 ++.#define bfd_mach_avr32_ucr1 3001 ++.#define bfd_mach_avr32_ucr2 3002 ++.#define bfd_mach_avr32_ucr3 3003 + . bfd_arch_bfin, {* ADI Blackfin *} + .#define bfd_mach_bfin 1 + . bfd_arch_cr16, {* National Semiconductor CompactRISC (ie CR16). *} +@@ -469,6 +475,7 @@ extern const bfd_arch_info_type bfd_alph + extern const bfd_arch_info_type bfd_arc_arch; + extern const bfd_arch_info_type bfd_arm_arch; + extern const bfd_arch_info_type bfd_avr_arch; ++extern const bfd_arch_info_type bfd_avr32_arch; + extern const bfd_arch_info_type bfd_bfin_arch; + extern const bfd_arch_info_type bfd_cr16_arch; + extern const bfd_arch_info_type bfd_cr16c_arch; +@@ -546,6 +553,7 @@ static const bfd_arch_info_type * const + &bfd_arc_arch, + &bfd_arm_arch, + &bfd_avr_arch, ++ &bfd_avr32_arch, + &bfd_bfin_arch, + &bfd_cr16_arch, + &bfd_cr16c_arch, +--- a/bfd/bfd-in2.h ++++ b/bfd/bfd-in2.h +@@ -2053,6 +2053,12 @@ enum bfd_architecture + #define bfd_mach_avr5 5 + #define bfd_mach_avr51 51 + #define bfd_mach_avr6 6 ++ bfd_arch_avr32, /* Atmel AVR32 */ ++#define bfd_mach_avr32_ap 7000 ++#define bfd_mach_avr32_uc 3000 ++#define bfd_mach_avr32_ucr1 3001 ++#define bfd_mach_avr32_ucr2 3002 ++#define bfd_mach_avr32_ucr3 3003 + bfd_arch_bfin, /* ADI Blackfin */ + #define bfd_mach_bfin 1 + bfd_arch_cr16, /* National Semiconductor CompactRISC (ie CR16). */ +@@ -3989,6 +3995,88 @@ instructions */ + BFD_RELOC_RX_ABS16UL, + BFD_RELOC_RX_RELAX, + ++/* Difference between two labels: L2 - L1. The value of L1 is encoded ++as sym + addend, while the initial difference after assembly is ++inserted into the object file by the assembler. */ ++ BFD_RELOC_AVR32_DIFF32, ++ BFD_RELOC_AVR32_DIFF16, ++ BFD_RELOC_AVR32_DIFF8, ++ ++/* Reference to a symbol through the Global Offset Table. The linker ++will allocate an entry for symbol in the GOT and insert the offset ++of this entry as the relocation value. */ ++ BFD_RELOC_AVR32_GOT32, ++ BFD_RELOC_AVR32_GOT16, ++ BFD_RELOC_AVR32_GOT8, ++ ++/* Normal (non-pc-relative) code relocations. Alignment and signedness ++is indicated by the suffixes. S means signed, U means unsigned. W ++means word-aligned, H means halfword-aligned, neither means ++byte-aligned (no alignment.) SUB5 is the same relocation as 16S. */ ++ BFD_RELOC_AVR32_21S, ++ BFD_RELOC_AVR32_16U, ++ BFD_RELOC_AVR32_16S, ++ BFD_RELOC_AVR32_SUB5, ++ BFD_RELOC_AVR32_8S_EXT, ++ BFD_RELOC_AVR32_8S, ++ BFD_RELOC_AVR32_15S, ++ ++/* PC-relative relocations are signed if neither 'U' nor 'S' is ++specified. However, we explicitly tack on a 'B' to indicate no ++alignment, to avoid confusion with data relocs. All of these resolve ++to sym + addend - offset, except the one with 'N' (negated) suffix. ++This particular one resolves to offset - sym - addend. */ ++ BFD_RELOC_AVR32_22H_PCREL, ++ BFD_RELOC_AVR32_18W_PCREL, ++ BFD_RELOC_AVR32_16B_PCREL, ++ BFD_RELOC_AVR32_16N_PCREL, ++ BFD_RELOC_AVR32_14UW_PCREL, ++ BFD_RELOC_AVR32_11H_PCREL, ++ BFD_RELOC_AVR32_10UW_PCREL, ++ BFD_RELOC_AVR32_9H_PCREL, ++ BFD_RELOC_AVR32_9UW_PCREL, ++ ++/* Subtract the link-time address of the GOT from (symbol + addend) ++and insert the result. */ ++ BFD_RELOC_AVR32_GOTPC, ++ ++/* Reference to a symbol through the GOT. The linker will allocate an ++entry for symbol in the GOT and insert the offset of this entry as ++the relocation value. addend must be zero. As usual, 'S' means ++signed, 'W' means word-aligned, etc. */ ++ BFD_RELOC_AVR32_GOTCALL, ++ BFD_RELOC_AVR32_LDA_GOT, ++ BFD_RELOC_AVR32_GOT21S, ++ BFD_RELOC_AVR32_GOT18SW, ++ BFD_RELOC_AVR32_GOT16S, ++ ++/* 32-bit constant pool entry. I don't think 8- and 16-bit entries make ++a whole lot of sense. */ ++ BFD_RELOC_AVR32_32_CPENT, ++ ++/* Constant pool references. Some of these relocations are signed, ++others are unsigned. It doesn't really matter, since the constant ++pool always comes after the code that references it. */ ++ BFD_RELOC_AVR32_CPCALL, ++ BFD_RELOC_AVR32_16_CP, ++ BFD_RELOC_AVR32_9W_CP, ++ ++/* sym must be the absolute symbol. The addend specifies the alignment ++order, e.g. if addend is 2, the linker must add padding so that the ++next address is aligned to a 4-byte boundary. */ ++ BFD_RELOC_AVR32_ALIGN, ++ ++/* Code relocations that will never make it to the output file. */ ++ BFD_RELOC_AVR32_14UW, ++ BFD_RELOC_AVR32_10UW, ++ BFD_RELOC_AVR32_10SW, ++ BFD_RELOC_AVR32_STHH_W, ++ BFD_RELOC_AVR32_7UW, ++ BFD_RELOC_AVR32_6S, ++ BFD_RELOC_AVR32_6UW, ++ BFD_RELOC_AVR32_4UH, ++ BFD_RELOC_AVR32_3U, ++ + /* Direct 12 bit. */ + BFD_RELOC_390_12, + +--- a/bfd/config.bfd ++++ b/bfd/config.bfd +@@ -346,6 +346,10 @@ case "${targ}" in + targ_underscore=yes + ;; + ++ avr32-*-*) ++ targ_defvec=bfd_elf32_avr32_vec ++ ;; ++ + c30-*-*aout* | tic30-*-*aout*) + targ_defvec=tic30_aout_vec + ;; +--- a/bfd/configure ++++ b/bfd/configure +@@ -15040,6 +15040,7 @@ do + bfd_pei_ia64_vec) tb="$tb pei-ia64.lo pepigen.lo cofflink.lo"; target_size=64 ;; + bfd_elf32_am33lin_vec) tb="$tb elf32-am33lin.lo elf32.lo $elf" ;; + bfd_elf32_avr_vec) tb="$tb elf32-avr.lo elf32.lo $elf" ;; ++ bfd_elf32_avr32_vec) tb="$tb elf32-avr32.lo elf32.lo $elf" ;; + bfd_elf32_bfin_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_bfinfdpic_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_big_generic_vec) tb="$tb elf32-gen.lo elf32.lo $elf" ;; +--- a/bfd/configure.in ++++ b/bfd/configure.in +@@ -675,6 +675,7 @@ do + bfd_pei_ia64_vec) tb="$tb pei-ia64.lo pepigen.lo cofflink.lo"; target_size=64 ;; + bfd_elf32_am33lin_vec) tb="$tb elf32-am33lin.lo elf32.lo $elf" ;; + bfd_elf32_avr_vec) tb="$tb elf32-avr.lo elf32.lo $elf" ;; ++ bfd_elf32_avr32_vec) tb="$tb elf32-avr32.lo elf32.lo $elf" ;; + bfd_elf32_bfin_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_bfinfdpic_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_big_generic_vec) tb="$tb elf32-gen.lo elf32.lo $elf" ;; +--- /dev/null ++++ b/bfd/cpu-avr32.c +@@ -0,0 +1,52 @@ ++/* BFD library support routines for AVR32. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2 of the License, or ++ (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, ++ but WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ GNU General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ ++ ++#include "bfd.h" ++#include "sysdep.h" ++#include "libbfd.h" ++ ++#define N(machine, print, default, next) \ ++ { \ ++ 32, /* 32 bits in a word */ \ ++ 32, /* 32 bits in an address */ \ ++ 8, /* 8 bits in a byte */ \ ++ bfd_arch_avr32, /* architecture */ \ ++ machine, /* machine */ \ ++ "avr32", /* arch name */ \ ++ print, /* printable name */ \ ++ 1, /* section align power */ \ ++ default, /* the default machine? */ \ ++ bfd_default_compatible, \ ++ bfd_default_scan, \ ++ next, \ ++ } ++ ++static const bfd_arch_info_type cpu_info[] = ++{ ++ N(bfd_mach_avr32_ap, "avr32:ap", FALSE, &cpu_info[1]), ++ N(bfd_mach_avr32_uc, "avr32:uc", FALSE, &cpu_info[2]), ++ N(bfd_mach_avr32_ucr1, "avr32:ucr1", FALSE, &cpu_info[3]), ++ N(bfd_mach_avr32_ucr2, "avr32:ucr2", FALSE, &cpu_info[4]), ++ N(bfd_mach_avr32_ucr3, "avr32:ucr3", FALSE, NULL), ++}; ++ ++const bfd_arch_info_type bfd_avr32_arch = ++ N(bfd_mach_avr32_ap, "avr32", TRUE, &cpu_info[0]); +--- /dev/null ++++ b/bfd/elf32-avr32.c +@@ -0,0 +1,3915 @@ ++/* AVR32-specific support for 32-bit ELF. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2 of the License, or ++ (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, ++ but WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ GNU General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ ++ ++#include "bfd.h" ++#include "sysdep.h" ++#include "bfdlink.h" ++#include "libbfd.h" ++#include "elf-bfd.h" ++#include "elf/avr32.h" ++#include "elf32-avr32.h" ++ ++#define xDEBUG ++#define xRELAX_DEBUG ++ ++#ifdef DEBUG ++# define pr_debug(fmt, args...) fprintf(stderr, fmt, ##args) ++#else ++# define pr_debug(fmt, args...) do { } while (0) ++#endif ++ ++#ifdef RELAX_DEBUG ++# define RDBG(fmt, args...) fprintf(stderr, fmt, ##args) ++#else ++# define RDBG(fmt, args...) do { } while (0) ++#endif ++ ++/* When things go wrong, we want it to blow up, damnit! */ ++#undef BFD_ASSERT ++#undef abort ++#define BFD_ASSERT(expr) \ ++ do \ ++ { \ ++ if (!(expr)) \ ++ { \ ++ bfd_assert(__FILE__, __LINE__); \ ++ abort(); \ ++ } \ ++ } \ ++ while (0) ++ ++/* The name of the dynamic interpreter. This is put in the .interp section. */ ++#define ELF_DYNAMIC_INTERPRETER "/lib/ld.so.1" ++ ++#define AVR32_GOT_HEADER_SIZE 8 ++#define AVR32_FUNCTION_STUB_SIZE 8 ++ ++#define ELF_R_INFO(x, y) ELF32_R_INFO(x, y) ++#define ELF_R_TYPE(x) ELF32_R_TYPE(x) ++#define ELF_R_SYM(x) ELF32_R_SYM(x) ++ ++#define NOP_OPCODE 0xd703 ++ ++ ++/* Mapping between BFD relocations and ELF relocations */ ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_type_lookup(bfd *abfd, bfd_reloc_code_real_type code); ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_name_lookup(bfd *abfd, const char *r_name); ++ ++static void ++avr32_info_to_howto (bfd *abfd, arelent *cache_ptr, Elf_Internal_Rela *dst); ++ ++/* Generic HOWTO */ ++#define GENH(name, align, size, bitsize, pcrel, bitpos, complain, mask) \ ++ HOWTO(name, align, size, bitsize, pcrel, bitpos, \ ++ complain_overflow_##complain, bfd_elf_generic_reloc, #name, \ ++ FALSE, 0, mask, pcrel) ++ ++static reloc_howto_type elf_avr32_howto_table[] = { ++ /* NAME ALN SZ BSZ PCREL BP COMPLAIN MASK */ ++ GENH(R_AVR32_NONE, 0, 0, 0, FALSE, 0, dont, 0x00000000), ++ ++ GENH(R_AVR32_32, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_16, 0, 1, 16, FALSE, 0, bitfield, 0x0000ffff), ++ GENH(R_AVR32_8, 0, 0, 8, FALSE, 0, bitfield, 0x000000ff), ++ GENH(R_AVR32_32_PCREL, 0, 2, 32, TRUE, 0, signed, 0xffffffff), ++ GENH(R_AVR32_16_PCREL, 0, 1, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_8_PCREL, 0, 0, 8, TRUE, 0, signed, 0x000000ff), ++ ++ /* Difference between two symbol (sym2 - sym1). The reloc encodes ++ the value of sym1. The field contains the difference before any ++ relaxing is done. */ ++ GENH(R_AVR32_DIFF32, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_DIFF16, 0, 1, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_DIFF8, 0, 0, 8, FALSE, 0, signed, 0x000000ff), ++ ++ GENH(R_AVR32_GOT32, 0, 2, 32, FALSE, 0, signed, 0xffffffff), ++ GENH(R_AVR32_GOT16, 0, 1, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_GOT8, 0, 0, 8, FALSE, 0, signed, 0x000000ff), ++ ++ GENH(R_AVR32_21S, 0, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_16U, 0, 2, 16, FALSE, 0, unsigned, 0x0000ffff), ++ GENH(R_AVR32_16S, 0, 2, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_8S, 0, 1, 8, FALSE, 4, signed, 0x00000ff0), ++ GENH(R_AVR32_8S_EXT, 0, 2, 8, FALSE, 0, signed, 0x000000ff), ++ ++ GENH(R_AVR32_22H_PCREL, 1, 2, 21, TRUE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_18W_PCREL, 2, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_16B_PCREL, 0, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_16N_PCREL, 0, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_14UW_PCREL, 2, 2, 12, TRUE, 0, unsigned, 0x0000f0ff), ++ GENH(R_AVR32_11H_PCREL, 1, 1, 10, TRUE, 4, signed, 0x00000ff3), ++ GENH(R_AVR32_10UW_PCREL, 2, 2, 8, TRUE, 0, unsigned, 0x000000ff), ++ GENH(R_AVR32_9H_PCREL, 1, 1, 8, TRUE, 4, signed, 0x00000ff0), ++ GENH(R_AVR32_9UW_PCREL, 2, 1, 7, TRUE, 4, unsigned, 0x000007f0), ++ ++ GENH(R_AVR32_HI16, 16, 2, 16, FALSE, 0, dont, 0x0000ffff), ++ GENH(R_AVR32_LO16, 0, 2, 16, FALSE, 0, dont, 0x0000ffff), ++ ++ GENH(R_AVR32_GOTPC, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_GOTCALL, 2, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_LDA_GOT, 2, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_GOT21S, 0, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_GOT18SW, 2, 2, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_GOT16S, 0, 2, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_GOT7UW, 2, 1, 5, FALSE, 4, unsigned, 0x000001f0), ++ ++ GENH(R_AVR32_32_CPENT, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_CPCALL, 2, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_16_CP, 0, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_9W_CP, 2, 1, 7, TRUE, 4, unsigned, 0x000007f0), ++ ++ GENH(R_AVR32_RELATIVE, 0, 2, 32, FALSE, 0, signed, 0xffffffff), ++ GENH(R_AVR32_GLOB_DAT, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_JMP_SLOT, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ ++ GENH(R_AVR32_ALIGN, 0, 1, 0, FALSE, 0, unsigned, 0x00000000), ++ ++ GENH(R_AVR32_15S, 2, 2, 15, FALSE, 0, signed, 0x00007fff), ++}; ++ ++struct elf_reloc_map ++{ ++ bfd_reloc_code_real_type bfd_reloc_val; ++ unsigned char elf_reloc_val; ++}; ++ ++static const struct elf_reloc_map avr32_reloc_map[] = ++{ ++ { BFD_RELOC_NONE, R_AVR32_NONE }, ++ ++ { BFD_RELOC_32, R_AVR32_32 }, ++ { BFD_RELOC_16, R_AVR32_16 }, ++ { BFD_RELOC_8, R_AVR32_8 }, ++ { BFD_RELOC_32_PCREL, R_AVR32_32_PCREL }, ++ { BFD_RELOC_16_PCREL, R_AVR32_16_PCREL }, ++ { BFD_RELOC_8_PCREL, R_AVR32_8_PCREL }, ++ { BFD_RELOC_AVR32_DIFF32, R_AVR32_DIFF32 }, ++ { BFD_RELOC_AVR32_DIFF16, R_AVR32_DIFF16 }, ++ { BFD_RELOC_AVR32_DIFF8, R_AVR32_DIFF8 }, ++ { BFD_RELOC_AVR32_GOT32, R_AVR32_GOT32 }, ++ { BFD_RELOC_AVR32_GOT16, R_AVR32_GOT16 }, ++ { BFD_RELOC_AVR32_GOT8, R_AVR32_GOT8 }, ++ ++ { BFD_RELOC_AVR32_21S, R_AVR32_21S }, ++ { BFD_RELOC_AVR32_16U, R_AVR32_16U }, ++ { BFD_RELOC_AVR32_16S, R_AVR32_16S }, ++ { BFD_RELOC_AVR32_SUB5, R_AVR32_16S }, ++ { BFD_RELOC_AVR32_8S_EXT, R_AVR32_8S_EXT }, ++ { BFD_RELOC_AVR32_8S, R_AVR32_8S }, ++ ++ { BFD_RELOC_AVR32_22H_PCREL, R_AVR32_22H_PCREL }, ++ { BFD_RELOC_AVR32_18W_PCREL, R_AVR32_18W_PCREL }, ++ { BFD_RELOC_AVR32_16B_PCREL, R_AVR32_16B_PCREL }, ++ { BFD_RELOC_AVR32_16N_PCREL, R_AVR32_16N_PCREL }, ++ { BFD_RELOC_AVR32_11H_PCREL, R_AVR32_11H_PCREL }, ++ { BFD_RELOC_AVR32_10UW_PCREL, R_AVR32_10UW_PCREL }, ++ { BFD_RELOC_AVR32_9H_PCREL, R_AVR32_9H_PCREL }, ++ { BFD_RELOC_AVR32_9UW_PCREL, R_AVR32_9UW_PCREL }, ++ ++ { BFD_RELOC_HI16, R_AVR32_HI16 }, ++ { BFD_RELOC_LO16, R_AVR32_LO16 }, ++ ++ { BFD_RELOC_AVR32_GOTPC, R_AVR32_GOTPC }, ++ { BFD_RELOC_AVR32_GOTCALL, R_AVR32_GOTCALL }, ++ { BFD_RELOC_AVR32_LDA_GOT, R_AVR32_LDA_GOT }, ++ { BFD_RELOC_AVR32_GOT21S, R_AVR32_GOT21S }, ++ { BFD_RELOC_AVR32_GOT18SW, R_AVR32_GOT18SW }, ++ { BFD_RELOC_AVR32_GOT16S, R_AVR32_GOT16S }, ++ /* GOT7UW should never be generated by the assembler */ ++ ++ { BFD_RELOC_AVR32_32_CPENT, R_AVR32_32_CPENT }, ++ { BFD_RELOC_AVR32_CPCALL, R_AVR32_CPCALL }, ++ { BFD_RELOC_AVR32_16_CP, R_AVR32_16_CP }, ++ { BFD_RELOC_AVR32_9W_CP, R_AVR32_9W_CP }, ++ ++ { BFD_RELOC_AVR32_ALIGN, R_AVR32_ALIGN }, ++ ++ { BFD_RELOC_AVR32_15S, R_AVR32_15S }, ++}; ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_type_lookup (bfd *abfd ATTRIBUTE_UNUSED, ++ bfd_reloc_code_real_type code) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < sizeof(avr32_reloc_map) / sizeof(struct elf_reloc_map); i++) ++ { ++ if (avr32_reloc_map[i].bfd_reloc_val == code) ++ return &elf_avr32_howto_table[avr32_reloc_map[i].elf_reloc_val]; ++ } ++ ++ return NULL; ++} ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_name_lookup (bfd *abfd ATTRIBUTE_UNUSED, ++ const char *r_name) ++{ ++ unsigned int i; ++ ++ for (i = 0; ++ i < sizeof (elf_avr32_howto_table) / sizeof (elf_avr32_howto_table[0]); ++ i++) ++ if (elf_avr32_howto_table[i].name != NULL ++ && strcasecmp (elf_avr32_howto_table[i].name, r_name) == 0) ++ return &elf_avr32_howto_table[i]; ++ ++ return NULL; ++} ++ ++/* Set the howto pointer for an AVR32 ELF reloc. */ ++static void ++avr32_info_to_howto (bfd *abfd ATTRIBUTE_UNUSED, ++ arelent *cache_ptr, ++ Elf_Internal_Rela *dst) ++{ ++ unsigned int r_type; ++ ++ r_type = ELF32_R_TYPE (dst->r_info); ++ BFD_ASSERT (r_type < (unsigned int) R_AVR32_max); ++ cache_ptr->howto = &elf_avr32_howto_table[r_type]; ++} ++ ++ ++/* AVR32 ELF linker hash table and associated hash entries. */ ++ ++static struct bfd_hash_entry * ++avr32_elf_link_hash_newfunc(struct bfd_hash_entry *entry, ++ struct bfd_hash_table *table, ++ const char *string); ++static void ++avr32_elf_copy_indirect_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *dir, ++ struct elf_link_hash_entry *ind); ++static struct bfd_link_hash_table * ++avr32_elf_link_hash_table_create(bfd *abfd); ++ ++/* ++ Try to limit memory usage to something reasonable when sorting the ++ GOT. If just a couple of entries end up getting more references ++ than this, it won't affect performance at all, but if there are many ++ of them, we could end up with the wrong symbols being assigned the ++ first GOT entries. ++*/ ++#define MAX_NR_GOT_HOLES 2048 ++ ++/* ++ AVR32 GOT entry. We need to keep track of refcounts and offsets ++ simultaneously, since we need the offsets during relaxation, and we ++ also want to be able to drop GOT entries during relaxation. In ++ addition to this, we want to keep the list of GOT entries sorted so ++ that we can keep the most-used entries at the lowest offsets. ++*/ ++struct got_entry ++{ ++ struct got_entry *next; ++ struct got_entry **pprev; ++ int refcount; ++ bfd_signed_vma offset; ++}; ++ ++struct elf_avr32_link_hash_entry ++{ ++ struct elf_link_hash_entry root; ++ ++ /* Number of runtime relocations against this symbol. */ ++ unsigned int possibly_dynamic_relocs; ++ ++ /* If there are anything but R_AVR32_GOT18 relocations against this ++ symbol, it means that someone may be taking the address of the ++ function, and we should therefore not create a stub. */ ++ bfd_boolean no_fn_stub; ++ ++ /* If there is a R_AVR32_32 relocation in a read-only section ++ against this symbol, we could be in trouble. If we're linking a ++ shared library or this symbol is defined in one, it means we must ++ emit a run-time reloc for it and that's not allowed in read-only ++ sections. */ ++ asection *readonly_reloc_sec; ++ bfd_vma readonly_reloc_offset; ++ ++ /* Record which frag (if any) contains the symbol. This is used ++ during relaxation in order to avoid having to update all symbols ++ whenever we move something. For local symbols, this information ++ is in the local_sym_frag member of struct elf_obj_tdata. */ ++ struct fragment *sym_frag; ++}; ++#define avr32_elf_hash_entry(ent) ((struct elf_avr32_link_hash_entry *)(ent)) ++ ++struct elf_avr32_link_hash_table ++{ ++ struct elf_link_hash_table root; ++ ++ /* Shortcuts to get to dynamic linker sections. */ ++ asection *sgot; ++ asection *srelgot; ++ asection *sstub; ++ ++ /* We use a variation of Pigeonhole Sort to sort the GOT. After the ++ initial refcounts have been determined, we initialize ++ nr_got_holes to the highest refcount ever seen and allocate an ++ array of nr_got_holes entries for got_hole. Each GOT entry is ++ then stored in this array at the index given by its refcount. ++ ++ When a GOT entry has its refcount decremented during relaxation, ++ it is moved to a lower index in the got_hole array. ++ */ ++ struct got_entry **got_hole; ++ int nr_got_holes; ++ ++ /* Dynamic relocations to local symbols. Only used when linking a ++ shared library and -Bsymbolic is not given. */ ++ unsigned int local_dynamic_relocs; ++ ++ bfd_boolean relocations_analyzed; ++ bfd_boolean symbols_adjusted; ++ bfd_boolean repeat_pass; ++ bfd_boolean direct_data_refs; ++ unsigned int relax_iteration; ++ unsigned int relax_pass; ++}; ++#define avr32_elf_hash_table(p) \ ++ ((struct elf_avr32_link_hash_table *)((p)->hash)) ++ ++static struct bfd_hash_entry * ++avr32_elf_link_hash_newfunc(struct bfd_hash_entry *entry, ++ struct bfd_hash_table *table, ++ const char *string) ++{ ++ struct elf_avr32_link_hash_entry *ret = avr32_elf_hash_entry(entry); ++ ++ /* Allocate the structure if it hasn't already been allocated by a ++ subclass */ ++ if (ret == NULL) ++ ret = (struct elf_avr32_link_hash_entry *) ++ bfd_hash_allocate(table, sizeof(struct elf_avr32_link_hash_entry)); ++ ++ if (ret == NULL) ++ return NULL; ++ ++ memset(ret, 0, sizeof(struct elf_avr32_link_hash_entry)); ++ ++ /* Give the superclass a chance */ ++ ret = (struct elf_avr32_link_hash_entry *) ++ _bfd_elf_link_hash_newfunc((struct bfd_hash_entry *)ret, table, string); ++ ++ return (struct bfd_hash_entry *)ret; ++} ++ ++/* Copy data from an indirect symbol to its direct symbol, hiding the ++ old indirect symbol. Process additional relocation information. ++ Also called for weakdefs, in which case we just let ++ _bfd_elf_link_hash_copy_indirect copy the flags for us. */ ++ ++static void ++avr32_elf_copy_indirect_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *dir, ++ struct elf_link_hash_entry *ind) ++{ ++ struct elf_avr32_link_hash_entry *edir, *eind; ++ ++ _bfd_elf_link_hash_copy_indirect (info, dir, ind); ++ ++ if (ind->root.type != bfd_link_hash_indirect) ++ return; ++ ++ edir = (struct elf_avr32_link_hash_entry *)dir; ++ eind = (struct elf_avr32_link_hash_entry *)ind; ++ ++ edir->possibly_dynamic_relocs += eind->possibly_dynamic_relocs; ++ edir->no_fn_stub = edir->no_fn_stub || eind->no_fn_stub; ++} ++ ++static struct bfd_link_hash_table * ++avr32_elf_link_hash_table_create(bfd *abfd) ++{ ++ struct elf_avr32_link_hash_table *ret; ++ ++ ret = bfd_zmalloc(sizeof(*ret)); ++ if (ret == NULL) ++ return NULL; ++ ++ if (! _bfd_elf_link_hash_table_init(&ret->root, abfd, ++ avr32_elf_link_hash_newfunc, ++ sizeof (struct elf_avr32_link_hash_entry))) ++ { ++ free(ret); ++ return NULL; ++ } ++ ++ /* Prevent the BFD core from creating bogus got_entry pointers */ ++ ret->root.init_got_refcount.glist = NULL; ++ ret->root.init_plt_refcount.glist = NULL; ++ ret->root.init_got_offset.glist = NULL; ++ ret->root.init_plt_offset.glist = NULL; ++ ++ return &ret->root.root; ++} ++ ++ ++/* Initial analysis and creation of dynamic sections and symbols */ ++ ++static asection * ++create_dynamic_section(bfd *dynobj, const char *name, flagword flags, ++ unsigned int align_power); ++static struct elf_link_hash_entry * ++create_dynamic_symbol(bfd *dynobj, struct bfd_link_info *info, ++ const char *name, asection *sec, ++ bfd_vma offset); ++static bfd_boolean ++avr32_elf_create_got_section (bfd *dynobj, struct bfd_link_info *info); ++static bfd_boolean ++avr32_elf_create_dynamic_sections (bfd *dynobj, struct bfd_link_info *info); ++static bfd_boolean ++avr32_check_relocs (bfd *abfd, struct bfd_link_info *info, asection *sec, ++ const Elf_Internal_Rela *relocs); ++static bfd_boolean ++avr32_elf_adjust_dynamic_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *h); ++ ++static asection * ++create_dynamic_section(bfd *dynobj, const char *name, flagword flags, ++ unsigned int align_power) ++{ ++ asection *sec; ++ ++ sec = bfd_make_section(dynobj, name); ++ if (!sec ++ || !bfd_set_section_flags(dynobj, sec, flags) ++ || !bfd_set_section_alignment(dynobj, sec, align_power)) ++ return NULL; ++ ++ return sec; ++} ++ ++static struct elf_link_hash_entry * ++create_dynamic_symbol(bfd *dynobj, struct bfd_link_info *info, ++ const char *name, asection *sec, ++ bfd_vma offset) ++{ ++ struct bfd_link_hash_entry *bh = NULL; ++ struct elf_link_hash_entry *h; ++ const struct elf_backend_data *bed = get_elf_backend_data (dynobj); ++ ++ if (!(_bfd_generic_link_add_one_symbol ++ (info, dynobj, name, BSF_GLOBAL, sec, offset, NULL, FALSE, ++ bed->collect, &bh))) ++ return NULL; ++ ++ h = (struct elf_link_hash_entry *)bh; ++ h->def_regular = 1; ++ h->type = STT_OBJECT; ++ h->other = STV_HIDDEN; ++ ++ return h; ++} ++ ++static bfd_boolean ++avr32_elf_create_got_section (bfd *dynobj, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ flagword flags; ++ const struct elf_backend_data *bed = get_elf_backend_data (dynobj); ++ ++ htab = avr32_elf_hash_table(info); ++ flags = bed->dynamic_sec_flags; ++ ++ if (htab->sgot) ++ return TRUE; ++ ++ htab->sgot = create_dynamic_section(dynobj, ".got", flags, 2); ++ if (!htab->srelgot) ++ htab->srelgot = create_dynamic_section(dynobj, ".rela.got", ++ flags | SEC_READONLY, 2); ++ ++ if (!htab->sgot || !htab->srelgot) ++ return FALSE; ++ ++ htab->root.hgot = create_dynamic_symbol(dynobj, info, "_GLOBAL_OFFSET_TABLE_", ++ htab->sgot, 0); ++ if (!htab->root.hgot) ++ return FALSE; ++ ++ /* Make room for the GOT header */ ++ htab->sgot->size += bed->got_header_size; ++ ++ return TRUE; ++} ++ ++/* (1) Create all dynamic (i.e. linker generated) sections that we may ++ need during the link */ ++ ++static bfd_boolean ++avr32_elf_create_dynamic_sections (bfd *dynobj, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ flagword flags; ++ const struct elf_backend_data *bed = get_elf_backend_data (dynobj); ++ ++ pr_debug("(1) create dynamic sections\n"); ++ ++ htab = avr32_elf_hash_table(info); ++ flags = bed->dynamic_sec_flags; ++ ++ if (!avr32_elf_create_got_section (dynobj, info)) ++ return FALSE; ++ ++ if (!htab->sstub) ++ htab->sstub = create_dynamic_section(dynobj, ".stub", ++ flags | SEC_READONLY | SEC_CODE, 2); ++ ++ if (!htab->sstub) ++ return FALSE; ++ ++ return TRUE; ++} ++ ++/* (2) Go through all the relocs and count any potential GOT- or ++ PLT-references to each symbol */ ++ ++static bfd_boolean ++avr32_check_relocs (bfd *abfd, struct bfd_link_info *info, asection *sec, ++ const Elf_Internal_Rela *relocs) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ struct elf_avr32_link_hash_table *htab; ++ struct elf_link_hash_entry **sym_hashes; ++ const Elf_Internal_Rela *rel, *rel_end; ++ struct got_entry **local_got_ents; ++ struct got_entry *got; ++ const struct elf_backend_data *bed = get_elf_backend_data (abfd); ++ asection *sgot; ++ bfd *dynobj; ++ ++ pr_debug("(2) check relocs for %s:<%s> (size 0x%lx)\n", ++ abfd->filename, sec->name, sec->size); ++ ++ if (info->relocatable) ++ return TRUE; ++ ++ dynobj = elf_hash_table(info)->dynobj; ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ sym_hashes = elf_sym_hashes(abfd); ++ htab = avr32_elf_hash_table(info); ++ local_got_ents = elf_local_got_ents(abfd); ++ sgot = htab->sgot; ++ ++ rel_end = relocs + sec->reloc_count; ++ for (rel = relocs; rel < rel_end; rel++) ++ { ++ unsigned long r_symndx, r_type; ++ struct elf_avr32_link_hash_entry *h; ++ ++ r_symndx = ELF32_R_SYM(rel->r_info); ++ r_type = ELF32_R_TYPE(rel->r_info); ++ ++ /* Local symbols use local_got_ents, while others store the same ++ information in the hash entry */ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ pr_debug(" (2a) processing local symbol %lu\n", r_symndx); ++ h = NULL; ++ } ++ else ++ { ++ h = (struct elf_avr32_link_hash_entry *) ++ sym_hashes[r_symndx - symtab_hdr->sh_info]; ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_avr32_link_hash_entry *)h->root.root.u.i.link; ++ pr_debug(" (2a) processing symbol %s\n", h->root.root.root.string); ++ } ++ ++ /* Some relocs require special sections to be created. */ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ if (rel->r_addend) ++ { ++ if (info->callbacks->reloc_dangerous ++ (info, _("Non-zero addend on GOT-relative relocation"), ++ abfd, sec, rel->r_offset) == FALSE) ++ return FALSE; ++ } ++ /* fall through */ ++ case R_AVR32_GOTPC: ++ if (dynobj == NULL) ++ elf_hash_table(info)->dynobj = dynobj = abfd; ++ if (sgot == NULL && !avr32_elf_create_got_section(dynobj, info)) ++ return FALSE; ++ break; ++ case R_AVR32_32: ++ /* We may need to create .rela.dyn later on. */ ++ if (dynobj == NULL ++ && (info->shared || h != NULL) ++ && (sec->flags & SEC_ALLOC)) ++ elf_hash_table(info)->dynobj = dynobj = abfd; ++ break; ++ } ++ ++ if (h != NULL && r_type != R_AVR32_GOT18SW) ++ h->no_fn_stub = TRUE; ++ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ if (h != NULL) ++ { ++ got = h->root.got.glist; ++ if (!got) ++ { ++ got = bfd_zalloc(abfd, sizeof(struct got_entry)); ++ if (!got) ++ return FALSE; ++ h->root.got.glist = got; ++ } ++ } ++ else ++ { ++ if (!local_got_ents) ++ { ++ bfd_size_type size; ++ bfd_size_type i; ++ struct got_entry *tmp_entry; ++ ++ size = symtab_hdr->sh_info; ++ size *= sizeof(struct got_entry *) + sizeof(struct got_entry); ++ local_got_ents = bfd_zalloc(abfd, size); ++ if (!local_got_ents) ++ return FALSE; ++ ++ elf_local_got_ents(abfd) = local_got_ents; ++ ++ tmp_entry = (struct got_entry *)(local_got_ents ++ + symtab_hdr->sh_info); ++ for (i = 0; i < symtab_hdr->sh_info; i++) ++ local_got_ents[i] = &tmp_entry[i]; ++ } ++ ++ got = local_got_ents[r_symndx]; ++ } ++ ++ got->refcount++; ++ if (got->refcount > htab->nr_got_holes) ++ htab->nr_got_holes = got->refcount; ++ break; ++ ++ case R_AVR32_32: ++ if ((info->shared || h != NULL) ++ && (sec->flags & SEC_ALLOC)) ++ { ++ if (htab->srelgot == NULL) ++ { ++ htab->srelgot = create_dynamic_section(dynobj, ".rela.got", ++ bed->dynamic_sec_flags ++ | SEC_READONLY, 2); ++ if (htab->srelgot == NULL) ++ return FALSE; ++ } ++ ++ if (sec->flags & SEC_READONLY ++ && !h->readonly_reloc_sec) ++ { ++ h->readonly_reloc_sec = sec; ++ h->readonly_reloc_offset = rel->r_offset; ++ } ++ ++ if (h != NULL) ++ { ++ pr_debug("Non-GOT reference to symbol %s\n", ++ h->root.root.root.string); ++ h->possibly_dynamic_relocs++; ++ } ++ else ++ { ++ pr_debug("Non-GOT reference to local symbol %lu\n", ++ r_symndx); ++ htab->local_dynamic_relocs++; ++ } ++ } ++ ++ break; ++ ++ /* TODO: GNU_VTINHERIT and GNU_VTENTRY */ ++ } ++ } ++ ++ return TRUE; ++} ++ ++/* (3) Adjust a symbol defined by a dynamic object and referenced by a ++ regular object. The current definition is in some section of the ++ dynamic object, but we're not including those sections. We have to ++ change the definition to something the rest of the link can ++ understand. */ ++ ++static bfd_boolean ++avr32_elf_adjust_dynamic_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *h) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct elf_avr32_link_hash_entry *havr; ++ bfd *dynobj; ++ ++ pr_debug("(3) adjust dynamic symbol %s\n", h->root.root.string); ++ ++ htab = avr32_elf_hash_table(info); ++ havr = (struct elf_avr32_link_hash_entry *)h; ++ dynobj = elf_hash_table(info)->dynobj; ++ ++ /* Make sure we know what is going on here. */ ++ BFD_ASSERT (dynobj != NULL ++ && (h->u.weakdef != NULL ++ || (h->def_dynamic ++ && h->ref_regular ++ && !h->def_regular))); ++ ++ /* We don't want dynamic relocations in read-only sections. */ ++ if (havr->readonly_reloc_sec) ++ { ++ if (info->callbacks->reloc_dangerous ++ (info, _("dynamic relocation in read-only section"), ++ havr->readonly_reloc_sec->owner, havr->readonly_reloc_sec, ++ havr->readonly_reloc_offset) == FALSE) ++ return FALSE; ++ } ++ ++ /* If this is a function, create a stub if possible and set the ++ symbol to the stub location. */ ++ if (0 && !havr->no_fn_stub) ++ { ++ if (!h->def_regular) ++ { ++ asection *s = htab->sstub; ++ ++ BFD_ASSERT(s != NULL); ++ ++ h->root.u.def.section = s; ++ h->root.u.def.value = s->size; ++ h->plt.offset = s->size; ++ s->size += AVR32_FUNCTION_STUB_SIZE; ++ ++ return TRUE; ++ } ++ } ++ else if (h->type == STT_FUNC) ++ { ++ /* This will set the entry for this symbol in the GOT to 0, and ++ the dynamic linker will take care of this. */ ++ h->root.u.def.value = 0; ++ return TRUE; ++ } ++ ++ /* If this is a weak symbol, and there is a real definition, the ++ processor independent code will have arranged for us to see the ++ real definition first, and we can just use the same value. */ ++ if (h->u.weakdef != NULL) ++ { ++ BFD_ASSERT(h->u.weakdef->root.type == bfd_link_hash_defined ++ || h->u.weakdef->root.type == bfd_link_hash_defweak); ++ h->root.u.def.section = h->u.weakdef->root.u.def.section; ++ h->root.u.def.value = h->u.weakdef->root.u.def.value; ++ return TRUE; ++ } ++ ++ /* This is a reference to a symbol defined by a dynamic object which ++ is not a function. */ ++ ++ return TRUE; ++} ++ ++ ++/* Garbage-collection of unused sections */ ++ ++static asection * ++avr32_elf_gc_mark_hook(asection *sec, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED, ++ Elf_Internal_Rela *rel, ++ struct elf_link_hash_entry *h, ++ Elf_Internal_Sym *sym) ++{ ++ if (h) ++ { ++ switch (ELF32_R_TYPE(rel->r_info)) ++ { ++ /* TODO: VTINHERIT/VTENTRY */ ++ default: ++ switch (h->root.type) ++ { ++ case bfd_link_hash_defined: ++ case bfd_link_hash_defweak: ++ return h->root.u.def.section; ++ ++ case bfd_link_hash_common: ++ return h->root.u.c.p->section; ++ ++ default: ++ break; ++ } ++ } ++ } ++ else ++ return bfd_section_from_elf_index(sec->owner, sym->st_shndx); ++ ++ return NULL; ++} ++ ++/* Update the GOT entry reference counts for the section being removed. */ ++static bfd_boolean ++avr32_elf_gc_sweep_hook(bfd *abfd, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED, ++ asection *sec, ++ const Elf_Internal_Rela *relocs) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ struct elf_avr32_link_hash_entry **sym_hashes; ++ struct got_entry **local_got_ents; ++ const Elf_Internal_Rela *rel, *relend; ++ ++ if (!(sec->flags & SEC_ALLOC)) ++ return TRUE; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ sym_hashes = (struct elf_avr32_link_hash_entry **)elf_sym_hashes(abfd); ++ local_got_ents = elf_local_got_ents(abfd); ++ ++ relend = relocs + sec->reloc_count; ++ for (rel = relocs; rel < relend; rel++) ++ { ++ unsigned long r_symndx; ++ unsigned int r_type; ++ struct elf_avr32_link_hash_entry *h = NULL; ++ ++ r_symndx = ELF32_R_SYM(rel->r_info); ++ if (r_symndx >= symtab_hdr->sh_info) ++ { ++ h = sym_hashes[r_symndx - symtab_hdr->sh_info]; ++ while (h->root.root.type == bfd_link_hash_indirect ++ || h->root.root.type == bfd_link_hash_warning) ++ h = (struct elf_avr32_link_hash_entry *)h->root.root.u.i.link; ++ } ++ ++ r_type = ELF32_R_TYPE(rel->r_info); ++ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ if (h) ++ h->root.got.glist->refcount--; ++ else ++ local_got_ents[r_symndx]->refcount--; ++ break; ++ ++ case R_AVR32_32: ++ if (info->shared || h) ++ { ++ if (h) ++ h->possibly_dynamic_relocs--; ++ else ++ avr32_elf_hash_table(info)->local_dynamic_relocs--; ++ } ++ ++ default: ++ break; ++ } ++ } ++ ++ return TRUE; ++} ++ ++/* Sizing and refcounting of dynamic sections */ ++ ++static void ++insert_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got); ++static void ++unref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got); ++static void ++ref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got); ++static bfd_boolean ++assign_got_offsets(struct elf_avr32_link_hash_table *htab); ++static bfd_boolean ++allocate_dynrelocs(struct elf_link_hash_entry *h, void *_info); ++static bfd_boolean ++avr32_elf_size_dynamic_sections (bfd *output_bfd, ++ struct bfd_link_info *info); ++ ++static void ++insert_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got) ++{ ++ /* Any entries with got_refcount > htab->nr_got_holes end up in the ++ * last pigeonhole without any sorting. We expect the number of such ++ * entries to be small, so it is very unlikely to affect ++ * performance. */ ++ int entry = got->refcount; ++ ++ if (entry > htab->nr_got_holes) ++ entry = htab->nr_got_holes; ++ ++ got->pprev = &htab->got_hole[entry]; ++ got->next = htab->got_hole[entry]; ++ ++ if (got->next) ++ got->next->pprev = &got->next; ++ ++ htab->got_hole[entry] = got; ++} ++ ++/* Decrement the refcount of a GOT entry and update its position in ++ the pigeonhole array. */ ++static void ++unref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got) ++{ ++ BFD_ASSERT(got->refcount > 0); ++ ++ if (got->next) ++ got->next->pprev = got->pprev; ++ ++ *(got->pprev) = got->next; ++ got->refcount--; ++ insert_got_entry(htab, got); ++} ++ ++static void ++ref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got) ++{ ++ if (got->next) ++ got->next->pprev = got->pprev; ++ ++ *(got->pprev) = got->next; ++ got->refcount++; ++ insert_got_entry(htab, got); ++ ++ BFD_ASSERT(got->refcount > 0); ++} ++ ++/* Assign offsets to all GOT entries we intend to keep. The entries ++ that are referenced most often are placed at low offsets so that we ++ can use compact instructions as much as possible. ++ ++ Returns TRUE if any offsets or the total size of the GOT changed. */ ++ ++static bfd_boolean ++assign_got_offsets(struct elf_avr32_link_hash_table *htab) ++{ ++ struct got_entry *got; ++ bfd_size_type got_size = 0; ++ bfd_boolean changed = FALSE; ++ bfd_signed_vma offset; ++ int i; ++ ++ /* The GOT header provides the address of the DYNAMIC segment, so ++ we need that even if the GOT is otherwise empty. */ ++ if (htab->root.dynamic_sections_created) ++ got_size = AVR32_GOT_HEADER_SIZE; ++ ++ for (i = htab->nr_got_holes; i > 0; i--) ++ { ++ got = htab->got_hole[i]; ++ while (got) ++ { ++ if (got->refcount > 0) ++ { ++ offset = got_size; ++ if (got->offset != offset) ++ { ++ RDBG("GOT offset changed: %ld -> %ld\n", ++ got->offset, offset); ++ changed = TRUE; ++ } ++ got->offset = offset; ++ got_size += 4; ++ } ++ got = got->next; ++ } ++ } ++ ++ if (htab->sgot->size != got_size) ++ { ++ RDBG("GOT size changed: %lu -> %lu\n", htab->sgot->size, ++ got_size); ++ changed = TRUE; ++ } ++ htab->sgot->size = got_size; ++ ++ RDBG("assign_got_offsets: total size %lu (%s)\n", ++ got_size, changed ? "changed" : "no change"); ++ ++ return changed; ++} ++ ++static bfd_boolean ++allocate_dynrelocs(struct elf_link_hash_entry *h, void *_info) ++{ ++ struct bfd_link_info *info = _info; ++ struct elf_avr32_link_hash_table *htab; ++ struct elf_avr32_link_hash_entry *havr; ++ struct got_entry *got; ++ ++ pr_debug(" (4b) allocate_dynrelocs: %s\n", h->root.root.string); ++ ++ if (h->root.type == bfd_link_hash_indirect) ++ return TRUE; ++ ++ if (h->root.type == bfd_link_hash_warning) ++ /* When warning symbols are created, they **replace** the "real" ++ entry in the hash table, thus we never get to see the real ++ symbol in a hash traversal. So look at it now. */ ++ h = (struct elf_link_hash_entry *) h->root.u.i.link; ++ ++ htab = avr32_elf_hash_table(info); ++ havr = (struct elf_avr32_link_hash_entry *)h; ++ ++ got = h->got.glist; ++ ++ /* If got is NULL, the symbol is never referenced through the GOT */ ++ if (got && got->refcount > 0) ++ { ++ insert_got_entry(htab, got); ++ ++ /* Shared libraries need relocs for all GOT entries unless the ++ symbol is forced local or -Bsymbolic is used. Others need ++ relocs for everything that is not guaranteed to be defined in ++ a regular object. */ ++ if ((info->shared ++ && !info->symbolic ++ && h->dynindx != -1) ++ || (htab->root.dynamic_sections_created ++ && h->def_dynamic ++ && !h->def_regular)) ++ htab->srelgot->size += sizeof(Elf32_External_Rela); ++ } ++ ++ if (havr->possibly_dynamic_relocs ++ && (info->shared ++ || (elf_hash_table(info)->dynamic_sections_created ++ && h->def_dynamic ++ && !h->def_regular))) ++ { ++ pr_debug("Allocating %d dynamic reloc against symbol %s...\n", ++ havr->possibly_dynamic_relocs, h->root.root.string); ++ htab->srelgot->size += (havr->possibly_dynamic_relocs ++ * sizeof(Elf32_External_Rela)); ++ } ++ ++ return TRUE; ++} ++ ++/* (4) Calculate the sizes of the linker-generated sections and ++ allocate memory for them. */ ++ ++static bfd_boolean ++avr32_elf_size_dynamic_sections (bfd *output_bfd, ++ struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ bfd *dynobj; ++ asection *s; ++ bfd *ibfd; ++ bfd_boolean relocs; ++ ++ pr_debug("(4) size dynamic sections\n"); ++ ++ htab = avr32_elf_hash_table(info); ++ dynobj = htab->root.dynobj; ++ BFD_ASSERT(dynobj != NULL); ++ ++ if (htab->root.dynamic_sections_created) ++ { ++ /* Initialize the contents of the .interp section to the name of ++ the dynamic loader */ ++ if (info->executable) ++ { ++ s = bfd_get_section_by_name(dynobj, ".interp"); ++ BFD_ASSERT(s != NULL); ++ s->size = sizeof(ELF_DYNAMIC_INTERPRETER); ++ s->contents = (unsigned char *)ELF_DYNAMIC_INTERPRETER; ++ } ++ } ++ ++ if (htab->nr_got_holes > 0) ++ { ++ /* Allocate holes for the pigeonhole sort algorithm */ ++ pr_debug("Highest GOT refcount: %d\n", htab->nr_got_holes); ++ ++ /* Limit the memory usage by clipping the number of pigeonholes ++ * at a predefined maximum. All entries with a higher refcount ++ * will end up in the last pigeonhole. */ ++ if (htab->nr_got_holes >= MAX_NR_GOT_HOLES) ++ { ++ htab->nr_got_holes = MAX_NR_GOT_HOLES - 1; ++ ++ pr_debug("Limiting maximum number of GOT pigeonholes to %u\n", ++ htab->nr_got_holes); ++ } ++ htab->got_hole = bfd_zalloc(output_bfd, ++ sizeof(struct got_entry *) ++ * (htab->nr_got_holes + 1)); ++ if (!htab->got_hole) ++ return FALSE; ++ ++ /* Set up .got offsets for local syms. */ ++ for (ibfd = info->input_bfds; ibfd != NULL; ibfd = ibfd->link_next) ++ { ++ struct got_entry **local_got; ++ struct got_entry **end_local_got; ++ Elf_Internal_Shdr *symtab_hdr; ++ bfd_size_type locsymcount; ++ ++ pr_debug(" (4a) processing file %s...\n", ibfd->filename); ++ ++ BFD_ASSERT(bfd_get_flavour(ibfd) == bfd_target_elf_flavour); ++ ++ local_got = elf_local_got_ents(ibfd); ++ if (!local_got) ++ continue; ++ ++ symtab_hdr = &elf_tdata(ibfd)->symtab_hdr; ++ locsymcount = symtab_hdr->sh_info; ++ end_local_got = local_got + locsymcount; ++ ++ for (; local_got < end_local_got; ++local_got) ++ insert_got_entry(htab, *local_got); ++ } ++ } ++ ++ /* Allocate global sym .got entries and space for global sym ++ dynamic relocs */ ++ elf_link_hash_traverse(&htab->root, allocate_dynrelocs, info); ++ ++ /* Now that we have sorted the GOT entries, we are ready to ++ assign offsets and determine the initial size of the GOT. */ ++ if (htab->sgot) ++ assign_got_offsets(htab); ++ ++ /* Allocate space for local sym dynamic relocs */ ++ BFD_ASSERT(htab->local_dynamic_relocs == 0 || info->shared); ++ if (htab->local_dynamic_relocs) ++ htab->srelgot->size += (htab->local_dynamic_relocs ++ * sizeof(Elf32_External_Rela)); ++ ++ /* We now have determined the sizes of the various dynamic ++ sections. Allocate memory for them. */ ++ relocs = FALSE; ++ for (s = dynobj->sections; s; s = s->next) ++ { ++ if ((s->flags & SEC_LINKER_CREATED) == 0) ++ continue; ++ ++ if (s == htab->sgot ++ || s == htab->sstub) ++ { ++ /* Strip this section if we don't need it */ ++ } ++ else if (strncmp (bfd_get_section_name(dynobj, s), ".rela", 5) == 0) ++ { ++ if (s->size != 0) ++ relocs = TRUE; ++ ++ s->reloc_count = 0; ++ } ++ else ++ { ++ /* It's not one of our sections */ ++ continue; ++ } ++ ++ if (s->size == 0) ++ { ++ /* Strip unneeded sections */ ++ pr_debug("Stripping section %s from output...\n", s->name); ++ /* deleted function in 2.17 ++ _bfd_strip_section_from_output(info, s); ++ */ ++ continue; ++ } ++ ++ s->contents = bfd_zalloc(dynobj, s->size); ++ if (s->contents == NULL) ++ return FALSE; ++ } ++ ++ if (htab->root.dynamic_sections_created) ++ { ++ /* Add some entries to the .dynamic section. We fill in the ++ values later, in sh_elf_finish_dynamic_sections, but we ++ must add the entries now so that we get the correct size for ++ the .dynamic section. The DT_DEBUG entry is filled in by the ++ dynamic linker and used by the debugger. */ ++#define add_dynamic_entry(TAG, VAL) _bfd_elf_add_dynamic_entry(info, TAG, VAL) ++ ++ if (!add_dynamic_entry(DT_PLTGOT, 0)) ++ return FALSE; ++ if (!add_dynamic_entry(DT_AVR32_GOTSZ, 0)) ++ return FALSE; ++ ++ if (info->executable) ++ { ++ if (!add_dynamic_entry(DT_DEBUG, 0)) ++ return FALSE; ++ } ++ if (relocs) ++ { ++ if (!add_dynamic_entry(DT_RELA, 0) ++ || !add_dynamic_entry(DT_RELASZ, 0) ++ || !add_dynamic_entry(DT_RELAENT, ++ sizeof(Elf32_External_Rela))) ++ return FALSE; ++ } ++ } ++#undef add_dynamic_entry ++ ++ return TRUE; ++} ++ ++ ++/* Access to internal relocations, section contents and symbols. ++ (stolen from the xtensa port) */ ++ ++static Elf_Internal_Rela * ++retrieve_internal_relocs (bfd *abfd, asection *sec, bfd_boolean keep_memory); ++static void ++pin_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs); ++static void ++release_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs); ++static bfd_byte * ++retrieve_contents (bfd *abfd, asection *sec, bfd_boolean keep_memory); ++/* ++static void ++pin_contents (asection *sec, bfd_byte *contents); ++*/ ++static void ++release_contents (asection *sec, bfd_byte *contents); ++static Elf_Internal_Sym * ++retrieve_local_syms (bfd *input_bfd, bfd_boolean keep_memory); ++/* ++static void ++pin_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf); ++*/ ++static void ++release_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf); ++ ++/* During relaxation, we need to modify relocations, section contents, ++ and symbol definitions, and we need to keep the original values from ++ being reloaded from the input files, i.e., we need to "pin" the ++ modified values in memory. We also want to continue to observe the ++ setting of the "keep-memory" flag. The following functions wrap the ++ standard BFD functions to take care of this for us. */ ++ ++static Elf_Internal_Rela * ++retrieve_internal_relocs (bfd *abfd, asection *sec, bfd_boolean keep_memory) ++{ ++ /* _bfd_elf_link_read_relocs knows about caching, so no need for us ++ to be clever here. */ ++ return _bfd_elf_link_read_relocs(abfd, sec, NULL, NULL, keep_memory); ++} ++ ++static void ++pin_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs) ++{ ++ elf_section_data (sec)->relocs = internal_relocs; ++} ++ ++static void ++release_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs) ++{ ++ if (internal_relocs ++ && elf_section_data (sec)->relocs != internal_relocs) ++ free (internal_relocs); ++} ++ ++static bfd_byte * ++retrieve_contents (bfd *abfd, asection *sec, bfd_boolean keep_memory) ++{ ++ bfd_byte *contents; ++ bfd_size_type sec_size; ++ ++ sec_size = bfd_get_section_limit (abfd, sec); ++ contents = elf_section_data (sec)->this_hdr.contents; ++ ++ if (contents == NULL && sec_size != 0) ++ { ++ if (!bfd_malloc_and_get_section (abfd, sec, &contents)) ++ { ++ if (contents) ++ free (contents); ++ return NULL; ++ } ++ if (keep_memory) ++ elf_section_data (sec)->this_hdr.contents = contents; ++ } ++ return contents; ++} ++ ++/* ++static void ++pin_contents (asection *sec, bfd_byte *contents) ++{ ++ elf_section_data (sec)->this_hdr.contents = contents; ++} ++*/ ++static void ++release_contents (asection *sec, bfd_byte *contents) ++{ ++ if (contents && elf_section_data (sec)->this_hdr.contents != contents) ++ free (contents); ++} ++ ++static Elf_Internal_Sym * ++retrieve_local_syms (bfd *input_bfd, bfd_boolean keep_memory) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Sym *isymbuf; ++ size_t locsymcount; ++ ++ symtab_hdr = &elf_tdata (input_bfd)->symtab_hdr; ++ locsymcount = symtab_hdr->sh_info; ++ ++ isymbuf = (Elf_Internal_Sym *) symtab_hdr->contents; ++ if (isymbuf == NULL && locsymcount != 0) ++ { ++ isymbuf = bfd_elf_get_elf_syms (input_bfd, symtab_hdr, locsymcount, 0, ++ NULL, NULL, NULL); ++ if (isymbuf && keep_memory) ++ symtab_hdr->contents = (unsigned char *) isymbuf; ++ } ++ ++ return isymbuf; ++} ++ ++/* ++static void ++pin_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf) ++{ ++ elf_tdata (input_bfd)->symtab_hdr.contents = (unsigned char *)isymbuf; ++} ++ ++*/ ++static void ++release_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf) ++{ ++ if (isymbuf && (elf_tdata (input_bfd)->symtab_hdr.contents ++ != (unsigned char *)isymbuf)) ++ free (isymbuf); ++} ++ ++ /* Data structures used during relaxation. */ ++ ++enum relax_state_id { ++ RS_ERROR = -1, ++ RS_NONE = 0, ++ RS_ALIGN, ++ RS_CPENT, ++ RS_PIC_CALL, ++ RS_PIC_MCALL, ++ RS_PIC_RCALL2, ++ RS_PIC_RCALL1, ++ RS_PIC_LDA, ++ RS_PIC_LDW4, ++ RS_PIC_LDW3, ++ RS_PIC_SUB5, ++ RS_NOPIC_MCALL, ++ RS_NOPIC_RCALL2, ++ RS_NOPIC_RCALL1, ++ RS_NOPIC_LDW4, ++ RS_NOPIC_LDDPC, ++ RS_NOPIC_SUB5, ++ RS_NOPIC_MOV2, ++ RS_NOPIC_MOV1, ++ RS_RCALL2, ++ RS_RCALL1, ++ RS_BRC2, ++ RS_BRC1, ++ RS_BRAL, ++ RS_RJMP, ++ RS_MAX, ++}; ++ ++enum reference_type { ++ REF_ABSOLUTE, ++ REF_PCREL, ++ REF_CPOOL, ++ REF_GOT, ++}; ++ ++struct relax_state ++{ ++ const char *name; ++ enum relax_state_id id; ++ enum relax_state_id direct; ++ enum relax_state_id next; ++ enum relax_state_id prev; ++ ++ enum reference_type reftype; ++ ++ unsigned int r_type; ++ ++ bfd_vma opcode; ++ bfd_vma opcode_mask; ++ ++ bfd_signed_vma range_min; ++ bfd_signed_vma range_max; ++ ++ bfd_size_type size; ++}; ++ ++/* ++ * This is for relocs that ++ * a) has an addend or is of type R_AVR32_DIFF32, and ++ * b) references a different section than it's in, and ++ * c) references a section that is relaxable ++ * ++ * as well as relocs that references the constant pool, in which case ++ * the add_frag member points to the frag containing the constant pool ++ * entry. ++ * ++ * Such relocs must be fixed up whenever we delete any code. Sections ++ * that don't have any relocs with all of the above properties don't ++ * have any additional reloc data, but sections that do will have ++ * additional data for all its relocs. ++ */ ++struct avr32_reloc_data ++{ ++ struct fragment *add_frag; ++ struct fragment *sub_frag; ++}; ++ ++/* ++ * A 'fragment' is a relaxable entity, that is, code may be added or ++ * deleted at the end of a fragment. When this happens, all subsequent ++ * fragments in the list will have their offsets updated. ++ */ ++struct fragment ++{ ++ enum relax_state_id state; ++ enum relax_state_id initial_state; ++ ++ Elf_Internal_Rela *rela; ++ bfd_size_type size; ++ bfd_vma offset; ++ int size_adjust; ++ int offset_adjust; ++ bfd_boolean has_grown; ++ ++ /* Only used by constant pool entries. When this drops to zero, the ++ frag is discarded (i.e. size_adjust is set to -4.) */ ++ int refcount; ++}; ++ ++struct avr32_relax_data ++{ ++ unsigned int frag_count; ++ struct fragment *frag; ++ struct avr32_reloc_data *reloc_data; ++ ++ /* TRUE if this section has one or more relaxable relocations */ ++ bfd_boolean is_relaxable; ++ unsigned int iteration; ++}; ++ ++struct avr32_section_data ++{ ++ struct bfd_elf_section_data elf; ++ struct avr32_relax_data relax_data; ++}; ++ ++ /* Relax state definitions */ ++ ++#define PIC_MOV2_OPCODE 0xe0600000 ++#define PIC_MOV2_MASK 0xe1e00000 ++#define PIC_MOV2_RANGE_MIN (-1048576 * 4) ++#define PIC_MOV2_RANGE_MAX (1048575 * 4) ++#define PIC_MCALL_OPCODE 0xf0160000 ++#define PIC_MCALL_MASK 0xffff0000 ++#define PIC_MCALL_RANGE_MIN (-131072) ++#define PIC_MCALL_RANGE_MAX (131068) ++#define RCALL2_OPCODE 0xe0a00000 ++#define RCALL2_MASK 0xe1ef0000 ++#define RCALL2_RANGE_MIN (-2097152) ++#define RCALL2_RANGE_MAX (2097150) ++#define RCALL1_OPCODE 0xc00c0000 ++#define RCALL1_MASK 0xf00c0000 ++#define RCALL1_RANGE_MIN (-1024) ++#define RCALL1_RANGE_MAX (1022) ++#define PIC_LDW4_OPCODE 0xecf00000 ++#define PIC_LDW4_MASK 0xfff00000 ++#define PIC_LDW4_RANGE_MIN (-32768) ++#define PIC_LDW4_RANGE_MAX (32767) ++#define PIC_LDW3_OPCODE 0x6c000000 ++#define PIC_LDW3_MASK 0xfe000000 ++#define PIC_LDW3_RANGE_MIN (0) ++#define PIC_LDW3_RANGE_MAX (124) ++#define SUB5_PC_OPCODE 0xfec00000 ++#define SUB5_PC_MASK 0xfff00000 ++#define SUB5_PC_RANGE_MIN (-32768) ++#define SUB5_PC_RANGE_MAX (32767) ++#define NOPIC_MCALL_OPCODE 0xf01f0000 ++#define NOPIC_MCALL_MASK 0xffff0000 ++#define NOPIC_MCALL_RANGE_MIN PIC_MCALL_RANGE_MIN ++#define NOPIC_MCALL_RANGE_MAX PIC_MCALL_RANGE_MAX ++#define NOPIC_LDW4_OPCODE 0xfef00000 ++#define NOPIC_LDW4_MASK 0xfff00000 ++#define NOPIC_LDW4_RANGE_MIN PIC_LDW4_RANGE_MIN ++#define NOPIC_LDW4_RANGE_MAX PIC_LDW4_RANGE_MAX ++#define LDDPC_OPCODE 0x48000000 ++#define LDDPC_MASK 0xf8000000 ++#define LDDPC_RANGE_MIN 0 ++#define LDDPC_RANGE_MAX 508 ++ ++#define NOPIC_MOV2_OPCODE 0xe0600000 ++#define NOPIC_MOV2_MASK 0xe1e00000 ++#define NOPIC_MOV2_RANGE_MIN (-1048576) ++#define NOPIC_MOV2_RANGE_MAX (1048575) ++#define NOPIC_MOV1_OPCODE 0x30000000 ++#define NOPIC_MOV1_MASK 0xf0000000 ++#define NOPIC_MOV1_RANGE_MIN (-128) ++#define NOPIC_MOV1_RANGE_MAX (127) ++ ++/* Only brc2 variants with cond[3] == 0 is considered, since the ++ others are not relaxable. bral is a special case and is handled ++ separately. */ ++#define BRC2_OPCODE 0xe0800000 ++#define BRC2_MASK 0xe1e80000 ++#define BRC2_RANGE_MIN (-2097152) ++#define BRC2_RANGE_MAX (2097150) ++#define BRC1_OPCODE 0xc0000000 ++#define BRC1_MASK 0xf0080000 ++#define BRC1_RANGE_MIN (-256) ++#define BRC1_RANGE_MAX (254) ++#define BRAL_OPCODE 0xe08f0000 ++#define BRAL_MASK 0xe1ef0000 ++#define BRAL_RANGE_MIN BRC2_RANGE_MIN ++#define BRAL_RANGE_MAX BRC2_RANGE_MAX ++#define RJMP_OPCODE 0xc0080000 ++#define RJMP_MASK 0xf00c0000 ++#define RJMP_RANGE_MIN (-1024) ++#define RJMP_RANGE_MAX (1022) ++ ++/* Define a relax state using the GOT */ ++#define RG(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_GOT, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++/* Define a relax state using the Constant Pool */ ++#define RC(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_CPOOL, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++ ++/* Define a relax state using pc-relative direct reference */ ++#define RP(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_PCREL, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++ ++/* Define a relax state using non-pc-relative direct reference */ ++#define RD(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_ABSOLUTE, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++ ++/* Define a relax state that will be handled specially */ ++#define RS(id, r_type, size) \ ++ { "RS_"#id, RS_##id, RS_NONE, RS_NONE, RS_NONE, REF_ABSOLUTE, \ ++ R_AVR32_##r_type, 0, 0, 0, 0, size } ++ ++const struct relax_state relax_state[RS_MAX] = { ++ RS(NONE, NONE, 0), ++ RS(ALIGN, ALIGN, 0), ++ RS(CPENT, 32_CPENT, 4), ++ ++ RG(PIC_CALL, PIC_RCALL1, PIC_MCALL, NONE, GOTCALL, PIC_MOV2, 10), ++ RG(PIC_MCALL, PIC_RCALL1, NONE, PIC_CALL, GOT18SW, PIC_MCALL, 4), ++ RP(PIC_RCALL2, NONE, PIC_RCALL1, PIC_MCALL, 22H_PCREL, RCALL2, 4), ++ RP(PIC_RCALL1, NONE, NONE, PIC_RCALL2, 11H_PCREL, RCALL1, 2), ++ ++ RG(PIC_LDA, PIC_SUB5, PIC_LDW4, NONE, LDA_GOT, PIC_MOV2, 8), ++ RG(PIC_LDW4, PIC_SUB5, PIC_LDW3, PIC_LDA, GOT16S, PIC_LDW4, 4), ++ RG(PIC_LDW3, PIC_SUB5, NONE, PIC_LDW4, GOT7UW, PIC_LDW3, 2), ++ RP(PIC_SUB5, NONE, NONE, PIC_LDW3, 16N_PCREL, SUB5_PC, 4), ++ ++ RC(NOPIC_MCALL, NOPIC_RCALL1, NONE, NONE, CPCALL, NOPIC_MCALL, 4), ++ RP(NOPIC_RCALL2, NONE, NOPIC_RCALL1, NOPIC_MCALL, 22H_PCREL, RCALL2, 4), ++ RP(NOPIC_RCALL1, NONE, NONE, NOPIC_RCALL2, 11H_PCREL, RCALL1, 2), ++ ++ RC(NOPIC_LDW4, NOPIC_MOV1, NOPIC_LDDPC, NONE, 16_CP, NOPIC_LDW4, 4), ++ RC(NOPIC_LDDPC, NOPIC_MOV1, NONE, NOPIC_LDW4, 9W_CP, LDDPC, 2), ++ RP(NOPIC_SUB5, NOPIC_MOV1, NONE, NOPIC_LDDPC, 16N_PCREL, SUB5_PC, 4), ++ RD(NOPIC_MOV2, NONE, NOPIC_MOV1, NOPIC_SUB5, 21S, NOPIC_MOV2, 4), ++ RD(NOPIC_MOV1, NONE, NONE, NOPIC_MOV2, 8S, NOPIC_MOV1, 2), ++ ++ RP(RCALL2, NONE, RCALL1, NONE, 22H_PCREL, RCALL2, 4), ++ RP(RCALL1, NONE, NONE, RCALL2, 11H_PCREL, RCALL1, 2), ++ RP(BRC2, NONE, BRC1, NONE, 22H_PCREL, BRC2, 4), ++ RP(BRC1, NONE, NONE, BRC2, 9H_PCREL, BRC1, 2), ++ RP(BRAL, NONE, RJMP, NONE, 22H_PCREL, BRAL, 4), ++ RP(RJMP, NONE, NONE, BRAL, 11H_PCREL, RJMP, 2), ++}; ++ ++static bfd_boolean ++avr32_elf_new_section_hook(bfd *abfd, asection *sec) ++{ ++ struct avr32_section_data *sdata; ++ ++ sdata = bfd_zalloc(abfd, sizeof(struct avr32_section_data)); ++ if (!sdata) ++ return FALSE; ++ ++ sec->used_by_bfd = sdata; ++ return _bfd_elf_new_section_hook(abfd, sec); ++} ++ ++static struct avr32_relax_data * ++avr32_relax_data(asection *sec) ++{ ++ struct avr32_section_data *sdata; ++ ++ BFD_ASSERT(sec->used_by_bfd); ++ ++ sdata = (struct avr32_section_data *)elf_section_data(sec); ++ return &sdata->relax_data; ++} ++ ++ /* Link-time relaxation */ ++ ++static bfd_boolean ++avr32_elf_relax_section(bfd *abfd, asection *sec, ++ struct bfd_link_info *info, bfd_boolean *again); ++ ++enum relax_pass_id { ++ RELAX_PASS_SIZE_FRAGS, ++ RELAX_PASS_MOVE_DATA, ++}; ++ ++/* Stolen from the xtensa port */ ++static int ++internal_reloc_compare (const void *ap, const void *bp) ++{ ++ const Elf_Internal_Rela *a = (const Elf_Internal_Rela *) ap; ++ const Elf_Internal_Rela *b = (const Elf_Internal_Rela *) bp; ++ ++ if (a->r_offset != b->r_offset) ++ return (a->r_offset - b->r_offset); ++ ++ /* We don't need to sort on these criteria for correctness, ++ but enforcing a more strict ordering prevents unstable qsort ++ from behaving differently with different implementations. ++ Without the code below we get correct but different results ++ on Solaris 2.7 and 2.8. We would like to always produce the ++ same results no matter the host. */ ++ ++ if (a->r_info != b->r_info) ++ return (a->r_info - b->r_info); ++ ++ return (a->r_addend - b->r_addend); ++} ++ ++static enum relax_state_id ++get_pcrel22_relax_state(bfd *abfd, asection *sec, struct bfd_link_info *info, ++ const Elf_Internal_Rela *rela) ++{ ++ bfd_byte *contents; ++ bfd_vma insn; ++ enum relax_state_id rs = RS_NONE; ++ ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ return RS_ERROR; ++ ++ insn = bfd_get_32(abfd, contents + rela->r_offset); ++ if ((insn & RCALL2_MASK) == RCALL2_OPCODE) ++ rs = RS_RCALL2; ++ else if ((insn & BRAL_MASK) == BRAL_OPCODE) ++ /* Optimizing bral -> rjmp gets us into all kinds of ++ trouble with jump tables. Better not do it. */ ++ rs = RS_NONE; ++ else if ((insn & BRC2_MASK) == BRC2_OPCODE) ++ rs = RS_BRC2; ++ ++ release_contents(sec, contents); ++ ++ return rs; ++} ++ ++static enum relax_state_id ++get_initial_relax_state(bfd *abfd, asection *sec, struct bfd_link_info *info, ++ const Elf_Internal_Rela *rela) ++{ ++ switch (ELF_R_TYPE(rela->r_info)) ++ { ++ case R_AVR32_GOTCALL: ++ return RS_PIC_CALL; ++ case R_AVR32_GOT18SW: ++ return RS_PIC_MCALL; ++ case R_AVR32_LDA_GOT: ++ return RS_PIC_LDA; ++ case R_AVR32_GOT16S: ++ return RS_PIC_LDW4; ++ case R_AVR32_CPCALL: ++ return RS_NOPIC_MCALL; ++ case R_AVR32_16_CP: ++ return RS_NOPIC_LDW4; ++ case R_AVR32_9W_CP: ++ return RS_NOPIC_LDDPC; ++ case R_AVR32_ALIGN: ++ return RS_ALIGN; ++ case R_AVR32_32_CPENT: ++ return RS_CPENT; ++ case R_AVR32_22H_PCREL: ++ return get_pcrel22_relax_state(abfd, sec, info, rela); ++ case R_AVR32_9H_PCREL: ++ return RS_BRC1; ++ default: ++ return RS_NONE; ++ } ++} ++ ++static bfd_boolean ++reloc_is_cpool_ref(const Elf_Internal_Rela *rela) ++{ ++ switch (ELF_R_TYPE(rela->r_info)) ++ { ++ case R_AVR32_CPCALL: ++ case R_AVR32_16_CP: ++ case R_AVR32_9W_CP: ++ return TRUE; ++ default: ++ return FALSE; ++ } ++} ++ ++static struct fragment * ++new_frag(bfd *abfd ATTRIBUTE_UNUSED, asection *sec, ++ struct avr32_relax_data *rd, enum relax_state_id state, ++ Elf_Internal_Rela *rela) ++{ ++ struct fragment *frag; ++ bfd_size_type r_size; ++ bfd_vma r_offset; ++ unsigned int i = rd->frag_count; ++ ++ BFD_ASSERT(state >= RS_NONE && state < RS_MAX); ++ ++ rd->frag_count++; ++ frag = bfd_realloc(rd->frag, sizeof(struct fragment) * rd->frag_count); ++ if (!frag) ++ return NULL; ++ rd->frag = frag; ++ ++ frag += i; ++ memset(frag, 0, sizeof(struct fragment)); ++ ++ if (state == RS_ALIGN) ++ r_size = (((rela->r_offset + (1 << rela->r_addend) - 1) ++ & ~((1 << rela->r_addend) - 1)) - rela->r_offset); ++ else ++ r_size = relax_state[state].size; ++ ++ if (rela) ++ r_offset = rela->r_offset; ++ else ++ r_offset = sec->size; ++ ++ if (i == 0) ++ { ++ frag->offset = 0; ++ frag->size = r_offset + r_size; ++ } ++ else ++ { ++ frag->offset = rd->frag[i - 1].offset + rd->frag[i - 1].size; ++ frag->size = r_offset + r_size - frag->offset; ++ } ++ ++ if (state != RS_CPENT) ++ /* Make sure we don't discard this frag */ ++ frag->refcount = 1; ++ ++ frag->initial_state = frag->state = state; ++ frag->rela = rela; ++ ++ return frag; ++} ++ ++static struct fragment * ++find_frag(asection *sec, bfd_vma offset) ++{ ++ struct fragment *first, *last; ++ struct avr32_relax_data *rd = avr32_relax_data(sec); ++ ++ if (rd->frag_count == 0) ++ return NULL; ++ ++ first = &rd->frag[0]; ++ last = &rd->frag[rd->frag_count - 1]; ++ ++ /* This may be a reloc referencing the end of a section. The last ++ frag will never have a reloc associated with it, so its size will ++ never change, thus the offset adjustment of the last frag will ++ always be the same as the offset adjustment of the end of the ++ section. */ ++ if (offset == sec->size) ++ { ++ BFD_ASSERT(last->offset + last->size == sec->size); ++ BFD_ASSERT(!last->rela); ++ return last; ++ } ++ ++ while (first <= last) ++ { ++ struct fragment *mid; ++ ++ mid = (last - first) / 2 + first; ++ if ((mid->offset + mid->size) <= offset) ++ first = mid + 1; ++ else if (mid->offset > offset) ++ last = mid - 1; ++ else ++ return mid; ++ } ++ ++ return NULL; ++} ++ ++/* Look through all relocs in a section and determine if any relocs ++ may be affected by relaxation in other sections. If so, allocate ++ an array of additional relocation data which links the affected ++ relocations to the frag(s) where the relaxation may occur. ++ ++ This function also links cpool references to cpool entries and ++ increments the refcount of the latter when this happens. */ ++ ++static bfd_boolean ++allocate_reloc_data(bfd *abfd, asection *sec, Elf_Internal_Rela *relocs, ++ struct bfd_link_info *info) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Sym *isymbuf = NULL; ++ struct avr32_relax_data *rd; ++ unsigned int i; ++ bfd_boolean ret = FALSE; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ rd = avr32_relax_data(sec); ++ ++ RDBG("%s<%s>: allocate_reloc_data\n", abfd->filename, sec->name); ++ ++ for (i = 0; i < sec->reloc_count; i++) ++ { ++ Elf_Internal_Rela *rel = &relocs[i]; ++ asection *sym_sec; ++ unsigned long r_symndx; ++ bfd_vma sym_value; ++ ++ if (!rel->r_addend && ELF_R_TYPE(rel->r_info) != R_AVR32_DIFF32 ++ && !reloc_is_cpool_ref(rel)) ++ continue; ++ ++ r_symndx = ELF_R_SYM(rel->r_info); ++ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ Elf_Internal_Sym *isym; ++ ++ if (!isymbuf) ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ return FALSE; ++ ++ isym = &isymbuf[r_symndx]; ++ sym_sec = bfd_section_from_elf_index(abfd, isym->st_shndx); ++ sym_value = isym->st_value; ++ } ++ else ++ { ++ struct elf_link_hash_entry *h; ++ ++ h = elf_sym_hashes(abfd)[r_symndx - symtab_hdr->sh_info]; ++ ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ if (h->root.type != bfd_link_hash_defined ++ && h->root.type != bfd_link_hash_defweak) ++ continue; ++ ++ sym_sec = h->root.u.def.section; ++ sym_value = h->root.u.def.value; ++ } ++ ++ if (sym_sec && avr32_relax_data(sym_sec)->is_relaxable) ++ { ++ bfd_size_type size; ++ struct fragment *frag; ++ ++ if (!rd->reloc_data) ++ { ++ size = sizeof(struct avr32_reloc_data) * sec->reloc_count; ++ rd->reloc_data = bfd_zalloc(abfd, size); ++ if (!rd->reloc_data) ++ goto out; ++ } ++ ++ RDBG("[%3d] 0x%04lx: target: 0x%lx + 0x%lx", ++ i, rel->r_offset, sym_value, rel->r_addend); ++ ++ frag = find_frag(sym_sec, sym_value + rel->r_addend); ++ BFD_ASSERT(frag); ++ rd->reloc_data[i].add_frag = frag; ++ ++ RDBG(" -> %s<%s>:%04lx\n", sym_sec->owner->filename, sym_sec->name, ++ frag->rela ? frag->rela->r_offset : sym_sec->size); ++ ++ if (reloc_is_cpool_ref(rel)) ++ { ++ BFD_ASSERT(ELF_R_TYPE(frag->rela->r_info) == R_AVR32_32_CPENT); ++ frag->refcount++; ++ } ++ ++ if (ELF_R_TYPE(rel->r_info) == R_AVR32_DIFF32) ++ { ++ bfd_byte *contents; ++ bfd_signed_vma diff; ++ ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ goto out; ++ ++ diff = bfd_get_signed_32(abfd, contents + rel->r_offset); ++ frag = find_frag(sym_sec, sym_value + rel->r_addend + diff); ++ BFD_ASSERT(frag); ++ rd->reloc_data[i].sub_frag = frag; ++ ++ release_contents(sec, contents); ++ } ++ } ++ } ++ ++ ret = TRUE; ++ ++ out: ++ release_local_syms(abfd, isymbuf); ++ return ret; ++} ++ ++static bfd_boolean ++global_sym_set_frag(struct elf_avr32_link_hash_entry *havr, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED) ++{ ++ struct fragment *frag; ++ asection *sec; ++ ++ if (havr->root.root.type != bfd_link_hash_defined ++ && havr->root.root.type != bfd_link_hash_defweak) ++ return TRUE; ++ ++ sec = havr->root.root.u.def.section; ++ if (bfd_is_const_section(sec) ++ || !avr32_relax_data(sec)->is_relaxable) ++ return TRUE; ++ ++ frag = find_frag(sec, havr->root.root.u.def.value); ++ if (!frag) ++ { ++ unsigned int i; ++ struct avr32_relax_data *rd = avr32_relax_data(sec); ++ ++ RDBG("In %s: No frag for %s <%s+%lu> (limit %lu)\n", ++ sec->owner->filename, havr->root.root.root.string, ++ sec->name, havr->root.root.u.def.value, sec->size); ++ for (i = 0; i < rd->frag_count; i++) ++ RDBG(" %8lu - %8lu\n", rd->frag[i].offset, ++ rd->frag[i].offset + rd->frag[i].size); ++ } ++ BFD_ASSERT(frag); ++ ++ havr->sym_frag = frag; ++ return TRUE; ++} ++ ++static bfd_boolean ++analyze_relocations(struct bfd_link_info *info) ++{ ++ bfd *abfd; ++ asection *sec; ++ ++ /* Divide all relaxable sections into fragments */ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ { ++ if (!(elf_elfheader(abfd)->e_flags & EF_AVR32_LINKRELAX)) ++ { ++ if (!(*info->callbacks->warning) ++ (info, _("input is not relaxable"), NULL, abfd, NULL, 0)) ++ return FALSE; ++ continue; ++ } ++ ++ for (sec = abfd->sections; sec; sec = sec->next) ++ { ++ struct avr32_relax_data *rd; ++ struct fragment *frag; ++ Elf_Internal_Rela *relocs; ++ unsigned int i; ++ bfd_boolean ret = TRUE; ++ ++ if (!(sec->flags & SEC_RELOC) || sec->reloc_count == 0) ++ continue; ++ ++ rd = avr32_relax_data(sec); ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ return FALSE; ++ ++ qsort(relocs, sec->reloc_count, sizeof(Elf_Internal_Rela), ++ internal_reloc_compare); ++ ++ for (i = 0; i < sec->reloc_count; i++) ++ { ++ enum relax_state_id state; ++ ++ ret = FALSE; ++ state = get_initial_relax_state(abfd, sec, info, &relocs[i]); ++ if (state == RS_ERROR) ++ break; ++ ++ if (state) ++ { ++ frag = new_frag(abfd, sec, rd, state, &relocs[i]); ++ if (!frag) ++ break; ++ ++ pin_internal_relocs(sec, relocs); ++ rd->is_relaxable = TRUE; ++ } ++ ++ ret = TRUE; ++ } ++ ++ release_internal_relocs(sec, relocs); ++ if (!ret) ++ return ret; ++ ++ if (rd->is_relaxable) ++ { ++ frag = new_frag(abfd, sec, rd, RS_NONE, NULL); ++ if (!frag) ++ return FALSE; ++ } ++ } ++ } ++ ++ /* Link each global symbol to the fragment where it's defined. */ ++ elf_link_hash_traverse(elf_hash_table(info), global_sym_set_frag, info); ++ ++ /* Do the same for local symbols. */ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ { ++ Elf_Internal_Sym *isymbuf, *isym; ++ struct fragment **local_sym_frag; ++ unsigned int i, sym_count; ++ ++ sym_count = elf_tdata(abfd)->symtab_hdr.sh_info; ++ if (sym_count == 0) ++ continue; ++ ++ local_sym_frag = bfd_zalloc(abfd, sym_count * sizeof(struct fragment *)); ++ if (!local_sym_frag) ++ return FALSE; ++ elf_tdata(abfd)->local_sym_frag = local_sym_frag; ++ ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ return FALSE; ++ ++ for (i = 0; i < sym_count; i++) ++ { ++ struct avr32_relax_data *rd; ++ struct fragment *frag; ++ asection *sec; ++ ++ isym = &isymbuf[i]; ++ ++ sec = bfd_section_from_elf_index(abfd, isym->st_shndx); ++ if (!sec) ++ continue; ++ ++ rd = avr32_relax_data(sec); ++ if (!rd->is_relaxable) ++ continue; ++ ++ frag = find_frag(sec, isym->st_value); ++ BFD_ASSERT(frag); ++ ++ local_sym_frag[i] = frag; ++ } ++ ++ release_local_syms(abfd, isymbuf); ++ } ++ ++ /* And again for relocs with addends and constant pool references */ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ for (sec = abfd->sections; sec; sec = sec->next) ++ { ++ Elf_Internal_Rela *relocs; ++ bfd_boolean ret; ++ ++ if (!(sec->flags & SEC_RELOC) || sec->reloc_count == 0) ++ continue; ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ return FALSE; ++ ++ ret = allocate_reloc_data(abfd, sec, relocs, info); ++ ++ release_internal_relocs(sec, relocs); ++ if (ret == FALSE) ++ return ret; ++ } ++ ++ return TRUE; ++} ++ ++static bfd_boolean ++rs_is_good_enough(const struct relax_state *rs, struct fragment *frag, ++ bfd_vma symval, bfd_vma addr, struct got_entry *got, ++ struct avr32_reloc_data *ind_data, ++ bfd_signed_vma offset_adjust) ++{ ++ bfd_signed_vma target = 0; ++ ++ switch (rs->reftype) ++ { ++ case REF_ABSOLUTE: ++ target = symval; ++ break; ++ case REF_PCREL: ++ target = symval - addr; ++ break; ++ case REF_CPOOL: ++ /* cpool frags are always in the same section and always after ++ all frags referring to it. So it's always correct to add in ++ offset_adjust here. */ ++ target = (ind_data->add_frag->offset + ind_data->add_frag->offset_adjust ++ + offset_adjust - frag->offset - frag->offset_adjust); ++ break; ++ case REF_GOT: ++ target = got->offset; ++ break; ++ default: ++ abort(); ++ } ++ ++ if (target >= rs->range_min && target <= rs->range_max) ++ return TRUE; ++ else ++ return FALSE; ++} ++ ++static bfd_boolean ++avr32_size_frags(bfd *abfd, asection *sec, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct avr32_relax_data *rd; ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Rela *relocs = NULL; ++ Elf_Internal_Sym *isymbuf = NULL; ++ struct got_entry **local_got_ents; ++ struct fragment **local_sym_frag; ++ bfd_boolean ret = FALSE; ++ bfd_signed_vma delta = 0; ++ unsigned int i; ++ ++ htab = avr32_elf_hash_table(info); ++ rd = avr32_relax_data(sec); ++ ++ if (sec == htab->sgot) ++ { ++ RDBG("Relaxing GOT section (vma: 0x%lx)\n", ++ sec->output_section->vma + sec->output_offset); ++ if (assign_got_offsets(htab)) ++ htab->repeat_pass = TRUE; ++ return TRUE; ++ } ++ ++ if (!rd->is_relaxable) ++ return TRUE; ++ ++ if (!sec->rawsize) ++ sec->rawsize = sec->size; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ goto out; ++ ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ goto out; ++ ++ local_got_ents = elf_local_got_ents(abfd); ++ local_sym_frag = elf_tdata(abfd)->local_sym_frag; ++ ++ RDBG("size_frags: %s<%s>\n vma: 0x%08lx, size: 0x%08lx\n", ++ abfd->filename, sec->name, ++ sec->output_section->vma + sec->output_offset, sec->size); ++ ++ for (i = 0; i < rd->frag_count; i++) ++ { ++ struct fragment *frag = &rd->frag[i]; ++ struct avr32_reloc_data *r_data = NULL, *ind_data = NULL; ++ const struct relax_state *state, *next_state; ++ struct fragment *target_frag = NULL; ++ asection *sym_sec = NULL; ++ Elf_Internal_Rela *rela; ++ struct got_entry *got; ++ bfd_vma symval, r_offset, addend, addr; ++ bfd_signed_vma size_adjust = 0, distance; ++ unsigned long r_symndx; ++ bfd_boolean defined = TRUE, dynamic = FALSE; ++ unsigned char sym_type; ++ ++ frag->offset_adjust += delta; ++ state = next_state = &relax_state[frag->state]; ++ rela = frag->rela; ++ ++ BFD_ASSERT(state->id == frag->state); ++ ++ RDBG(" 0x%04lx%c%d: %s [size %ld]", rela ? rela->r_offset : sec->rawsize, ++ (frag->offset_adjust < 0)?'-':'+', ++ abs(frag->offset_adjust), state->name, state->size); ++ ++ if (!rela) ++ { ++ RDBG(": no reloc, ignoring\n"); ++ continue; ++ } ++ ++ BFD_ASSERT((unsigned int)(rela - relocs) < sec->reloc_count); ++ BFD_ASSERT(state != RS_NONE); ++ ++ r_offset = rela->r_offset + frag->offset_adjust; ++ addr = sec->output_section->vma + sec->output_offset + r_offset; ++ ++ switch (frag->state) ++ { ++ case RS_ALIGN: ++ size_adjust = ((addr + (1 << rela->r_addend) - 1) ++ & ~((1 << rela->r_addend) - 1)); ++ size_adjust -= (sec->output_section->vma + sec->output_offset ++ + frag->offset + frag->offset_adjust ++ + frag->size + frag->size_adjust); ++ ++ RDBG(": adjusting size %lu -> %lu\n", frag->size + frag->size_adjust, ++ frag->size + frag->size_adjust + size_adjust); ++ break; ++ ++ case RS_CPENT: ++ if (frag->refcount == 0 && frag->size_adjust == 0) ++ { ++ RDBG(": discarding frag\n"); ++ size_adjust = -4; ++ } ++ else if (frag->refcount > 0 && frag->size_adjust < 0) ++ { ++ RDBG(": un-discarding frag\n"); ++ size_adjust = 4; ++ } ++ break; ++ ++ default: ++ if (rd->reloc_data) ++ r_data = &rd->reloc_data[frag->rela - relocs]; ++ ++ /* If this is a cpool reference, we want the symbol that the ++ cpool entry refers to, not the symbol for the cpool entry ++ itself, as we already know what frag it's in. */ ++ if (relax_state[frag->initial_state].reftype == REF_CPOOL) ++ { ++ Elf_Internal_Rela *irela = r_data->add_frag->rela; ++ ++ r_symndx = ELF_R_SYM(irela->r_info); ++ addend = irela->r_addend; ++ ++ /* The constant pool must be in the same section as the ++ reloc referring to it. */ ++ BFD_ASSERT((unsigned long)(irela - relocs) < sec->reloc_count); ++ ++ ind_data = r_data; ++ r_data = &rd->reloc_data[irela - relocs]; ++ } ++ else ++ { ++ r_symndx = ELF_R_SYM(rela->r_info); ++ addend = rela->r_addend; ++ } ++ ++ /* Get the value of the symbol referred to by the reloc. */ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ Elf_Internal_Sym *isym; ++ ++ isym = isymbuf + r_symndx; ++ symval = 0; ++ ++ RDBG(" local sym %lu: ", r_symndx); ++ ++ if (isym->st_shndx == SHN_UNDEF) ++ defined = FALSE; ++ else if (isym->st_shndx == SHN_ABS) ++ sym_sec = bfd_abs_section_ptr; ++ else if (isym->st_shndx == SHN_COMMON) ++ sym_sec = bfd_com_section_ptr; ++ else ++ sym_sec = bfd_section_from_elf_index(abfd, isym->st_shndx); ++ ++ symval = isym->st_value; ++ sym_type = ELF_ST_TYPE(isym->st_info); ++ target_frag = local_sym_frag[r_symndx]; ++ ++ if (local_got_ents) ++ got = local_got_ents[r_symndx]; ++ else ++ got = NULL; ++ } ++ else ++ { ++ /* Global symbol */ ++ unsigned long index; ++ struct elf_link_hash_entry *h; ++ struct elf_avr32_link_hash_entry *havr; ++ ++ index = r_symndx - symtab_hdr->sh_info; ++ h = elf_sym_hashes(abfd)[index]; ++ BFD_ASSERT(h != NULL); ++ ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ havr = (struct elf_avr32_link_hash_entry *)h; ++ got = h->got.glist; ++ ++ symval = 0; ++ ++ RDBG(" %s: ", h->root.root.string); ++ ++ if (h->root.type != bfd_link_hash_defined ++ && h->root.type != bfd_link_hash_defweak) ++ { ++ RDBG("(undef)"); ++ defined = FALSE; ++ } ++ else if ((info->shared && !info->symbolic && h->dynindx != -1) ++ || (htab->root.dynamic_sections_created ++ && h->def_dynamic && !h->def_regular)) ++ { ++ RDBG("(dynamic)"); ++ dynamic = TRUE; ++ sym_sec = h->root.u.def.section; ++ } ++ else ++ { ++ sym_sec = h->root.u.def.section; ++ symval = h->root.u.def.value; ++ target_frag = havr->sym_frag; ++ } ++ ++ sym_type = h->type; ++ } ++ ++ /* Thanks to elf32-ppc for this one. */ ++ if (sym_sec && sym_sec->sec_info_type == ELF_INFO_TYPE_MERGE) ++ { ++ /* At this stage in linking, no SEC_MERGE symbol has been ++ adjusted, so all references to such symbols need to be ++ passed through _bfd_merged_section_offset. (Later, in ++ relocate_section, all SEC_MERGE symbols *except* for ++ section symbols have been adjusted.) ++ ++ SEC_MERGE sections are not relaxed by us, as they ++ shouldn't contain any code. */ ++ ++ BFD_ASSERT(!target_frag && !(r_data && r_data->add_frag)); ++ ++ /* gas may reduce relocations against symbols in SEC_MERGE ++ sections to a relocation against the section symbol when ++ the original addend was zero. When the reloc is against ++ a section symbol we should include the addend in the ++ offset passed to _bfd_merged_section_offset, since the ++ location of interest is the original symbol. On the ++ other hand, an access to "sym+addend" where "sym" is not ++ a section symbol should not include the addend; Such an ++ access is presumed to be an offset from "sym"; The ++ location of interest is just "sym". */ ++ RDBG("\n MERGE: %s: 0x%lx+0x%lx+0x%lx -> ", ++ (sym_type == STT_SECTION)?"section":"not section", ++ sym_sec->output_section->vma + sym_sec->output_offset, ++ symval, addend); ++ ++ if (sym_type == STT_SECTION) ++ symval += addend; ++ ++ symval = (_bfd_merged_section_offset ++ (abfd, &sym_sec, ++ elf_section_data(sym_sec)->sec_info, symval)); ++ ++ if (sym_type != STT_SECTION) ++ symval += addend; ++ } ++ else ++ symval += addend; ++ ++ if (defined && !dynamic) ++ { ++ RDBG("0x%lx+0x%lx", ++ sym_sec->output_section->vma + sym_sec->output_offset, ++ symval); ++ symval += sym_sec->output_section->vma + sym_sec->output_offset; ++ } ++ ++ if (r_data && r_data->add_frag) ++ /* If the add_frag pointer is set, it means that this reloc ++ has an addend that may be affected by relaxation. */ ++ target_frag = r_data->add_frag; ++ ++ if (target_frag) ++ { ++ symval += target_frag->offset_adjust; ++ ++ /* If target_frag comes after this frag in the same ++ section, we should assume that it will be moved by ++ the same amount we are. */ ++ if ((target_frag - rd->frag) < (int)rd->frag_count ++ && target_frag > frag) ++ symval += delta; ++ } ++ ++ distance = symval - addr; ++ ++ /* First, try to make a direct reference. If the symbol is ++ dynamic or undefined, we must take care not to change its ++ reference type, that is, we can't make it direct. ++ ++ Also, it seems like some sections may actually be resized ++ after the relaxation code is done, so we can't really ++ trust that our "distance" is correct. There's really no ++ easy solution to this problem, so we'll just disallow ++ direct references to SEC_DATA sections. ++ ++ Oh, and .bss isn't actually SEC_DATA, so we disallow ++ !SEC_HAS_CONTENTS as well. */ ++ if (!dynamic && defined ++ && (htab->direct_data_refs ++ || (!(sym_sec->flags & SEC_DATA) ++ && (sym_sec->flags & SEC_HAS_CONTENTS))) ++ && next_state->direct) ++ { ++ next_state = &relax_state[next_state->direct]; ++ RDBG(" D-> %s", next_state->name); ++ } ++ ++ /* Iterate backwards until we find a state that fits. */ ++ while (next_state->prev ++ && !rs_is_good_enough(next_state, frag, symval, addr, ++ got, ind_data, delta)) ++ { ++ next_state = &relax_state[next_state->prev]; ++ RDBG(" P-> %s", next_state->name); ++ } ++ ++ /* Then try to find the best possible state. */ ++ while (next_state->next) ++ { ++ const struct relax_state *candidate; ++ ++ candidate = &relax_state[next_state->next]; ++ if (!rs_is_good_enough(candidate, frag, symval, addr, got, ++ ind_data, delta)) ++ break; ++ ++ next_state = candidate; ++ RDBG(" N-> %s", next_state->name); ++ } ++ ++ RDBG(" [size %ld]\n", next_state->size); ++ ++ BFD_ASSERT(next_state->id); ++ BFD_ASSERT(!dynamic || next_state->reftype == REF_GOT); ++ ++ size_adjust = next_state->size - state->size; ++ ++ /* There's a theoretical possibility that shrinking one frag ++ may cause another to grow, which may cause the first one to ++ grow as well, and we're back where we started. Avoid this ++ scenario by disallowing a frag that has grown to ever ++ shrink again. */ ++ if (state->reftype == REF_GOT && next_state->reftype != REF_GOT) ++ { ++ if (frag->has_grown) ++ next_state = state; ++ else ++ unref_got_entry(htab, got); ++ } ++ else if (state->reftype != REF_GOT && next_state->reftype == REF_GOT) ++ { ++ ref_got_entry(htab, got); ++ frag->has_grown = TRUE; ++ } ++ else if (state->reftype == REF_CPOOL ++ && next_state->reftype != REF_CPOOL) ++ { ++ if (frag->has_grown) ++ next_state = state; ++ else ++ ind_data->add_frag->refcount--; ++ } ++ else if (state->reftype != REF_CPOOL ++ && next_state->reftype == REF_CPOOL) ++ { ++ ind_data->add_frag->refcount++; ++ frag->has_grown = TRUE; ++ } ++ else ++ { ++ if (frag->has_grown && size_adjust < 0) ++ next_state = state; ++ else if (size_adjust > 0) ++ frag->has_grown = TRUE; ++ } ++ ++ size_adjust = next_state->size - state->size; ++ frag->state = next_state->id; ++ ++ break; ++ } ++ ++ if (size_adjust) ++ htab->repeat_pass = TRUE; ++ ++ frag->size_adjust += size_adjust; ++ sec->size += size_adjust; ++ delta += size_adjust; ++ ++ BFD_ASSERT((frag->offset + frag->offset_adjust ++ + frag->size + frag->size_adjust) ++ == (frag[1].offset + frag[1].offset_adjust + delta)); ++ } ++ ++ ret = TRUE; ++ ++ out: ++ release_local_syms(abfd, isymbuf); ++ release_internal_relocs(sec, relocs); ++ return ret; ++} ++ ++static bfd_boolean ++adjust_global_symbol(struct elf_avr32_link_hash_entry *havr, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED) ++{ ++ struct elf_link_hash_entry *h = &havr->root; ++ ++ if (havr->sym_frag && (h->root.type == bfd_link_hash_defined ++ || h->root.type == bfd_link_hash_defweak)) ++ { ++ RDBG("adjust_global_symbol: %s 0x%08lx -> 0x%08lx\n", ++ h->root.root.string, h->root.u.def.value, ++ h->root.u.def.value + havr->sym_frag->offset_adjust); ++ h->root.u.def.value += havr->sym_frag->offset_adjust; ++ } ++ return TRUE; ++} ++ ++static bfd_boolean ++adjust_syms(struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ bfd *abfd; ++ ++ htab = avr32_elf_hash_table(info); ++ elf_link_hash_traverse(&htab->root, adjust_global_symbol, info); ++ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ { ++ Elf_Internal_Sym *isymbuf; ++ struct fragment **local_sym_frag, *frag; ++ unsigned int i, sym_count; ++ ++ sym_count = elf_tdata(abfd)->symtab_hdr.sh_info; ++ if (sym_count == 0) ++ continue; ++ ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ return FALSE; ++ ++ local_sym_frag = elf_tdata(abfd)->local_sym_frag; ++ ++ for (i = 0; i < sym_count; i++) ++ { ++ frag = local_sym_frag[i]; ++ if (frag) ++ { ++ RDBG("adjust_local_symbol: %s[%u] 0x%08lx -> 0x%08lx\n", ++ abfd->filename, i, isymbuf[i].st_value, ++ isymbuf[i].st_value + frag->offset_adjust); ++ isymbuf[i].st_value += frag->offset_adjust; ++ } ++ } ++ ++ release_local_syms(abfd, isymbuf); ++ } ++ ++ htab->symbols_adjusted = TRUE; ++ return TRUE; ++} ++ ++static bfd_boolean ++adjust_relocs(bfd *abfd, asection *sec, struct bfd_link_info *info) ++{ ++ struct avr32_relax_data *rd; ++ Elf_Internal_Rela *relocs; ++ Elf_Internal_Shdr *symtab_hdr; ++ unsigned int i; ++ bfd_boolean ret = FALSE; ++ ++ rd = avr32_relax_data(sec); ++ if (!rd->reloc_data) ++ return TRUE; ++ ++ RDBG("adjust_relocs: %s<%s> (count: %u)\n", abfd->filename, sec->name, ++ sec->reloc_count); ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ return FALSE; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ ++ for (i = 0; i < sec->reloc_count; i++) ++ { ++ Elf_Internal_Rela *rela = &relocs[i]; ++ struct avr32_reloc_data *r_data = &rd->reloc_data[i]; ++ struct fragment *sym_frag; ++ unsigned long r_symndx; ++ ++ if (r_data->add_frag) ++ { ++ r_symndx = ELF_R_SYM(rela->r_info); ++ ++ if (r_symndx < symtab_hdr->sh_info) ++ sym_frag = elf_tdata(abfd)->local_sym_frag[r_symndx]; ++ else ++ { ++ struct elf_link_hash_entry *h; ++ ++ h = elf_sym_hashes(abfd)[r_symndx - symtab_hdr->sh_info]; ++ ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ BFD_ASSERT(h->root.type == bfd_link_hash_defined ++ || h->root.type == bfd_link_hash_defweak); ++ ++ sym_frag = ((struct elf_avr32_link_hash_entry *)h)->sym_frag; ++ } ++ ++ RDBG(" addend: 0x%08lx -> 0x%08lx\n", ++ rela->r_addend, ++ rela->r_addend + r_data->add_frag->offset_adjust ++ - (sym_frag ? sym_frag->offset_adjust : 0)); ++ ++ /* If this is against a section symbol, we won't find any ++ sym_frag, so we'll just adjust the addend. */ ++ rela->r_addend += r_data->add_frag->offset_adjust; ++ if (sym_frag) ++ rela->r_addend -= sym_frag->offset_adjust; ++ ++ if (r_data->sub_frag) ++ { ++ bfd_byte *contents; ++ bfd_signed_vma diff; ++ ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ goto out; ++ ++ /* I realize now that sub_frag is misnamed. It's ++ actually add_frag which is subtracted in this ++ case... */ ++ diff = bfd_get_signed_32(abfd, contents + rela->r_offset); ++ diff += (r_data->sub_frag->offset_adjust ++ - r_data->add_frag->offset_adjust); ++ bfd_put_32(abfd, diff, contents + rela->r_offset); ++ ++ RDBG(" 0x%lx: DIFF32 updated: 0x%lx\n", rela->r_offset, diff); ++ ++ release_contents(sec, contents); ++ } ++ } ++ else ++ BFD_ASSERT(!r_data->sub_frag); ++ } ++ ++ ret = TRUE; ++ ++ out: ++ release_internal_relocs(sec, relocs); ++ return ret; ++} ++ ++static bfd_boolean ++avr32_move_data(bfd *abfd, asection *sec, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct avr32_relax_data *rd; ++ struct fragment *frag, *fragend; ++ Elf_Internal_Rela *relocs = NULL; ++ bfd_byte *contents = NULL; ++ unsigned int i; ++ bfd_boolean ret = FALSE; ++ ++ htab = avr32_elf_hash_table(info); ++ rd = avr32_relax_data(sec); ++ ++ if (!htab->symbols_adjusted) ++ if (!adjust_syms(info)) ++ return FALSE; ++ ++ if (rd->is_relaxable) ++ { ++ /* Resize the section first, so that we can be sure that enough ++ memory is allocated in case the section has grown. */ ++ if (sec->size > sec->rawsize ++ && elf_section_data(sec)->this_hdr.contents) ++ { ++ /* We must not use cached data if the section has grown. */ ++ free(elf_section_data(sec)->this_hdr.contents); ++ elf_section_data(sec)->this_hdr.contents = NULL; ++ } ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ goto out; ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ goto out; ++ ++ fragend = rd->frag + rd->frag_count; ++ ++ RDBG("move_data: %s<%s>: relocs=%p, contents=%p\n", ++ abfd->filename, sec->name, relocs, contents); ++ ++ /* First, move the data into place. We must take care to move ++ frags in the right order so that we don't accidentally ++ overwrite parts of the next frag. */ ++ for (frag = rd->frag; frag < fragend; frag++) ++ { ++ RDBG(" 0x%08lx%c0x%x: size 0x%lx%c0x%x\n", ++ frag->offset, frag->offset_adjust >= 0 ? '+' : '-', ++ abs(frag->offset_adjust), ++ frag->size, frag->size_adjust >= 0 ? '+' : '-', ++ abs(frag->size_adjust)); ++ if (frag->offset_adjust > 0) ++ { ++ struct fragment *prev = frag - 1; ++ struct fragment *last; ++ ++ for (last = frag; last < fragend && last->offset_adjust > 0; ++ last++) ; ++ ++ if (last == fragend) ++ last--; ++ ++ for (frag = last; frag != prev; frag--) ++ { ++ if (frag->offset_adjust ++ && frag->size + frag->size_adjust > 0) ++ { ++ RDBG("memmove 0x%lx -> 0x%lx (size %lu)\n", ++ frag->offset, frag->offset + frag->offset_adjust, ++ frag->size + frag->size_adjust); ++ memmove(contents + frag->offset + frag->offset_adjust, ++ contents + frag->offset, ++ frag->size + frag->size_adjust); ++ } ++ } ++ frag = last; ++ } ++ else if (frag->offset_adjust && frag->size + frag->size_adjust > 0) ++ { ++ RDBG("memmove 0x%lx -> 0x%lx (size %lu)\n", ++ frag->offset, frag->offset + frag->offset_adjust, ++ frag->size + frag->size_adjust); ++ memmove(contents + frag->offset + frag->offset_adjust, ++ contents + frag->offset, ++ frag->size + frag->size_adjust); ++ } ++ } ++ ++ i = 0; ++ ++ for (frag = rd->frag; frag < fragend; frag++) ++ { ++ const struct relax_state *state, *istate; ++ struct avr32_reloc_data *r_data = NULL; ++ ++ istate = &relax_state[frag->initial_state]; ++ state = &relax_state[frag->state]; ++ ++ if (rd->reloc_data) ++ r_data = &rd->reloc_data[frag->rela - relocs]; ++ ++ BFD_ASSERT((long)(frag->size + frag->size_adjust) >= 0); ++ BFD_ASSERT(state->reftype != REF_CPOOL ++ || r_data->add_frag->refcount > 0); ++ ++ if (istate->reftype == REF_CPOOL && state->reftype != REF_CPOOL) ++ { ++ struct fragment *ifrag; ++ ++ /* An indirect reference through the cpool has been ++ converted to a direct reference. We must update the ++ reloc to point to the symbol itself instead of the ++ constant pool entry. The reloc type will be updated ++ later. */ ++ ifrag = r_data->add_frag; ++ frag->rela->r_info = ifrag->rela->r_info; ++ frag->rela->r_addend = ifrag->rela->r_addend; ++ ++ /* Copy the reloc data so the addend will be adjusted ++ correctly later. */ ++ *r_data = rd->reloc_data[ifrag->rela - relocs]; ++ } ++ ++ /* Move all relocs covered by this frag. */ ++ if (frag->rela) ++ BFD_ASSERT(&relocs[i] <= frag->rela); ++ else ++ BFD_ASSERT((frag + 1) == fragend && frag->state == RS_NONE); ++ ++ if (frag == rd->frag) ++ BFD_ASSERT(i == 0); ++ else ++ BFD_ASSERT(&relocs[i] > frag[-1].rela); ++ ++ /* If non-null, frag->rela is the last relocation in the ++ fragment. frag->rela can only be null in the last ++ fragment, so in that case, we'll just do the rest. */ ++ for (; (i < sec->reloc_count ++ && (!frag->rela || &relocs[i] <= frag->rela)); i++) ++ { ++ RDBG("[%4u] r_offset 0x%08lx -> 0x%08lx\n", i, relocs[i].r_offset, ++ relocs[i].r_offset + frag->offset_adjust); ++ relocs[i].r_offset += frag->offset_adjust; ++ } ++ ++ if (frag->refcount == 0) ++ { ++ /* If this frag is to be discarded, make sure we won't ++ relocate it later on. */ ++ BFD_ASSERT(frag->state == RS_CPENT); ++ frag->rela->r_info = ELF_R_INFO(ELF_R_SYM(frag->rela->r_info), ++ R_AVR32_NONE); ++ } ++ else if (frag->state == RS_ALIGN) ++ { ++ bfd_vma addr, addr_end; ++ ++ addr = frag->rela->r_offset; ++ addr_end = (frag->offset + frag->offset_adjust ++ + frag->size + frag->size_adjust); ++ ++ /* If the section is executable, insert NOPs. ++ Otherwise, insert zeroes. */ ++ if (sec->flags & SEC_CODE) ++ { ++ if (addr & 1) ++ { ++ bfd_put_8(abfd, 0, contents + addr); ++ addr++; ++ } ++ ++ BFD_ASSERT(!((addr_end - addr) & 1)); ++ ++ while (addr < addr_end) ++ { ++ bfd_put_16(abfd, NOP_OPCODE, contents + addr); ++ addr += 2; ++ } ++ } ++ else ++ memset(contents + addr, 0, addr_end - addr); ++ } ++ else if (state->opcode_mask) ++ { ++ bfd_vma insn; ++ ++ /* Update the opcode and the relocation type unless it's a ++ "special" relax state (i.e. RS_NONE, RS_ALIGN or ++ RS_CPENT.), in which case the opcode mask is zero. */ ++ insn = bfd_get_32(abfd, contents + frag->rela->r_offset); ++ insn &= ~state->opcode_mask; ++ insn |= state->opcode; ++ RDBG(" 0x%lx: inserting insn %08lx\n", ++ frag->rela->r_offset, insn); ++ bfd_put_32(abfd, insn, contents + frag->rela->r_offset); ++ ++ frag->rela->r_info = ELF_R_INFO(ELF_R_SYM(frag->rela->r_info), ++ state->r_type); ++ } ++ ++ if ((frag + 1) == fragend) ++ BFD_ASSERT((frag->offset + frag->size + frag->offset_adjust ++ + frag->size_adjust) == sec->size); ++ else ++ BFD_ASSERT((frag->offset + frag->size + frag->offset_adjust ++ + frag->size_adjust) ++ == (frag[1].offset + frag[1].offset_adjust)); ++ } ++ } ++ ++ /* Adjust reloc addends and DIFF32 differences */ ++ if (!adjust_relocs(abfd, sec, info)) ++ return FALSE; ++ ++ ret = TRUE; ++ ++ out: ++ release_contents(sec, contents); ++ release_internal_relocs(sec, relocs); ++ return ret; ++} ++ ++static bfd_boolean ++avr32_elf_relax_section(bfd *abfd, asection *sec, ++ struct bfd_link_info *info, bfd_boolean *again) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct avr32_relax_data *rd; ++ ++ *again = FALSE; ++ if (info->relocatable) ++ return TRUE; ++ ++ htab = avr32_elf_hash_table(info); ++ if ((!(sec->flags & SEC_RELOC) || sec->reloc_count == 0) ++ && sec != htab->sgot) ++ return TRUE; ++ ++ if (!htab->relocations_analyzed) ++ { ++ if (!analyze_relocations(info)) ++ return FALSE; ++ htab->relocations_analyzed = TRUE; ++ } ++ ++ rd = avr32_relax_data(sec); ++ ++ if (rd->iteration != htab->relax_iteration) ++ { ++ if (!htab->repeat_pass) ++ htab->relax_pass++; ++ htab->relax_iteration++; ++ htab->repeat_pass = FALSE; ++ } ++ ++ rd->iteration++; ++ ++ switch (htab->relax_pass) ++ { ++ case RELAX_PASS_SIZE_FRAGS: ++ if (!avr32_size_frags(abfd, sec, info)) ++ return FALSE; ++ *again = TRUE; ++ break; ++ case RELAX_PASS_MOVE_DATA: ++ if (!avr32_move_data(abfd, sec, info)) ++ return FALSE; ++ break; ++ } ++ ++ return TRUE; ++} ++ ++ ++/* Relocation */ ++ ++static bfd_reloc_status_type ++avr32_check_reloc_value(asection *sec, Elf_Internal_Rela *rela, ++ bfd_signed_vma relocation, reloc_howto_type *howto); ++static bfd_reloc_status_type ++avr32_final_link_relocate(reloc_howto_type *howto, bfd *input_bfd, ++ asection *input_section, bfd_byte *contents, ++ Elf_Internal_Rela *rel, bfd_vma value); ++static bfd_boolean ++avr32_elf_relocate_section(bfd *output_bfd, struct bfd_link_info *info, ++ bfd *input_bfd, asection *input_section, ++ bfd_byte *contents, Elf_Internal_Rela *relocs, ++ Elf_Internal_Sym *local_syms, ++ asection **local_sections); ++ ++ ++#define symbol_address(symbol) \ ++ symbol->value + symbol->section->output_section->vma \ ++ + symbol->section->output_offset ++ ++#define avr32_elf_insert_field(size, field, abfd, reloc_entry, data) \ ++ do \ ++ { \ ++ unsigned long x; \ ++ x = bfd_get_##size (abfd, data + reloc_entry->address); \ ++ x &= ~reloc_entry->howto->dst_mask; \ ++ x |= field & reloc_entry->howto->dst_mask; \ ++ bfd_put_##size (abfd, (bfd_vma) x, data + reloc_entry->address); \ ++ } \ ++ while(0) ++ ++static bfd_reloc_status_type ++avr32_check_reloc_value(asection *sec ATTRIBUTE_UNUSED, ++ Elf_Internal_Rela *rela ATTRIBUTE_UNUSED, ++ bfd_signed_vma relocation, ++ reloc_howto_type *howto) ++{ ++ bfd_vma reloc_u; ++ ++ /* We take "complain_overflow_dont" to mean "don't complain on ++ alignment either". This way, we don't have to special-case ++ R_AVR32_HI16 */ ++ if (howto->complain_on_overflow == complain_overflow_dont) ++ return bfd_reloc_ok; ++ ++ /* Check if the value is correctly aligned */ ++ if (relocation & ((1 << howto->rightshift) - 1)) ++ { ++ RDBG("misaligned: %s<%s+%lx>: %s: 0x%lx (align %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, relocation, howto->rightshift); ++ return bfd_reloc_overflow; ++ } ++ ++ /* Now, get rid of the unnecessary bits */ ++ relocation >>= howto->rightshift; ++ reloc_u = (bfd_vma)relocation; ++ ++ switch (howto->complain_on_overflow) ++ { ++ case complain_overflow_unsigned: ++ case complain_overflow_bitfield: ++ if (reloc_u > (unsigned long)((1 << howto->bitsize) - 1)) ++ { ++ RDBG("unsigned overflow: %s<%s+%lx>: %s: 0x%lx (size %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, reloc_u, howto->bitsize); ++ RDBG("reloc vma: 0x%lx\n", ++ sec->output_section->vma + sec->output_offset + rela->r_offset); ++ ++ return bfd_reloc_overflow; ++ } ++ break; ++ case complain_overflow_signed: ++ if (relocation > (1 << (howto->bitsize - 1)) - 1) ++ { ++ RDBG("signed overflow: %s<%s+%lx>: %s: 0x%lx (size %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, reloc_u, howto->bitsize); ++ RDBG("reloc vma: 0x%lx\n", ++ sec->output_section->vma + sec->output_offset + rela->r_offset); ++ ++ return bfd_reloc_overflow; ++ } ++ if (relocation < -(1 << (howto->bitsize - 1))) ++ { ++ RDBG("signed overflow: %s<%s+%lx>: %s: -0x%lx (size %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, -relocation, howto->bitsize); ++ RDBG("reloc vma: 0x%lx\n", ++ sec->output_section->vma + sec->output_offset + rela->r_offset); ++ ++ return bfd_reloc_overflow; ++ } ++ break; ++ default: ++ abort(); ++ } ++ ++ return bfd_reloc_ok; ++} ++ ++ ++static bfd_reloc_status_type ++avr32_final_link_relocate(reloc_howto_type *howto, ++ bfd *input_bfd, ++ asection *input_section, ++ bfd_byte *contents, ++ Elf_Internal_Rela *rel, ++ bfd_vma value) ++{ ++ bfd_vma field; ++ bfd_vma relocation; ++ bfd_reloc_status_type status; ++ bfd_byte *p = contents + rel->r_offset; ++ unsigned long x; ++ ++ pr_debug(" (6b) final link relocate\n"); ++ ++ /* Sanity check the address */ ++ if (rel->r_offset > input_section->size) ++ { ++ (*_bfd_error_handler) ++ ("%B: %A+0x%lx: offset out of range (section size: 0x%lx)", ++ input_bfd, input_section, rel->r_offset, input_section->size); ++ return bfd_reloc_outofrange; ++ } ++ ++ relocation = value + rel->r_addend; ++ ++ if (howto->pc_relative) ++ { ++ bfd_vma addr; ++ ++ addr = input_section->output_section->vma ++ + input_section->output_offset + rel->r_offset; ++ addr &= ~0UL << howto->rightshift; ++ relocation -= addr; ++ } ++ ++ switch (ELF32_R_TYPE(rel->r_info)) ++ { ++ case R_AVR32_16N_PCREL: ++ /* sub reg, pc, . - (sym + addend) */ ++ relocation = -relocation; ++ break; ++ } ++ ++ status = avr32_check_reloc_value(input_section, rel, relocation, howto); ++ ++ relocation >>= howto->rightshift; ++ if (howto->bitsize == 21) ++ field = (relocation & 0xffff) ++ | ((relocation & 0x10000) << 4) ++ | ((relocation & 0x1e0000) << 8); ++ else if (howto->bitsize == 12) ++ field = (relocation & 0xff) | ((relocation & 0xf00) << 4); ++ else if (howto->bitsize == 10) ++ field = ((relocation & 0xff) << 4) ++ | ((relocation & 0x300) >> 8); ++ else ++ field = relocation << howto->bitpos; ++ ++ switch (howto->size) ++ { ++ case 0: ++ x = bfd_get_8 (input_bfd, p); ++ x &= ~howto->dst_mask; ++ x |= field & howto->dst_mask; ++ bfd_put_8 (input_bfd, (bfd_vma) x, p); ++ break; ++ case 1: ++ x = bfd_get_16 (input_bfd, p); ++ x &= ~howto->dst_mask; ++ x |= field & howto->dst_mask; ++ bfd_put_16 (input_bfd, (bfd_vma) x, p); ++ break; ++ case 2: ++ x = bfd_get_32 (input_bfd, p); ++ x &= ~howto->dst_mask; ++ x |= field & howto->dst_mask; ++ bfd_put_32 (input_bfd, (bfd_vma) x, p); ++ break; ++ default: ++ abort(); ++ } ++ ++ return status; ++} ++ ++/* (6) Apply relocations to the normal (non-dynamic) sections */ ++ ++static bfd_boolean ++avr32_elf_relocate_section(bfd *output_bfd, struct bfd_link_info *info, ++ bfd *input_bfd, asection *input_section, ++ bfd_byte *contents, Elf_Internal_Rela *relocs, ++ Elf_Internal_Sym *local_syms, ++ asection **local_sections) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Rela *rel, *relend; ++ struct elf_link_hash_entry **sym_hashes; ++ struct got_entry **local_got_ents; ++ asection *sgot; ++ asection *srelgot; ++ ++ pr_debug("(6) relocate section %s:<%s> (size 0x%lx)\n", ++ input_bfd->filename, input_section->name, input_section->size); ++ ++ /* If we're doing a partial link, we don't have to do anything since ++ we're using RELA relocations */ ++ if (info->relocatable) ++ return TRUE; ++ ++ htab = avr32_elf_hash_table(info); ++ symtab_hdr = &elf_tdata(input_bfd)->symtab_hdr; ++ sym_hashes = elf_sym_hashes(input_bfd); ++ local_got_ents = elf_local_got_ents(input_bfd); ++ sgot = htab->sgot; ++ srelgot = htab->srelgot; ++ ++ relend = relocs + input_section->reloc_count; ++ for (rel = relocs; rel < relend; rel++) ++ { ++ unsigned long r_type, r_symndx; ++ reloc_howto_type *howto; ++ Elf_Internal_Sym *sym = NULL; ++ struct elf_link_hash_entry *h = NULL; ++ asection *sec = NULL; ++ bfd_vma value; ++ bfd_vma offset; ++ bfd_reloc_status_type status; ++ ++ r_type = ELF32_R_TYPE(rel->r_info); ++ r_symndx = ELF32_R_SYM(rel->r_info); ++ ++ if (r_type == R_AVR32_NONE ++ || r_type == R_AVR32_ALIGN ++ || r_type == R_AVR32_DIFF32 ++ || r_type == R_AVR32_DIFF16 ++ || r_type == R_AVR32_DIFF8) ++ continue; ++ ++ /* Sanity check */ ++ if (r_type > R_AVR32_max) ++ { ++ bfd_set_error(bfd_error_bad_value); ++ return FALSE; ++ } ++ ++ howto = &elf_avr32_howto_table[r_type]; ++ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ sym = local_syms + r_symndx; ++ sec = local_sections[r_symndx]; ++ ++ pr_debug(" (6a) processing %s against local symbol %lu\n", ++ howto->name, r_symndx); ++ ++ /* The following function changes rel->r_addend behind our back. */ ++ value = _bfd_elf_rela_local_sym(output_bfd, sym, &sec, rel); ++ pr_debug(" => value: %lx, addend: %lx\n", value, rel->r_addend); ++ } ++ else ++ { ++ if (sym_hashes == NULL) ++ return FALSE; ++ ++ h = sym_hashes[r_symndx - symtab_hdr->sh_info]; ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ pr_debug(" (6a) processing %s against symbol %s\n", ++ howto->name, h->root.root.string); ++ ++ if (h->root.type == bfd_link_hash_defined ++ || h->root.type == bfd_link_hash_defweak) ++ { ++ bfd_boolean dyn; ++ ++ dyn = htab->root.dynamic_sections_created; ++ sec = h->root.u.def.section; ++ ++ if (sec->output_section) ++ value = (h->root.u.def.value ++ + sec->output_section->vma ++ + sec->output_offset); ++ else ++ value = h->root.u.def.value; ++ } ++ else if (h->root.type == bfd_link_hash_undefweak) ++ value = 0; ++ else if (info->unresolved_syms_in_objects == RM_IGNORE ++ && ELF_ST_VISIBILITY(h->other) == STV_DEFAULT) ++ value = 0; ++ else ++ { ++ bfd_boolean err; ++ err = (info->unresolved_syms_in_objects == RM_GENERATE_ERROR ++ || ELF_ST_VISIBILITY(h->other) != STV_DEFAULT); ++ if (!info->callbacks->undefined_symbol ++ (info, h->root.root.string, input_bfd, ++ input_section, rel->r_offset, err)) ++ return FALSE; ++ value = 0; ++ } ++ ++ pr_debug(" => value: %lx, addend: %lx\n", value, rel->r_addend); ++ } ++ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ BFD_ASSERT(sgot != NULL); ++ ++ if (h != NULL) ++ { ++ BFD_ASSERT(h->got.glist->refcount > 0); ++ offset = h->got.glist->offset; ++ ++ BFD_ASSERT(offset < sgot->size); ++ if (!elf_hash_table(info)->dynamic_sections_created ++ || (h->def_regular ++ && (!info->shared ++ || info->symbolic ++ || h->dynindx == -1))) ++ { ++ /* This is actually a static link, or it is a ++ -Bsymbolic link and the symbol is defined ++ locally, or the symbol was forced to be local. */ ++ bfd_put_32(output_bfd, value, sgot->contents + offset); ++ } ++ } ++ else ++ { ++ BFD_ASSERT(local_got_ents && ++ local_got_ents[r_symndx]->refcount > 0); ++ offset = local_got_ents[r_symndx]->offset; ++ ++ /* Local GOT entries don't have relocs. If this is a ++ shared library, the dynamic linker will add the load ++ address to the initial value at startup. */ ++ BFD_ASSERT(offset < sgot->size); ++ pr_debug("Initializing GOT entry at offset %lu: 0x%lx\n", ++ offset, value); ++ bfd_put_32 (output_bfd, value, sgot->contents + offset); ++ } ++ ++ value = sgot->output_offset + offset; ++ pr_debug("GOT reference: New value %lx\n", value); ++ break; ++ ++ case R_AVR32_GOTPC: ++ /* This relocation type is for constant pool entries used in ++ the calculation "Rd = PC - (PC - GOT)", where the ++ constant pool supplies the constant (PC - GOT) ++ offset. The symbol value + addend indicates where the ++ value of PC is taken. */ ++ value -= sgot->output_section->vma; ++ break; ++ ++ case R_AVR32_32_PCREL: ++ /* We must adjust r_offset to account for discarded data in ++ the .eh_frame section. This is probably not the right ++ way to do this, since AFAICS all other architectures do ++ it some other way. I just can't figure out how... */ ++ { ++ bfd_vma r_offset; ++ ++ r_offset = _bfd_elf_section_offset(output_bfd, info, ++ input_section, ++ rel->r_offset); ++ if (r_offset == (bfd_vma)-1 ++ || r_offset == (bfd_vma)-2) ++ continue; ++ rel->r_offset = r_offset; ++ } ++ break; ++ ++ case R_AVR32_32: ++ /* We need to emit a run-time relocation in the following cases: ++ - we're creating a shared library ++ - the symbol is not defined in any regular objects ++ ++ Of course, sections that aren't going to be part of the ++ run-time image will not get any relocs, and undefined ++ symbols won't have any either (only weak undefined ++ symbols should get this far). */ ++ if ((info->shared ++ || (elf_hash_table(info)->dynamic_sections_created ++ && h != NULL ++ && h->def_dynamic ++ && !h->def_regular)) ++ && r_symndx != 0 ++ && (input_section->flags & SEC_ALLOC)) ++ { ++ Elf_Internal_Rela outrel; ++ bfd_byte *loc; ++ bfd_boolean skip, relocate; ++ struct elf_avr32_link_hash_entry *avrh; ++ ++ pr_debug("Going to generate dynamic reloc...\n"); ++ ++ skip = FALSE; ++ relocate = FALSE; ++ ++ outrel.r_offset = _bfd_elf_section_offset(output_bfd, info, ++ input_section, ++ rel->r_offset); ++ if (outrel.r_offset == (bfd_vma)-1) ++ skip = TRUE; ++ else if (outrel.r_offset == (bfd_vma)-2) ++ skip = TRUE, relocate = TRUE; ++ ++ outrel.r_offset += (input_section->output_section->vma ++ + input_section->output_offset); ++ ++ pr_debug(" ... offset %lx, dynindx %ld\n", ++ outrel.r_offset, h ? h->dynindx : -1); ++ ++ if (skip) ++ memset(&outrel, 0, sizeof(outrel)); ++ else ++ { ++ avrh = (struct elf_avr32_link_hash_entry *)h; ++ /* h->dynindx may be -1 if this symbol was marked to ++ become local. */ ++ if (h == NULL ++ || ((info->symbolic || h->dynindx == -1) ++ && h->def_regular)) ++ { ++ relocate = TRUE; ++ outrel.r_info = ELF32_R_INFO(0, R_AVR32_RELATIVE); ++ outrel.r_addend = value + rel->r_addend; ++ pr_debug(" ... R_AVR32_RELATIVE\n"); ++ } ++ else ++ { ++ BFD_ASSERT(h->dynindx != -1); ++ relocate = TRUE; ++ outrel.r_info = ELF32_R_INFO(h->dynindx, R_AVR32_GLOB_DAT); ++ outrel.r_addend = rel->r_addend; ++ pr_debug(" ... R_AVR32_GLOB_DAT\n"); ++ } ++ } ++ ++ pr_debug("srelgot reloc_count: %d, size %lu\n", ++ srelgot->reloc_count, srelgot->size); ++ ++ loc = srelgot->contents; ++ loc += srelgot->reloc_count++ * sizeof(Elf32_External_Rela); ++ bfd_elf32_swap_reloca_out(output_bfd, &outrel, loc); ++ ++ BFD_ASSERT(srelgot->reloc_count * sizeof(Elf32_External_Rela) ++ <= srelgot->size); ++ ++ if (!relocate) ++ continue; ++ } ++ break; ++ } ++ ++ status = avr32_final_link_relocate(howto, input_bfd, input_section, ++ contents, rel, value); ++ ++ switch (status) ++ { ++ case bfd_reloc_ok: ++ break; ++ ++ case bfd_reloc_overflow: ++ { ++ const char *name; ++ ++ if (h != NULL) ++ name = h->root.root.string; ++ else ++ { ++ name = bfd_elf_string_from_elf_section(input_bfd, ++ symtab_hdr->sh_link, ++ sym->st_name); ++ if (name == NULL) ++ return FALSE; ++ if (*name == '\0') ++ name = bfd_section_name(input_bfd, sec); ++ } ++ if (!((*info->callbacks->reloc_overflow) ++ (info, (h ? &h->root : NULL), name, howto->name, ++ rel->r_addend, input_bfd, input_section, rel->r_offset))) ++ return FALSE; ++ } ++ break; ++ ++ case bfd_reloc_outofrange: ++ default: ++ abort(); ++ } ++ } ++ ++ return TRUE; ++} ++ ++ ++/* Additional processing of dynamic sections after relocation */ ++ ++static bfd_boolean ++avr32_elf_finish_dynamic_symbol(bfd *output_bfd, struct bfd_link_info *info, ++ struct elf_link_hash_entry *h, ++ Elf_Internal_Sym *sym); ++static bfd_boolean ++avr32_elf_finish_dynamic_sections(bfd *output_bfd, struct bfd_link_info *info); ++ ++ ++/* (7) Initialize the contents of a dynamic symbol and/or emit ++ relocations for it */ ++ ++static bfd_boolean ++avr32_elf_finish_dynamic_symbol(bfd *output_bfd, struct bfd_link_info *info, ++ struct elf_link_hash_entry *h, ++ Elf_Internal_Sym *sym) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct got_entry *got; ++ ++ pr_debug("(7) finish dynamic symbol: %s\n", h->root.root.string); ++ ++ htab = avr32_elf_hash_table(info); ++ got = h->got.glist; ++ ++ if (got && got->refcount > 0) ++ { ++ asection *sgot; ++ asection *srelgot; ++ Elf_Internal_Rela rel; ++ bfd_byte *loc; ++ ++ /* This symbol has an entry in the GOT. Set it up. */ ++ sgot = htab->sgot; ++ srelgot = htab->srelgot; ++ BFD_ASSERT(sgot && srelgot); ++ ++ rel.r_offset = (sgot->output_section->vma ++ + sgot->output_offset ++ + got->offset); ++ ++ /* If this is a static link, or it is a -Bsymbolic link and the ++ symbol is defined locally or was forced to be local because ++ of a version file, we just want to emit a RELATIVE reloc. The ++ entry in the global offset table will already have been ++ initialized in the relocate_section function. */ ++ if ((info->shared ++ && !info->symbolic ++ && h->dynindx != -1) ++ || (htab->root.dynamic_sections_created ++ && h->def_dynamic ++ && !h->def_regular)) ++ { ++ bfd_put_32(output_bfd, 0, sgot->contents + got->offset); ++ rel.r_info = ELF32_R_INFO(h->dynindx, R_AVR32_GLOB_DAT); ++ rel.r_addend = 0; ++ ++ pr_debug("GOT reloc R_AVR32_GLOB_DAT, dynindx: %ld\n", h->dynindx); ++ pr_debug(" srelgot reloc_count: %d, size: %lu\n", ++ srelgot->reloc_count, srelgot->size); ++ ++ loc = (srelgot->contents ++ + srelgot->reloc_count++ * sizeof(Elf32_External_Rela)); ++ bfd_elf32_swap_reloca_out(output_bfd, &rel, loc); ++ ++ BFD_ASSERT(srelgot->reloc_count * sizeof(Elf32_External_Rela) ++ <= srelgot->size); ++ } ++ } ++ ++ /* Mark _DYNAMIC and _GLOBAL_OFFSET_TABLE_ as absolute */ ++ if (strcmp(h->root.root.string, "_DYNAMIC") == 0 ++ || strcmp(h->root.root.string, "_GLOBAL_OFFSET_TABLE_") == 0) ++ sym->st_shndx = SHN_ABS; ++ ++ return TRUE; ++} ++ ++/* (8) Do any remaining initialization of the dynamic sections */ ++ ++static bfd_boolean ++avr32_elf_finish_dynamic_sections(bfd *output_bfd, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ asection *sgot, *sdyn; ++ ++ pr_debug("(8) finish dynamic sections\n"); ++ ++ htab = avr32_elf_hash_table(info); ++ sgot = htab->sgot; ++ sdyn = bfd_get_section_by_name(htab->root.dynobj, ".dynamic"); ++ ++ if (htab->root.dynamic_sections_created) ++ { ++ Elf32_External_Dyn *dyncon, *dynconend; ++ ++ BFD_ASSERT(sdyn && sgot && sgot->size >= AVR32_GOT_HEADER_SIZE); ++ ++ dyncon = (Elf32_External_Dyn *)sdyn->contents; ++ dynconend = (Elf32_External_Dyn *)(sdyn->contents + sdyn->size); ++ for (; dyncon < dynconend; dyncon++) ++ { ++ Elf_Internal_Dyn dyn; ++ asection *s; ++ ++ bfd_elf32_swap_dyn_in(htab->root.dynobj, dyncon, &dyn); ++ ++ switch (dyn.d_tag) ++ { ++ default: ++ break; ++ ++ case DT_PLTGOT: ++ s = sgot->output_section; ++ BFD_ASSERT(s != NULL); ++ dyn.d_un.d_ptr = s->vma; ++ bfd_elf32_swap_dyn_out(output_bfd, &dyn, dyncon); ++ break; ++ ++ case DT_AVR32_GOTSZ: ++ s = sgot->output_section; ++ BFD_ASSERT(s != NULL); ++ dyn.d_un.d_val = s->size; ++ bfd_elf32_swap_dyn_out(output_bfd, &dyn, dyncon); ++ break; ++ } ++ } ++ ++ /* Fill in the first two entries in the global offset table */ ++ bfd_put_32(output_bfd, ++ sdyn->output_section->vma + sdyn->output_offset, ++ sgot->contents); ++ ++ /* The runtime linker will fill this one in with the address of ++ the run-time link map */ ++ bfd_put_32(output_bfd, 0, sgot->contents + 4); ++ } ++ ++ if (sgot) ++ elf_section_data(sgot->output_section)->this_hdr.sh_entsize = 4; ++ ++ return TRUE; ++} ++ ++ ++/* AVR32-specific private ELF data */ ++ ++static bfd_boolean ++avr32_elf_set_private_flags(bfd *abfd, flagword flags); ++static bfd_boolean ++avr32_elf_copy_private_bfd_data(bfd *ibfd, bfd *obfd); ++static bfd_boolean ++avr32_elf_merge_private_bfd_data(bfd *ibfd, bfd *obfd); ++static bfd_boolean ++avr32_elf_print_private_bfd_data(bfd *abfd, void *ptr); ++ ++static bfd_boolean ++avr32_elf_set_private_flags(bfd *abfd, flagword flags) ++{ ++ elf_elfheader(abfd)->e_flags = flags; ++ elf_flags_init(abfd) = TRUE; ++ ++ return TRUE; ++} ++ ++/* Copy backend specific data from one object module to another. */ ++ ++static bfd_boolean ++avr32_elf_copy_private_bfd_data(bfd *ibfd, bfd *obfd) ++{ ++ elf_elfheader(obfd)->e_flags = elf_elfheader(ibfd)->e_flags; ++ return TRUE; ++} ++ ++/* Merge backend specific data from an object file to the output ++ object file when linking. */ ++ ++static bfd_boolean ++avr32_elf_merge_private_bfd_data(bfd *ibfd, bfd *obfd) ++{ ++ flagword out_flags, in_flags; ++ ++ pr_debug("(0) merge_private_bfd_data: %s -> %s\n", ++ ibfd->filename, obfd->filename); ++ ++ in_flags = elf_elfheader(ibfd)->e_flags; ++ out_flags = elf_elfheader(obfd)->e_flags; ++ ++ if (elf_flags_init(obfd)) ++ { ++ /* If one of the inputs are non-PIC, the output must be ++ considered non-PIC. The same applies to linkrelax. */ ++ if (!(in_flags & EF_AVR32_PIC)) ++ out_flags &= ~EF_AVR32_PIC; ++ if (!(in_flags & EF_AVR32_LINKRELAX)) ++ out_flags &= ~EF_AVR32_LINKRELAX; ++ } ++ else ++ { ++ elf_flags_init(obfd) = TRUE; ++ out_flags = in_flags; ++ } ++ ++ elf_elfheader(obfd)->e_flags = out_flags; ++ ++ return TRUE; ++} ++ ++static bfd_boolean ++avr32_elf_print_private_bfd_data(bfd *abfd, void *ptr) ++{ ++ FILE *file = (FILE *)ptr; ++ unsigned long flags; ++ ++ BFD_ASSERT(abfd != NULL && ptr != NULL); ++ ++ _bfd_elf_print_private_bfd_data(abfd, ptr); ++ ++ flags = elf_elfheader(abfd)->e_flags; ++ ++ fprintf(file, _("private flags = %lx:"), elf_elfheader(abfd)->e_flags); ++ ++ if (flags & EF_AVR32_PIC) ++ fprintf(file, " [PIC]"); ++ if (flags & EF_AVR32_LINKRELAX) ++ fprintf(file, " [linker relaxable]"); ++ ++ flags &= ~(EF_AVR32_PIC | EF_AVR32_LINKRELAX); ++ ++ if (flags) ++ fprintf(file, _("")); ++ ++ fputc('\n', file); ++ ++ return TRUE; ++} ++ ++/* Set avr32-specific linker options. */ ++void bfd_elf32_avr32_set_options(struct bfd_link_info *info, ++ int direct_data_refs) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ ++ htab = avr32_elf_hash_table (info); ++ htab->direct_data_refs = !!direct_data_refs; ++} ++ ++ ++ ++/* Understanding core dumps */ ++ ++static bfd_boolean ++avr32_elf_grok_prstatus(bfd *abfd, Elf_Internal_Note *note); ++static bfd_boolean ++avr32_elf_grok_psinfo(bfd *abfd, Elf_Internal_Note *note); ++ ++static bfd_boolean ++avr32_elf_grok_prstatus(bfd *abfd, Elf_Internal_Note *note) ++{ ++ /* Linux/AVR32B elf_prstatus */ ++ if (note->descsz != 148) ++ return FALSE; ++ ++ /* pr_cursig */ ++ elf_tdata(abfd)->core_signal = bfd_get_16(abfd, note->descdata + 12); ++ ++ /* pr_pid */ ++ elf_tdata(abfd)->core_pid = bfd_get_32(abfd, note->descdata + 24); ++ ++ /* Make a ".reg/999" section for pr_reg. The size is for 16 ++ general-purpose registers, SR and r12_orig (18 * 4 = 72). */ ++ return _bfd_elfcore_make_pseudosection(abfd, ".reg", 72, ++ note->descpos + 72); ++} ++ ++static bfd_boolean ++avr32_elf_grok_psinfo(bfd *abfd, Elf_Internal_Note *note) ++{ ++ /* Linux/AVR32B elf_prpsinfo */ ++ if (note->descsz != 128) ++ return FALSE; ++ ++ elf_tdata(abfd)->core_program ++ = _bfd_elfcore_strndup(abfd, note->descdata + 32, 16); ++ elf_tdata(abfd)->core_command ++ = _bfd_elfcore_strndup(abfd, note->descdata + 48, 80); ++ ++ /* Note that for some reason, a spurious space is tacked ++ onto the end of the args in some (at least one anyway) ++ implementations, so strip it off if it exists. */ ++ ++ { ++ char *command = elf_tdata (abfd)->core_command; ++ int n = strlen (command); ++ ++ if (0 < n && command[n - 1] == ' ') ++ command[n - 1] = '\0'; ++ } ++ ++ return TRUE; ++} ++ ++ ++#define ELF_ARCH bfd_arch_avr32 ++#define ELF_MACHINE_CODE EM_AVR32 ++#define ELF_MAXPAGESIZE 1024 ++ ++#define TARGET_BIG_SYM bfd_elf32_avr32_vec ++#define TARGET_BIG_NAME "elf32-avr32" ++ ++#define elf_backend_grok_prstatus avr32_elf_grok_prstatus ++#define elf_backend_grok_psinfo avr32_elf_grok_psinfo ++ ++/* Only RELA relocations are used */ ++#define elf_backend_may_use_rel_p 0 ++#define elf_backend_may_use_rela_p 1 ++#define elf_backend_default_use_rela_p 1 ++#define elf_backend_rela_normal 1 ++#define elf_info_to_howto_rel NULL ++#define elf_info_to_howto avr32_info_to_howto ++ ++#define bfd_elf32_bfd_copy_private_bfd_data avr32_elf_copy_private_bfd_data ++#define bfd_elf32_bfd_merge_private_bfd_data avr32_elf_merge_private_bfd_data ++#define bfd_elf32_bfd_set_private_flags avr32_elf_set_private_flags ++#define bfd_elf32_bfd_print_private_bfd_data avr32_elf_print_private_bfd_data ++#define bfd_elf32_new_section_hook avr32_elf_new_section_hook ++ ++#define elf_backend_gc_mark_hook avr32_elf_gc_mark_hook ++#define elf_backend_gc_sweep_hook avr32_elf_gc_sweep_hook ++#define elf_backend_relocate_section avr32_elf_relocate_section ++#define elf_backend_copy_indirect_symbol avr32_elf_copy_indirect_symbol ++#define elf_backend_create_dynamic_sections avr32_elf_create_dynamic_sections ++#define bfd_elf32_bfd_link_hash_table_create avr32_elf_link_hash_table_create ++#define elf_backend_adjust_dynamic_symbol avr32_elf_adjust_dynamic_symbol ++#define elf_backend_size_dynamic_sections avr32_elf_size_dynamic_sections ++#define elf_backend_finish_dynamic_symbol avr32_elf_finish_dynamic_symbol ++#define elf_backend_finish_dynamic_sections avr32_elf_finish_dynamic_sections ++ ++#define bfd_elf32_bfd_relax_section avr32_elf_relax_section ++ ++/* Find out which symbols need an entry in .got. */ ++#define elf_backend_check_relocs avr32_check_relocs ++#define elf_backend_can_refcount 1 ++#define elf_backend_can_gc_sections 1 ++#define elf_backend_plt_readonly 1 ++#define elf_backend_plt_not_loaded 1 ++#define elf_backend_want_plt_sym 0 ++#define elf_backend_plt_alignment 2 ++#define elf_backend_want_dynbss 0 ++#define elf_backend_want_got_plt 0 ++#define elf_backend_want_got_sym 1 ++#define elf_backend_got_header_size AVR32_GOT_HEADER_SIZE ++ ++#include "elf32-target.h" +--- /dev/null ++++ b/bfd/elf32-avr32.h +@@ -0,0 +1,23 @@ ++/* AVR32-specific support for 32-bit ELF. ++ Copyright 2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2 of the License, or ++ (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, ++ but WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ GNU General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ ++ ++void bfd_elf32_avr32_set_options(struct bfd_link_info *info, ++ int direct_data_refs); +--- b/bfd/elf-bfd.h ++++ b/bfd/elf-bfd.h +@@ -406,6 +406,7 @@ + ALPHA_ELF_DATA = 1, + ARM_ELF_DATA, + AVR_ELF_DATA, ++ AVR32_ELF_DATA, + BFIN_ELF_DATA, + CRIS_ELF_DATA, + FRV_ELF_DATA, +@@ -1553,6 +1554,10 @@ + find_nearest_line. */ + struct mips_elf_find_line *find_line_info; + ++ /* Used by AVR32 ELF relaxation code. Contains an array of pointers ++ for each local symbol to the fragment where it is defined. */ ++ struct fragment **local_sym_frag; ++ + /* A place to stash dwarf1 info for this bfd. */ + struct dwarf1_debug *dwarf1_find_line_info; + +--- a/bfd/libbfd.h ++++ b/bfd/libbfd.h +@@ -1783,6 +1783,48 @@ static const char *const bfd_reloc_code_ + "BFD_RELOC_AVR_LDI", + "BFD_RELOC_AVR_6", + "BFD_RELOC_AVR_6_ADIW", ++ "BFD_RELOC_AVR32_DIFF32", ++ "BFD_RELOC_AVR32_DIFF16", ++ "BFD_RELOC_AVR32_DIFF8", ++ "BFD_RELOC_AVR32_GOT32", ++ "BFD_RELOC_AVR32_GOT16", ++ "BFD_RELOC_AVR32_GOT8", ++ "BFD_RELOC_AVR32_21S", ++ "BFD_RELOC_AVR32_16U", ++ "BFD_RELOC_AVR32_16S", ++ "BFD_RELOC_AVR32_SUB5", ++ "BFD_RELOC_AVR32_8S_EXT", ++ "BFD_RELOC_AVR32_8S", ++ "BFD_RELOC_AVR32_15S", ++ "BFD_RELOC_AVR32_22H_PCREL", ++ "BFD_RELOC_AVR32_18W_PCREL", ++ "BFD_RELOC_AVR32_16B_PCREL", ++ "BFD_RELOC_AVR32_16N_PCREL", ++ "BFD_RELOC_AVR32_14UW_PCREL", ++ "BFD_RELOC_AVR32_11H_PCREL", ++ "BFD_RELOC_AVR32_10UW_PCREL", ++ "BFD_RELOC_AVR32_9H_PCREL", ++ "BFD_RELOC_AVR32_9UW_PCREL", ++ "BFD_RELOC_AVR32_GOTPC", ++ "BFD_RELOC_AVR32_GOTCALL", ++ "BFD_RELOC_AVR32_LDA_GOT", ++ "BFD_RELOC_AVR32_GOT21S", ++ "BFD_RELOC_AVR32_GOT18SW", ++ "BFD_RELOC_AVR32_GOT16S", ++ "BFD_RELOC_AVR32_32_CPENT", ++ "BFD_RELOC_AVR32_CPCALL", ++ "BFD_RELOC_AVR32_16_CP", ++ "BFD_RELOC_AVR32_9W_CP", ++ "BFD_RELOC_AVR32_ALIGN", ++ "BFD_RELOC_AVR32_14UW", ++ "BFD_RELOC_AVR32_10UW", ++ "BFD_RELOC_AVR32_10SW", ++ "BFD_RELOC_AVR32_STHH_W", ++ "BFD_RELOC_AVR32_7UW", ++ "BFD_RELOC_AVR32_6S", ++ "BFD_RELOC_AVR32_6UW", ++ "BFD_RELOC_AVR32_4UH", ++ "BFD_RELOC_AVR32_3U", + "BFD_RELOC_RX_NEG8", + "BFD_RELOC_RX_NEG16", + "BFD_RELOC_RX_NEG24", +--- a/bfd/Makefile.am ++++ b/bfd/Makefile.am +@@ -75,6 +75,7 @@ ALL_MACHINES = \ + cpu-arc.lo \ + cpu-arm.lo \ + cpu-avr.lo \ ++ cpu-avr32.lo \ + cpu-bfin.lo \ + cpu-cr16.lo \ + cpu-cr16c.lo \ +@@ -272,6 +273,7 @@ BFD32_BACKENDS = \ + elf32-arc.lo \ + elf32-arm.lo \ + elf32-avr.lo \ ++ elf32-avr32.lo \ + elf32-bfin.lo \ + elf32-cr16.lo \ + elf32-cr16c.lo \ +--- a/bfd/reloc.c ++++ b/bfd/reloc.c +@@ -4275,6 +4275,131 @@ ENUMDOC + Renesas RX Relocations. + + ENUM ++ BFD_RELOC_AVR32_DIFF32 ++ENUMX ++ BFD_RELOC_AVR32_DIFF16 ++ENUMX ++ BFD_RELOC_AVR32_DIFF8 ++ENUMDOC ++ Difference between two labels: L2 - L1. The value of L1 is encoded ++ as sym + addend, while the initial difference after assembly is ++ inserted into the object file by the assembler. ++ENUM ++ BFD_RELOC_AVR32_GOT32 ++ENUMX ++ BFD_RELOC_AVR32_GOT16 ++ENUMX ++ BFD_RELOC_AVR32_GOT8 ++ENUMDOC ++ Reference to a symbol through the Global Offset Table. The linker ++ will allocate an entry for symbol in the GOT and insert the offset ++ of this entry as the relocation value. ++ENUM ++ BFD_RELOC_AVR32_21S ++ENUMX ++ BFD_RELOC_AVR32_16U ++ENUMX ++ BFD_RELOC_AVR32_16S ++ENUMX ++ BFD_RELOC_AVR32_SUB5 ++ENUMX ++ BFD_RELOC_AVR32_8S_EXT ++ENUMX ++ BFD_RELOC_AVR32_8S ++ENUMX ++ BFD_RELOC_AVR32_15S ++ENUMDOC ++ Normal (non-pc-relative) code relocations. Alignment and signedness ++ is indicated by the suffixes. S means signed, U means unsigned. W ++ means word-aligned, H means halfword-aligned, neither means ++ byte-aligned (no alignment.) SUB5 is the same relocation as 16S. ++ENUM ++ BFD_RELOC_AVR32_22H_PCREL ++ENUMX ++ BFD_RELOC_AVR32_18W_PCREL ++ENUMX ++ BFD_RELOC_AVR32_16B_PCREL ++ENUMX ++ BFD_RELOC_AVR32_16N_PCREL ++ENUMX ++ BFD_RELOC_AVR32_14UW_PCREL ++ENUMX ++ BFD_RELOC_AVR32_11H_PCREL ++ENUMX ++ BFD_RELOC_AVR32_10UW_PCREL ++ENUMX ++ BFD_RELOC_AVR32_9H_PCREL ++ENUMX ++ BFD_RELOC_AVR32_9UW_PCREL ++ENUMDOC ++ PC-relative relocations are signed if neither 'U' nor 'S' is ++ specified. However, we explicitly tack on a 'B' to indicate no ++ alignment, to avoid confusion with data relocs. All of these resolve ++ to sym + addend - offset, except the one with 'N' (negated) suffix. ++ This particular one resolves to offset - sym - addend. ++ENUM ++ BFD_RELOC_AVR32_GOTPC ++ENUMDOC ++ Subtract the link-time address of the GOT from (symbol + addend) ++ and insert the result. ++ENUM ++ BFD_RELOC_AVR32_GOTCALL ++ENUMX ++ BFD_RELOC_AVR32_LDA_GOT ++ENUMX ++ BFD_RELOC_AVR32_GOT21S ++ENUMX ++ BFD_RELOC_AVR32_GOT18SW ++ENUMX ++ BFD_RELOC_AVR32_GOT16S ++ENUMDOC ++ Reference to a symbol through the GOT. The linker will allocate an ++ entry for symbol in the GOT and insert the offset of this entry as ++ the relocation value. addend must be zero. As usual, 'S' means ++ signed, 'W' means word-aligned, etc. ++ENUM ++ BFD_RELOC_AVR32_32_CPENT ++ENUMDOC ++ 32-bit constant pool entry. I don't think 8- and 16-bit entries make ++ a whole lot of sense. ++ENUM ++ BFD_RELOC_AVR32_CPCALL ++ENUMX ++ BFD_RELOC_AVR32_16_CP ++ENUMX ++ BFD_RELOC_AVR32_9W_CP ++ENUMDOC ++ Constant pool references. Some of these relocations are signed, ++ others are unsigned. It doesn't really matter, since the constant ++ pool always comes after the code that references it. ++ENUM ++ BFD_RELOC_AVR32_ALIGN ++ENUMDOC ++ sym must be the absolute symbol. The addend specifies the alignment ++ order, e.g. if addend is 2, the linker must add padding so that the ++ next address is aligned to a 4-byte boundary. ++ENUM ++ BFD_RELOC_AVR32_14UW ++ENUMX ++ BFD_RELOC_AVR32_10UW ++ENUMX ++ BFD_RELOC_AVR32_10SW ++ENUMX ++ BFD_RELOC_AVR32_STHH_W ++ENUMX ++ BFD_RELOC_AVR32_7UW ++ENUMX ++ BFD_RELOC_AVR32_6S ++ENUMX ++ BFD_RELOC_AVR32_6UW ++ENUMX ++ BFD_RELOC_AVR32_4UH ++ENUMX ++ BFD_RELOC_AVR32_3U ++ENUMDOC ++ Code relocations that will never make it to the output file. ++ ++ENUM + BFD_RELOC_390_12 + ENUMDOC + Direct 12 bit. +--- a/bfd/targets.c ++++ b/bfd/targets.c +@@ -579,6 +579,7 @@ extern const bfd_target b_out_vec_big_ho + extern const bfd_target b_out_vec_little_host; + extern const bfd_target bfd_pei_ia64_vec; + extern const bfd_target bfd_elf32_avr_vec; ++extern const bfd_target bfd_elf32_avr32_vec; + extern const bfd_target bfd_elf32_bfin_vec; + extern const bfd_target bfd_elf32_bfinfdpic_vec; + extern const bfd_target bfd_elf32_big_generic_vec; +@@ -917,6 +918,7 @@ static const bfd_target * const _bfd_tar + &bfd_pei_ia64_vec, + #endif + &bfd_elf32_avr_vec, ++ &bfd_elf32_avr32_vec, + &bfd_elf32_bfin_vec, + &bfd_elf32_bfinfdpic_vec, + +--- a/binutils/doc/binutils.info ++++ b/binutils/doc/binutils.info +@@ -1705,6 +1705,10 @@ equivalent. At least one option from th + useful when attempting to disassemble thumb code produced by other + compilers. + ++ For the AVR32 architectures that support Floating point unit (FPU), ++ specifying '-M decode-fpu' will enable disassembler to print the ++ floating point instruction instead of 'cop' instructions. ++ + For the x86, some of the options duplicate functions of the `-m' + switch, but allow finer grained control. Multiple selections from + the following may be specified as a comma separated string. +--- a/binutils/doc/binutils.texi ++++ b/binutils/doc/binutils.texi +@@ -1980,6 +1980,10 @@ using the switch @option{--disassembler- + useful when attempting to disassemble thumb code produced by other + compilers. + ++For the AVR32 architectures that support Floating point unit (FPU), ++specifying @option{-M decode-fpu} will enable disassembler to print the ++floating point instructions instead of 'cop' instructions. ++ + For the x86, some of the options duplicate functions of the @option{-m} + switch, but allow finer grained control. Multiple selections from the + following may be specified as a comma separated string. +--- a/binutils/doc/objdump.1 ++++ b/binutils/doc/objdump.1 +@@ -425,6 +425,10 @@ using the switch \fB\-\-disassembler\-op + useful when attempting to disassemble thumb code produced by other + compilers. + .Sp ++For the \s-1AVR32\s0 architectures that support Floating point unit (FPU), ++specifying \fB\-M decode\-fpu\fR will enable disassembler to print the ++floating point instructions instead of 'cop' instructions. ++.Sp + For the x86, some of the options duplicate functions of the \fB\-m\fR + switch, but allow finer grained control. Multiple selections from the + following may be specified as a comma separated string. +--- a/binutils/readelf.c ++++ b/binutils/readelf.c +@@ -95,6 +95,7 @@ + #include "elf/arc.h" + #include "elf/arm.h" + #include "elf/avr.h" ++#include "elf/avr32.h" + #include "elf/bfin.h" + #include "elf/cr16.h" + #include "elf/cris.h" +@@ -619,6 +620,7 @@ guess_is_rela (unsigned int e_machine) + case EM_ALPHA: + case EM_ALTERA_NIOS2: + case EM_AVR: ++ case EM_AVR32: + case EM_AVR_OLD: + case EM_BLACKFIN: + case EM_CR16: +@@ -1072,6 +1074,10 @@ dump_relocations (FILE * file, + rtype = elf_avr_reloc_type (type); + break; + ++ case EM_AVR32: ++ rtype = elf_avr32_reloc_type (type); ++ break; ++ + case EM_OLD_SPARCV9: + case EM_SPARC32PLUS: + case EM_SPARCV9: +--- a/gas/as.c ++++ b/gas/as.c +@@ -459,10 +459,10 @@ parse_args (int * pargc, char *** pargv) + the end of the preceeding line so that it is simpler to + selectively add and remove lines from this list. */ + {"alternate", no_argument, NULL, OPTION_ALTERNATE} +- /* The entry for "a" is here to prevent getopt_long_only() from +- considering that -a is an abbreviation for --alternate. This is +- necessary because -a= is a valid switch but getopt would +- normally reject it since --alternate does not take an argument. */ ++ /* The next two entries are here to prevent getopt_long_only() from ++ considering that -a or -al is an abbreviation for --alternate. ++ This is necessary because -a= is a valid switch but getopt ++ would normally reject it since --alternate does not take an argument. */ + ,{"a", optional_argument, NULL, 'a'} + /* Handle -al=. */ + ,{"al", optional_argument, NULL, OPTION_AL} +@@ -839,8 +839,15 @@ This program has absolutely no warranty. + case 'a': + if (optarg) + { +- if (optarg != old_argv[optind] && optarg[-1] == '=') ++ /* If optarg is part of the -a switch and not a separate argument ++ in its own right, then scan backwards to the just after the -a. ++ This means skipping over both '=' and 'l' which might have been ++ taken to be part of the -a switch itself. */ ++ if (optarg != old_argv[optind]) ++ { ++ while (optarg[-1] == '=' || optarg[-1] == 'l') + --optarg; ++ } + + if (md_parse_option (optc, optarg) != 0) + break; +--- a/gas/as.h ++++ b/gas/as.h +@@ -82,6 +82,7 @@ + #endif + #define gas_assert(P) \ + ((void) ((P) ? 0 : (as_assert (__FILE__, __LINE__, __PRETTY_FUNCTION__), 0))) ++#define assert(P) gas_assert(P) + #undef abort + #define abort() as_abort (__FILE__, __LINE__, __PRETTY_FUNCTION__) + +--- a/gas/atof-generic.c ++++ b/gas/atof-generic.c +@@ -121,6 +121,21 @@ atof_generic (/* return pointer to just + + switch (first_digit[0]) + { ++ case 's': ++ case 'S': ++ case 'q': ++ case 'Q': ++ if (!strncasecmp ("nan", first_digit+1, 3)) ++ { ++ address_of_generic_floating_point_number->sign = 0; ++ address_of_generic_floating_point_number->exponent = 0; ++ address_of_generic_floating_point_number->leader = ++ address_of_generic_floating_point_number->low; ++ *address_of_string_pointer = first_digit + 4; ++ return 0; ++ } ++ break; ++ + case 'n': + case 'N': + if (!strncasecmp ("nan", first_digit, 3)) +--- a/gas/config/atof-vax.c ++++ b/gas/config/atof-vax.c +@@ -268,9 +268,27 @@ flonum_gen2vax (int format_letter, /* On + int exponent_skippage; + LITTLENUM_TYPE word1; + +- /* JF: Deal with new Nan, +Inf and -Inf codes. */ ++ /* JF: Deal with new +/-(q/Q/s/S)Nan, +Inf and -Inf codes. */ + if (f->sign != '-' && f->sign != '+') + { ++ if (f->sign == 0) ++ { ++ /* All NaNs are 0. */ ++ memset (words, 0x00, sizeof (LITTLENUM_TYPE) * precision); ++ } ++ else if (f->sign == 'P') ++ { ++ /* Positive Infinity. */ ++ memset (words, 0xff, sizeof (LITTLENUM_TYPE) * precision); ++ words[0] &= 0x7fff; ++ } ++ else if (f->sign == 'N') ++ { ++ /* Negative Infinity. */ ++ memset (words, 0x00, sizeof (LITTLENUM_TYPE) * precision); ++ words[0] = 0x0080; ++ } ++ else + make_invalid_floating_point_number (words); + return return_value; + } +--- /dev/null ++++ b/gas/config/tc-avr32.c +@@ -0,0 +1,4839 @@ ++/* Assembler implementation for AVR32. ++ Copyright 2003,2004,2005,2006,2007,2008,2009,2010 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of GAS, the GNU Assembler. ++ ++ GAS is free software; you can redistribute it and/or modify it ++ under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2, or (at your option) ++ any later version. ++ ++ GAS is distributed in the hope that it will be useful, but WITHOUT ++ ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ++ or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public ++ License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with GAS; see the file COPYING. If not, write to the Free ++ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include ++#include "as.h" ++#include "safe-ctype.h" ++#include "subsegs.h" ++#include "symcat.h" ++#include "opcodes/avr32-opc.h" ++#include "opcodes/avr32-asm.h" ++#include "elf/avr32.h" ++#include "dwarf2dbg.h" ++ ++#define xDEBUG ++#define xOPC_CONSISTENCY_CHECK ++ ++#ifdef DEBUG ++# define pr_debug(fmt, args...) fprintf(stderr, fmt, ##args) ++#else ++# define pr_debug(fmt, args...) ++#endif ++ ++/* 3 MSB of instruction word indicate group. Group 7 -> extended */ ++#define AVR32_COMPACT_P(opcode) ((opcode[0] & 0xe0) != 0xe0) ++ ++#define streq(a, b) (strcmp(a, b) == 0) ++#define skip_whitespace(str) do { while(*(str) == ' ') ++(str); } while(0) ++ ++/* Flags given on the command line */ ++static int avr32_pic = FALSE; ++int linkrelax = FALSE; ++int avr32_iarcompat = FALSE; ++ ++/* This array holds the chars that always start a comment. */ ++const char comment_chars[] = "#"; ++ ++/* This array holds the chars that only start a comment at the ++ beginning of a line. We must include '#' here because the compiler ++ may produce #APP and #NO_APP in its output. */ ++const char line_comment_chars[] = "#"; ++ ++/* These may be used instead of newline (same as ';' in C). */ ++const char line_separator_chars[] = ";"; ++ ++/* Chars that can be used to separate mantissa from exponent in ++ floating point numbers. */ ++const char EXP_CHARS[] = "eE"; ++ ++/* Chars that mean this number is a floating point constant. */ ++const char FLT_CHARS[] = "dD"; ++ ++/* Pre-defined "_GLOBAL_OFFSET_TABLE_" */ ++symbolS *GOT_symbol; ++ ++static struct hash_control *avr32_mnemonic_htab; ++ ++struct avr32_ifield_data ++{ ++ bfd_vma value; ++ /* FIXME: Get rid of align_order and complain. complain is never ++ used, align_order is used in one place. Try to use the relax ++ table instead. */ ++ unsigned int align_order; ++}; ++ ++struct avr32_insn ++{ ++ const struct avr32_syntax *syntax; ++ expressionS immediate; ++ int pcrel; ++ int force_extended; ++ unsigned int next_slot; ++ bfd_reloc_code_real_type r_type; ++ struct avr32_ifield_data field_value[AVR32_MAX_FIELDS]; ++}; ++ ++static struct avr32_insn current_insn; ++ ++/* The target specific pseudo-ops we support. */ ++static void s_rseg (int); ++static void s_cpool(int); ++ ++const pseudo_typeS md_pseudo_table[] = ++{ ++ /* Make sure that .word is 32 bits */ ++ { "word", cons, 4 }, ++ { "file", (void (*) PARAMS ((int))) dwarf2_directive_file, 0 }, ++ { "loc", dwarf2_directive_loc, 0 }, ++ ++ /* .lcomm requires an explicit alignment parameter */ ++ { "lcomm", s_lcomm, 1 }, ++ ++ /* AVR32-specific pseudo-ops */ ++ { "cpool", s_cpool, 0}, ++ ++ /* IAR compatible pseudo-ops */ ++ { "program", s_ignore, 0 }, ++ { "public", s_globl, 0 }, ++ { "extern", s_ignore, 0 }, ++ { "module", s_ignore, 0 }, ++ { "rseg", s_rseg, 0 }, ++ { "dc8", cons, 1 }, ++ { "dc16", cons, 2 }, ++ { "dc32", cons, 4 }, ++ ++ { NULL, NULL, 0 } ++}; ++ ++/* Questionable stuff starts here */ ++ ++enum avr32_opinfo { ++ AVR32_OPINFO_NONE = BFD_RELOC_NONE, ++ AVR32_OPINFO_GOT, ++ AVR32_OPINFO_TLSGD, ++ AVR32_OPINFO_HI, ++ AVR32_OPINFO_LO, ++}; ++ ++enum avr32_arch { ++ ARCH_TYPE_AP, ++ ARCH_TYPE_UCR1, ++ ARCH_TYPE_UCR2, ++ ARCH_TYPE_UCR3, ++ ARCH_TYPE_UCR3FP ++}; ++ ++struct arch_type_s ++{ ++ /* Architecture name */ ++ char *name; ++ /* Instruction Set Architecture Flags */ ++ unsigned long isa_flags; ++}; ++ ++struct part_type_s ++{ ++ /* Part name */ ++ char *name; ++ /* Architecture type */ ++ unsigned int arch; ++}; ++ ++static struct arch_type_s arch_types[] = ++{ ++ {"ap", AVR32_V1 | AVR32_SIMD | AVR32_DSP | AVR32_PICO}, ++ {"ucr1", AVR32_V1 | AVR32_DSP | AVR32_RMW}, ++ {"ucr2", AVR32_V1 | AVR32_V2 | AVR32_DSP | AVR32_RMW}, ++ {"ucr3", AVR32_V1 | AVR32_V2 | AVR32_V3 | AVR32_DSP | AVR32_RMW}, ++ {"ucr3fp", AVR32_V1 | AVR32_V2 | AVR32_V3 | AVR32_DSP | AVR32_RMW | AVR32_V3FP}, ++ {"all-insn", AVR32_V1 | AVR32_V2 | AVR32_V3 | AVR32_SIMD | AVR32_DSP | AVR32_RMW | AVR32_V3FP | AVR32_PICO}, ++ {NULL, 0} ++}; ++ ++static struct part_type_s part_types[] = ++{ ++ {"ap7000", ARCH_TYPE_AP}, ++ {"ap7001", ARCH_TYPE_AP}, ++ {"ap7002", ARCH_TYPE_AP}, ++ {"ap7200", ARCH_TYPE_AP}, ++ {"uc3a0128", ARCH_TYPE_UCR2}, ++ {"uc3a0256", ARCH_TYPE_UCR2}, ++ {"uc3a0512es", ARCH_TYPE_UCR1}, ++ {"uc3a0512", ARCH_TYPE_UCR2}, ++ {"uc3a1128", ARCH_TYPE_UCR2}, ++ {"uc3a1256es", ARCH_TYPE_UCR1}, ++ {"uc3a1256", ARCH_TYPE_UCR2}, ++ {"uc3a1512es", ARCH_TYPE_UCR1}, ++ {"uc3a1512", ARCH_TYPE_UCR2}, ++ {"uc3a364", ARCH_TYPE_UCR2}, ++ {"uc3a364s", ARCH_TYPE_UCR2}, ++ {"uc3a3128", ARCH_TYPE_UCR2}, ++ {"uc3a3128s", ARCH_TYPE_UCR2}, ++ {"uc3a3256", ARCH_TYPE_UCR2}, ++ {"uc3a3256s", ARCH_TYPE_UCR2}, ++ {"uc3b064", ARCH_TYPE_UCR1}, ++ {"uc3b0128", ARCH_TYPE_UCR1}, ++ {"uc3b0256es", ARCH_TYPE_UCR1}, ++ {"uc3b0256", ARCH_TYPE_UCR1}, ++ {"uc3b0512", ARCH_TYPE_UCR2}, ++ {"uc3b0512revc", ARCH_TYPE_UCR2}, ++ {"uc3b164", ARCH_TYPE_UCR1}, ++ {"uc3b1128", ARCH_TYPE_UCR1}, ++ {"uc3b1256", ARCH_TYPE_UCR1}, ++ {"uc3b1256es", ARCH_TYPE_UCR1}, ++ {"uc3b1512", ARCH_TYPE_UCR2}, ++ {"uc3b1512revc", ARCH_TYPE_UCR2}, ++ {"uc3c0512crevc", ARCH_TYPE_UCR3}, ++ {"uc3c1512crevc", ARCH_TYPE_UCR3}, ++ {"uc3c2512crevc", ARCH_TYPE_UCR3}, ++ {"atuc3l0256", ARCH_TYPE_UCR3}, ++ {"mxt768e", ARCH_TYPE_UCR3}, ++ {"uc3l064", ARCH_TYPE_UCR3}, ++ {"uc3l032", ARCH_TYPE_UCR3}, ++ {"uc3l016", ARCH_TYPE_UCR3}, ++ {"uc3l064revb", ARCH_TYPE_UCR3}, ++ {"uc3c064c", ARCH_TYPE_UCR3FP}, ++ {"uc3c0128c", ARCH_TYPE_UCR3FP}, ++ {"uc3c0256c", ARCH_TYPE_UCR3FP}, ++ {"uc3c0512c", ARCH_TYPE_UCR3FP}, ++ {"uc3c164c", ARCH_TYPE_UCR3FP}, ++ {"uc3c1128c", ARCH_TYPE_UCR3FP}, ++ {"uc3c1256c", ARCH_TYPE_UCR3FP}, ++ {"uc3c1512c", ARCH_TYPE_UCR3FP}, ++ {"uc3c264c", ARCH_TYPE_UCR3FP}, ++ {"uc3c2128c", ARCH_TYPE_UCR3FP}, ++ {"uc3c2256c", ARCH_TYPE_UCR3FP}, ++ {"uc3c2512c", ARCH_TYPE_UCR3FP}, ++ {NULL, 0} ++}; ++ ++/* Current architecture type. */ ++static struct arch_type_s default_arch = {"all-insn", AVR32_V1 | AVR32_V2 | AVR32_V3 | AVR32_SIMD | AVR32_DSP | AVR32_RMW | AVR32_V3FP | AVR32_PICO }; ++static struct arch_type_s *avr32_arch = &default_arch; ++ ++/* Display nicely formatted list of known part- and architecture names. */ ++ ++static void ++show_arch_list (FILE *stream) ++{ ++ int i, x; ++ ++ fprintf (stream, _("Known architecture names:")); ++ x = 1000; ++ ++ for (i = 0; arch_types[i].name; i++) ++ { ++ int len = strlen (arch_types[i].name); ++ ++ x += len + 1; ++ ++ if (x < 75) ++ fprintf (stream, " %s", arch_types[i].name); ++ else ++ { ++ fprintf (stream, "\n %s", arch_types[i].name); ++ x = len + 2; ++ } ++ } ++ ++ fprintf (stream, "\n"); ++} ++ ++static void ++show_part_list (FILE *stream) ++{ ++ int i, x; ++ ++ fprintf (stream, _("Known part names:")); ++ x = 1000; ++ ++ for (i = 0; part_types[i].name; i++) ++ { ++ int len = strlen(part_types[i].name); ++ ++ x += len + 1; ++ ++ if (x < 75) ++ fprintf (stream, " %s", part_types[i].name); ++ else ++ { ++ fprintf(stream, "\n %s", part_types[i].name); ++ x = len + 2; ++ } ++ } ++ ++ fprintf (stream, "\n"); ++} ++ ++const char *md_shortopts = ""; ++struct option md_longopts[] = ++{ ++#define OPTION_ARCH (OPTION_MD_BASE) ++#define OPTION_PART (OPTION_ARCH + 1) ++#define OPTION_IAR (OPTION_PART + 1) ++#define OPTION_PIC (OPTION_IAR + 1) ++#define OPTION_NOPIC (OPTION_PIC + 1) ++#define OPTION_LINKRELAX (OPTION_NOPIC + 1) ++#define OPTION_NOLINKRELAX (OPTION_LINKRELAX + 1) ++#define OPTION_DIRECT_DATA_REFS (OPTION_NOLINKRELAX + 1) ++ {"march", required_argument, NULL, OPTION_ARCH}, ++ {"mpart", required_argument, NULL, OPTION_PART}, ++ {"iar", no_argument, NULL, OPTION_IAR}, ++ {"pic", no_argument, NULL, OPTION_PIC}, ++ {"no-pic", no_argument, NULL, OPTION_NOPIC}, ++ {"linkrelax", no_argument, NULL, OPTION_LINKRELAX}, ++ {"no-linkrelax", no_argument, NULL, OPTION_NOLINKRELAX}, ++ /* deprecated alias for -mpart=xxx */ ++ {"mcpu", required_argument, NULL, OPTION_PART}, ++ {NULL, no_argument, NULL, 0} ++}; ++ ++size_t md_longopts_size = sizeof (md_longopts); ++ ++void ++md_show_usage (FILE *stream) ++{ ++ fprintf (stream, _("\ ++AVR32 options:\n\ ++ -march=[arch-name] Select cpu architecture. [Default `all-insn']\n\ ++ -mpart=[part-name] Select specific part. [Default `none']\n\ ++ --pic Produce Position-Independent Code\n\ ++ --no-pic Don't produce Position-Independent Code\n\ ++ --linkrelax Produce output suitable for linker relaxing\n\ ++ --no-linkrelax Don't produce output suitable for linker relaxing\n")); ++ show_arch_list(stream); ++} ++ ++int ++md_parse_option (int c, char *arg ATTRIBUTE_UNUSED) ++{ ++ switch (c) ++ { ++ case OPTION_ARCH: ++ { ++ int i; ++ char *s = alloca (strlen (arg) + 1); ++ ++ { ++ char *t = s; ++ char *arg1 = arg; ++ ++ do ++ *t = TOLOWER (*arg1++); ++ while (*t++); ++ } ++ ++ /* Add backward compability */ ++ if (strcmp ("uc", s)== 0) ++ { ++ as_warn("Deprecated arch `%s' specified. " ++ "Please use '-march=ucr1' instead. " ++ "Converting to arch 'ucr1'\n", ++ s); ++ s="ucr1"; ++ } ++ ++ for (i = 0; arch_types[i].name; ++i) ++ if (strcmp (arch_types[i].name, s) == 0) ++ break; ++ ++ if (!arch_types[i].name) ++ { ++ show_arch_list (stderr); ++ as_fatal (_("unknown architecture: %s\n"), arg); ++ } ++ ++ avr32_arch = &arch_types[i]; ++ break; ++ } ++ case OPTION_PART: ++ { ++ int i; ++ char *s = alloca (strlen (arg) + 1); ++ char *t = s; ++ char *p = arg; ++ ++ /* If arch type has already been set, don't bother. ++ -march= always overrides -mpart= */ ++ if (avr32_arch != &default_arch) ++ break; ++ ++ do ++ *t = TOLOWER (*p++); ++ while (*t++); ++ ++ for (i = 0; part_types[i].name; ++i) ++ if (strcmp (part_types[i].name, s) == 0) ++ break; ++ ++ if (!part_types[i].name) ++ { ++ show_part_list (stderr); ++ as_fatal (_("unknown part: %s\n"), arg); ++ } ++ ++ avr32_arch = &arch_types[part_types[i].arch]; ++ break; ++ } ++ case OPTION_IAR: ++ avr32_iarcompat = 1; ++ break; ++ case OPTION_PIC: ++ avr32_pic = 1; ++ break; ++ case OPTION_NOPIC: ++ avr32_pic = 0; ++ break; ++ case OPTION_LINKRELAX: ++ linkrelax = 1; ++ break; ++ case OPTION_NOLINKRELAX: ++ linkrelax = 0; ++ break; ++ default: ++ return 0; ++ } ++ return 1; ++} ++ ++/* Can't use symbol_new here, so have to create a symbol and then at ++ a later date assign it a value. Thats what these functions do. ++ ++ Shamelessly stolen from ARM. */ ++ ++static void ++symbol_locate (symbolS * symbolP, ++ const char * name, /* It is copied, the caller can modify. */ ++ segT segment, /* Segment identifier (SEG_). */ ++ valueT valu, /* Symbol value. */ ++ fragS * frag) /* Associated fragment. */ ++{ ++ unsigned int name_length; ++ char * preserved_copy_of_name; ++ ++ name_length = strlen (name) + 1; /* +1 for \0. */ ++ obstack_grow (¬es, name, name_length); ++ preserved_copy_of_name = obstack_finish (¬es); ++#ifdef STRIP_UNDERSCORE ++ if (preserved_copy_of_name[0] == '_') ++ preserved_copy_of_name++; ++#endif ++ ++#ifdef tc_canonicalize_symbol_name ++ preserved_copy_of_name = ++ tc_canonicalize_symbol_name (preserved_copy_of_name); ++#endif ++ ++ S_SET_NAME (symbolP, preserved_copy_of_name); ++ ++ S_SET_SEGMENT (symbolP, segment); ++ S_SET_VALUE (symbolP, valu); ++ symbol_clear_list_pointers (symbolP); ++ ++ symbol_set_frag (symbolP, frag); ++ ++ /* Link to end of symbol chain. */ ++ { ++ extern int symbol_table_frozen; ++ ++ if (symbol_table_frozen) ++ abort (); ++ } ++ ++ symbol_append (symbolP, symbol_lastP, & symbol_rootP, & symbol_lastP); ++ ++ obj_symbol_new_hook (symbolP); ++ ++#ifdef tc_symbol_new_hook ++ tc_symbol_new_hook (symbolP); ++#endif ++ ++#ifdef DEBUG_SYMS ++ verify_symbol_chain (symbol_rootP, symbol_lastP); ++#endif /* DEBUG_SYMS */ ++} ++ ++struct cpool_entry ++{ ++ int refcount; ++ offsetT offset; ++ expressionS exp; ++}; ++ ++struct cpool ++{ ++ struct cpool *next; ++ int used; ++ struct cpool_entry *literals; ++ unsigned int padding; ++ unsigned int next_free_entry; ++ unsigned int id; ++ symbolS *symbol; ++ segT section; ++ subsegT sub_section; ++}; ++ ++struct cpool *cpool_list = NULL; ++ ++static struct cpool * ++find_cpool(segT section, subsegT sub_section) ++{ ++ struct cpool *pool; ++ ++ for (pool = cpool_list; pool != NULL; pool = pool->next) ++ { ++ if (!pool->used ++ && pool->section == section ++ && pool->sub_section == sub_section) ++ break; ++ } ++ ++ return pool; ++} ++ ++static struct cpool * ++find_or_make_cpool(segT section, subsegT sub_section) ++{ ++ static unsigned int next_cpool_id = 0; ++ struct cpool *pool; ++ ++ pool = find_cpool(section, sub_section); ++ ++ if (!pool) ++ { ++ pool = xmalloc(sizeof(*pool)); ++ if (!pool) ++ return NULL; ++ ++ pool->used = 0; ++ pool->literals = NULL; ++ pool->padding = 0; ++ pool->next_free_entry = 0; ++ pool->section = section; ++ pool->sub_section = sub_section; ++ pool->next = cpool_list; ++ pool->symbol = NULL; ++ ++ cpool_list = pool; ++ } ++ ++ /* NULL symbol means that the pool is new or has just been emptied. */ ++ if (!pool->symbol) ++ { ++ pool->symbol = symbol_create(FAKE_LABEL_NAME, undefined_section, ++ 0, &zero_address_frag); ++ pool->id = next_cpool_id++; ++ } ++ ++ return pool; ++} ++ ++static struct cpool * ++add_to_cpool(expressionS *exp, unsigned int *index, int ref) ++{ ++ struct cpool *pool; ++ unsigned int entry; ++ ++ pool = find_or_make_cpool(now_seg, now_subseg); ++ ++ /* Check if this constant is already in the pool. */ ++ for (entry = 0; entry < pool->next_free_entry; entry++) ++ { ++ if ((pool->literals[entry].exp.X_op == exp->X_op) ++ && (exp->X_op == O_constant) ++ && (pool->literals[entry].exp.X_add_number ++ == exp->X_add_number) ++ && (pool->literals[entry].exp.X_unsigned ++ == exp->X_unsigned)) ++ break; ++ ++ if ((pool->literals[entry].exp.X_op == exp->X_op) ++ && (exp->X_op == O_symbol) ++ && (pool->literals[entry].exp.X_add_number ++ == exp->X_add_number) ++ && (pool->literals[entry].exp.X_add_symbol ++ == exp->X_add_symbol) ++ && (pool->literals[entry].exp.X_op_symbol ++ == exp->X_op_symbol)) ++ break; ++ } ++ ++ /* Create an entry if we didn't find a match */ ++ if (entry == pool->next_free_entry) ++ { ++ pool->literals = xrealloc(pool->literals, ++ sizeof(struct cpool_entry) * (entry + 1)); ++ pool->literals[entry].exp = *exp; ++ pool->literals[entry].refcount = 0; ++ pool->next_free_entry++; ++ } ++ ++ if (index) ++ *index = entry; ++ if (ref) ++ pool->literals[entry].refcount++; ++ ++ return pool; ++} ++ ++struct avr32_operand ++{ ++ int id; ++ int is_signed; ++ int is_pcrel; ++ int align_order; ++ int (*match)(char *str); ++ void (*parse)(const struct avr32_operand *op, char *str, int opindex); ++}; ++ ++static int ++match_anything(char *str ATTRIBUTE_UNUSED) ++{ ++ return 1; ++} ++ ++static int ++match_intreg(char *str) ++{ ++ int regid, ret = 1; ++ ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ pr_debug("match_intreg: `%s': %d\n", str, ret); ++ ++ return ret; ++} ++ ++static int ++match_intreg_predec(char *str) ++{ ++ int regid; ++ ++ if (str[0] != '-' || str[1] != '-') ++ return 0; ++ ++ regid = avr32_parse_intreg(str + 2); ++ if (regid < 0) ++ return 0; ++ ++ return 1; ++} ++ ++static int ++match_intreg_postinc(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '+') ++ break; ++ ++ if (p[0] != '+' || p[1] != '+') ++ return 0; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_intreg_lsl(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '<') ++ break; ++ ++ if (p[0] && p[1] != '<') ++ return 0; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_intreg_lsr(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '>') ++ break; ++ ++ if (p[0] && p[1] != '>') ++ return 0; ++ ++ c = *p, *p = 0; ++ ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_intreg_part(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == ':') ++ break; ++ ++ if (p[0] != ':' || !ISPRINT(p[1]) || p[2] != '\0') ++ return 0; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ ++ return ret; ++} ++ ++#define match_intreg_disp match_anything ++ ++static int ++match_intreg_index(char *str) ++{ ++ int regid, ret = 1; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* don't allow empty displacement here (it makes no sense) */ ++ if (p[0] != '[') ++ return 0; ++ ++ for (end = p + 1; *end; end++) ; ++ if (*(--end) != ']') ++ return 0; ++ ++ c = *end, *end = 0; ++ if (!match_intreg_lsl(p + 1)) ++ ret = 0; ++ *end = c; ++ ++ if (ret) ++ { ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ *p = c; ++ } ++ ++ return ret; ++} ++ ++static int ++match_intreg_xindex(char *str) ++{ ++ int regid, ret = 1; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* empty displacement makes no sense here either */ ++ if (p[0] != '[') ++ return 0; ++ ++ for (end = p + 1; *end; end++) ++ if (*end == '<') ++ break; ++ ++ if (!streq(end, "<<2]")) ++ return 0; ++ ++ c = *end, *end = 0; ++ if (!match_intreg_part(p + 1)) ++ ret = 0; ++ *end = c; ++ ++ if (ret) ++ { ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ *p = c; ++ } ++ ++ return ret; ++} ++ ++/* The PC_UDISP_W operator may show up as a label or as a pc[disp] ++ expression. So there's no point in attempting to match this... */ ++#define match_pc_disp match_anything ++ ++static int ++match_sp(char *str) ++{ ++ /* SP in any form will do */ ++ return avr32_parse_intreg(str) == AVR32_REG_SP; ++} ++ ++static int ++match_sp_disp(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* allow empty displacement, meaning zero */ ++ if (p[0] == '[') ++ { ++ char *end; ++ for (end = p + 1; *end; end++) ; ++ if (end[-1] != ']') ++ return 0; ++ } ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid != AVR32_REG_SP) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_cpno(char *str) ++{ ++ if (strncasecmp(str, "cp", 2) != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_cpreg(char *str) ++{ ++ if (strncasecmp(str, "cr", 2) != 0) ++ return 0; ++ return 1; ++} ++ ++/* We allow complex expressions, and register names may show up as ++ symbols. Just make sure immediate expressions are always matched ++ last. */ ++#define match_const match_anything ++#define match_jmplabel match_anything ++#define match_number match_anything ++ ++/* Mnemonics that take reglists never accept anything else */ ++#define match_reglist8 match_anything ++#define match_reglist9 match_anything ++#define match_reglist16 match_anything ++#define match_reglist_ldm match_anything ++#define match_reglist_cp8 match_anything ++#define match_reglist_cpd8 match_anything ++ ++/* Ditto for retval, jospinc and mcall */ ++#define match_retval match_anything ++#define match_jospinc match_anything ++#define match_mcall match_anything ++ ++/* COH is used to select between two different syntaxes */ ++static int ++match_coh(char *str) ++{ ++ return strcasecmp(str, "coh") == 0; ++} ++#if 0 ++static int ++match_fpreg(char *str) ++{ ++ unsigned long regid; ++ char *endptr; ++ ++ if ((str[0] != 'f' && str[0] != 'F') ++ || (str[1] != 'r' && str[1] != 'R')) ++ return 0; ++ ++ str += 2; ++ regid = strtoul(str, &endptr, 10); ++ if (!*str || *endptr) ++ return 0; ++ ++ return 1; ++} ++#endif ++ ++static int ++match_picoreg(char *str) ++{ ++ int regid; ++ ++ regid = avr32_parse_picoreg(str); ++ if (regid < 0) ++ return 0; ++ return 1; ++} ++ ++#define match_pico_reglist_w match_anything ++#define match_pico_reglist_d match_anything ++ ++static int ++match_pico_in(char *str) ++{ ++ unsigned long regid; ++ char *end; ++ ++ if (strncasecmp(str, "in", 2) != 0) ++ return 0; ++ ++ str += 2; ++ regid = strtoul(str, &end, 10); ++ if (!*str || *end) ++ return 0; ++ ++ return 1; ++} ++ ++static int ++match_pico_out0(char *str) ++{ ++ if (strcasecmp(str, "out0") != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_pico_out1(char *str) ++{ ++ if (strcasecmp(str, "out1") != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_pico_out2(char *str) ++{ ++ if (strcasecmp(str, "out2") != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_pico_out3(char *str) ++{ ++ if (strcasecmp(str, "out3") != 0) ++ return 0; ++ return 1; ++} ++ ++static void parse_nothing(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str ATTRIBUTE_UNUSED, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ /* Do nothing (this is used for "match-only" operands like COH) */ ++} ++ ++static void ++parse_const(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ expressionS *sym_exp; ++ int slot; ++ char *save; ++ ++ pr_debug("parse_const: `%s' (signed: %d, pcrel: %d, align: %d)\n", ++ str, op->is_signed, op->is_pcrel, op->align_order); ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ ++ expression(exp); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ current_insn.pcrel = op->is_pcrel; ++ ++ switch (exp->X_op) ++ { ++ case O_illegal: ++ as_bad(_("illegal operand")); ++ break; ++ case O_absent: ++ as_bad(_("missing operand")); ++ break; ++ case O_constant: ++ pr_debug(" -> constant: %ld\n", (long)exp->X_add_number); ++ current_insn.field_value[slot].value = exp->X_add_number; ++ break; ++ case O_uminus: ++ pr_debug(" -> uminus\n"); ++ sym_exp = symbol_get_value_expression(exp->X_add_symbol); ++ switch (sym_exp->X_op) { ++ case O_subtract: ++ pr_debug(" -> subtract: switching operands\n"); ++ exp->X_op_symbol = sym_exp->X_add_symbol; ++ exp->X_add_symbol = sym_exp->X_op_symbol; ++ exp->X_op = O_subtract; ++ /* TODO: Remove the old X_add_symbol */ ++ break; ++ default: ++ as_bad(_("Expression too complex\n")); ++ break; ++ } ++ break; ++#if 0 ++ case O_subtract: ++ /* Any expression subtracting a symbol from the current section ++ can be made PC-relative by adding the right offset. */ ++ if (S_GET_SEGMENT(exp->X_op_symbol) == now_seg) ++ current_insn.pcrel = TRUE; ++ pr_debug(" -> subtract: pcrel? %s\n", ++ current_insn.pcrel ? "yes" : "no"); ++ /* fall through */ ++#endif ++ default: ++ pr_debug(" -> (%p <%d> %p + %d)\n", ++ exp->X_add_symbol, exp->X_op, exp->X_op_symbol, ++ exp->X_add_number); ++ current_insn.field_value[slot].value = 0; ++ break; ++ } ++ ++ input_line_pointer = save; ++} ++ ++static void ++parse_jmplabel(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ int slot; ++ char *save; ++ ++ pr_debug("parse_jmplabel: `%s' (signed: %d, pcrel: %d, align: %d)\n", ++ str, op->is_signed, op->is_pcrel, op->align_order); ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ ++ expression(exp); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ current_insn.pcrel = TRUE; ++ ++ switch (exp->X_op) ++ { ++ case O_illegal: ++ as_bad(_("illegal operand")); ++ break; ++ case O_absent: ++ as_bad(_("missing operand")); ++ break; ++ case O_constant: ++ pr_debug(" -> constant: %ld\n", (long)exp->X_add_number); ++ current_insn.field_value[slot].value = exp->X_add_number; ++ current_insn.pcrel = 0; ++ break; ++ default: ++ pr_debug(" -> (%p <%d> %p + %d)\n", ++ exp->X_add_symbol, exp->X_op, exp->X_op_symbol, ++ exp->X_add_number); ++ current_insn.field_value[slot].value = 0; ++ break; ++ } ++ ++ input_line_pointer = save; ++} ++ ++static void ++parse_intreg(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int regid, slot; ++ ++ pr_debug("parse_intreg: `%s'\n", str); ++ ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = op->align_order; ++} ++ ++static void ++parse_intreg_predec(const struct avr32_operand *op, char *str, int opindex) ++{ ++ parse_intreg(op, str + 2, opindex); ++} ++ ++static void ++parse_intreg_postinc(const struct avr32_operand *op, char *str, int opindex) ++{ ++ char *p, c; ++ ++ pr_debug("parse_intreg_postinc: `%s'\n", str); ++ ++ for (p = str; *p != '+'; p++) ; ++ ++ c = *p, *p = 0; ++ parse_intreg(op, str, opindex); ++ *p = c; ++} ++ ++static void ++parse_intreg_shift(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int regid, slot, shift = 0; ++ char *p, c; ++ char shiftop; ++ ++ pr_debug("parse Ry<') ++ break; ++ ++ shiftop = *p; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ if (c) ++ { ++ if (p[0] != shiftop || p[1] != shiftop) ++ as_bad(_("expected shift operator in `%s'"), p); ++ else ++ { ++ expressionS exp; ++ char *saved; ++ ++ saved = input_line_pointer; ++ input_line_pointer = p + 2; ++ expression(&exp); ++ input_line_pointer = saved; ++ ++ if (exp.X_op != O_constant) ++ as_bad(_("shift amount must be a numeric constant")); ++ else ++ shift = exp.X_add_number; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = shift; ++} ++ ++/* The match() function selected the right opcode, so it doesn't ++ matter which way we shift any more. */ ++#define parse_intreg_lsl parse_intreg_shift ++#define parse_intreg_lsr parse_intreg_shift ++ ++static void ++parse_intreg_part(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ static const char bparts[] = { 'b', 'l', 'u', 't' }; ++ static const char hparts[] = { 'b', 't' }; ++ unsigned int slot, sel; ++ int regid; ++ char *p, c; ++ ++ pr_debug("parse reg:part `%s'\n", str); ++ ++ for (p = str; *p; p++) ++ if (*p == ':') ++ break; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ assert(c == ':'); ++ ++ if (op->align_order) ++ { ++ for (sel = 0; sel < sizeof(hparts); sel++) ++ if (TOLOWER(p[1]) == hparts[sel]) ++ break; ++ ++ if (sel >= sizeof(hparts)) ++ { ++ as_bad(_("invalid halfword selector `%c' (must be either b or t)"), ++ p[1]); ++ sel = 0; ++ } ++ } ++ else ++ { ++ for (sel = 0; sel < sizeof(bparts); sel++) ++ if (TOLOWER(p[1]) == bparts[sel]) ++ break; ++ ++ if (sel >= sizeof(bparts)) ++ { ++ as_bad(_("invalid byte selector `%c' (must be one of b,l,u,t)"), ++ p[1]); ++ sel = 0; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = sel; ++} ++ ++/* This is the parser for "Rp[displacement]" expressions. In addition ++ to the "official" syntax, we accept a label as a replacement for ++ the register expression. This syntax implies Rp=PC and the ++ displacement is the pc-relative distance to the label. */ ++static void ++parse_intreg_disp(const struct avr32_operand *op, char *str, int opindex) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ int slot, regid; ++ char *save, *p, c; ++ ++ pr_debug("parse_intreg_disp: `%s' (signed: %d, pcrel: %d, align: %d)\n", ++ str, op->is_signed, op->is_pcrel, op->align_order); ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ slot = current_insn.next_slot++; ++ ++ /* First, check if we have a valid register either before '[' or as ++ the sole expression. If so, we use the Rp[disp] syntax. */ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ *p = c; ++ ++ if (regid >= 0) ++ { ++ current_insn.field_value[slot].value = regid; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ ++ if (c == '[') ++ { ++ save = input_line_pointer; ++ input_line_pointer = p + 1; ++ ++ expression(exp); ++ ++ if (*input_line_pointer != ']') ++ as_bad(_("junk after displacement expression")); ++ ++ input_line_pointer = save; ++ ++ switch (exp->X_op) ++ { ++ case O_illegal: ++ as_bad(_("illegal displacement expression")); ++ break; ++ case O_absent: ++ as_bad(_("missing displacement expression")); ++ break; ++ case O_constant: ++ pr_debug(" -> constant: %ld\n", exp->X_add_number); ++ current_insn.field_value[slot].value = exp->X_add_number; ++ break; ++#if 0 ++ case O_subtract: ++ if (S_GET_SEGMENT(exp->X_op_symbol) == now_seg) ++ current_insn.pcrel = TRUE; ++ pr_debug(" -> subtract: pcrel? %s\n", ++ current_insn.pcrel ? "yes" : "no"); ++ /* fall through */ ++#endif ++ default: ++ pr_debug(" -> (%p <%d> %p + %d)\n", ++ exp->X_add_symbol, exp->X_op, exp->X_op_symbol, ++ exp->X_add_number); ++ current_insn.field_value[slot].value = 0; ++ } ++ } ++ else ++ { ++ exp->X_op = O_constant; ++ exp->X_add_number = 0; ++ current_insn.field_value[slot].value = 0; ++ } ++ } ++ else ++ { ++ /* Didn't find a valid register. Try parsing it as a label. */ ++ current_insn.field_value[slot].value = AVR32_REG_PC; ++ parse_jmplabel(op, str, opindex); ++ } ++} ++ ++static void ++parse_intreg_index(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int slot, regid; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ assert(*p); ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ ++ p++; ++ for (end = p; *end; end++) ++ if (*end == ']' || *end == '<') ++ break; ++ ++ assert(*end); ++ ++ c = *end, *end = 0; ++ regid = avr32_parse_intreg(p); ++ assert(regid >= 0); ++ *end = c; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = 0; ++ ++ if (*end == '<') ++ { ++ expressionS exp; ++ char *save; ++ ++ p = end + 2; ++ for (end = p; *end; end++) ++ if (*end == ']') ++ break; ++ ++ assert(*end == ']'); ++ ++ c = *end, *end = 0; ++ save = input_line_pointer; ++ input_line_pointer = p; ++ expression(&exp); ++ ++ if (*input_line_pointer) ++ as_bad(_("junk after shift expression")); ++ ++ *end = c; ++ input_line_pointer = save; ++ ++ if (exp.X_op == O_constant) ++ current_insn.field_value[slot].value = exp.X_add_number; ++ else ++ as_bad(_("shift expression too complex")); ++ } ++} ++ ++static void ++parse_intreg_xindex(const struct avr32_operand *op, char *str, int opindex) ++{ ++ int slot, regid; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ assert(*p); ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ ++ p++; ++ for (end = p; *end; end++) ++ if (*end == '<') ++ break; ++ ++ assert(*end); ++ ++ c = *end, *end = 0; ++ parse_intreg_part(op, p, opindex); ++ *end = c; ++} ++ ++static void ++parse_pc_disp(const struct avr32_operand *op, char *str, int opindex) ++{ ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* The lddpc instruction comes in two different syntax variants: ++ lddpc reg, expression ++ lddpc reg, pc[disp] ++ If the operand contains a '[', we use the second form. */ ++ if (*p) ++ { ++ int regid; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ *p = c; ++ if (regid == AVR32_REG_PC) ++ { ++ char *end; ++ ++ for (end = ++p; *end; end++) ; ++ if (*(--end) != ']') ++ as_bad(_("unrecognized form of instruction: `%s'"), str); ++ else ++ { ++ c = *end, *end = 0; ++ parse_const(op, p, opindex); ++ *end = c; ++ current_insn.pcrel = 0; ++ } ++ } ++ else ++ as_bad(_("unrecognized form of instruction: `%s'"), str); ++ } ++ else ++ { ++ parse_jmplabel(op, str, opindex); ++ } ++} ++ ++static void parse_sp(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str ATTRIBUTE_UNUSED, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ int slot; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = AVR32_REG_SP; ++} ++ ++static void ++parse_sp_disp(const struct avr32_operand *op, char *str, int opindex) ++{ ++ char *p, c; ++ ++ for (; *str; str++) ++ if (*str == '[') ++ break; ++ ++ assert(*str); ++ ++ for (p = ++str; *p; p++) ++ if (*p == ']') ++ break; ++ ++ c = *p, *p = 0; ++ parse_const(op, str, opindex); ++ *p = c; ++} ++ ++static void ++parse_cpno(const struct avr32_operand *op ATTRIBUTE_UNUSED, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ int slot; ++ ++ str += 2; ++ if (*str == '#') ++ str++; ++ if (*str < '0' || *str > '7' || str[1]) ++ as_bad(_("invalid coprocessor `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = *str - '0'; ++} ++ ++static void ++parse_cpreg(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned int crid; ++ int slot; ++ char *endptr; ++ ++ str += 2; ++ crid = strtoul(str, &endptr, 10); ++ if (*endptr || crid > 15 || crid & ((1 << op->align_order) - 1)) ++ as_bad(_("invalid coprocessor register `%s'"), str); ++ ++ crid >>= op->align_order; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = crid; ++} ++ ++static void ++parse_number(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS exp; ++ int slot; ++ char *save; ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ ++ if (exp.X_op == O_constant) ++ current_insn.field_value[slot].value = exp.X_add_number; ++ else ++ as_bad(_("invalid numeric expression `%s'"), str); ++} ++ ++static void ++parse_reglist8(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ unsigned long value = 0; ++ int slot; ++ char *tail; ++ ++ regmask = avr32_parse_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("invalid register list `%s'"), str); ++ else ++ { ++ if (avr32_make_regmask8(regmask, &value)) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = value; ++} ++ ++static int ++parse_reglist_tail(char *str, unsigned long regmask) ++{ ++ expressionS exp; ++ char *save, *p, c; ++ int regid; ++ ++ for (p = str + 1; *p; p++) ++ if (*p == '=') ++ break; ++ ++ if (!*p) ++ { ++ as_bad(_("invalid register list `%s'"), str); ++ return -2; ++ } ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ *p = c; ++ ++ if (regid != 12) ++ { ++ as_bad(_("invalid register list `%s'"), str); ++ return -2; ++ } ++ ++ /* If we have an assignment, we must pop PC and we must _not_ ++ pop LR or R12 */ ++ if (!(regmask & (1 << AVR32_REG_PC))) ++ { ++ as_bad(_("return value specified for non-return instruction")); ++ return -2; ++ } ++ else if (regmask & ((1 << AVR32_REG_R12) | (1 << AVR32_REG_LR))) ++ { ++ as_bad(_("can't pop LR or R12 when specifying return value")); ++ return -2; ++ } ++ ++ save = input_line_pointer; ++ input_line_pointer = p + 1; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ if (exp.X_op != O_constant ++ || exp.X_add_number < -1 ++ || exp.X_add_number > 1) ++ { ++ as_bad(_("invalid return value `%s'"), str); ++ return -2; ++ } ++ ++ return exp.X_add_number; ++} ++ ++static void ++parse_reglist9(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ unsigned long value = 0, kbit = 0; ++ int slot; ++ char *tail; ++ ++ regmask = avr32_parse_reglist(str, &tail); ++ /* printf("parsed reglist16: %04lx, tail: `%s'\n", regmask, tail); */ ++ if (*tail) ++ { ++ int retval; ++ ++ retval = parse_reglist_tail(tail, regmask); ++ ++ switch (retval) ++ { ++ case -1: ++ regmask |= 1 << AVR32_REG_LR; ++ break; ++ case 0: ++ break; ++ case 1: ++ regmask |= 1 << AVR32_REG_R12; ++ break; ++ default: ++ break; ++ } ++ ++ kbit = 1; ++ } ++ ++ if (avr32_make_regmask8(regmask, &value)) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = (value << 1) | kbit; ++} ++ ++static void ++parse_reglist16(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot; ++ char *tail; ++ ++ regmask = avr32_parse_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("invalid register list `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++} ++ ++static void ++parse_reglist_ldm(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot, rp, w_bit = 0; ++ char *tail, *p, c; ++ ++ for (p = str; *p && *p != ','; p++) ++ if (*p == '+') ++ break; ++ ++ c = *p, *p = 0; ++ rp = avr32_parse_intreg(str); ++ *p = c; ++ if (rp < 0) ++ { ++ as_bad(_("invalid destination register in `%s'"), str); ++ return; ++ } ++ ++ if (p[0] == '+' && p[1] == '+') ++ { ++ w_bit = 1; ++ p += 2; ++ } ++ ++ if (*p != ',') ++ { ++ as_bad(_("expected `,' after destination register in `%s'"), str); ++ return; ++ } ++ ++ str = p + 1; ++ regmask = avr32_parse_reglist(str, &tail); ++ if (*tail) ++ { ++ int retval; ++ ++ if (rp != AVR32_REG_SP) ++ { ++ as_bad(_("junk at end of line: `%s'"), tail); ++ return; ++ } ++ ++ rp = AVR32_REG_PC; ++ ++ retval = parse_reglist_tail(tail, regmask); ++ ++ switch (retval) ++ { ++ case -1: ++ regmask |= 1 << AVR32_REG_LR; ++ break; ++ case 0: ++ break; ++ case 1: ++ regmask |= 1 << AVR32_REG_R12; ++ break; ++ default: ++ return; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = rp; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = w_bit; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++} ++ ++static void ++parse_reglist_cp8(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot, h_bit = 0; ++ char *tail; ++ ++ regmask = avr32_parse_cpreglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ else if (regmask & 0xffUL) ++ { ++ if (regmask & 0xff00UL) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ regmask &= 0xff; ++ } ++ else if (regmask & 0xff00UL) ++ { ++ regmask >>= 8; ++ h_bit = 1; ++ } ++ else ++ as_warn(_("register list is empty")); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = h_bit; ++} ++ ++static void ++parse_reglist_cpd8(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask, regmask_d = 0; ++ int slot, i; ++ char *tail; ++ ++ regmask = avr32_parse_cpreglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ ++ for (i = 0; i < 8; i++) ++ { ++ if (regmask & 1) ++ { ++ if (!(regmask & 2)) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ regmask_d |= 1 << i; ++ } ++ else if (regmask & 2) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ ++ regmask >>= 2; ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask_d; ++} ++ ++static void ++parse_retval(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int regid, slot; ++ ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ { ++ expressionS exp; ++ char *save; ++ ++ regid = 0; ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ if (exp.X_op != O_constant) ++ as_bad(_("invalid return value `%s'"), str); ++ else ++ switch (exp.X_add_number) ++ { ++ case -1: ++ regid = AVR32_REG_LR; ++ break; ++ case 0: ++ regid = AVR32_REG_SP; ++ break; ++ case 1: ++ regid = AVR32_REG_PC; ++ break; ++ default: ++ as_bad(_("invalid return value `%s'"), str); ++ break; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++} ++ ++#define parse_mcall parse_intreg_disp ++ ++static void ++parse_jospinc(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS exp; ++ int slot; ++ char *save; ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ slot = current_insn.next_slot++; ++ ++ if (exp.X_op == O_constant) ++ { ++ if (exp.X_add_number > 0) ++ exp.X_add_number--; ++ current_insn.field_value[slot].value = exp.X_add_number; ++ } ++ else ++ as_bad(_("invalid numeric expression `%s'"), str); ++} ++ ++#define parse_coh parse_nothing ++#if 0 ++static void ++parse_fpreg(const struct avr32_operand *op, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regid; ++ int slot; ++ ++ regid = strtoul(str + 2, NULL, 10); ++ ++ if ((regid >= 16) || (regid & ((1 << op->align_order) - 1))) ++ as_bad(_("invalid floating-point register `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = op->align_order; ++} ++#endif ++ ++static void ++parse_picoreg(const struct avr32_operand *op, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regid; ++ int slot; ++ ++ regid = avr32_parse_picoreg(str); ++ if (regid & ((1 << op->align_order) - 1)) ++ as_bad(_("invalid double-word PiCo register `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = op->align_order; ++} ++ ++static void ++parse_pico_reglist_w(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot, h_bit = 0; ++ char *tail; ++ ++ regmask = avr32_parse_pico_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ ++ if (regmask & 0x00ffUL) ++ { ++ if (regmask & 0xff00UL) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ regmask &= 0x00ffUL; ++ } ++ else if (regmask & 0xff00UL) ++ { ++ regmask >>= 8; ++ h_bit = 1; ++ } ++ else ++ as_warn(_("register list is empty")); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = h_bit; ++} ++ ++static void ++parse_pico_reglist_d(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask, regmask_d = 0; ++ int slot, i; ++ char *tail; ++ ++ regmask = avr32_parse_pico_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ ++ for (i = 0; i < 8; i++) ++ { ++ if (regmask & 1) ++ { ++ if (!(regmask & 2)) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ regmask_d |= 1 << i; ++ } ++ else if (regmask & 2) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ ++ regmask >>= 2; ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask_d; ++} ++ ++static void ++parse_pico_in(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regid; ++ int slot; ++ ++ regid = strtoul(str + 2, NULL, 10); ++ ++ if (regid >= 12) ++ as_bad(_("invalid PiCo IN register `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = 0; ++} ++ ++#define parse_pico_out0 parse_nothing ++#define parse_pico_out1 parse_nothing ++#define parse_pico_out2 parse_nothing ++#define parse_pico_out3 parse_nothing ++ ++#define OP(name, sgn, pcrel, align, func) \ ++ { AVR32_OPERAND_##name, sgn, pcrel, align, match_##func, parse_##func } ++ ++struct avr32_operand avr32_operand_table[] = { ++ OP(INTREG, 0, 0, 0, intreg), ++ OP(INTREG_PREDEC, 0, 0, 0, intreg_predec), ++ OP(INTREG_POSTINC, 0, 0, 0, intreg_postinc), ++ OP(INTREG_LSL, 0, 0, 0, intreg_lsl), ++ OP(INTREG_LSR, 0, 0, 0, intreg_lsr), ++ OP(INTREG_BSEL, 0, 0, 0, intreg_part), ++ OP(INTREG_HSEL, 0, 0, 1, intreg_part), ++ OP(INTREG_SDISP, 1, 0, 0, intreg_disp), ++ OP(INTREG_SDISP_H, 1, 0, 1, intreg_disp), ++ OP(INTREG_SDISP_W, 1, 0, 2, intreg_disp), ++ OP(INTREG_UDISP, 0, 0, 0, intreg_disp), ++ OP(INTREG_UDISP_H, 0, 0, 1, intreg_disp), ++ OP(INTREG_UDISP_W, 0, 0, 2, intreg_disp), ++ OP(INTREG_INDEX, 0, 0, 0, intreg_index), ++ OP(INTREG_XINDEX, 0, 0, 0, intreg_xindex), ++ OP(DWREG, 0, 0, 1, intreg), ++ OP(PC_UDISP_W, 0, 1, 2, pc_disp), ++ OP(SP, 0, 0, 0, sp), ++ OP(SP_UDISP_W, 0, 0, 2, sp_disp), ++ OP(CPNO, 0, 0, 0, cpno), ++ OP(CPREG, 0, 0, 0, cpreg), ++ OP(CPREG_D, 0, 0, 1, cpreg), ++ OP(UNSIGNED_CONST, 0, 0, 0, const), ++ OP(UNSIGNED_CONST_W, 0, 0, 2, const), ++ OP(SIGNED_CONST, 1, 0, 0, const), ++ OP(SIGNED_CONST_W, 1, 0, 2, const), ++ OP(JMPLABEL, 1, 1, 1, jmplabel), ++ OP(UNSIGNED_NUMBER, 0, 0, 0, number), ++ OP(UNSIGNED_NUMBER_W, 0, 0, 2, number), ++ OP(REGLIST8, 0, 0, 0, reglist8), ++ OP(REGLIST9, 0, 0, 0, reglist9), ++ OP(REGLIST16, 0, 0, 0, reglist16), ++ OP(REGLIST_LDM, 0, 0, 0, reglist_ldm), ++ OP(REGLIST_CP8, 0, 0, 0, reglist_cp8), ++ OP(REGLIST_CPD8, 0, 0, 0, reglist_cpd8), ++ OP(RETVAL, 0, 0, 0, retval), ++ OP(MCALL, 1, 0, 2, mcall), ++ OP(JOSPINC, 0, 0, 0, jospinc), ++ OP(COH, 0, 0, 0, coh), ++ OP(PICO_REG_W, 0, 0, 0, picoreg), ++ OP(PICO_REG_D, 0, 0, 1, picoreg), ++ OP(PICO_REGLIST_W, 0, 0, 0, pico_reglist_w), ++ OP(PICO_REGLIST_D, 0, 0, 0, pico_reglist_d), ++ OP(PICO_IN, 0, 0, 0, pico_in), ++ OP(PICO_OUT0, 0, 0, 0, pico_out0), ++ OP(PICO_OUT1, 0, 0, 0, pico_out1), ++ OP(PICO_OUT2, 0, 0, 0, pico_out2), ++ OP(PICO_OUT3, 0, 0, 0, pico_out3), ++}; ++ ++symbolS * ++md_undefined_symbol (char *name ATTRIBUTE_UNUSED) ++{ ++ pr_debug("md_undefined_symbol: %s\n", name); ++ return 0; ++} ++ ++struct avr32_relax_type ++{ ++ long lower_bound; ++ long upper_bound; ++ unsigned char align; ++ unsigned char length; ++ signed short next; ++}; ++ ++#define EMPTY { 0, 0, 0, 0, -1 } ++#define C(lower, upper, align, next) \ ++ { (lower), (upper), (align), 2, AVR32_OPC_##next } ++#define E(lower, upper, align) \ ++ { (lower), (upper), (align), 4, -1 } ++ ++static const struct avr32_relax_type avr32_relax_table[] = ++ { ++ /* 0 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ E(0, 65535, 0), E(0, 65535, 0), E(0, 65535, 0), E(0, 65535, 0), ++ EMPTY, ++ /* 16 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(-256, 254, 1, BREQ2), C(-256, 254, 1, BRNE2), ++ C(-256, 254, 1, BRCC2), C(-256, 254, 1, BRCS2), ++ C(-256, 254, 1, BRGE2), C(-256, 254, 1, BRLT2), ++ C(-256, 254, 1, BRMI2), C(-256, 254, 1, BRPL2), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ /* 32 */ ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 48 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ ++ C(-32, 31, 0, CP_W3), E(-1048576, 1048575, 0), ++ ++ EMPTY, EMPTY, EMPTY, ++ /* 64: csrfcz */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(0, 65535, 0), E(0, 65535, 0), ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(-32768, 32767, 0), ++ /* 80: LD_SB2 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(0, 7, 0, LD_UB4), E(-32768, 32767, 0), ++ ++ EMPTY, ++ EMPTY, EMPTY, ++ ++ C(0, 14, 1, LD_SH4), E(-32768, 32767, 0), ++ ++ EMPTY, EMPTY, EMPTY, ++ ++ C(0, 14, 1, LD_UH4), ++ ++ /* 96: LD_UH4 */ ++ E(-32768, 32767, 0), ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(0, 124, 2, LD_W4), E(-32768, 32767, 0), ++ ++ E(0, 1020, 2), /* LDC_D1 */ ++ EMPTY, EMPTY, ++ E(0, 1020, 2), /* LDC_W1 */ ++ EMPTY, EMPTY, ++ E(0, 16380, 2), /* LDC0_D */ ++ E(0, 16380, 2), /* LDC0_W */ ++ EMPTY, ++ ++ /* 112: LDCM_D_PU */ ++ EMPTY, EMPTY, EMPTY, ++ ++ C(0, 508, 2, LDDPC_EXT), E(-32768, 32767, 0), ++ ++ EMPTY,EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 134: MACHH_W */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(-131072, 131068, 2), /* MCALL */ ++ E(0, 1020, 2), /* MFDR */ ++ E(0, 1020, 2), /* MFSR */ ++ EMPTY, EMPTY, ++ ++ C(-128, 127, 0, MOV2), E(-1048576, 1048575, 0), ++ ++ EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ E(-128, 127, 0), /* MOVEQ2 */ ++ E(-128, 127, 0), /* MOVNE2 */ ++ E(-128, 127, 0), /* MOVCC2 */ ++ E(-128, 127, 0), /* 166: MOVCS2 */ ++ E(-128, 127, 0), /* MOVGE2 */ ++ E(-128, 127, 0), /* MOVLT2 */ ++ E(-128, 127, 0), /* MOVMI2 */ ++ E(-128, 127, 0), /* MOVPL2 */ ++ E(-128, 127, 0), /* MOVLS2 */ ++ E(-128, 127, 0), /* MOVGT2 */ ++ E(-128, 127, 0), /* MOVLE2 */ ++ E(-128, 127, 0), /* MOVHI2 */ ++ E(-128, 127, 0), /* MOVVS2 */ ++ E(-128, 127, 0), /* MOVVC2 */ ++ E(-128, 127, 0), /* MOVQS2 */ ++ E(-128, 127, 0), /* MOVAL2 */ ++ ++ E(0, 1020, 2), /* MTDR */ ++ E(0, 1020, 2), /* MTSR */ ++ EMPTY, ++ EMPTY, ++ E(-128, 127, 0), /* MUL3 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 198: MVCR_W */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(0, 65535, 0), E(0, 65535, 0), ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 230: PASR_H */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 262: PUNPCKSB_H */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(-1024, 1022, 1, RCALL2), E(-2097152, 2097150, 1), ++ ++ EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ ++ C(-1024, 1022, 1, BRAL), ++ ++ EMPTY, EMPTY, EMPTY, ++ E(-128, 127, 0), /* RSUB2 */ ++ /* 294: SATADD_H */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(0, 255, 0), /* SLEEP */ ++ EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 326: ST_B2 */ ++ EMPTY, EMPTY, ++ C(0, 7, 0, ST_B4), E(-32768, 32767, 0), ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ E(-32768, 32767, 0), ++ EMPTY, EMPTY, EMPTY, ++ C(0, 14, 1, ST_H4), E(-32768, 32767, 0), ++ EMPTY, EMPTY, ++ EMPTY, ++ C(0, 60, 2, ST_W4), E(-32768, 32767, 0), ++ E(0, 1020, 2), /* STC_D1 */ ++ EMPTY, EMPTY, ++ E(0, 1020, 2), /* STC_W1 */ ++ EMPTY, EMPTY, ++ E(0, 16380, 2), /* STC0_D */ ++ E(0, 16380, 2), /* STC0_W */ ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 358: STDSP */ ++ EMPTY, EMPTY, ++ E(0, 1020, 2), /* STHH_W1 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ E(-32768, 32767, 0), ++ C(-512, 508, 2, SUB4), ++ C(-128, 127, 0, SUB4), E(-1048576, 1048576, 0), ++ /* SUB{cond} */ ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ /* SUBF{cond} */ ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ EMPTY, ++ ++ /* 406: SWAP_B */ ++ EMPTY, EMPTY, EMPTY, ++ E(0, 255, 0), /* SYNC */ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 414: TST */ ++ EMPTY, EMPTY, E(-65536, 65535, 2), E(-65536, 65535, 2), E(-65536, 65535, 2), EMPTY, EMPTY, EMPTY, ++ /* 422: RSUB{cond} */ ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ /* 436: ADD{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 454: SUB{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 472: AND{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 486: OR{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 502: EOR{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 518: LD.w{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 534: LD.sh{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 550: LD.uh{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 566: LD.sb{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 582: LD.ub{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 596: ST.w{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 614: ST.h{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 630: ST.b{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 646: movh */ ++ E(0, 65535, 0), EMPTY, EMPTY, ++ /* 649: fmac.s */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ }; ++ ++#undef E ++#undef C ++#undef EMPTY ++ ++#define AVR32_RS_NONE (-1) ++ ++#define avr32_rs_size(state) (avr32_relax_table[(state)].length) ++#define avr32_rs_align(state) (avr32_relax_table[(state)].align) ++#define relax_more(state) (avr32_relax_table[(state)].next) ++ ++#define opc_initial_substate(opc) ((opc)->id) ++ ++static int need_relax(int subtype, offsetT distance) ++{ ++ offsetT upper_bound, lower_bound; ++ ++ upper_bound = avr32_relax_table[subtype].upper_bound; ++ lower_bound = avr32_relax_table[subtype].lower_bound; ++ ++ if (distance & ((1 << avr32_rs_align(subtype)) - 1)) ++ return 1; ++ if ((distance > upper_bound) || (distance < lower_bound)) ++ return 1; ++ ++ return 0; ++} ++ ++enum { ++ LDA_SUBTYPE_MOV1, ++ LDA_SUBTYPE_MOV2, ++ LDA_SUBTYPE_SUB, ++ LDA_SUBTYPE_LDDPC, ++ LDA_SUBTYPE_LDW, ++ LDA_SUBTYPE_GOTLOAD, ++ LDA_SUBTYPE_GOTLOAD_LARGE, ++}; ++ ++enum { ++ CALL_SUBTYPE_RCALL1, ++ CALL_SUBTYPE_RCALL2, ++ CALL_SUBTYPE_MCALL_CP, ++ CALL_SUBTYPE_MCALL_GOT, ++ CALL_SUBTYPE_MCALL_LARGE, ++}; ++ ++#define LDA_INITIAL_SIZE (avr32_pic ? 4 : 2) ++#define CALL_INITIAL_SIZE 2 ++ ++#define need_reloc(sym, seg, pcrel) \ ++ (!(S_IS_DEFINED(sym) \ ++ && ((pcrel && S_GET_SEGMENT(sym) == seg) \ ++ || (!pcrel && S_GET_SEGMENT(sym) == absolute_section))) \ ++ || S_FORCE_RELOC(sym, 1)) ++ ++/* Return an initial guess of the length by which a fragment must grow to ++ hold a branch to reach its destination. ++ Also updates fr_type/fr_subtype as necessary. ++ ++ Called just before doing relaxation. ++ Any symbol that is now undefined will not become defined. ++ The guess for fr_var is ACTUALLY the growth beyond fr_fix. ++ Whatever we do to grow fr_fix or fr_var contributes to our returned value. ++ Although it may not be explicit in the frag, pretend fr_var starts with a ++ 0 value. */ ++ ++static int ++avr32_default_estimate_size_before_relax (fragS *fragP, segT segment) ++{ ++ int growth = 0; ++ ++ assert(fragP); ++ assert(fragP->fr_symbol); ++ ++ if (fragP->tc_frag_data.force_extended ++ || need_reloc(fragP->fr_symbol, segment, fragP->tc_frag_data.pcrel)) ++ { ++ int largest_state = fragP->fr_subtype; ++ while (relax_more(largest_state) != AVR32_RS_NONE) ++ largest_state = relax_more(largest_state); ++ growth = avr32_rs_size(largest_state) - fragP->fr_var; ++ } ++ else ++ { ++ growth = avr32_rs_size(fragP->fr_subtype) - fragP->fr_var; ++ } ++ ++ pr_debug("%s:%d: md_estimate_size_before_relax: %d\n", ++ fragP->fr_file, fragP->fr_line, growth); ++ ++ return growth; ++} ++ ++static int ++avr32_lda_estimate_size_before_relax(fragS *fragP, segT segment ATTRIBUTE_UNUSED) ++{ ++ return fragP->fr_var - LDA_INITIAL_SIZE; ++} ++ ++static int ++avr32_call_estimate_size_before_relax(fragS *fragP, segT segment ATTRIBUTE_UNUSED) ++{ ++ return fragP->fr_var - CALL_INITIAL_SIZE; ++} ++ ++static int ++avr32_cpool_estimate_size_before_relax(fragS *fragP, ++ segT segment ATTRIBUTE_UNUSED) ++{ ++ return fragP->fr_var; ++} ++ ++/* This macro may be defined to relax a frag. GAS will call this with the ++ * segment, the frag, and the change in size of all previous frags; ++ * md_relax_frag should return the change in size of the frag. */ ++static long ++avr32_default_relax_frag (segT segment, fragS *fragP, long stretch) ++{ ++ int state, next_state; ++ symbolS *symbolP; /* The target symbol */ ++ long growth = 0; ++ ++ state = next_state = fragP->fr_subtype; ++ ++ symbolP = fragP->fr_symbol; ++ ++ if (fragP->tc_frag_data.force_extended ++ || need_reloc(symbolP, segment, fragP->tc_frag_data.pcrel)) ++ { ++ /* Symbol must be resolved by the linker. Emit the largest ++ possible opcode. */ ++ while (relax_more(next_state) != AVR32_RS_NONE) ++ next_state = relax_more(next_state); ++ } ++ else ++ { ++ addressT address; /* The address of fragP */ ++ addressT target; /* The address of the target symbol */ ++ offsetT distance; /* The distance between the insn and the symbol */ ++ fragS *sym_frag; ++ ++ address = fragP->fr_address; ++ target = fragP->fr_offset; ++ symbolP = fragP->fr_symbol; ++ sym_frag = symbol_get_frag(symbolP); ++ ++ address += fragP->fr_fix - fragP->fr_var; ++ target += S_GET_VALUE(symbolP); ++ ++ if (stretch != 0 ++ && sym_frag->relax_marker != fragP->relax_marker ++ && S_GET_SEGMENT(symbolP) == segment) ++ /* if it was correctly aligned before, make sure it stays aligned */ ++ target += stretch & (~0UL << avr32_rs_align(state)); ++ ++ if (fragP->tc_frag_data.pcrel) ++ distance = target - (address & (~0UL << avr32_rs_align(state))); ++ else ++ distance = target; ++ ++ pr_debug("%s:%d: relax more? 0x%x - 0x%x = 0x%x (%d), align %d\n", ++ fragP->fr_file, fragP->fr_line, target, address, ++ distance, distance, avr32_rs_align(state)); ++ ++ if (need_relax(state, distance)) ++ { ++ if (relax_more(state) != AVR32_RS_NONE) ++ next_state = relax_more(state); ++ pr_debug("%s:%d: relax more %d -> %d (%d - %d, align %d)\n", ++ fragP->fr_file, fragP->fr_line, state, next_state, ++ target, address, avr32_rs_align(state)); ++ } ++ } ++ ++ growth = avr32_rs_size(next_state) - avr32_rs_size(state); ++ fragP->fr_subtype = next_state; ++ ++ pr_debug("%s:%d: md_relax_frag: growth=%d, subtype=%d, opc=0x%08lx\n", ++ fragP->fr_file, fragP->fr_line, growth, fragP->fr_subtype, ++ avr32_opc_table[next_state].value); ++ ++ return growth; ++} ++ ++static long ++avr32_lda_relax_frag(segT segment, fragS *fragP, long stretch) ++{ ++ struct cpool *pool= NULL; ++ unsigned int entry = 0; ++ addressT address, target; ++ offsetT distance; ++ symbolS *symbolP; ++ fragS *sym_frag; ++ long old_size, new_size; ++ ++ symbolP = fragP->fr_symbol; ++ old_size = fragP->fr_var; ++ if (!avr32_pic) ++ { ++ pool = fragP->tc_frag_data.pool; ++ entry = fragP->tc_frag_data.pool_entry; ++ } ++ ++ address = fragP->fr_address; ++ address += fragP->fr_fix - LDA_INITIAL_SIZE; ++ ++ if (!S_IS_DEFINED(symbolP) || S_FORCE_RELOC(symbolP, 1)) ++ goto relax_max; ++ ++ target = fragP->fr_offset; ++ sym_frag = symbol_get_frag(symbolP); ++ target += S_GET_VALUE(symbolP); ++ ++ if (sym_frag->relax_marker != fragP->relax_marker ++ && S_GET_SEGMENT(symbolP) == segment) ++ target += stretch; ++ ++ distance = target - address; ++ ++ pr_debug("lda_relax_frag: target: %d, address: %d, var: %d\n", ++ target, address, fragP->fr_var); ++ ++ if (!avr32_pic && S_GET_SEGMENT(symbolP) == absolute_section ++ && target <= 127 && (offsetT)target >= -128) ++ { ++ if (fragP->fr_subtype == LDA_SUBTYPE_LDDPC ++ || fragP->fr_subtype == LDA_SUBTYPE_LDW) ++ pool->literals[entry].refcount--; ++ new_size = 2; ++ fragP->fr_subtype = LDA_SUBTYPE_MOV1; ++ } ++ else if (!avr32_pic && S_GET_SEGMENT(symbolP) == absolute_section ++ && target <= 1048575 && (offsetT)target >= -1048576) ++ { ++ if (fragP->fr_subtype == LDA_SUBTYPE_LDDPC ++ || fragP->fr_subtype == LDA_SUBTYPE_LDW) ++ pool->literals[entry].refcount--; ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_MOV2; ++ } ++ else if (!linkrelax && S_GET_SEGMENT(symbolP) == segment ++ /* the field will be negated, so this is really -(-32768) ++ and -(32767) */ ++ && distance <= 32768 && distance >= -32767) ++ { ++ if (!avr32_pic ++ && (fragP->fr_subtype == LDA_SUBTYPE_LDDPC ++ || fragP->fr_subtype == LDA_SUBTYPE_LDW)) ++ pool->literals[entry].refcount--; ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_SUB; ++ } ++ else ++ { ++ relax_max: ++ if (avr32_pic) ++ { ++ if (linkrelax) ++ { ++ new_size = 8; ++ fragP->fr_subtype = LDA_SUBTYPE_GOTLOAD_LARGE; ++ } ++ else ++ { ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_GOTLOAD; ++ } ++ } ++ else ++ { ++ if (fragP->fr_subtype != LDA_SUBTYPE_LDDPC ++ && fragP->fr_subtype != LDA_SUBTYPE_LDW) ++ pool->literals[entry].refcount++; ++ ++ sym_frag = symbol_get_frag(pool->symbol); ++ target = (sym_frag->fr_address + sym_frag->fr_fix ++ + pool->padding + pool->literals[entry].offset); ++ ++ pr_debug("cpool sym address: 0x%lx\n", ++ sym_frag->fr_address + sym_frag->fr_fix); ++ ++ know(pool->section == segment); ++ ++ if (sym_frag->relax_marker != fragP->relax_marker) ++ target += stretch; ++ ++ distance = target - address; ++ if (distance <= 508 && distance >= 0) ++ { ++ new_size = 2; ++ fragP->fr_subtype = LDA_SUBTYPE_LDDPC; ++ } ++ else ++ { ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_LDW; ++ } ++ ++ pr_debug("lda_relax_frag (cpool): target=0x%lx, address=0x%lx, refcount=%d\n", ++ target, address, pool->literals[entry].refcount); ++ } ++ } ++ ++ fragP->fr_var = new_size; ++ ++ pr_debug("%s:%d: lda: relax pass done. subtype: %d, growth: %ld\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_subtype, new_size - old_size); ++ ++ return new_size - old_size; ++} ++ ++static long ++avr32_call_relax_frag(segT segment, fragS *fragP, long stretch) ++{ ++ struct cpool *pool = NULL; ++ unsigned int entry = 0; ++ addressT address, target; ++ offsetT distance; ++ symbolS *symbolP; ++ fragS *sym_frag; ++ long old_size, new_size; ++ ++ symbolP = fragP->fr_symbol; ++ old_size = fragP->fr_var; ++ if (!avr32_pic) ++ { ++ pool = fragP->tc_frag_data.pool; ++ entry = fragP->tc_frag_data.pool_entry; ++ } ++ ++ address = fragP->fr_address; ++ address += fragP->fr_fix - CALL_INITIAL_SIZE; ++ ++ if (need_reloc(symbolP, segment, 1)) ++ { ++ pr_debug("call: must emit reloc\n"); ++ goto relax_max; ++ } ++ ++ target = fragP->fr_offset; ++ sym_frag = symbol_get_frag(symbolP); ++ target += S_GET_VALUE(symbolP); ++ ++ if (sym_frag->relax_marker != fragP->relax_marker ++ && S_GET_SEGMENT(symbolP) == segment) ++ target += stretch; ++ ++ distance = target - address; ++ ++ if (distance <= 1022 && distance >= -1024) ++ { ++ pr_debug("call: distance is %d, emitting short rcall\n", distance); ++ if (!avr32_pic && fragP->fr_subtype == CALL_SUBTYPE_MCALL_CP) ++ pool->literals[entry].refcount--; ++ new_size = 2; ++ fragP->fr_subtype = CALL_SUBTYPE_RCALL1; ++ } ++ else if (distance <= 2097150 && distance >= -2097152) ++ { ++ pr_debug("call: distance is %d, emitting long rcall\n", distance); ++ if (!avr32_pic && fragP->fr_subtype == CALL_SUBTYPE_MCALL_CP) ++ pool->literals[entry].refcount--; ++ new_size = 4; ++ fragP->fr_subtype = CALL_SUBTYPE_RCALL2; ++ } ++ else ++ { ++ pr_debug("call: distance %d too far, emitting something big\n", distance); ++ ++ relax_max: ++ if (avr32_pic) ++ { ++ if (linkrelax) ++ { ++ new_size = 10; ++ fragP->fr_subtype = CALL_SUBTYPE_MCALL_LARGE; ++ } ++ else ++ { ++ new_size = 4; ++ fragP->fr_subtype = CALL_SUBTYPE_MCALL_GOT; ++ } ++ } ++ else ++ { ++ if (fragP->fr_subtype != CALL_SUBTYPE_MCALL_CP) ++ pool->literals[entry].refcount++; ++ ++ new_size = 4; ++ fragP->fr_subtype = CALL_SUBTYPE_MCALL_CP; ++ } ++ } ++ ++ fragP->fr_var = new_size; ++ ++ pr_debug("%s:%d: call: relax pass done, growth: %d, fr_var: %d\n", ++ fragP->fr_file, fragP->fr_line, ++ new_size - old_size, fragP->fr_var); ++ ++ return new_size - old_size; ++} ++ ++static long ++avr32_cpool_relax_frag(segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP, ++ long stretch ATTRIBUTE_UNUSED) ++{ ++ struct cpool *pool; ++ addressT address; ++ long old_size, new_size; ++ unsigned int entry; ++ ++ pool = fragP->tc_frag_data.pool; ++ address = fragP->fr_address + fragP->fr_fix; ++ old_size = fragP->fr_var; ++ new_size = 0; ++ ++ for (entry = 0; entry < pool->next_free_entry; entry++) ++ { ++ if (pool->literals[entry].refcount > 0) ++ { ++ pool->literals[entry].offset = new_size; ++ new_size += 4; ++ } ++ } ++ ++ fragP->fr_var = new_size; ++ ++ return new_size - old_size; ++} ++ ++/* *fragP has been relaxed to its final size, and now needs to have ++ the bytes inside it modified to conform to the new size. ++ ++ Called after relaxation is finished. ++ fragP->fr_type == rs_machine_dependent. ++ fragP->fr_subtype is the subtype of what the address relaxed to. */ ++ ++static void ++avr32_default_convert_frag (bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ const struct avr32_opcode *opc; ++ const struct avr32_ifield *ifield; ++ bfd_reloc_code_real_type r_type; ++ symbolS *symbolP; ++ fixS *fixP; ++ bfd_vma value; ++ int subtype; ++ ++ opc = &avr32_opc_table[fragP->fr_subtype]; ++ ifield = opc->fields[opc->var_field]; ++ symbolP = fragP->fr_symbol; ++ subtype = fragP->fr_subtype; ++ r_type = opc->reloc_type; ++ ++ /* Clear the opcode bits and the bits belonging to the relaxed ++ field. We assume all other fields stay the same. */ ++ value = bfd_getb32(fragP->fr_opcode); ++ value &= ~(opc->mask | ifield->mask); ++ ++ /* Insert the new opcode */ ++ value |= opc->value; ++ bfd_putb32(value, fragP->fr_opcode); ++ ++ fragP->fr_fix += opc->size - fragP->fr_var; ++ ++ if (fragP->tc_frag_data.reloc_info != AVR32_OPINFO_NONE) ++ { ++ switch (fragP->tc_frag_data.reloc_info) ++ { ++ case AVR32_OPINFO_HI: ++ r_type = BFD_RELOC_HI16; ++ break; ++ case AVR32_OPINFO_LO: ++ r_type = BFD_RELOC_LO16; ++ break; ++ case AVR32_OPINFO_GOT: ++ switch (r_type) ++ { ++ case BFD_RELOC_AVR32_18W_PCREL: ++ r_type = BFD_RELOC_AVR32_GOT18SW; ++ break; ++ case BFD_RELOC_AVR32_16S: ++ r_type = BFD_RELOC_AVR32_GOT16S; ++ break; ++ default: ++ BAD_CASE(r_type); ++ break; ++ } ++ break; ++ default: ++ BAD_CASE(fragP->tc_frag_data.reloc_info); ++ break; ++ } ++ } ++ ++ pr_debug("%s:%d: convert_frag: new %s fixup\n", ++ fragP->fr_file, fragP->fr_line, ++ bfd_get_reloc_code_name(r_type)); ++ ++#if 1 ++ fixP = fix_new_exp(fragP, fragP->fr_fix - opc->size, opc->size, ++ &fragP->tc_frag_data.exp, ++ fragP->tc_frag_data.pcrel, r_type); ++#else ++ fixP = fix_new(fragP, fragP->fr_fix - opc->size, opc->size, symbolP, ++ fragP->fr_offset, fragP->tc_frag_data.pcrel, r_type); ++#endif ++ ++ /* Revert fix_new brain damage. "dot_value" is the value of PC at ++ the point of the fixup, relative to the frag address. fix_new() ++ and friends think they are only being called during the assembly ++ pass, not during relaxation or similar, so fx_dot_value, fx_file ++ and fx_line are all initialized to the wrong value. But we don't ++ know the size of the fixup until now, so we really can't live up ++ to the assumptions these functions make about the target. What ++ do these functions think the "where" and "frag" argument mean ++ anyway? */ ++ fixP->fx_dot_value = fragP->fr_fix - opc->size; ++ fixP->fx_file = fragP->fr_file; ++ fixP->fx_line = fragP->fr_line; ++ ++ fixP->tc_fix_data.ifield = ifield; ++ fixP->tc_fix_data.align = avr32_rs_align(subtype); ++ fixP->tc_fix_data.min = avr32_relax_table[subtype].lower_bound; ++ fixP->tc_fix_data.max = avr32_relax_table[subtype].upper_bound; ++} ++ ++static void ++avr32_lda_convert_frag(bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ const struct avr32_opcode *opc; ++ const struct avr32_ifield *ifield; ++ bfd_reloc_code_real_type r_type; ++ expressionS exp; ++ struct cpool *pool; ++ fixS *fixP; ++ bfd_vma value; ++ int regid, pcrel = 0, align = 0; ++ char *p; ++ ++ r_type = BFD_RELOC_NONE; ++ regid = fragP->tc_frag_data.reloc_info; ++ p = fragP->fr_opcode; ++ exp.X_add_symbol = fragP->fr_symbol; ++ exp.X_add_number = fragP->fr_offset; ++ exp.X_op = O_symbol; ++ ++ pr_debug("%s:%d: lda_convert_frag, subtype: %d, fix: %d, var: %d, regid: %d\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_subtype, fragP->fr_fix, fragP->fr_var, regid); ++ ++ switch (fragP->fr_subtype) ++ { ++ case LDA_SUBTYPE_MOV1: ++ opc = &avr32_opc_table[AVR32_OPC_MOV1]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ r_type = opc->reloc_type; ++ break; ++ case LDA_SUBTYPE_MOV2: ++ opc = &avr32_opc_table[AVR32_OPC_MOV2]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ r_type = opc->reloc_type; ++ break; ++ case LDA_SUBTYPE_SUB: ++ opc = &avr32_opc_table[AVR32_OPC_SUB5]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ opc->fields[1]->insert(opc->fields[1], p, AVR32_REG_PC); ++ ifield = opc->fields[2]; ++ r_type = BFD_RELOC_AVR32_16N_PCREL; ++ ++ /* Pretend that SUB5 isn't a "negated" pcrel expression for now. ++ We'll have to fix it up later when we know whether to ++ generate a reloc for it (in which case the linker will negate ++ it, so we shouldn't). */ ++ pcrel = 1; ++ break; ++ case LDA_SUBTYPE_LDDPC: ++ opc = &avr32_opc_table[AVR32_OPC_LDDPC]; ++ align = 2; ++ r_type = BFD_RELOC_AVR32_9W_CP; ++ goto cpool_common; ++ case LDA_SUBTYPE_LDW: ++ opc = &avr32_opc_table[AVR32_OPC_LDDPC_EXT]; ++ r_type = BFD_RELOC_AVR32_16_CP; ++ cpool_common: ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ pool = fragP->tc_frag_data.pool; ++ exp.X_add_symbol = pool->symbol; ++ exp.X_add_number = pool->literals[fragP->tc_frag_data.pool_entry].offset; ++ pcrel = 1; ++ break; ++ case LDA_SUBTYPE_GOTLOAD_LARGE: ++ /* ld.w Rd, r6[Rd << 2] (last) */ ++ opc = &avr32_opc_table[AVR32_OPC_LD_W5]; ++ bfd_putb32(opc->value, p + 4); ++ opc->fields[0]->insert(opc->fields[0], p + 4, regid); ++ opc->fields[1]->insert(opc->fields[1], p + 4, 6); ++ opc->fields[2]->insert(opc->fields[2], p + 4, regid); ++ opc->fields[3]->insert(opc->fields[3], p + 4, 2); ++ ++ /* mov Rd, (got_offset / 4) */ ++ opc = &avr32_opc_table[AVR32_OPC_MOV2]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_LDA_GOT; ++ break; ++ case LDA_SUBTYPE_GOTLOAD: ++ opc = &avr32_opc_table[AVR32_OPC_LD_W4]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ opc->fields[1]->insert(opc->fields[1], p, 6); ++ ifield = opc->fields[2]; ++ if (r_type == BFD_RELOC_NONE) ++ r_type = BFD_RELOC_AVR32_GOT16S; ++ break; ++ default: ++ BAD_CASE(fragP->fr_subtype); ++ } ++ ++ value = bfd_getb32(p); ++ value &= ~(opc->mask | ifield->mask); ++ value |= opc->value; ++ bfd_putb32(value, p); ++ ++ fragP->fr_fix += fragP->fr_var - LDA_INITIAL_SIZE; ++ ++ if (fragP->fr_next ++ && ((offsetT)(fragP->fr_next->fr_address - fragP->fr_address) ++ != fragP->fr_fix)) ++ { ++ fprintf(stderr, "LDA frag: fr_fix is wrong! fragP->fr_var = %ld, r_type = %s\n", ++ fragP->fr_var, bfd_get_reloc_code_name(r_type)); ++ abort(); ++ } ++ ++ fixP = fix_new_exp(fragP, fragP->fr_fix - fragP->fr_var, fragP->fr_var, ++ &exp, pcrel, r_type); ++ ++ /* Revert fix_new brain damage. "dot_value" is the value of PC at ++ the point of the fixup, relative to the frag address. fix_new() ++ and friends think they are only being called during the assembly ++ pass, not during relaxation or similar, so fx_dot_value, fx_file ++ and fx_line are all initialized to the wrong value. But we don't ++ know the size of the fixup until now, so we really can't live up ++ to the assumptions these functions make about the target. What ++ do these functions think the "where" and "frag" argument mean ++ anyway? */ ++ fixP->fx_dot_value = fragP->fr_fix - opc->size; ++ fixP->fx_file = fragP->fr_file; ++ fixP->fx_line = fragP->fr_line; ++ ++ fixP->tc_fix_data.ifield = ifield; ++ fixP->tc_fix_data.align = align; ++ /* these are only used if the fixup can actually be resolved */ ++ fixP->tc_fix_data.min = -32768; ++ fixP->tc_fix_data.max = 32767; ++} ++ ++static void ++avr32_call_convert_frag(bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ const struct avr32_opcode *opc = NULL; ++ const struct avr32_ifield *ifield; ++ bfd_reloc_code_real_type r_type; ++ symbolS *symbol; ++ offsetT offset; ++ fixS *fixP; ++ bfd_vma value; ++ int pcrel = 0, align = 0; ++ char *p; ++ ++ symbol = fragP->fr_symbol; ++ offset = fragP->fr_offset; ++ r_type = BFD_RELOC_NONE; ++ p = fragP->fr_opcode; ++ ++ pr_debug("%s:%d: call_convert_frag, subtype: %d, fix: %d, var: %d\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_subtype, fragP->fr_fix, fragP->fr_var); ++ ++ switch (fragP->fr_subtype) ++ { ++ case CALL_SUBTYPE_RCALL1: ++ opc = &avr32_opc_table[AVR32_OPC_RCALL1]; ++ /* fall through */ ++ case CALL_SUBTYPE_RCALL2: ++ if (!opc) ++ opc = &avr32_opc_table[AVR32_OPC_RCALL2]; ++ ifield = opc->fields[0]; ++ r_type = opc->reloc_type; ++ pcrel = 1; ++ align = 1; ++ break; ++ case CALL_SUBTYPE_MCALL_CP: ++ opc = &avr32_opc_table[AVR32_OPC_MCALL]; ++ opc->fields[0]->insert(opc->fields[0], p, AVR32_REG_PC); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_CPCALL; ++ symbol = fragP->tc_frag_data.pool->symbol; ++ offset = fragP->tc_frag_data.pool->literals[fragP->tc_frag_data.pool_entry].offset; ++ assert(fragP->tc_frag_data.pool->literals[fragP->tc_frag_data.pool_entry].refcount > 0); ++ pcrel = 1; ++ align = 2; ++ break; ++ case CALL_SUBTYPE_MCALL_GOT: ++ opc = &avr32_opc_table[AVR32_OPC_MCALL]; ++ opc->fields[0]->insert(opc->fields[0], p, 6); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_GOT18SW; ++ break; ++ case CALL_SUBTYPE_MCALL_LARGE: ++ assert(fragP->fr_var == 10); ++ /* ld.w lr, r6[lr << 2] */ ++ opc = &avr32_opc_table[AVR32_OPC_LD_W5]; ++ bfd_putb32(opc->value, p + 4); ++ opc->fields[0]->insert(opc->fields[0], p + 4, AVR32_REG_LR); ++ opc->fields[1]->insert(opc->fields[1], p + 4, 6); ++ opc->fields[2]->insert(opc->fields[2], p + 4, AVR32_REG_LR); ++ opc->fields[3]->insert(opc->fields[3], p + 4, 2); ++ ++ /* icall lr */ ++ opc = &avr32_opc_table[AVR32_OPC_ICALL]; ++ bfd_putb16(opc->value >> 16, p + 8); ++ opc->fields[0]->insert(opc->fields[0], p + 8, AVR32_REG_LR); ++ ++ /* mov lr, (got_offset / 4) */ ++ opc = &avr32_opc_table[AVR32_OPC_MOV2]; ++ opc->fields[0]->insert(opc->fields[0], p, AVR32_REG_LR); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_GOTCALL; ++ break; ++ default: ++ BAD_CASE(fragP->fr_subtype); ++ } ++ ++ /* Insert the opcode and clear the variable ifield */ ++ value = bfd_getb32(p); ++ value &= ~(opc->mask | ifield->mask); ++ value |= opc->value; ++ bfd_putb32(value, p); ++ ++ fragP->fr_fix += fragP->fr_var - CALL_INITIAL_SIZE; ++ ++ if (fragP->fr_next ++ && ((offsetT)(fragP->fr_next->fr_address - fragP->fr_address) ++ != fragP->fr_fix)) ++ { ++ fprintf(stderr, "%s:%d: fr_fix %lu is wrong! fr_var=%lu, r_type=%s\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_fix, fragP->fr_var, bfd_get_reloc_code_name(r_type)); ++ fprintf(stderr, "fr_fix should be %ld. next frag is %s:%d\n", ++ (offsetT)(fragP->fr_next->fr_address - fragP->fr_address), ++ fragP->fr_next->fr_file, fragP->fr_next->fr_line); ++ } ++ ++ fixP = fix_new(fragP, fragP->fr_fix - fragP->fr_var, fragP->fr_var, ++ symbol, offset, pcrel, r_type); ++ ++ /* Revert fix_new brain damage. "dot_value" is the value of PC at ++ the point of the fixup, relative to the frag address. fix_new() ++ and friends think they are only being called during the assembly ++ pass, not during relaxation or similar, so fx_dot_value, fx_file ++ and fx_line are all initialized to the wrong value. But we don't ++ know the size of the fixup until now, so we really can't live up ++ to the assumptions these functions make about the target. What ++ do these functions think the "where" and "frag" argument mean ++ anyway? */ ++ fixP->fx_dot_value = fragP->fr_fix - opc->size; ++ fixP->fx_file = fragP->fr_file; ++ fixP->fx_line = fragP->fr_line; ++ ++ fixP->tc_fix_data.ifield = ifield; ++ fixP->tc_fix_data.align = align; ++ /* these are only used if the fixup can actually be resolved */ ++ fixP->tc_fix_data.min = -2097152; ++ fixP->tc_fix_data.max = 2097150; ++} ++ ++static void ++avr32_cpool_convert_frag(bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ struct cpool *pool; ++ addressT address; ++ unsigned int entry; ++ char *p; ++ char sym_name[20]; ++ ++ /* Did we get rid of the frag altogether? */ ++ if (!fragP->fr_var) ++ return; ++ ++ pool = fragP->tc_frag_data.pool; ++ address = fragP->fr_address + fragP->fr_fix; ++ p = fragP->fr_literal + fragP->fr_fix; ++ ++ sprintf(sym_name, "$$cp_\002%x", pool->id); ++ symbol_locate(pool->symbol, sym_name, pool->section, fragP->fr_fix, fragP); ++ symbol_table_insert(pool->symbol); ++ ++ for (entry = 0; entry < pool->next_free_entry; entry++) ++ { ++ if (pool->literals[entry].refcount > 0) ++ { ++ fix_new_exp(fragP, fragP->fr_fix, 4, &pool->literals[entry].exp, ++ FALSE, BFD_RELOC_AVR32_32_CPENT); ++ fragP->fr_fix += 4; ++ } ++ } ++} ++ ++static struct avr32_relaxer avr32_default_relaxer = { ++ .estimate_size = avr32_default_estimate_size_before_relax, ++ .relax_frag = avr32_default_relax_frag, ++ .convert_frag = avr32_default_convert_frag, ++}; ++static struct avr32_relaxer avr32_lda_relaxer = { ++ .estimate_size = avr32_lda_estimate_size_before_relax, ++ .relax_frag = avr32_lda_relax_frag, ++ .convert_frag = avr32_lda_convert_frag, ++}; ++static struct avr32_relaxer avr32_call_relaxer = { ++ .estimate_size = avr32_call_estimate_size_before_relax, ++ .relax_frag = avr32_call_relax_frag, ++ .convert_frag = avr32_call_convert_frag, ++}; ++static struct avr32_relaxer avr32_cpool_relaxer = { ++ .estimate_size = avr32_cpool_estimate_size_before_relax, ++ .relax_frag = avr32_cpool_relax_frag, ++ .convert_frag = avr32_cpool_convert_frag, ++}; ++ ++static void s_cpool(int arg ATTRIBUTE_UNUSED) ++{ ++ struct cpool *pool; ++ unsigned int max_size; ++ char *buf; ++ ++ pool = find_cpool(now_seg, now_subseg); ++ if (!pool || !pool->symbol || pool->next_free_entry == 0) ++ return; ++ ++ /* Make sure the constant pool is properly aligned */ ++ frag_align_code(2, 0); ++ if (bfd_get_section_alignment(stdoutput, pool->section) < 2) ++ bfd_set_section_alignment(stdoutput, pool->section, 2); ++ ++ /* Assume none of the entries are discarded, and that we need the ++ maximum amount of alignment. But we're not going to allocate ++ anything up front. */ ++ max_size = pool->next_free_entry * 4 + 2; ++ frag_grow(max_size); ++ buf = frag_more(0); ++ ++ frag_now->tc_frag_data.relaxer = &avr32_cpool_relaxer; ++ frag_now->tc_frag_data.pool = pool; ++ ++ symbol_set_frag(pool->symbol, frag_now); ++ ++ /* Assume zero initial size, allowing other relaxers to be ++ optimistic about things. */ ++ frag_var(rs_machine_dependent, max_size, 0, ++ 0, pool->symbol, 0, NULL); ++ ++ /* Mark the pool as empty. */ ++ pool->used = 1; ++} ++ ++/* The location from which a PC relative jump should be calculated, ++ given a PC relative reloc. */ ++ ++long ++md_pcrel_from_section (fixS *fixP, segT sec) ++{ ++ pr_debug("pcrel_from_section, fx_offset = %d\n", fixP->fx_offset); ++ ++ if (fixP->fx_addsy != NULL ++ && (! S_IS_DEFINED (fixP->fx_addsy) ++ || S_GET_SEGMENT (fixP->fx_addsy) != sec ++ || S_FORCE_RELOC(fixP->fx_addsy, 1))) ++ { ++ pr_debug("Unknown pcrel symbol: %s\n", S_GET_NAME(fixP->fx_addsy)); ++ ++ /* The symbol is undefined (or is defined but not in this section). ++ Let the linker figure it out. */ ++ return 0; ++ } ++ ++ pr_debug("pcrel from %x + %x, symbol: %s (%x)\n", ++ fixP->fx_frag->fr_address, fixP->fx_where, ++ fixP->fx_addsy?S_GET_NAME(fixP->fx_addsy):"(null)", ++ fixP->fx_addsy?S_GET_VALUE(fixP->fx_addsy):0); ++ ++ return ((fixP->fx_frag->fr_address + fixP->fx_where) ++ & (~0UL << fixP->tc_fix_data.align)); ++} ++ ++valueT ++md_section_align (segT segment, valueT size) ++{ ++ int align = bfd_get_section_alignment (stdoutput, segment); ++ return ((size + (1 << align) - 1) & (-1 << align)); ++} ++ ++static int syntax_matches(const struct avr32_syntax *syntax, ++ char *str) ++{ ++ int i; ++ ++ pr_debug("syntax %d matches `%s'?\n", syntax->id, str); ++ ++ if (syntax->nr_operands < 0) ++ { ++ struct avr32_operand *op; ++ int optype; ++ ++ for (i = 0; i < (-syntax->nr_operands - 1); i++) ++ { ++ char *p; ++ char c; ++ ++ optype = syntax->operand[i]; ++ assert(optype < AVR32_NR_OPERANDS); ++ op = &avr32_operand_table[optype]; ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ if (p == str) ++ return 0; ++ ++ c = *p; ++ *p = 0; ++ ++ if (!op->match(str)) ++ { ++ *p = c; ++ return 0; ++ } ++ ++ str = p; ++ *p = c; ++ if (c) ++ str++; ++ } ++ ++ optype = syntax->operand[i]; ++ assert(optype < AVR32_NR_OPERANDS); ++ op = &avr32_operand_table[optype]; ++ ++ if (!op->match(str)) ++ return 0; ++ return 1; ++ } ++ ++ for (i = 0; i < syntax->nr_operands; i++) ++ { ++ struct avr32_operand *op; ++ int optype = syntax->operand[i]; ++ char *p; ++ char c; ++ ++ assert(optype < AVR32_NR_OPERANDS); ++ op = &avr32_operand_table[optype]; ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ if (p == str) ++ return 0; ++ ++ c = *p; ++ *p = 0; ++ ++ if (!op->match(str)) ++ { ++ *p = c; ++ return 0; ++ } ++ ++ str = p; ++ *p = c; ++ if (c) ++ str++; ++ } ++ ++ if (*str == '\0') ++ return 1; ++ ++ if ((*str == 'e' || *str == 'E') && !str[1]) ++ return 1; ++ ++ return 0; ++} ++ ++static int parse_operands(char *str) ++{ ++ int i; ++ ++ if (current_insn.syntax->nr_operands < 0) ++ { ++ int optype; ++ struct avr32_operand *op; ++ ++ for (i = 0; i < (-current_insn.syntax->nr_operands - 1); i++) ++ { ++ char *p; ++ char c; ++ ++ optype = current_insn.syntax->operand[i]; ++ op = &avr32_operand_table[optype]; ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ assert(p != str); ++ ++ c = *p, *p = 0; ++ op->parse(op, str, i); ++ *p = c; ++ ++ str = p; ++ if (c) str++; ++ } ++ ++ /* give the rest of the line to the last operand */ ++ optype = current_insn.syntax->operand[i]; ++ op = &avr32_operand_table[optype]; ++ op->parse(op, str, i); ++ } ++ else ++ { ++ for (i = 0; i < current_insn.syntax->nr_operands; i++) ++ { ++ int optype = current_insn.syntax->operand[i]; ++ struct avr32_operand *op = &avr32_operand_table[optype]; ++ char *p; ++ char c; ++ ++ skip_whitespace(str); ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ assert(p != str); ++ ++ c = *p, *p = 0; ++ op->parse(op, str, i); ++ *p = c; ++ ++ str = p; ++ if (c) str++; ++ } ++ ++ if (*str == 'E' || *str == 'e') ++ current_insn.force_extended = 1; ++ } ++ ++ return 0; ++} ++ ++static const char * ++finish_insn(const struct avr32_opcode *opc) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ unsigned int i; ++ int will_relax = 0; ++ char *buf; ++ ++ assert(current_insn.next_slot == opc->nr_fields); ++ ++ pr_debug("%s:%d: finish_insn: trying opcode %d\n", ++ frag_now->fr_file, frag_now->fr_line, opc->id); ++ ++ /* Go through the relaxation stage for all instructions that can ++ possibly take a symbolic immediate. The relax code will take ++ care of range checking and alignment. */ ++ if (opc->var_field != -1) ++ { ++ int substate, largest_substate; ++ symbolS *sym; ++ offsetT off; ++ ++ will_relax = 1; ++ substate = largest_substate = opc_initial_substate(opc); ++ ++ while (relax_more(largest_substate) != AVR32_RS_NONE) ++ largest_substate = relax_more(largest_substate); ++ ++ pr_debug("will relax. initial substate: %d (size %d), largest substate: %d (size %d)\n", ++ substate, avr32_rs_size(substate), ++ largest_substate, avr32_rs_size(largest_substate)); ++ ++ /* make sure we have enough room for the largest possible opcode */ ++ frag_grow(avr32_rs_size(largest_substate)); ++ buf = frag_more(opc->size); ++ ++ dwarf2_emit_insn(opc->size); ++ ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_NONE; ++ frag_now->tc_frag_data.pcrel = current_insn.pcrel; ++ frag_now->tc_frag_data.force_extended = current_insn.force_extended; ++ frag_now->tc_frag_data.relaxer = &avr32_default_relaxer; ++ ++ if (exp->X_op == O_hi) ++ { ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_HI; ++ exp->X_op = exp->X_md; ++ } ++ else if (exp->X_op == O_lo) ++ { ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_LO; ++ exp->X_op = exp->X_md; ++ } ++ else if (exp->X_op == O_got) ++ { ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_GOT; ++ exp->X_op = O_symbol; ++ } ++ ++#if 0 ++ if ((opc->reloc_type == BFD_RELOC_AVR32_SUB5) ++ && exp->X_op == O_subtract) ++ { ++ symbolS *tmp; ++ tmp = exp->X_add_symbol; ++ exp->X_add_symbol = exp->X_op_symbol; ++ exp->X_op_symbol = tmp; ++ } ++#endif ++ ++ frag_now->tc_frag_data.exp = current_insn.immediate; ++ ++ sym = exp->X_add_symbol; ++ off = exp->X_add_number; ++ if (exp->X_op != O_symbol) ++ { ++ sym = make_expr_symbol(exp); ++ off = 0; ++ } ++ ++ frag_var(rs_machine_dependent, ++ avr32_rs_size(largest_substate) - opc->size, ++ opc->size, ++ substate, sym, off, buf); ++ } ++ else ++ { ++ assert(avr32_rs_size(opc_initial_substate(opc)) == 0); ++ ++ /* Make sure we always have room for another whole word, as the ifield ++ inserters can only write words. */ ++ frag_grow(4); ++ buf = frag_more(opc->size); ++ dwarf2_emit_insn(opc->size); ++ } ++ ++ assert(!(opc->value & ~opc->mask)); ++ ++ pr_debug("inserting opcode: 0x%lx\n", opc->value); ++ bfd_putb32(opc->value, buf); ++ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ const struct avr32_ifield *f = opc->fields[i]; ++ const struct avr32_ifield_data *fd = ¤t_insn.field_value[i]; ++ ++ pr_debug("inserting field: 0x%lx & 0x%lx\n", ++ fd->value >> fd->align_order, f->mask); ++ ++ f->insert(f, buf, fd->value >> fd->align_order); ++ } ++ ++ assert(will_relax || !current_insn.immediate.X_add_symbol); ++ return NULL; ++} ++ ++static const char * ++finish_alias(const struct avr32_alias *alias) ++{ ++ const struct avr32_opcode *opc; ++ struct { ++ unsigned long value; ++ unsigned long align; ++ } mapped_operand[AVR32_MAX_OPERANDS]; ++ unsigned int i; ++ ++ opc = alias->opc; ++ ++ /* Remap the operands from the alias to the real opcode */ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ if (alias->operand_map[i].is_opindex) ++ { ++ struct avr32_ifield_data *fd; ++ fd = ¤t_insn.field_value[alias->operand_map[i].value]; ++ mapped_operand[i].value = fd->value; ++ mapped_operand[i].align = fd->align_order; ++ } ++ else ++ { ++ mapped_operand[i].value = alias->operand_map[i].value; ++ mapped_operand[i].align = 0; ++ } ++ } ++ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ current_insn.field_value[i].value = mapped_operand[i].value; ++ if (opc->id == AVR32_OPC_COP) ++ current_insn.field_value[i].align_order = 0; ++ else ++ current_insn.field_value[i].align_order ++ = mapped_operand[i].align; ++ } ++ ++ current_insn.next_slot = opc->nr_fields; ++ ++ return finish_insn(opc); ++} ++ ++static const char * ++finish_lda(const struct avr32_syntax *syntax ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ relax_substateT initial_subtype; ++ symbolS *sym; ++ offsetT off; ++ int initial_size, max_size; ++ char *buf; ++ ++ initial_size = LDA_INITIAL_SIZE; ++ ++ if (avr32_pic) ++ { ++ initial_subtype = LDA_SUBTYPE_SUB; ++ if (linkrelax) ++ max_size = 8; ++ else ++ max_size = 4; ++ } ++ else ++ { ++ initial_subtype = LDA_SUBTYPE_MOV1; ++ max_size = 4; ++ } ++ ++ frag_grow(max_size); ++ buf = frag_more(initial_size); ++ dwarf2_emit_insn(initial_size); ++ ++ if (exp->X_op == O_symbol) ++ { ++ sym = exp->X_add_symbol; ++ off = exp->X_add_number; ++ } ++ else ++ { ++ sym = make_expr_symbol(exp); ++ off = 0; ++ } ++ ++ frag_now->tc_frag_data.reloc_info = current_insn.field_value[0].value; ++ frag_now->tc_frag_data.relaxer = &avr32_lda_relaxer; ++ ++ if (!avr32_pic) ++ { ++ /* The relaxer will bump the refcount if necessary */ ++ frag_now->tc_frag_data.pool ++ = add_to_cpool(exp, &frag_now->tc_frag_data.pool_entry, 0); ++ } ++ ++ frag_var(rs_machine_dependent, max_size - initial_size, ++ initial_size, initial_subtype, sym, off, buf); ++ ++ return NULL; ++} ++ ++static const char * ++finish_call(const struct avr32_syntax *syntax ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ symbolS *sym; ++ offsetT off; ++ int initial_size, max_size; ++ char *buf; ++ ++ initial_size = CALL_INITIAL_SIZE; ++ ++ if (avr32_pic) ++ { ++ if (linkrelax) ++ max_size = 10; ++ else ++ max_size = 4; ++ } ++ else ++ max_size = 4; ++ ++ frag_grow(max_size); ++ buf = frag_more(initial_size); ++ dwarf2_emit_insn(initial_size); ++ ++ frag_now->tc_frag_data.relaxer = &avr32_call_relaxer; ++ ++ if (exp->X_op == O_symbol) ++ { ++ sym = exp->X_add_symbol; ++ off = exp->X_add_number; ++ } ++ else ++ { ++ sym = make_expr_symbol(exp); ++ off = 0; ++ } ++ ++ if (!avr32_pic) ++ { ++ /* The relaxer will bump the refcount if necessary */ ++ frag_now->tc_frag_data.pool ++ = add_to_cpool(exp, &frag_now->tc_frag_data.pool_entry, 0); ++ } ++ ++ frag_var(rs_machine_dependent, max_size - initial_size, ++ initial_size, CALL_SUBTYPE_RCALL1, sym, off, buf); ++ ++ return NULL; ++} ++ ++void ++md_begin (void) ++{ ++ unsigned long flags = 0; ++ int i; ++ ++ avr32_mnemonic_htab = hash_new(); ++ ++ if (!avr32_mnemonic_htab) ++ as_fatal(_("virtual memory exhausted")); ++ ++ for (i = 0; i < AVR32_NR_MNEMONICS; i++) ++ { ++ hash_insert(avr32_mnemonic_htab, avr32_mnemonic_table[i].name, ++ (void *)&avr32_mnemonic_table[i]); ++ } ++ ++ if (linkrelax) ++ flags |= EF_AVR32_LINKRELAX; ++ if (avr32_pic) ++ flags |= EF_AVR32_PIC; ++ ++ bfd_set_private_flags(stdoutput, flags); ++ ++#ifdef OPC_CONSISTENCY_CHECK ++ if (sizeof(avr32_operand_table)/sizeof(avr32_operand_table[0]) ++ < AVR32_NR_OPERANDS) ++ as_fatal(_("operand table is incomplete")); ++ ++ for (i = 0; i < AVR32_NR_OPERANDS; i++) ++ if (avr32_operand_table[i].id != i) ++ as_fatal(_("operand table inconsistency found at index %d\n"), i); ++ pr_debug("%d operands verified\n", AVR32_NR_OPERANDS); ++ ++ for (i = 0; i < AVR32_NR_IFIELDS; i++) ++ if (avr32_ifield_table[i].id != i) ++ as_fatal(_("ifield table inconsistency found at index %d\n"), i); ++ pr_debug("%d instruction fields verified\n", AVR32_NR_IFIELDS); ++ ++ for (i = 0; i < AVR32_NR_OPCODES; i++) ++ { ++ if (avr32_opc_table[i].id != i) ++ as_fatal(_("opcode table inconsistency found at index %d\n"), i); ++ if ((avr32_opc_table[i].var_field == -1 ++ && avr32_relax_table[i].length != 0) ++ || (avr32_opc_table[i].var_field != -1 ++ && avr32_relax_table[i].length == 0)) ++ as_fatal(_("relax table inconsistency found at index %d\n"), i); ++ } ++ pr_debug("%d opcodes verified\n", AVR32_NR_OPCODES); ++ ++ for (i = 0; i < AVR32_NR_SYNTAX; i++) ++ if (avr32_syntax_table[i].id != i) ++ as_fatal(_("syntax table inconsistency found at index %d\n"), i); ++ pr_debug("%d syntax variants verified\n", AVR32_NR_SYNTAX); ++ ++ for (i = 0; i < AVR32_NR_ALIAS; i++) ++ if (avr32_alias_table[i].id != i) ++ as_fatal(_("alias table inconsistency found at index %d\n"), i); ++ pr_debug("%d aliases verified\n", AVR32_NR_ALIAS); ++ ++ for (i = 0; i < AVR32_NR_MNEMONICS; i++) ++ if (avr32_mnemonic_table[i].id != i) ++ as_fatal(_("mnemonic table inconsistency found at index %d\n"), i); ++ pr_debug("%d mnemonics verified\n", AVR32_NR_MNEMONICS); ++#endif ++} ++ ++void ++md_assemble (char *str) ++{ ++ struct avr32_mnemonic *mnemonic; ++ char *p, c; ++ ++ memset(¤t_insn, 0, sizeof(current_insn)); ++ current_insn.immediate.X_op = O_constant; ++ ++ skip_whitespace(str); ++ for (p = str; *p; p++) ++ if (*p == ' ') ++ break; ++ c = *p; ++ *p = 0; ++ ++ mnemonic = hash_find(avr32_mnemonic_htab, str); ++ *p = c; ++ if (c) p++; ++ ++ if (mnemonic) ++ { ++ const struct avr32_syntax *syntax; ++ ++ for (syntax = mnemonic->syntax; syntax; syntax = syntax->next) ++ { ++ const char *errmsg = NULL; ++ ++ if (syntax_matches(syntax, p)) ++ { ++ if (!(syntax->isa_flags & avr32_arch->isa_flags)) ++ { ++ as_bad(_("Selected architecture `%s' does not support `%s'"), ++ avr32_arch->name, str); ++ return; ++ } ++ ++ current_insn.syntax = syntax; ++ parse_operands(p); ++ ++ switch (syntax->type) ++ { ++ case AVR32_PARSER_NORMAL: ++ errmsg = finish_insn(syntax->u.opc); ++ break; ++ case AVR32_PARSER_ALIAS: ++ errmsg = finish_alias(syntax->u.alias); ++ break; ++ case AVR32_PARSER_LDA: ++ errmsg = finish_lda(syntax); ++ break; ++ case AVR32_PARSER_CALL: ++ errmsg = finish_call(syntax); ++ break; ++ default: ++ BAD_CASE(syntax->type); ++ break; ++ } ++ ++ if (errmsg) ++ as_bad("%s in `%s'", errmsg, str); ++ ++ return; ++ } ++ } ++ ++ as_bad(_("unrecognized form of instruction: `%s'"), str); ++ } ++ else ++ as_bad(_("unrecognized instruction `%s'"), str); ++} ++ ++void avr32_cleanup(void) ++{ ++ struct cpool *pool; ++ ++ /* Emit any constant pools that haven't been explicitly flushed with ++ a .cpool directive. */ ++ for (pool = cpool_list; pool; pool = pool->next) ++ { ++ subseg_set(pool->section, pool->sub_section); ++ s_cpool(0); ++ } ++} ++ ++/* Handle any PIC-related operands in data allocation pseudo-ops */ ++void ++avr32_cons_fix_new (fragS *frag, int off, int size, expressionS *exp) ++{ ++ bfd_reloc_code_real_type r_type = BFD_RELOC_UNUSED; ++ int pcrel = 0; ++ ++ pr_debug("%s:%u: cons_fix_new, add_sym: %s, op_sym: %s, op: %d, add_num: %d\n", ++ frag->fr_file, frag->fr_line, ++ exp->X_add_symbol?S_GET_NAME(exp->X_add_symbol):"(none)", ++ exp->X_op_symbol?S_GET_NAME(exp->X_op_symbol):"(none)", ++ exp->X_op, exp->X_add_number); ++ ++ if (exp->X_op == O_subtract && exp->X_op_symbol) ++ { ++ if (exp->X_op_symbol == GOT_symbol) ++ { ++ if (size != 4) ++ goto bad_size; ++ r_type = BFD_RELOC_AVR32_GOTPC; ++ exp->X_op = O_symbol; ++ exp->X_op_symbol = NULL; ++ } ++ } ++ else if (exp->X_op == O_got) ++ { ++ switch (size) ++ { ++ case 1: ++ r_type = BFD_RELOC_AVR32_GOT8; ++ break; ++ case 2: ++ r_type = BFD_RELOC_AVR32_GOT16; ++ break; ++ case 4: ++ r_type = BFD_RELOC_AVR32_GOT32; ++ break; ++ default: ++ goto bad_size; ++ } ++ ++ exp->X_op = O_symbol; ++ } ++ ++ if (r_type == BFD_RELOC_UNUSED) ++ switch (size) ++ { ++ case 1: ++ r_type = BFD_RELOC_8; ++ break; ++ case 2: ++ r_type = BFD_RELOC_16; ++ break; ++ case 4: ++ r_type = BFD_RELOC_32; ++ break; ++ default: ++ goto bad_size; ++ } ++ else if (size != 4) ++ { ++ bad_size: ++ as_bad(_("unsupported BFD relocation size %u"), size); ++ r_type = BFD_RELOC_UNUSED; ++ } ++ ++ fix_new_exp (frag, off, size, exp, pcrel, r_type); ++} ++ ++static void ++avr32_frob_section(bfd *abfd ATTRIBUTE_UNUSED, segT sec, ++ void *ignore ATTRIBUTE_UNUSED) ++{ ++ segment_info_type *seginfo; ++ fixS *fix; ++ ++ seginfo = seg_info(sec); ++ if (!seginfo) ++ return; ++ ++ for (fix = seginfo->fix_root; fix; fix = fix->fx_next) ++ { ++ if (fix->fx_done) ++ continue; ++ ++ if (fix->fx_r_type == BFD_RELOC_AVR32_SUB5 ++ && fix->fx_addsy && fix->fx_subsy) ++ { ++ if (S_GET_SEGMENT(fix->fx_addsy) != S_GET_SEGMENT(fix->fx_subsy) ++ || linkrelax) ++ { ++ symbolS *tmp; ++#ifdef DEBUG ++ fprintf(stderr, "Swapping symbols in fixup:\n"); ++ print_fixup(fix); ++#endif ++ tmp = fix->fx_addsy; ++ fix->fx_addsy = fix->fx_subsy; ++ fix->fx_subsy = tmp; ++ fix->fx_offset = -fix->fx_offset; ++ } ++ } ++ } ++} ++ ++/* We need to look for SUB5 instructions with expressions that will be ++ made PC-relative and switch fx_addsy with fx_subsy. This has to be ++ done before adjustment or the wrong symbol might be adjusted. ++ ++ This applies to fixups that are a result of expressions like -(sym ++ - .) and that will make it all the way to md_apply_fix3(). LDA ++ does the right thing in convert_frag, so we must not convert ++ those. */ ++void ++avr32_frob_file(void) ++{ ++ /* if (1 || !linkrelax) ++ return; */ ++ ++ bfd_map_over_sections(stdoutput, avr32_frob_section, NULL); ++} ++ ++static bfd_boolean ++convert_to_diff_reloc(fixS *fixP) ++{ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF32; ++ break; ++ case BFD_RELOC_16: ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF16; ++ break; ++ case BFD_RELOC_8: ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF8; ++ break; ++ default: ++ return FALSE; ++ } ++ ++ return TRUE; ++} ++ ++/* Simplify a fixup. If possible, the fixup is reduced to a single ++ constant which is written to the output file. Otherwise, a ++ relocation is generated so that the linker can take care of the ++ rest. ++ ++ ELF relocations have certain constraints: They can only take a ++ single symbol and a single addend. This means that for difference ++ expressions, we _must_ get rid of the fx_subsy symbol somehow. ++ ++ The difference between two labels in the same section can be ++ calculated directly unless 'linkrelax' is set, or a relocation is ++ forced. If so, we must emit a R_AVR32_DIFFxx relocation. If there ++ are addends involved at this point, we must be especially careful ++ as the relocation must point exactly to the symbol being ++ subtracted. ++ ++ When subtracting a symbol defined in the same section as the fixup, ++ we might be able to convert it to a PC-relative expression, unless ++ linkrelax is set. If this is the case, there's no way we can make ++ sure that the difference between the fixup and fx_subsy stays ++ constant. So for now, we're just going to disallow that. ++ */ ++void ++avr32_process_fixup(fixS *fixP, segT this_segment) ++{ ++ segT add_symbol_segment = absolute_section; ++ segT sub_symbol_segment = absolute_section; ++ symbolS *fx_addsy, *fx_subsy; ++ offsetT value = 0, fx_offset; ++ bfd_boolean apply = FALSE; ++ ++ assert(this_segment != absolute_section); ++ ++ if (fixP->fx_r_type >= BFD_RELOC_UNUSED) ++ { ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("Bad relocation type %d\n"), fixP->fx_r_type); ++ return; ++ } ++ ++ /* BFD_RELOC_AVR32_SUB5 fixups have been swapped by avr32_frob_section() */ ++ fx_addsy = fixP->fx_addsy; ++ fx_subsy = fixP->fx_subsy; ++ fx_offset = fixP->fx_offset; ++ ++ if (fx_addsy) ++ add_symbol_segment = S_GET_SEGMENT(fx_addsy); ++ ++ if (fx_subsy) ++ { ++ resolve_symbol_value(fx_subsy); ++ sub_symbol_segment = S_GET_SEGMENT(fx_subsy); ++ ++ if (sub_symbol_segment == this_segment ++ && (!linkrelax ++ || S_GET_VALUE(fx_subsy) == (fixP->fx_frag->fr_address ++ + fixP->fx_where))) ++ { ++ fixP->fx_pcrel = TRUE; ++ fx_offset += (fixP->fx_frag->fr_address + fixP->fx_where ++ - S_GET_VALUE(fx_subsy)); ++ fx_subsy = NULL; ++ } ++ else if (sub_symbol_segment == absolute_section) ++ { ++ /* The symbol is really a constant. */ ++ fx_offset -= S_GET_VALUE(fx_subsy); ++ fx_subsy = NULL; ++ } ++ else if (SEG_NORMAL(add_symbol_segment) ++ && sub_symbol_segment == add_symbol_segment ++ && (!linkrelax || convert_to_diff_reloc(fixP))) ++ { ++ /* Difference between two labels in the same section. */ ++ if (linkrelax) ++ { ++ /* convert_to_diff() has ensured that the reloc type is ++ either DIFF32, DIFF16 or DIFF8. */ ++ value = (S_GET_VALUE(fx_addsy) + fixP->fx_offset ++ - S_GET_VALUE(fx_subsy)); ++ ++ /* Try to convert it to a section symbol if possible */ ++ if (!S_FORCE_RELOC(fx_addsy, 1) ++ && !(sub_symbol_segment->flags & SEC_THREAD_LOCAL)) ++ { ++ fx_offset = S_GET_VALUE(fx_subsy); ++ fx_addsy = section_symbol(sub_symbol_segment); ++ } ++ else ++ { ++ fx_addsy = fx_subsy; ++ fx_offset = 0; ++ } ++ ++ fx_subsy = NULL; ++ apply = TRUE; ++ } ++ else ++ { ++ fx_offset += S_GET_VALUE(fx_addsy); ++ fx_offset -= S_GET_VALUE(fx_subsy); ++ fx_addsy = NULL; ++ fx_subsy = NULL; ++ } ++ } ++ else ++ { ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("can't resolve `%s' {%s section} - `%s' {%s section}"), ++ fx_addsy ? S_GET_NAME (fx_addsy) : "0", ++ segment_name (add_symbol_segment), ++ S_GET_NAME (fx_subsy), ++ segment_name (sub_symbol_segment)); ++ return; ++ } ++ } ++ ++ if (fx_addsy && !TC_FORCE_RELOCATION(fixP)) ++ { ++ if (add_symbol_segment == this_segment ++ && fixP->fx_pcrel) ++ { ++ value += S_GET_VALUE(fx_addsy); ++ value -= md_pcrel_from_section(fixP, this_segment); ++ fx_addsy = NULL; ++ fixP->fx_pcrel = FALSE; ++ } ++ else if (add_symbol_segment == absolute_section) ++ { ++ fx_offset += S_GET_VALUE(fixP->fx_addsy); ++ fx_addsy = NULL; ++ } ++ } ++ ++ if (!fx_addsy) ++ fixP->fx_done = TRUE; ++ ++ if (fixP->fx_pcrel) ++ { ++ if (fx_addsy != NULL ++ && S_IS_DEFINED(fx_addsy) ++ && S_GET_SEGMENT(fx_addsy) != this_segment) ++ value += md_pcrel_from_section(fixP, this_segment); ++ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ fixP->fx_r_type = BFD_RELOC_32_PCREL; ++ break; ++ case BFD_RELOC_16: ++ fixP->fx_r_type = BFD_RELOC_16_PCREL; ++ break; ++ case BFD_RELOC_8: ++ fixP->fx_r_type = BFD_RELOC_8_PCREL; ++ break; ++ case BFD_RELOC_AVR32_SUB5: ++ fixP->fx_r_type = BFD_RELOC_AVR32_16N_PCREL; ++ break; ++ case BFD_RELOC_AVR32_16S: ++ fixP->fx_r_type = BFD_RELOC_AVR32_16B_PCREL; ++ break; ++ case BFD_RELOC_AVR32_14UW: ++ fixP->fx_r_type = BFD_RELOC_AVR32_14UW_PCREL; ++ break; ++ case BFD_RELOC_AVR32_10UW: ++ fixP->fx_r_type = BFD_RELOC_AVR32_10UW_PCREL; ++ break; ++ default: ++ /* Should have been taken care of already */ ++ break; ++ } ++ } ++ ++ if (fixP->fx_done || apply) ++ { ++ const struct avr32_ifield *ifield; ++ char *buf = fixP->fx_where + fixP->fx_frag->fr_literal; ++ ++ if (fixP->fx_done) ++ value += fx_offset; ++ ++ /* For hosts with longs bigger than 32-bits make sure that the top ++ bits of a 32-bit negative value read in by the parser are set, ++ so that the correct comparisons are made. */ ++ if (value & 0x80000000) ++ value |= (-1L << 31); ++ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ case BFD_RELOC_16: ++ case BFD_RELOC_8: ++ case BFD_RELOC_AVR32_DIFF32: ++ case BFD_RELOC_AVR32_DIFF16: ++ case BFD_RELOC_AVR32_DIFF8: ++ md_number_to_chars(buf, value, fixP->fx_size); ++ break; ++ case BFD_RELOC_HI16: ++ value >>= 16; ++ case BFD_RELOC_LO16: ++ value &= 0xffff; ++ md_number_to_chars(buf + 2, value, 2); ++ break; ++ case BFD_RELOC_AVR32_16N_PCREL: ++ value = -value; ++ /* fall through */ ++ case BFD_RELOC_AVR32_22H_PCREL: ++ case BFD_RELOC_AVR32_18W_PCREL: ++ case BFD_RELOC_AVR32_16B_PCREL: ++ case BFD_RELOC_AVR32_11H_PCREL: ++ case BFD_RELOC_AVR32_9H_PCREL: ++ case BFD_RELOC_AVR32_9UW_PCREL: ++ case BFD_RELOC_AVR32_3U: ++ case BFD_RELOC_AVR32_4UH: ++ case BFD_RELOC_AVR32_6UW: ++ case BFD_RELOC_AVR32_6S: ++ case BFD_RELOC_AVR32_7UW: ++ case BFD_RELOC_AVR32_8S_EXT: ++ case BFD_RELOC_AVR32_8S: ++ case BFD_RELOC_AVR32_10UW: ++ case BFD_RELOC_AVR32_10SW: ++ case BFD_RELOC_AVR32_STHH_W: ++ case BFD_RELOC_AVR32_14UW: ++ case BFD_RELOC_AVR32_16S: ++ case BFD_RELOC_AVR32_16U: ++ case BFD_RELOC_AVR32_21S: ++ case BFD_RELOC_AVR32_SUB5: ++ case BFD_RELOC_AVR32_CPCALL: ++ case BFD_RELOC_AVR32_16_CP: ++ case BFD_RELOC_AVR32_9W_CP: ++ case BFD_RELOC_AVR32_15S: ++ ifield = fixP->tc_fix_data.ifield; ++ pr_debug("insert field: %ld <= %ld <= %ld (align %u)\n", ++ fixP->tc_fix_data.min, value, fixP->tc_fix_data.max, ++ fixP->tc_fix_data.align); ++ if (value < fixP->tc_fix_data.min || value > fixP->tc_fix_data.max) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("operand out of range (%ld not between %ld and %ld)"), ++ value, fixP->tc_fix_data.min, fixP->tc_fix_data.max); ++ if (value & ((1 << fixP->tc_fix_data.align) - 1)) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("misaligned operand (required alignment: %d)"), ++ 1 << fixP->tc_fix_data.align); ++ ifield->insert(ifield, buf, value >> fixP->tc_fix_data.align); ++ break; ++ case BFD_RELOC_AVR32_ALIGN: ++ /* Nothing to do */ ++ fixP->fx_done = FALSE; ++ break; ++ default: ++ as_fatal("reloc type %s not handled\n", ++ bfd_get_reloc_code_name(fixP->fx_r_type)); ++ } ++ } ++ ++ fixP->fx_addsy = fx_addsy; ++ fixP->fx_subsy = fx_subsy; ++ fixP->fx_offset = fx_offset; ++ ++ if (!fixP->fx_done) ++ { ++ if (!fixP->fx_addsy) ++ fixP->fx_addsy = abs_section_sym; ++ ++ symbol_mark_used_in_reloc(fixP->fx_addsy); ++ if (fixP->fx_subsy) ++ abort(); ++ } ++} ++ ++#if 0 ++void ++md_apply_fix3 (fixS *fixP, valueT *valP, segT seg) ++{ ++ const struct avr32_ifield *ifield; ++ offsetT value = *valP; ++ char *buf = fixP->fx_where + fixP->fx_frag->fr_literal; ++ bfd_boolean apply; ++ ++ pr_debug("%s:%u: apply_fix3: r_type=%d value=%lx offset=%lx\n", ++ fixP->fx_file, fixP->fx_line, fixP->fx_r_type, *valP, ++ fixP->fx_offset); ++ ++ if (fixP->fx_r_type >= BFD_RELOC_UNUSED) ++ { ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("Bad relocation type %d\n"), fixP->fx_r_type); ++ return; ++ } ++ ++ if (!fixP->fx_addsy && !fixP->fx_subsy) ++ fixP->fx_done = 1; ++ ++ if (fixP->fx_pcrel) ++ { ++ if (fixP->fx_addsy != NULL ++ && S_IS_DEFINED(fixP->fx_addsy) ++ && S_GET_SEGMENT(fixP->fx_addsy) != seg) ++ value += md_pcrel_from_section(fixP, seg); ++ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ fixP->fx_r_type = BFD_RELOC_32_PCREL; ++ break; ++ case BFD_RELOC_16: ++ case BFD_RELOC_8: ++ as_bad_where (fixP->fx_file, fixP->fx_line, ++ _("8- and 16-bit PC-relative relocations not supported")); ++ break; ++ case BFD_RELOC_AVR32_SUB5: ++ fixP->fx_r_type = BFD_RELOC_AVR32_PCREL_SUB5; ++ break; ++ case BFD_RELOC_AVR32_16S: ++ fixP->fx_r_type = BFD_RELOC_AVR32_16_PCREL; ++ break; ++ default: ++ /* Should have been taken care of already */ ++ break; ++ } ++ } ++ ++ if (fixP->fx_r_type == BFD_RELOC_32 ++ && fixP->fx_subsy) ++ { ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF32; ++ ++ /* Offsets are only allowed if it's a result of adjusting a ++ local symbol into a section-relative offset. ++ tc_fix_adjustable() should prevent any adjustment if there ++ was an offset involved before. */ ++ if (fixP->fx_offset && !symbol_section_p(fixP->fx_addsy)) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("cannot represent symbol difference with an offset")); ++ ++ value = (S_GET_VALUE(fixP->fx_addsy) + fixP->fx_offset ++ - S_GET_VALUE(fixP->fx_subsy)); ++ ++ /* The difference before any relaxing takes place is written ++ out, and the DIFF32 reloc identifies the address of the first ++ symbol (i.e. the on that's subtracted.) */ ++ *valP = value; ++ fixP->fx_offset -= value; ++ fixP->fx_subsy = NULL; ++ ++ md_number_to_chars(buf, value, fixP->fx_size); ++ } ++ ++ if (fixP->fx_done) ++ { ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_8: ++ case BFD_RELOC_16: ++ case BFD_RELOC_32: ++ md_number_to_chars(buf, value, fixP->fx_size); ++ break; ++ case BFD_RELOC_HI16: ++ value >>= 16; ++ case BFD_RELOC_LO16: ++ value &= 0xffff; ++ *valP = value; ++ md_number_to_chars(buf + 2, value, 2); ++ break; ++ case BFD_RELOC_AVR32_PCREL_SUB5: ++ value = -value; ++ /* fall through */ ++ case BFD_RELOC_AVR32_9_PCREL: ++ case BFD_RELOC_AVR32_11_PCREL: ++ case BFD_RELOC_AVR32_16_PCREL: ++ case BFD_RELOC_AVR32_18_PCREL: ++ case BFD_RELOC_AVR32_22_PCREL: ++ case BFD_RELOC_AVR32_3U: ++ case BFD_RELOC_AVR32_4UH: ++ case BFD_RELOC_AVR32_6UW: ++ case BFD_RELOC_AVR32_6S: ++ case BFD_RELOC_AVR32_7UW: ++ case BFD_RELOC_AVR32_8S: ++ case BFD_RELOC_AVR32_10UW: ++ case BFD_RELOC_AVR32_10SW: ++ case BFD_RELOC_AVR32_14UW: ++ case BFD_RELOC_AVR32_16S: ++ case BFD_RELOC_AVR32_16U: ++ case BFD_RELOC_AVR32_21S: ++ case BFD_RELOC_AVR32_BRC1: ++ case BFD_RELOC_AVR32_SUB5: ++ case BFD_RELOC_AVR32_CPCALL: ++ case BFD_RELOC_AVR32_16_CP: ++ case BFD_RELOC_AVR32_9_CP: ++ case BFD_RELOC_AVR32_15S: ++ ifield = fixP->tc_fix_data.ifield; ++ pr_debug("insert field: %ld <= %ld <= %ld (align %u)\n", ++ fixP->tc_fix_data.min, value, fixP->tc_fix_data.max, ++ fixP->tc_fix_data.align); ++ if (value < fixP->tc_fix_data.min || value > fixP->tc_fix_data.max) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("operand out of range (%ld not between %ld and %ld)"), ++ value, fixP->tc_fix_data.min, fixP->tc_fix_data.max); ++ if (value & ((1 << fixP->tc_fix_data.align) - 1)) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("misaligned operand (required alignment: %d)"), ++ 1 << fixP->tc_fix_data.align); ++ ifield->insert(ifield, buf, value >> fixP->tc_fix_data.align); ++ break; ++ case BFD_RELOC_AVR32_ALIGN: ++ /* Nothing to do */ ++ fixP->fx_done = FALSE; ++ break; ++ default: ++ as_fatal("reloc type %s not handled\n", ++ bfd_get_reloc_code_name(fixP->fx_r_type)); ++ } ++ } ++} ++#endif ++ ++arelent * ++tc_gen_reloc (asection *section ATTRIBUTE_UNUSED, ++ fixS *fixp) ++{ ++ arelent *reloc; ++ bfd_reloc_code_real_type code; ++ ++ reloc = xmalloc (sizeof (arelent)); ++ ++ reloc->sym_ptr_ptr = xmalloc (sizeof (asymbol *)); ++ *reloc->sym_ptr_ptr = symbol_get_bfdsym (fixp->fx_addsy); ++ reloc->address = fixp->fx_frag->fr_address + fixp->fx_where; ++ reloc->addend = fixp->fx_offset; ++ code = fixp->fx_r_type; ++ ++ reloc->howto = bfd_reloc_type_lookup (stdoutput, code); ++ ++ if (reloc->howto == NULL) ++ { ++ as_bad_where (fixp->fx_file, fixp->fx_line, ++ _("cannot represent relocation %s in this object file format"), ++ bfd_get_reloc_code_name (code)); ++ return NULL; ++ } ++ ++ return reloc; ++} ++ ++bfd_boolean ++avr32_force_reloc(fixS *fixP) ++{ ++ if (linkrelax && fixP->fx_addsy ++ && !(S_GET_SEGMENT(fixP->fx_addsy)->flags & SEC_DEBUGGING) ++ && S_GET_SEGMENT(fixP->fx_addsy) != absolute_section) ++ { ++ pr_debug(stderr, "force reloc: addsy=%p, r_type=%d, sec=%s\n", ++ fixP->fx_addsy, fixP->fx_r_type, S_GET_SEGMENT(fixP->fx_addsy)->name); ++ return 1; ++ } ++ ++ return generic_force_reloc(fixP); ++} ++ ++bfd_boolean ++avr32_fix_adjustable(fixS *fixP) ++{ ++ switch (fixP->fx_r_type) ++ { ++ /* GOT relocations can't have addends since BFD treats all ++ references to a given symbol the same. This means that we ++ must avoid section-relative references to local symbols when ++ dealing with these kinds of relocs */ ++ case BFD_RELOC_AVR32_GOT32: ++ case BFD_RELOC_AVR32_GOT16: ++ case BFD_RELOC_AVR32_GOT8: ++ case BFD_RELOC_AVR32_GOT21S: ++ case BFD_RELOC_AVR32_GOT18SW: ++ case BFD_RELOC_AVR32_GOT16S: ++ case BFD_RELOC_AVR32_LDA_GOT: ++ case BFD_RELOC_AVR32_GOTCALL: ++ pr_debug("fix not adjustable\n"); ++ return 0; ++ ++ default: ++ break; ++ } ++ ++ return 1; ++} ++ ++/* When we want the linker to be able to relax the code, we need to ++ output a reloc for every .align directive requesting an alignment ++ to a four byte boundary or larger. If we don't do this, the linker ++ can't guarantee that the alignment is actually maintained in the ++ linker output. ++ ++ TODO: Might as well insert proper NOPs while we're at it... */ ++void ++avr32_handle_align(fragS *frag) ++{ ++ if (linkrelax ++ && frag->fr_type == rs_align_code ++ && frag->fr_address + frag->fr_fix > 0 ++ && frag->fr_offset > 0) ++ { ++ /* The alignment order (fr_offset) is stored in the addend. */ ++ fix_new(frag, frag->fr_fix, 2, &abs_symbol, frag->fr_offset, ++ FALSE, BFD_RELOC_AVR32_ALIGN); ++ } ++} ++ ++/* Relax_align. Advance location counter to next address that has 'alignment' ++ lowest order bits all 0s, return size of adjustment made. */ ++relax_addressT ++avr32_relax_align(segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP, ++ relax_addressT address) ++{ ++ relax_addressT mask; ++ relax_addressT new_address; ++ int alignment; ++ ++ alignment = fragP->fr_offset; ++ mask = ~((~0) << alignment); ++ new_address = (address + mask) & (~mask); ++ ++ return new_address - address; ++} ++ ++/* Turn a string in input_line_pointer into a floating point constant ++ of type type, and store the appropriate bytes in *litP. The number ++ of LITTLENUMS emitted is stored in *sizeP . An error message is ++ returned, or NULL on OK. */ ++ ++/* Equal to MAX_PRECISION in atof-ieee.c */ ++#define MAX_LITTLENUMS 6 ++ ++char * ++md_atof (type, litP, sizeP) ++char type; ++char * litP; ++int * sizeP; ++{ ++ int i; ++ int prec; ++ LITTLENUM_TYPE words [MAX_LITTLENUMS]; ++ char * t; ++ ++ switch (type) ++ { ++ case 'f': ++ case 'F': ++ case 's': ++ case 'S': ++ prec = 2; ++ break; ++ ++ case 'd': ++ case 'D': ++ case 'r': ++ case 'R': ++ prec = 4; ++ break; ++ ++ /* FIXME: Some targets allow other format chars for bigger sizes here. */ ++ ++ default: ++ * sizeP = 0; ++ return _("Bad call to md_atof()"); ++ } ++ ++ t = atof_ieee (input_line_pointer, type, words); ++ if (t) ++ input_line_pointer = t; ++ * sizeP = prec * sizeof (LITTLENUM_TYPE); ++ ++ for (i = 0; i < prec; i++) ++ { ++ md_number_to_chars (litP, (valueT) words[i], ++ sizeof (LITTLENUM_TYPE)); ++ litP += sizeof (LITTLENUM_TYPE); ++ } ++ ++ return 0; ++} ++ ++static char *avr32_end_of_match(char *cont, char *what) ++{ ++ int len = strlen (what); ++ ++ if (! is_part_of_name (cont[len]) ++ && strncasecmp (cont, what, len) == 0) ++ return cont + len; ++ ++ return NULL; ++} ++ ++int ++avr32_parse_name (char const *name, expressionS *exp, char *nextchar) ++{ ++ char *next = input_line_pointer; ++ char *next_end; ++ ++ pr_debug("parse_name: %s, nextchar=%c (%02x)\n", name, *nextchar, *nextchar); ++ ++ if (*nextchar == '(') ++ { ++ if (strcasecmp(name, "hi") == 0) ++ { ++ *next = *nextchar; ++ ++ expression(exp); ++ ++ if (exp->X_op == O_constant) ++ { ++ pr_debug(" -> constant hi(0x%08lx) -> 0x%04lx\n", ++ exp->X_add_number, exp->X_add_number >> 16); ++ exp->X_add_number = (exp->X_add_number >> 16) & 0xffff; ++ } ++ else ++ { ++ exp->X_md = exp->X_op; ++ exp->X_op = O_hi; ++ } ++ ++ return 1; ++ } ++ else if (strcasecmp(name, "lo") == 0) ++ { ++ *next = *nextchar; ++ ++ expression(exp); ++ ++ if (exp->X_op == O_constant) ++ exp->X_add_number &= 0xffff; ++ else ++ { ++ exp->X_md = exp->X_op; ++ exp->X_op = O_lo; ++ } ++ ++ return 1; ++ } ++ } ++ else if (*nextchar == '@') ++ { ++ exp->X_md = exp->X_op; ++ ++ if ((next_end = avr32_end_of_match (next + 1, "got"))) ++ exp->X_op = O_got; ++ else if ((next_end = avr32_end_of_match (next + 1, "tlsgd"))) ++ exp->X_op = O_tlsgd; ++ /* Add more as needed */ ++ else ++ { ++ char c; ++ input_line_pointer++; ++ c = get_symbol_end(); ++ as_bad (_("unknown relocation override `%s'"), next + 1); ++ *input_line_pointer = c; ++ input_line_pointer = next; ++ return 0; ++ } ++ ++ exp->X_op_symbol = NULL; ++ exp->X_add_symbol = symbol_find_or_make (name); ++ exp->X_add_number = 0; ++ ++ *input_line_pointer = *nextchar; ++ input_line_pointer = next_end; ++ *nextchar = *input_line_pointer; ++ *input_line_pointer = '\0'; ++ return 1; ++ } ++ else if (strcmp (name, "_GLOBAL_OFFSET_TABLE_") == 0) ++ { ++ if (!GOT_symbol) ++ GOT_symbol = symbol_find_or_make(name); ++ ++ exp->X_add_symbol = GOT_symbol; ++ exp->X_op = O_symbol; ++ exp->X_add_number = 0; ++ return 1; ++ } ++ ++ return 0; ++} ++ ++static void ++s_rseg (int value ATTRIBUTE_UNUSED) ++{ ++ /* Syntax: RSEG segment_name [:type] [NOROOT|ROOT] [(align)] ++ * Defaults: ++ * - type: undocumented ("typically CODE or DATA") ++ * - ROOT ++ * - align: 1 for code, 0 for others ++ * ++ * TODO: NOROOT is ignored. If gas supports discardable segments, it should ++ * be implemented. ++ */ ++ char *name, *end; ++ int length, type, attr; ++ int align = 0; ++ ++ SKIP_WHITESPACE(); ++ ++ end = input_line_pointer; ++ while (0 == strchr ("\n\t;:( ", *end)) ++ end++; ++ if (end == input_line_pointer) ++ { ++ as_warn (_("missing name")); ++ ignore_rest_of_line(); ++ return; ++ } ++ ++ name = xmalloc (end - input_line_pointer + 1); ++ memcpy (name, input_line_pointer, end - input_line_pointer); ++ name[end - input_line_pointer] = '\0'; ++ input_line_pointer = end; ++ ++ SKIP_WHITESPACE(); ++ ++ type = SHT_NULL; ++ attr = 0; ++ ++ if (*input_line_pointer == ':') ++ { ++ /* Skip the colon */ ++ ++input_line_pointer; ++ SKIP_WHITESPACE(); ++ ++ /* Possible options at this point: ++ * - flag (ROOT or NOROOT) ++ * - a segment type ++ */ ++ end = input_line_pointer; ++ while (0 == strchr ("\n\t;:( ", *end)) ++ end++; ++ length = end - input_line_pointer; ++ if (((length == 4) && (0 == strncasecmp( input_line_pointer, "ROOT", 4))) || ++ ((length == 6) && (0 == strncasecmp( input_line_pointer, "NOROOT", 6)))) ++ { ++ /* Ignore ROOT/NOROOT */ ++ input_line_pointer = end; ++ } ++ else ++ { ++ /* Must be a segment type */ ++ switch (*input_line_pointer) ++ { ++ case 'C': ++ case 'c': ++ if ((length == 4) && ++ (0 == strncasecmp (input_line_pointer, "CODE", 4))) ++ { ++ attr |= SHF_ALLOC | SHF_EXECINSTR; ++ type = SHT_PROGBITS; ++ align = 1; ++ break; ++ } ++ if ((length == 5) && ++ (0 == strncasecmp (input_line_pointer, "CONST", 5))) ++ { ++ attr |= SHF_ALLOC; ++ type = SHT_PROGBITS; ++ break; ++ } ++ goto de_fault; ++ ++ case 'D': ++ case 'd': ++ if ((length == 4) && ++ (0 == strncasecmp (input_line_pointer, "DATA", 4))) ++ { ++ attr |= SHF_ALLOC | SHF_WRITE; ++ type = SHT_PROGBITS; ++ break; ++ } ++ goto de_fault; ++ ++ /* TODO: Add FAR*, HUGE*, IDATA and NEAR* if necessary */ ++ ++ case 'U': ++ case 'u': ++ if ((length == 7) && ++ (0 == strncasecmp (input_line_pointer, "UNTYPED", 7))) ++ break; ++ goto de_fault; ++ ++ /* TODO: Add XDATA and ZPAGE if necessary */ ++ ++ de_fault: ++ default: ++ as_warn (_("unrecognized segment type")); ++ } ++ ++ input_line_pointer = end; ++ SKIP_WHITESPACE(); ++ ++ if (*input_line_pointer == ':') ++ { ++ /* ROOT/NOROOT */ ++ ++input_line_pointer; ++ SKIP_WHITESPACE(); ++ ++ end = input_line_pointer; ++ while (0 == strchr ("\n\t;:( ", *end)) ++ end++; ++ length = end - input_line_pointer; ++ if (! ((length == 4) && ++ (0 == strncasecmp( input_line_pointer, "ROOT", 4))) && ++ ! ((length == 6) && ++ (0 == strncasecmp( input_line_pointer, "NOROOT", 6)))) ++ { ++ as_warn (_("unrecognized segment flag")); ++ } ++ ++ input_line_pointer = end; ++ SKIP_WHITESPACE(); ++ } ++ } ++ } ++ ++ if (*input_line_pointer == '(') ++ { ++ align = get_absolute_expression (); ++ } ++ ++ demand_empty_rest_of_line(); ++ ++ obj_elf_change_section (name, type, attr, 0, NULL, 0, 0); ++#ifdef AVR32_DEBUG ++ fprintf( stderr, "RSEG: Changed section to %s, type: 0x%x, attr: 0x%x\n", ++ name, type, attr ); ++ fprintf( stderr, "RSEG: Aligning to 2**%d\n", align ); ++#endif ++ ++ if (align > 15) ++ { ++ align = 15; ++ as_warn (_("alignment too large: %u assumed"), align); ++ } ++ ++ /* Hope not, that is */ ++ assert (now_seg != absolute_section); ++ ++ /* Only make a frag if we HAVE to... */ ++ if (align != 0 && !need_pass_2) ++ { ++ if (subseg_text_p (now_seg)) ++ frag_align_code (align, 0); ++ else ++ frag_align (align, 0, 0); ++ } ++ ++ record_alignment (now_seg, align - OCTETS_PER_BYTE_POWER); ++} ++ ++/* vim: syntax=c sw=2 ++ */ +--- /dev/null ++++ b/gas/config/tc-avr32.h +@@ -0,0 +1,325 @@ ++/* Assembler definitions for AVR32. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of GAS, the GNU Assembler. ++ ++ GAS is free software; you can redistribute it and/or modify it ++ under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2, or (at your option) ++ any later version. ++ ++ GAS is distributed in the hope that it will be useful, but WITHOUT ++ ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ++ or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public ++ License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with GAS; see the file COPYING. If not, write to the Free ++ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#if 0 ++#define DEBUG ++#define DEBUG1 ++#define DEBUG2 ++#define DEBUG3 ++#define DEBUG4 ++#define DEBUG5 ++#endif ++ ++/* Are we trying to be compatible with the IAR assembler? (--iar) */ ++extern int avr32_iarcompat; ++ ++/* By convention, you should define this macro in the `.h' file. For ++ example, `tc-m68k.h' defines `TC_M68K'. You might have to use this ++ if it is necessary to add CPU specific code to the object format ++ file. */ ++#define TC_AVR32 ++ ++/* This macro is the BFD target name to use when creating the output ++ file. This will normally depend upon the `OBJ_FMT' macro. */ ++#define TARGET_FORMAT "elf32-avr32" ++ ++/* This macro is the BFD architecture to pass to `bfd_set_arch_mach'. */ ++#define TARGET_ARCH bfd_arch_avr32 ++ ++/* This macro is the BFD machine number to pass to ++ `bfd_set_arch_mach'. If it is not defined, GAS will use 0. */ ++#define TARGET_MACH 0 ++ ++/* UNDOCUMENTED: Allow //-style comments */ ++#define DOUBLESLASH_LINE_COMMENTS ++ ++/* You should define this macro to be non-zero if the target is big ++ endian, and zero if the target is little endian. */ ++#define TARGET_BYTES_BIG_ENDIAN 1 ++ ++/* FIXME: It seems that GAS only expects a one-byte opcode... ++ #define NOP_OPCODE 0xd703 */ ++ ++/* If you define this macro, GAS will warn about the use of ++ nonstandard escape sequences in a string. */ ++#undef ONLY_STANDARD_ESCAPES ++ ++#define DWARF2_FORMAT(SEC) dwarf2_format_32bit ++ ++/* Instructions are either 2 or 4 bytes long */ ++/* #define DWARF2_LINE_MIN_INSN_LENGTH 2 */ ++ ++/* GAS will call this function for any expression that can not be ++ recognized. When the function is called, `input_line_pointer' ++ will point to the start of the expression. */ ++#define md_operand(x) ++ ++#define md_parse_name(name, expr, mode, c) avr32_parse_name(name, expr, c) ++extern int avr32_parse_name(const char *, struct expressionS *, char *); ++ ++/* You may define this macro to generate a fixup for a data ++ allocation pseudo-op. */ ++#define TC_CONS_FIX_NEW(FRAG, OFF, LEN, EXP) \ ++ avr32_cons_fix_new(FRAG, OFF, LEN, EXP) ++void avr32_cons_fix_new (fragS *, int, int, expressionS *); ++ ++/* `extsym - .' expressions can be emitted using PC-relative relocs */ ++#define DIFF_EXPR_OK ++ ++/* This is used to construct expressions out of @gotoff, etc. The ++ relocation type is stored in X_md */ ++#define O_got O_md1 ++#define O_hi O_md2 ++#define O_lo O_md3 ++#define O_tlsgd O_md4 ++ ++/* You may define this macro to parse an expression used in a data ++ allocation pseudo-op such as `.word'. You can use this to ++ recognize relocation directives that may appear in such directives. */ ++/* #define TC_PARSE_CONS_EXPRESSION(EXPR,N) avr_parse_cons_expression (EXPR,N) ++ void avr_parse_cons_expression (expressionS *exp, int nbytes); */ ++ ++/* This should just call either `number_to_chars_bigendian' or ++ `number_to_chars_littleendian', whichever is appropriate. On ++ targets like the MIPS which support options to change the ++ endianness, which function to call is a runtime decision. On ++ other targets, `md_number_to_chars' can be a simple macro. */ ++#define md_number_to_chars number_to_chars_bigendian ++ ++/* `md_short_jump_size' ++ `md_long_jump_size' ++ `md_create_short_jump' ++ `md_create_long_jump' ++ If `WORKING_DOT_WORD' is defined, GAS will not do broken word ++ processing (*note Broken words::.). Otherwise, you should set ++ `md_short_jump_size' to the size of a short jump (a jump that is ++ just long enough to jump around a long jmp) and ++ `md_long_jump_size' to the size of a long jump (a jump that can go ++ anywhere in the function), You should define ++ `md_create_short_jump' to create a short jump around a long jump, ++ and define `md_create_long_jump' to create a long jump. */ ++#define WORKING_DOT_WORD ++ ++/* If you define this macro, it means that `tc_gen_reloc' may return ++ multiple relocation entries for a single fixup. In this case, the ++ return value of `tc_gen_reloc' is a pointer to a null terminated ++ array. */ ++#undef RELOC_EXPANSION_POSSIBLE ++ ++/* If you define this macro, GAS will not require pseudo-ops to start with a . ++ character. */ ++#define NO_PSEUDO_DOT (avr32_iarcompat) ++ ++/* The IAR assembler uses $ as the location counter. Unfortunately, we ++ can't make this dependent on avr32_iarcompat... */ ++#define DOLLAR_DOT ++ ++/* Values passed to md_apply_fix3 don't include the symbol value. */ ++#define MD_APPLY_SYM_VALUE(FIX) 0 ++ ++/* The number of bytes to put into a word in a listing. This affects ++ the way the bytes are clumped together in the listing. For ++ example, a value of 2 might print `1234 5678' where a value of 1 ++ would print `12 34 56 78'. The default value is 4. */ ++#define LISTING_WORD_SIZE 4 ++ ++/* extern const struct relax_type md_relax_table[]; ++#define TC_GENERIC_RELAX_TABLE md_relax_table */ ++ ++/* ++ An `.lcomm' directive with no explicit alignment parameter will use ++ this macro to set P2VAR to the alignment that a request for SIZE ++ bytes will have. The alignment is expressed as a power of two. If ++ no alignment should take place, the macro definition should do ++ nothing. Some targets define a `.bss' directive that is also ++ affected by this macro. The default definition will set P2VAR to ++ the truncated power of two of sizes up to eight bytes. ++ ++ We want doublewords to be word-aligned, so we're going to modify the ++ default definition a tiny bit. ++*/ ++#define TC_IMPLICIT_LCOMM_ALIGNMENT(SIZE, P2VAR) \ ++ do \ ++ { \ ++ if ((SIZE) >= 4) \ ++ (P2VAR) = 2; \ ++ else if ((SIZE) >= 2) \ ++ (P2VAR) = 1; \ ++ else \ ++ (P2VAR) = 0; \ ++ } \ ++ while (0) ++ ++/* When relaxing, we need to generate relocations for alignment ++ directives. */ ++#define HANDLE_ALIGN(frag) avr32_handle_align(frag) ++extern void avr32_handle_align(fragS *); ++ ++/* See internals doc for explanation. Oh wait... ++ Now, can you guess where "alignment" comes from? ;-) */ ++#define MAX_MEM_FOR_RS_ALIGN_CODE ((1 << alignment) - 1) ++ ++/* We need to stop gas from reducing certain expressions (e.g. GOT ++ references) */ ++#define tc_fix_adjustable(fix) avr32_fix_adjustable(fix) ++extern bfd_boolean avr32_fix_adjustable(struct fix *); ++ ++/* The linker needs to be passed a little more information when relaxing. */ ++#define TC_FORCE_RELOCATION(fix) avr32_force_reloc(fix) ++extern bfd_boolean avr32_force_reloc(struct fix *); ++ ++/* I'm tired of working around all the madness in fixup_segment(). ++ This hook will do basically the same things as the generic code, ++ and then it will "goto" right past it. */ ++#define TC_VALIDATE_FIX(FIX, SEG, SKIP) \ ++ do \ ++ { \ ++ avr32_process_fixup(FIX, SEG); \ ++ if (!(FIX)->fx_done) \ ++ ++seg_reloc_count; \ ++ goto SKIP; \ ++ } \ ++ while (0) ++extern void avr32_process_fixup(struct fix *fixP, segT this_segment); ++ ++/* Positive values of TC_FX_SIZE_SLACK allow a target to define ++ fixups that far past the end of a frag. Having such fixups ++ is of course most most likely a bug in setting fx_size correctly. ++ A negative value disables the fixup check entirely, which is ++ appropriate for something like the Renesas / SuperH SH_COUNT ++ reloc. */ ++/* This target is buggy, and sets fix size too large. */ ++#define TC_FX_SIZE_SLACK(FIX) -1 ++ ++/* We don't want the gas core to make any assumptions about our way of ++ doing linkrelaxing. */ ++#define TC_LINKRELAX_FIXUP(SEG) 0 ++ ++/* ... but we do want it to insert lots of padding. */ ++#define LINKER_RELAXING_SHRINKS_ONLY ++ ++/* Better do it ourselves, really... */ ++#define TC_RELAX_ALIGN(SEG, FRAG, ADDR) avr32_relax_align(SEG, FRAG, ADDR) ++extern relax_addressT ++avr32_relax_align(segT segment, fragS *fragP, relax_addressT address); ++ ++/* Use line number format that is amenable to linker relaxation. */ ++#define DWARF2_USE_FIXED_ADVANCE_PC (linkrelax != 0) ++ ++/* This is called by write_object_file() just before symbols are ++ attempted converted into section symbols. */ ++#define tc_frob_file_before_adjust() avr32_frob_file() ++extern void avr32_frob_file(void); ++ ++/* If you define this macro, GAS will call it at the end of each input ++ file. */ ++#define md_cleanup() avr32_cleanup() ++extern void avr32_cleanup(void); ++ ++/* There's an AVR32-specific hack in operand() which creates O_md ++ expressions when encountering HWRD or LWRD. We need to generate ++ proper relocs for them */ ++/* #define md_cgen_record_fixup_exp avr32_cgen_record_fixup_exp */ ++ ++/* I needed to add an extra hook in gas_cgen_finish_insn() for ++ conversion of O_md* operands because md_cgen_record_fixup_exp() ++ isn't called for relaxable insns */ ++/* #define md_cgen_convert_expr(exp, opinfo) avr32_cgen_convert_expr(exp, opinfo) ++ int avr32_cgen_convert_expr(expressionS *, int); */ ++ ++/* #define tc_gen_reloc gas_cgen_tc_gen_reloc */ ++ ++/* If you define this macro, it should return the position from which ++ the PC relative adjustment for a PC relative fixup should be ++ made. On many processors, the base of a PC relative instruction is ++ the next instruction, so this macro would return the length of an ++ instruction, plus the address of the PC relative fixup. The latter ++ can be calculated as fixp->fx_where + fixp->fx_frag->fr_address. */ ++extern long md_pcrel_from_section (struct fix *, segT); ++#define MD_PCREL_FROM_SECTION(FIX, SEC) md_pcrel_from_section (FIX, SEC) ++ ++#define LOCAL_LABEL(name) (name[0] == '.' && (name[1] == 'L')) ++#define LOCAL_LABELS_FB 1 ++ ++struct avr32_relaxer ++{ ++ int (*estimate_size)(fragS *, segT); ++ long (*relax_frag)(segT, fragS *, long); ++ void (*convert_frag)(bfd *, segT, fragS *); ++}; ++ ++/* AVR32 has quite complex instruction coding, which means we need ++ * lots of information in order to do the right thing during relaxing ++ * (basically, we need to be able to reconstruct a whole new opcode if ++ * necessary) */ ++#define TC_FRAG_TYPE struct avr32_frag_data ++ ++struct cpool; ++ ++struct avr32_frag_data ++{ ++ /* TODO: Maybe add an expression object here so that we can use ++ fix_new_exp() in md_convert_frag? We may have to decide ++ pcrel-ness in md_estimate_size_before_relax() as well...or we ++ might do it when parsing. Doing it while parsing may fail ++ because the sub_symbol is undefined then... */ ++ int pcrel; ++ int force_extended; ++ int reloc_info; ++ struct avr32_relaxer *relaxer; ++ expressionS exp; ++ ++ /* Points to associated constant pool, for use by LDA and CALL in ++ non-pic mode, and when relaxing the .cpool directive */ ++ struct cpool *pool; ++ unsigned int pool_entry; ++}; ++ ++/* We will have to initialize the fields explicitly when needed */ ++#define TC_FRAG_INIT(fragP) ++ ++#define md_estimate_size_before_relax(fragP, segT) \ ++ ((fragP)->tc_frag_data.relaxer->estimate_size(fragP, segT)) ++#define md_relax_frag(segment, fragP, stretch) \ ++ ((fragP)->tc_frag_data.relaxer->relax_frag(segment, fragP, stretch)) ++#define md_convert_frag(abfd, segment, fragP) \ ++ ((fragP)->tc_frag_data.relaxer->convert_frag(abfd, segment, fragP)) ++ ++#define TC_FIX_TYPE struct avr32_fix_data ++ ++struct avr32_fix_data ++{ ++ const struct avr32_ifield *ifield; ++ unsigned int align; ++ long min; ++ long max; ++}; ++ ++#define TC_INIT_FIX_DATA(fixP) \ ++ do \ ++ { \ ++ (fixP)->tc_fix_data.ifield = NULL; \ ++ (fixP)->tc_fix_data.align = 0; \ ++ (fixP)->tc_fix_data.min = 0; \ ++ (fixP)->tc_fix_data.max = 0; \ ++ } \ ++ while (0) +--- a/gas/configure.tgt ++++ b/gas/configure.tgt +@@ -33,6 +33,7 @@ case ${cpu} in + am33_2.0) cpu_type=mn10300 endian=little ;; + arm*be|arm*b) cpu_type=arm endian=big ;; + arm*) cpu_type=arm endian=little ;; ++ avr32*) cpu_type=avr32 endian=big ;; + bfin*) cpu_type=bfin endian=little ;; + c4x*) cpu_type=tic4x ;; + cr16*) cpu_type=cr16 endian=little ;; +@@ -136,6 +137,9 @@ case ${generic_target} in + + cr16-*-elf*) fmt=elf ;; + ++ avr32-*-linux*) fmt=elf em=linux bfd_gas=yes ;; ++ avr32*) fmt=elf bfd_gas=yes ;; ++ + cris-*-linux-* | crisv32-*-linux-*) + fmt=multi em=linux ;; + cris-*-* | crisv32-*-*) fmt=multi ;; +--- a/gas/doc/all.texi ++++ b/gas/doc/all.texi +@@ -30,6 +30,7 @@ + @set ARC + @set ARM + @set AVR ++@set AVR32 + @set Blackfin + @set CR16 + @set CRIS +--- a/gas/doc/asconfig.texi ++++ b/gas/doc/asconfig.texi +@@ -30,6 +30,7 @@ + @set ARC + @set ARM + @set AVR ++@set AVR32 + @set Blackfin + @set CR16 + @set CRIS +--- a/gas/doc/as.texinfo ++++ b/gas/doc/as.texinfo +@@ -6865,6 +6865,9 @@ subject, see the hardware manufacturer's + @ifset AVR + * AVR-Dependent:: AVR Dependent Features + @end ifset ++@ifset AVR32 ++* AVR32-Dependent:: AVR32 Dependent Features ++@end ifset + @ifset Blackfin + * Blackfin-Dependent:: Blackfin Dependent Features + @end ifset +@@ -7006,6 +7009,10 @@ subject, see the hardware manufacturer's + @include c-avr.texi + @end ifset + ++@ifset AVR32 ++@include c-avr32.texi ++@end ifset ++ + @ifset Blackfin + @include c-bfin.texi + @end ifset +--- /dev/null ++++ b/gas/doc/c-avr32.texi +@@ -0,0 +1,244 @@ ++@c Copyright 2005, 2006, 2007, 2008, 2009 ++@c Atmel Corporation ++@c This is part of the GAS manual. ++@c For copying conditions, see the file as.texinfo. ++ ++@ifset GENERIC ++@page ++@node AVR32-Dependent ++@chapter AVR32 Dependent Features ++@end ifset ++ ++@ifclear GENERIC ++@node Machine Dependencies ++@chapter AVR32 Dependent Features ++@end ifclear ++ ++@cindex AVR32 support ++@menu ++* AVR32 Options:: Options ++* AVR32 Syntax:: Syntax ++* AVR32 Directives:: Directives ++* AVR32 Opcodes:: Opcodes ++@end menu ++ ++@node AVR32 Options ++@section Options ++@cindex AVR32 options ++@cindex options for AVR32 ++ ++@table @code ++ ++@cindex @code{--pic} command line option, AVR32 ++@cindex PIC code generation for AVR32 ++@item --pic ++This option specifies that the output of the assembler should be marked ++as position-independent code (PIC). It will also ensure that ++pseudo-instructions that deal with address calculation are output as ++PIC, and that all absolute address references in the code are marked as ++such. ++ ++@cindex @code{--linkrelax} command line option, AVR32 ++@item --linkrelax ++This option specifies that the output of the assembler should be marked ++as linker-relaxable. It will also ensure that all PC-relative operands ++that may change during linker relaxation get appropriate relocations. ++ ++@end table ++ ++ ++@node AVR32 Syntax ++@section Syntax ++@menu ++* AVR32-Chars:: Special Characters ++* AVR32-Symrefs:: Symbol references ++@end menu ++ ++@node AVR32-Chars ++@subsection Special Characters ++ ++@cindex line comment character, AVR32 ++@cindex AVR32 line comment character ++The presence of a @samp{//} on a line indicates the start of a comment ++that extends to the end of the current line. If a @samp{#} appears as ++the first character of a line, the whole line is treated as a comment. ++ ++@cindex line separator, AVR32 ++@cindex statement separator, AVR32 ++@cindex AVR32 line separator ++The @samp{;} character can be used instead of a newline to separate ++statements. ++ ++@node AVR32-Symrefs ++@subsection Symbol references ++ ++The absolute value of a symbol can be obtained by simply naming the ++symbol. However, as AVR32 symbols have 32-bit values, most symbols have ++values that are outside the range of any instructions. ++ ++Instructions that take a PC-relative offset, e.g. @code{lddpc} or ++@code{rcall}, can also reference a symbol by simply naming the symbol ++(no explicit calculations necessary). In this case, the assembler or ++linker subtracts the address of the instruction from the symbol's value ++and inserts the result into the instruction. Note that even though an ++overflow is less likely to happen for a relative reference than for an ++absolute reference, the assembler or linker will generate an error if ++the referenced symbol is too far away from the current location. ++ ++Relative references can be used for data as well. For example: ++ ++@smallexample ++ lddpc r0, 2f ++1: add r0, pc ++ ... ++ .align 2 ++2: .int @var{some_symbol} - 1b ++@end smallexample ++ ++Here, r0 will end up with the run-time address of @var{some_symbol} even ++if the program was loaded at a different address than it was linked ++(position-independent code). ++ ++@subsubsection Symbol modifiers ++ ++@table @code ++ ++@item @code{hi(@var{symbol})} ++Evaluates to the value of the symbol shifted right 16 bits. This will ++work even if @var{symbol} is defined in a different module. ++ ++@item @code{lo(@var{symbol})} ++Evaluates to the low 16 bits of the symbol's value. This will work even ++if @var{symbol} is defined in a different module. ++ ++@item @code{@var{symbol}@@got} ++Create a GOT entry for @var{symbol} and return the offset of that entry ++relative to the GOT base. ++ ++@end table ++ ++ ++@node AVR32 Directives ++@section Directives ++@cindex machine directives, AVR32 ++@cindex AVR32 directives ++ ++@table @code ++ ++@cindex @code{.cpool} directive, AVR32 ++@item .cpool ++This directive causes the current contents of the constant pool to be ++dumped into the current section at the current location (aligned to a ++word boundary). @code{GAS} maintains a separate constant pool for each ++section and each sub-section. The @code{.cpool} directive will only ++affect the constant pool of the current section and sub-section. At the ++end of assembly, all remaining, non-empty constant pools will ++automatically be dumped. ++ ++@end table ++ ++ ++@node AVR32 Opcodes ++@section Opcodes ++@cindex AVR32 opcodes ++@cindex opcodes for AVR32 ++ ++@code{@value{AS}} implements all the standard AVR32 opcodes. It also ++implements several pseudo-opcodes, which are recommended to use wherever ++possible because they give the tool chain better freedom to generate ++optimal code. ++ ++@table @code ++ ++@cindex @code{LDA.W reg, symbol} pseudo op, AVR32 ++@item LDA.W ++@smallexample ++ lda.w @var{reg}, @var{symbol} ++@end smallexample ++ ++This instruction will load the address of @var{symbol} into ++@var{reg}. The instruction will evaluate to one of the following, ++depending on the relative distance to the symbol, the relative distance ++to the constant pool and whether the @code{--pic} option has been ++specified. If the @code{--pic} option has not been specified, the ++alternatives are as follows: ++@smallexample ++ /* @var{symbol} evaluates to a small enough value */ ++ mov @var{reg}, @var{symbol} ++ ++ /* (. - @var{symbol}) evaluates to a small enough value */ ++ sub @var{reg}, pc, . - @var{symbol} ++ ++ /* Constant pool is close enough */ ++ lddpc @var{reg}, @var{cpent} ++ ... ++@var{cpent}: ++ .long @var{symbol} ++ ++ /* Otherwise (not implemented yet, probably not necessary) */ ++ mov @var{reg}, lo(@var{symbol}) ++ orh @var{reg}, hi(@var{symbol}) ++@end smallexample ++ ++If the @code{--pic} option has been specified, the alternatives are as ++follows: ++@smallexample ++ /* (. - @var{symbol}) evaluates to a small enough value */ ++ sub @var{reg}, pc, . - @var{symbol} ++ ++ /* If @code{--linkrelax} not specified */ ++ ld.w @var{reg}, r6[@var{symbol}@@got] ++ ++ /* Otherwise */ ++ mov @var{reg}, @var{symbol}@@got / 4 ++ ld.w @var{reg}, r6[@var{reg} << 2] ++@end smallexample ++ ++If @var{symbol} is not defined in the same file and section as the ++@code{LDA.W} instruction, the most pessimistic alternative of the ++above is selected. The linker may convert it back into the most ++optimal alternative when the final value of all symbols is known. ++ ++@cindex @code{CALL symbol} pseudo op, AVR32 ++@item CALL ++@smallexample ++ call @var{symbol} ++@end smallexample ++ ++This instruction will insert code to call the subroutine identified by ++@var{symbol}. It will evaluate to one of the following, depending on ++the relative distance to the symbol as well as the @code{--linkrelax} ++and @code{--pic} command-line options. ++ ++If @var{symbol} is defined in the same section and input file, and the ++distance is small enough, an @code{rcall} instruction is inserted: ++@smallexample ++ rcall @var{symbol} ++@end smallexample ++ ++Otherwise, if the @code{--pic} option has not been specified: ++@smallexample ++ mcall @var{cpent} ++ ... ++@var{cpent}: ++ .long @var{symbol} ++@end smallexample ++ ++Finally, if nothing else fits and the @code{--pic} option has been ++specified, the assembler will indirect the call through the Global ++Offset Table: ++@smallexample ++ /* If @code{--linkrelax} not specified */ ++ mcall r6[@var{symbol}@@got] ++ ++ /* If @code{--linkrelax} specified */ ++ mov lr, @var{symbol}@@got / 4 ++ ld.w lr, r6[lr << 2] ++ icall lr ++@end smallexample ++ ++The linker, after determining the final value of @var{symbol}, may ++convert any of these into more optimal alternatives. This includes ++deleting any superfluous constant pool- and GOT-entries. ++ ++@end table +--- a/gas/doc/Makefile.am ++++ b/gas/doc/Makefile.am +@@ -33,6 +33,7 @@ CPU_DOCS = \ + c-arc.texi \ + c-arm.texi \ + c-avr.texi \ ++ c-avr32.texi \ + c-bfin.texi \ + c-cr16.texi \ + c-d10v.texi \ +--- a/gas/Makefile.am ++++ b/gas/Makefile.am +@@ -111,6 +111,7 @@ TARGET_CPU_CFILES = \ + config/tc-arc.c \ + config/tc-arm.c \ + config/tc-avr.c \ ++ config/tc-avr32.c \ + config/tc-bfin.c \ + config/tc-cr16.c \ + config/tc-cris.c \ +@@ -175,6 +176,7 @@ TARGET_CPU_HFILES = \ + config/tc-arc.h \ + config/tc-arm.h \ + config/tc-avr.h \ ++ config/tc-avr32.h \ + config/tc-bfin.h \ + config/tc-cr16.h \ + config/tc-cris.h \ +--- a/gas/Makefile.in ++++ b/gas/Makefile.in +@@ -378,6 +378,7 @@ TARGET_CPU_CFILES = \ + config/tc-arc.c \ + config/tc-arm.c \ + config/tc-avr.c \ ++ config/tc-avr32.c \ + config/tc-bfin.c \ + config/tc-cr16.c \ + config/tc-cris.c \ +@@ -442,6 +443,7 @@ TARGET_CPU_HFILES = \ + config/tc-arc.h \ + config/tc-arm.h \ + config/tc-avr.h \ ++ config/tc-avr32.h \ + config/tc-bfin.h \ + config/tc-cr16.h \ + config/tc-cris.h \ +@@ -785,6 +787,7 @@ distclean-compile: + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-arc.Po@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-arm.Po@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-avr.Po@am__quote@ ++@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-avr32.Po@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-bfin.Po@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-cr16.Po@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-cris.Po@am__quote@ +@@ -923,6 +926,20 @@ tc-avr.obj: config/tc-avr.c + @AMDEP_TRUE@@am__fastdepCC_FALSE@ DEPDIR=$(DEPDIR) $(CCDEPMODE) $(depcomp) @AMDEPBACKSLASH@ + @am__fastdepCC_FALSE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -c -o tc-avr.obj `if test -f 'config/tc-avr.c'; then $(CYGPATH_W) 'config/tc-avr.c'; else $(CYGPATH_W) '$(srcdir)/config/tc-avr.c'; fi` + ++tc-avr32.o: config/tc-avr32.c ++@am__fastdepCC_TRUE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -MT tc-avr32.o -MD -MP -MF $(DEPDIR)/tc-avr32.Tpo -c -o tc-avr32.o `test -f 'config/tc-avr32.c' || echo '$(srcdir)/'`config/tc-avr32.c ++@am__fastdepCC_TRUE@ $(am__mv) $(DEPDIR)/tc-avr32.Tpo $(DEPDIR)/tc-avr32.Po ++@AMDEP_TRUE@@am__fastdepCC_FALSE@ source='config/tc-avr32.c' object='tc-avr32.o' libtool=no @AMDEPBACKSLASH@ ++@AMDEP_TRUE@@am__fastdepCC_FALSE@ DEPDIR=$(DEPDIR) $(CCDEPMODE) $(depcomp) @AMDEPBACKSLASH@ ++@am__fastdepCC_FALSE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -c -o tc-avr32.o `test -f 'config/tc-avr32.c' || echo '$(srcdir)/'`config/tc-avr32.c ++ ++tc-avr32.obj: config/tc-avr32.c ++@am__fastdepCC_TRUE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -MT tc-avr32.obj -MD -MP -MF $(DEPDIR)/tc-avr32.Tpo -c -o tc-avr32.obj `if test -f 'config/tc-avr32.c'; then $(CYGPATH_W) 'config/tc-avr32.c'; else $(CYGPATH_W) '$(srcdir)/config/tc-avr32.c'; fi` ++@am__fastdepCC_TRUE@ $(am__mv) $(DEPDIR)/tc-avr32.Tpo $(DEPDIR)/tc-avr32.Po ++@AMDEP_TRUE@@am__fastdepCC_FALSE@ source='config/tc-avr32.c' object='tc-avr32.obj' libtool=no @AMDEPBACKSLASH@ ++@AMDEP_TRUE@@am__fastdepCC_FALSE@ DEPDIR=$(DEPDIR) $(CCDEPMODE) $(depcomp) @AMDEPBACKSLASH@ ++@am__fastdepCC_FALSE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -c -o tc-avr32.obj `if test -f 'config/tc-avr32.c'; then $(CYGPATH_W) 'config/tc-avr32.c'; else $(CYGPATH_W) '$(srcdir)/config/tc-avr32.c'; fi` ++ + tc-bfin.o: config/tc-bfin.c + @am__fastdepCC_TRUE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -MT tc-bfin.o -MD -MP -MF $(DEPDIR)/tc-bfin.Tpo -c -o tc-bfin.o `test -f 'config/tc-bfin.c' || echo '$(srcdir)/'`config/tc-bfin.c + @am__fastdepCC_TRUE@ $(am__mv) $(DEPDIR)/tc-bfin.Tpo $(DEPDIR)/tc-bfin.Po +--- /dev/null ++++ b/gas/testsuite/gas/avr32/aliases.d +@@ -0,0 +1,19 @@ ++#as: ++#objdump: -dr ++#name: aliases ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: 19 80 [ \t]+ld\.ub r0,r12\[0x0\] ++ 2: f9 20 00 00[ \t]+ld\.sb r0,r12\[0\] ++ 6: 98 80 [ \t]+ld\.uh r0,r12\[0x0\] ++ 8: 98 00 [ \t]+ld\.sh r0,r12\[0x0\] ++ a: 78 00 [ \t]+ld\.w r0,r12\[0x0\] ++ ++0000000c : ++ c: b8 80 [ \t]+st\.b r12\[0x0\],r0 ++ e: b8 00 [ \t]+st\.h r12\[0x0\],r0 ++ 10: 99 00 [ \t]+st\.w r12\[0x0\],r0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/aliases.s +@@ -0,0 +1,14 @@ ++ .text ++ .global ld_nodisp ++ld_nodisp: ++ ld.ub r0, r12 ++ ld.sb r0, r12 ++ ld.uh r0, r12 ++ ld.sh r0, r12 ++ ld.w r0, r12 ++ ++ .global st_nodisp ++st_nodisp: ++ st.b r12, r0 ++ st.h r12, r0 ++ st.w r12, r0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/allinsn.d +@@ -0,0 +1,2987 @@ ++#as: ++#objdump: -dr ++#name: allinsn ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 3e ld\.d lr,pc\[pc<<0x3\] ++ *[0-9a-f]*: e0 00 02 00 ld\.d r0,r0\[r0\] ++ *[0-9a-f]*: ea 05 02 26 ld\.d r6,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 02 14 ld\.d r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 02 1e ld\.d lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: e6 0d 02 2a ld\.d r10,r3\[sp<<0x2\] ++ *[0-9a-f]*: f4 06 02 28 ld\.d r8,r10\[r6<<0x2\] ++ *[0-9a-f]*: ee 09 02 02 ld\.d r2,r7\[r9\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 03 0f ld\.w pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 03 3c ld\.w r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 03 25 ld\.w r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 03 14 ld\.w r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 03 1e ld\.w lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: f2 09 03 02 ld\.w r2,r9\[r9\] ++ *[0-9a-f]*: e4 06 03 0b ld\.w r11,r2\[r6\] ++ *[0-9a-f]*: e4 0d 03 30 ld\.w r0,r2\[sp<<0x3\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 04 0f ld\.sh pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 04 3c ld\.sh r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 04 25 ld\.sh r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 04 14 ld\.sh r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 04 1e ld\.sh lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: e0 0f 04 2b ld\.sh r11,r0\[pc<<0x2\] ++ *[0-9a-f]*: fa 06 04 2a ld\.sh r10,sp\[r6<<0x2\] ++ *[0-9a-f]*: e4 02 04 0c ld\.sh r12,r2\[r2\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 05 0f ld\.uh pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 05 3c ld\.uh r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 05 25 ld\.uh r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 05 14 ld\.uh r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 05 1e ld\.uh lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: fe 0e 05 38 ld\.uh r8,pc\[lr<<0x3\] ++ *[0-9a-f]*: e2 0f 05 16 ld\.uh r6,r1\[pc<<0x1\] ++ *[0-9a-f]*: fc 0d 05 16 ld\.uh r6,lr\[sp<<0x1\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 06 0f ld\.sb pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 06 3c ld\.sb r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 06 25 ld\.sb r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 06 14 ld\.sb r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 06 1e ld\.sb lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: e2 0f 06 39 ld\.sb r9,r1\[pc<<0x3\] ++ *[0-9a-f]*: e6 0b 06 10 ld\.sb r0,r3\[r11<<0x1\] ++ *[0-9a-f]*: ea 05 06 1a ld\.sb r10,r5\[r5<<0x1\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 07 0f ld\.ub pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 07 3c ld\.ub r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 07 25 ld\.ub r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 07 14 ld\.ub r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 07 1e ld\.ub lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: f8 07 07 36 ld\.ub r6,r12\[r7<<0x3\] ++ *[0-9a-f]*: ec 0c 07 02 ld\.ub r2,r6\[r12\] ++ *[0-9a-f]*: ee 0b 07 10 ld\.ub r0,r7\[r11<<0x1\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 08 0e st\.d pc\[pc\],lr ++ *[0-9a-f]*: f8 0c 08 3c st\.d r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 08 26 st\.d r5\[r5<<0x2\],r6 ++ *[0-9a-f]*: e8 04 08 14 st\.d r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 08 1e st\.d lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e2 09 08 14 st\.d r1\[r9<<0x1\],r4 ++ *[0-9a-f]*: f4 02 08 14 st\.d r10\[r2<<0x1\],r4 ++ *[0-9a-f]*: f8 06 08 0e st\.d r12\[r6\],lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 09 0f st\.w pc\[pc\],pc ++ *[0-9a-f]*: f8 0c 09 3c st\.w r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 09 25 st\.w r5\[r5<<0x2\],r5 ++ *[0-9a-f]*: e8 04 09 14 st\.w r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 09 1e st\.w lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e2 0a 09 03 st\.w r1\[r10\],r3 ++ *[0-9a-f]*: e0 0a 09 19 st\.w r0\[r10<<0x1\],r9 ++ *[0-9a-f]*: e8 05 09 3f st\.w r4\[r5<<0x3\],pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0a 0f st\.h pc\[pc\],pc ++ *[0-9a-f]*: f8 0c 0a 3c st\.h r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 0a 25 st\.h r5\[r5<<0x2\],r5 ++ *[0-9a-f]*: e8 04 0a 14 st\.h r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 0a 1e st\.h lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e4 09 0a 0b st\.h r2\[r9\],r11 ++ *[0-9a-f]*: ea 01 0a 2c st\.h r5\[r1<<0x2\],r12 ++ *[0-9a-f]*: fe 08 0a 23 st\.h pc\[r8<<0x2\],r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0b 0f st\.b pc\[pc\],pc ++ *[0-9a-f]*: f8 0c 0b 3c st\.b r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 0b 25 st\.b r5\[r5<<0x2\],r5 ++ *[0-9a-f]*: e8 04 0b 14 st\.b r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 0b 1e st\.b lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e2 08 0b 16 st\.b r1\[r8<<0x1\],r6 ++ *[0-9a-f]*: fc 0e 0b 31 st\.b lr\[lr<<0x3\],r1 ++ *[0-9a-f]*: ea 00 0b 2f st\.b r5\[r0<<0x2\],pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0c 0f divs pc,pc,pc ++ *[0-9a-f]*: f8 0c 0c 0c divs r12,r12,r12 ++ *[0-9a-f]*: ea 05 0c 05 divs r5,r5,r5 ++ *[0-9a-f]*: e8 04 0c 04 divs r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0c 0e divs lr,lr,lr ++ *[0-9a-f]*: fe 0f 0c 03 divs r3,pc,pc ++ *[0-9a-f]*: f8 02 0c 09 divs r9,r12,r2 ++ *[0-9a-f]*: e8 01 0c 07 divs r7,r4,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 0f add pc,pc ++ *[0-9a-f]*: 18 0c add r12,r12 ++ *[0-9a-f]*: 0a 05 add r5,r5 ++ *[0-9a-f]*: 08 04 add r4,r4 ++ *[0-9a-f]*: 1c 0e add lr,lr ++ *[0-9a-f]*: 12 0c add r12,r9 ++ *[0-9a-f]*: 06 06 add r6,r3 ++ *[0-9a-f]*: 18 0a add r10,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 1f sub pc,pc ++ *[0-9a-f]*: 18 1c sub r12,r12 ++ *[0-9a-f]*: 0a 15 sub r5,r5 ++ *[0-9a-f]*: 08 14 sub r4,r4 ++ *[0-9a-f]*: 1c 1e sub lr,lr ++ *[0-9a-f]*: 0c 1e sub lr,r6 ++ *[0-9a-f]*: 1a 10 sub r0,sp ++ *[0-9a-f]*: 18 16 sub r6,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 2f rsub pc,pc ++ *[0-9a-f]*: 18 2c rsub r12,r12 ++ *[0-9a-f]*: 0a 25 rsub r5,r5 ++ *[0-9a-f]*: 08 24 rsub r4,r4 ++ *[0-9a-f]*: 1c 2e rsub lr,lr ++ *[0-9a-f]*: 1a 2b rsub r11,sp ++ *[0-9a-f]*: 08 27 rsub r7,r4 ++ *[0-9a-f]*: 02 29 rsub r9,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 3f cp\.w pc,pc ++ *[0-9a-f]*: 18 3c cp\.w r12,r12 ++ *[0-9a-f]*: 0a 35 cp\.w r5,r5 ++ *[0-9a-f]*: 08 34 cp\.w r4,r4 ++ *[0-9a-f]*: 1c 3e cp\.w lr,lr ++ *[0-9a-f]*: 04 36 cp\.w r6,r2 ++ *[0-9a-f]*: 12 30 cp\.w r0,r9 ++ *[0-9a-f]*: 1a 33 cp\.w r3,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 4f or pc,pc ++ *[0-9a-f]*: 18 4c or r12,r12 ++ *[0-9a-f]*: 0a 45 or r5,r5 ++ *[0-9a-f]*: 08 44 or r4,r4 ++ *[0-9a-f]*: 1c 4e or lr,lr ++ *[0-9a-f]*: 12 44 or r4,r9 ++ *[0-9a-f]*: 08 4b or r11,r4 ++ *[0-9a-f]*: 00 44 or r4,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 5f eor pc,pc ++ *[0-9a-f]*: 18 5c eor r12,r12 ++ *[0-9a-f]*: 0a 55 eor r5,r5 ++ *[0-9a-f]*: 08 54 eor r4,r4 ++ *[0-9a-f]*: 1c 5e eor lr,lr ++ *[0-9a-f]*: 16 5c eor r12,r11 ++ *[0-9a-f]*: 02 50 eor r0,r1 ++ *[0-9a-f]*: 1e 55 eor r5,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 6f and pc,pc ++ *[0-9a-f]*: 18 6c and r12,r12 ++ *[0-9a-f]*: 0a 65 and r5,r5 ++ *[0-9a-f]*: 08 64 and r4,r4 ++ *[0-9a-f]*: 1c 6e and lr,lr ++ *[0-9a-f]*: 02 68 and r8,r1 ++ *[0-9a-f]*: 1a 60 and r0,sp ++ *[0-9a-f]*: 0a 6a and r10,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 7f tst pc,pc ++ *[0-9a-f]*: 18 7c tst r12,r12 ++ *[0-9a-f]*: 0a 75 tst r5,r5 ++ *[0-9a-f]*: 08 74 tst r4,r4 ++ *[0-9a-f]*: 1c 7e tst lr,lr ++ *[0-9a-f]*: 18 70 tst r0,r12 ++ *[0-9a-f]*: 0c 7a tst r10,r6 ++ *[0-9a-f]*: 08 7d tst sp,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 8f andn pc,pc ++ *[0-9a-f]*: 18 8c andn r12,r12 ++ *[0-9a-f]*: 0a 85 andn r5,r5 ++ *[0-9a-f]*: 08 84 andn r4,r4 ++ *[0-9a-f]*: 1c 8e andn lr,lr ++ *[0-9a-f]*: 18 89 andn r9,r12 ++ *[0-9a-f]*: 1a 8b andn r11,sp ++ *[0-9a-f]*: 0a 8c andn r12,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 9f mov pc,pc ++ *[0-9a-f]*: 18 9c mov r12,r12 ++ *[0-9a-f]*: 0a 95 mov r5,r5 ++ *[0-9a-f]*: 08 94 mov r4,r4 ++ *[0-9a-f]*: 1c 9e mov lr,lr ++ *[0-9a-f]*: 12 95 mov r5,r9 ++ *[0-9a-f]*: 16 9b mov r11,r11 ++ *[0-9a-f]*: 1c 92 mov r2,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e af st\.w pc\+\+,pc ++ *[0-9a-f]*: 18 ac st\.w r12\+\+,r12 ++ *[0-9a-f]*: 0a a5 st\.w r5\+\+,r5 ++ *[0-9a-f]*: 08 a4 st\.w r4\+\+,r4 ++ *[0-9a-f]*: 1c ae st\.w lr\+\+,lr ++ *[0-9a-f]*: 02 ab st\.w r1\+\+,r11 ++ *[0-9a-f]*: 1a a0 st\.w sp\+\+,r0 ++ *[0-9a-f]*: 1a a1 st\.w sp\+\+,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e bf st\.h pc\+\+,pc ++ *[0-9a-f]*: 18 bc st\.h r12\+\+,r12 ++ *[0-9a-f]*: 0a b5 st\.h r5\+\+,r5 ++ *[0-9a-f]*: 08 b4 st\.h r4\+\+,r4 ++ *[0-9a-f]*: 1c be st\.h lr\+\+,lr ++ *[0-9a-f]*: 18 bd st\.h r12\+\+,sp ++ *[0-9a-f]*: 0e be st\.h r7\+\+,lr ++ *[0-9a-f]*: 0e b4 st\.h r7\+\+,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e cf st\.b pc\+\+,pc ++ *[0-9a-f]*: 18 cc st\.b r12\+\+,r12 ++ *[0-9a-f]*: 0a c5 st\.b r5\+\+,r5 ++ *[0-9a-f]*: 08 c4 st\.b r4\+\+,r4 ++ *[0-9a-f]*: 1c ce st\.b lr\+\+,lr ++ *[0-9a-f]*: 12 cd st\.b r9\+\+,sp ++ *[0-9a-f]*: 02 cd st\.b r1\+\+,sp ++ *[0-9a-f]*: 00 c4 st\.b r0\+\+,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e df st\.w --pc,pc ++ *[0-9a-f]*: 18 dc st\.w --r12,r12 ++ *[0-9a-f]*: 0a d5 st\.w --r5,r5 ++ *[0-9a-f]*: 08 d4 st\.w --r4,r4 ++ *[0-9a-f]*: 1c de st\.w --lr,lr ++ *[0-9a-f]*: 02 d7 st\.w --r1,r7 ++ *[0-9a-f]*: 06 d9 st\.w --r3,r9 ++ *[0-9a-f]*: 0a d5 st\.w --r5,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e ef st\.h --pc,pc ++ *[0-9a-f]*: 18 ec st\.h --r12,r12 ++ *[0-9a-f]*: 0a e5 st\.h --r5,r5 ++ *[0-9a-f]*: 08 e4 st\.h --r4,r4 ++ *[0-9a-f]*: 1c ee st\.h --lr,lr ++ *[0-9a-f]*: 0a e7 st\.h --r5,r7 ++ *[0-9a-f]*: 10 e8 st\.h --r8,r8 ++ *[0-9a-f]*: 0e e2 st\.h --r7,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e ff st\.b --pc,pc ++ *[0-9a-f]*: 18 fc st\.b --r12,r12 ++ *[0-9a-f]*: 0a f5 st\.b --r5,r5 ++ *[0-9a-f]*: 08 f4 st\.b --r4,r4 ++ *[0-9a-f]*: 1c fe st\.b --lr,lr ++ *[0-9a-f]*: 1a fd st\.b --sp,sp ++ *[0-9a-f]*: 1a fb st\.b --sp,r11 ++ *[0-9a-f]*: 08 f5 st\.b --r4,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 0f ld\.w pc,pc\+\+ ++ *[0-9a-f]*: 19 0c ld\.w r12,r12\+\+ ++ *[0-9a-f]*: 0b 05 ld\.w r5,r5\+\+ ++ *[0-9a-f]*: 09 04 ld\.w r4,r4\+\+ ++ *[0-9a-f]*: 1d 0e ld\.w lr,lr\+\+ ++ *[0-9a-f]*: 0f 03 ld\.w r3,r7\+\+ ++ *[0-9a-f]*: 1d 03 ld\.w r3,lr\+\+ ++ *[0-9a-f]*: 0b 0c ld\.w r12,r5\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 1f ld\.sh pc,pc\+\+ ++ *[0-9a-f]*: 19 1c ld\.sh r12,r12\+\+ ++ *[0-9a-f]*: 0b 15 ld\.sh r5,r5\+\+ ++ *[0-9a-f]*: 09 14 ld\.sh r4,r4\+\+ ++ *[0-9a-f]*: 1d 1e ld\.sh lr,lr\+\+ ++ *[0-9a-f]*: 05 1b ld\.sh r11,r2\+\+ ++ *[0-9a-f]*: 11 12 ld\.sh r2,r8\+\+ ++ *[0-9a-f]*: 0d 17 ld\.sh r7,r6\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 2f ld\.uh pc,pc\+\+ ++ *[0-9a-f]*: 19 2c ld\.uh r12,r12\+\+ ++ *[0-9a-f]*: 0b 25 ld\.uh r5,r5\+\+ ++ *[0-9a-f]*: 09 24 ld\.uh r4,r4\+\+ ++ *[0-9a-f]*: 1d 2e ld\.uh lr,lr\+\+ ++ *[0-9a-f]*: 0f 26 ld\.uh r6,r7\+\+ ++ *[0-9a-f]*: 17 2a ld\.uh r10,r11\+\+ ++ *[0-9a-f]*: 09 2e ld\.uh lr,r4\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 3f ld\.ub pc,pc\+\+ ++ *[0-9a-f]*: 19 3c ld\.ub r12,r12\+\+ ++ *[0-9a-f]*: 0b 35 ld\.ub r5,r5\+\+ ++ *[0-9a-f]*: 09 34 ld\.ub r4,r4\+\+ ++ *[0-9a-f]*: 1d 3e ld\.ub lr,lr\+\+ ++ *[0-9a-f]*: 1d 38 ld\.ub r8,lr\+\+ ++ *[0-9a-f]*: 19 3c ld\.ub r12,r12\+\+ ++ *[0-9a-f]*: 15 3b ld\.ub r11,r10\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 4f ld\.w pc,--pc ++ *[0-9a-f]*: 19 4c ld\.w r12,--r12 ++ *[0-9a-f]*: 0b 45 ld\.w r5,--r5 ++ *[0-9a-f]*: 09 44 ld\.w r4,--r4 ++ *[0-9a-f]*: 1d 4e ld\.w lr,--lr ++ *[0-9a-f]*: 1d 4a ld\.w r10,--lr ++ *[0-9a-f]*: 13 4c ld\.w r12,--r9 ++ *[0-9a-f]*: 0b 46 ld\.w r6,--r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 5f ld\.sh pc,--pc ++ *[0-9a-f]*: 19 5c ld\.sh r12,--r12 ++ *[0-9a-f]*: 0b 55 ld\.sh r5,--r5 ++ *[0-9a-f]*: 09 54 ld\.sh r4,--r4 ++ *[0-9a-f]*: 1d 5e ld\.sh lr,--lr ++ *[0-9a-f]*: 15 5f ld\.sh pc,--r10 ++ *[0-9a-f]*: 07 56 ld\.sh r6,--r3 ++ *[0-9a-f]*: 0d 54 ld\.sh r4,--r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 6f ld\.uh pc,--pc ++ *[0-9a-f]*: 19 6c ld\.uh r12,--r12 ++ *[0-9a-f]*: 0b 65 ld\.uh r5,--r5 ++ *[0-9a-f]*: 09 64 ld\.uh r4,--r4 ++ *[0-9a-f]*: 1d 6e ld\.uh lr,--lr ++ *[0-9a-f]*: 05 63 ld\.uh r3,--r2 ++ *[0-9a-f]*: 01 61 ld\.uh r1,--r0 ++ *[0-9a-f]*: 13 62 ld\.uh r2,--r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 7f ld\.ub pc,--pc ++ *[0-9a-f]*: 19 7c ld\.ub r12,--r12 ++ *[0-9a-f]*: 0b 75 ld\.ub r5,--r5 ++ *[0-9a-f]*: 09 74 ld\.ub r4,--r4 ++ *[0-9a-f]*: 1d 7e ld\.ub lr,--lr ++ *[0-9a-f]*: 03 71 ld\.ub r1,--r1 ++ *[0-9a-f]*: 0d 70 ld\.ub r0,--r6 ++ *[0-9a-f]*: 0f 72 ld\.ub r2,--r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 8f ld\.ub pc,pc\[0x0\] ++ *[0-9a-f]*: 19 fc ld\.ub r12,r12\[0x7\] ++ *[0-9a-f]*: 0b c5 ld\.ub r5,r5\[0x4\] ++ *[0-9a-f]*: 09 b4 ld\.ub r4,r4\[0x3\] ++ *[0-9a-f]*: 1d 9e ld\.ub lr,lr\[0x1\] ++ *[0-9a-f]*: 13 e6 ld\.ub r6,r9\[0x6\] ++ *[0-9a-f]*: 1d c2 ld\.ub r2,lr\[0x4\] ++ *[0-9a-f]*: 11 81 ld\.ub r1,r8\[0x0\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 20 0d sub sp,0 ++ *[0-9a-f]*: 2f fd sub sp,-4 ++ *[0-9a-f]*: 28 0d sub sp,-512 ++ *[0-9a-f]*: 27 fd sub sp,508 ++ *[0-9a-f]*: 20 1d sub sp,4 ++ *[0-9a-f]*: 20 bd sub sp,44 ++ *[0-9a-f]*: 20 2d sub sp,8 ++ *[0-9a-f]*: 25 7d sub sp,348 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 20 0f sub pc,0 ++ *[0-9a-f]*: 2f fc sub r12,-1 ++ *[0-9a-f]*: 28 05 sub r5,-128 ++ *[0-9a-f]*: 27 f4 sub r4,127 ++ *[0-9a-f]*: 20 1e sub lr,1 ++ *[0-9a-f]*: 2d 76 sub r6,-41 ++ *[0-9a-f]*: 22 54 sub r4,37 ++ *[0-9a-f]*: 23 8c sub r12,56 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 30 0f mov pc,0 ++ *[0-9a-f]*: 3f fc mov r12,-1 ++ *[0-9a-f]*: 38 05 mov r5,-128 ++ *[0-9a-f]*: 37 f4 mov r4,127 ++ *[0-9a-f]*: 30 1e mov lr,1 ++ *[0-9a-f]*: 30 ef mov pc,14 ++ *[0-9a-f]*: 39 c6 mov r6,-100 ++ *[0-9a-f]*: 38 6e mov lr,-122 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 40 0f lddsp pc,sp\[0x0\] ++ *[0-9a-f]*: 47 fc lddsp r12,sp\[0x1fc\] ++ *[0-9a-f]*: 44 05 lddsp r5,sp\[0x100\] ++ *[0-9a-f]*: 43 f4 lddsp r4,sp\[0xfc\] ++ *[0-9a-f]*: 40 1e lddsp lr,sp\[0x4\] ++ *[0-9a-f]*: 44 0e lddsp lr,sp\[0x100\] ++ *[0-9a-f]*: 40 5c lddsp r12,sp\[0x14\] ++ *[0-9a-f]*: 47 69 lddsp r9,sp\[0x1d8\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 48 0f lddpc pc,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4f f0 lddpc r0,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4c 08 lddpc r8,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4b f7 lddpc r7,[0-9a-f]* <.*> ++ *[0-9a-f]*: 48 1e lddpc lr,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4f 6d lddpc sp,[0-9a-f]* <.*> ++ *[0-9a-f]*: 49 e6 lddpc r6,[0-9a-f]* <.*> ++ *[0-9a-f]*: 48 7b lddpc r11,[0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 50 0f stdsp sp\[0x0\],pc ++ *[0-9a-f]*: 57 fc stdsp sp\[0x1fc\],r12 ++ *[0-9a-f]*: 54 05 stdsp sp\[0x100\],r5 ++ *[0-9a-f]*: 53 f4 stdsp sp\[0xfc\],r4 ++ *[0-9a-f]*: 50 1e stdsp sp\[0x4\],lr ++ *[0-9a-f]*: 54 cf stdsp sp\[0x130\],pc ++ *[0-9a-f]*: 54 00 stdsp sp\[0x100\],r0 ++ *[0-9a-f]*: 55 45 stdsp sp\[0x150\],r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 58 0f cp.w pc,0 ++ *[0-9a-f]*: 5b fc cp.w r12,-1 ++ *[0-9a-f]*: 5a 05 cp.w r5,-32 ++ *[0-9a-f]*: 59 f4 cp.w r4,31 ++ *[0-9a-f]*: 58 1e cp.w lr,1 ++ *[0-9a-f]*: 58 38 cp.w r8,3 ++ *[0-9a-f]*: 59 0e cp.w lr,16 ++ *[0-9a-f]*: 5a 67 cp.w r7,-26 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 0f acr pc ++ *[0-9a-f]*: 5c 0c acr r12 ++ *[0-9a-f]*: 5c 05 acr r5 ++ *[0-9a-f]*: 5c 04 acr r4 ++ *[0-9a-f]*: 5c 0e acr lr ++ *[0-9a-f]*: 5c 02 acr r2 ++ *[0-9a-f]*: 5c 0c acr r12 ++ *[0-9a-f]*: 5c 0f acr pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 1f scr pc ++ *[0-9a-f]*: 5c 1c scr r12 ++ *[0-9a-f]*: 5c 15 scr r5 ++ *[0-9a-f]*: 5c 14 scr r4 ++ *[0-9a-f]*: 5c 1e scr lr ++ *[0-9a-f]*: 5c 1f scr pc ++ *[0-9a-f]*: 5c 16 scr r6 ++ *[0-9a-f]*: 5c 11 scr r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 2f cpc pc ++ *[0-9a-f]*: 5c 2c cpc r12 ++ *[0-9a-f]*: 5c 25 cpc r5 ++ *[0-9a-f]*: 5c 24 cpc r4 ++ *[0-9a-f]*: 5c 2e cpc lr ++ *[0-9a-f]*: 5c 2f cpc pc ++ *[0-9a-f]*: 5c 24 cpc r4 ++ *[0-9a-f]*: 5c 29 cpc r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 3f neg pc ++ *[0-9a-f]*: 5c 3c neg r12 ++ *[0-9a-f]*: 5c 35 neg r5 ++ *[0-9a-f]*: 5c 34 neg r4 ++ *[0-9a-f]*: 5c 3e neg lr ++ *[0-9a-f]*: 5c 37 neg r7 ++ *[0-9a-f]*: 5c 31 neg r1 ++ *[0-9a-f]*: 5c 39 neg r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 4f abs pc ++ *[0-9a-f]*: 5c 4c abs r12 ++ *[0-9a-f]*: 5c 45 abs r5 ++ *[0-9a-f]*: 5c 44 abs r4 ++ *[0-9a-f]*: 5c 4e abs lr ++ *[0-9a-f]*: 5c 46 abs r6 ++ *[0-9a-f]*: 5c 46 abs r6 ++ *[0-9a-f]*: 5c 44 abs r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 5f castu\.b pc ++ *[0-9a-f]*: 5c 5c castu\.b r12 ++ *[0-9a-f]*: 5c 55 castu\.b r5 ++ *[0-9a-f]*: 5c 54 castu\.b r4 ++ *[0-9a-f]*: 5c 5e castu\.b lr ++ *[0-9a-f]*: 5c 57 castu\.b r7 ++ *[0-9a-f]*: 5c 5d castu\.b sp ++ *[0-9a-f]*: 5c 59 castu\.b r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 6f casts\.b pc ++ *[0-9a-f]*: 5c 6c casts\.b r12 ++ *[0-9a-f]*: 5c 65 casts\.b r5 ++ *[0-9a-f]*: 5c 64 casts\.b r4 ++ *[0-9a-f]*: 5c 6e casts\.b lr ++ *[0-9a-f]*: 5c 6b casts\.b r11 ++ *[0-9a-f]*: 5c 61 casts\.b r1 ++ *[0-9a-f]*: 5c 6a casts\.b r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 7f castu\.h pc ++ *[0-9a-f]*: 5c 7c castu\.h r12 ++ *[0-9a-f]*: 5c 75 castu\.h r5 ++ *[0-9a-f]*: 5c 74 castu\.h r4 ++ *[0-9a-f]*: 5c 7e castu\.h lr ++ *[0-9a-f]*: 5c 7a castu\.h r10 ++ *[0-9a-f]*: 5c 7b castu\.h r11 ++ *[0-9a-f]*: 5c 71 castu\.h r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 8f casts\.h pc ++ *[0-9a-f]*: 5c 8c casts\.h r12 ++ *[0-9a-f]*: 5c 85 casts\.h r5 ++ *[0-9a-f]*: 5c 84 casts\.h r4 ++ *[0-9a-f]*: 5c 8e casts\.h lr ++ *[0-9a-f]*: 5c 80 casts\.h r0 ++ *[0-9a-f]*: 5c 85 casts\.h r5 ++ *[0-9a-f]*: 5c 89 casts\.h r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 9f brev pc ++ *[0-9a-f]*: 5c 9c brev r12 ++ *[0-9a-f]*: 5c 95 brev r5 ++ *[0-9a-f]*: 5c 94 brev r4 ++ *[0-9a-f]*: 5c 9e brev lr ++ *[0-9a-f]*: 5c 95 brev r5 ++ *[0-9a-f]*: 5c 9a brev r10 ++ *[0-9a-f]*: 5c 98 brev r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c af swap\.h pc ++ *[0-9a-f]*: 5c ac swap\.h r12 ++ *[0-9a-f]*: 5c a5 swap\.h r5 ++ *[0-9a-f]*: 5c a4 swap\.h r4 ++ *[0-9a-f]*: 5c ae swap\.h lr ++ *[0-9a-f]*: 5c a7 swap\.h r7 ++ *[0-9a-f]*: 5c a0 swap\.h r0 ++ *[0-9a-f]*: 5c a8 swap\.h r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c bf swap\.b pc ++ *[0-9a-f]*: 5c bc swap\.b r12 ++ *[0-9a-f]*: 5c b5 swap\.b r5 ++ *[0-9a-f]*: 5c b4 swap\.b r4 ++ *[0-9a-f]*: 5c be swap\.b lr ++ *[0-9a-f]*: 5c ba swap\.b r10 ++ *[0-9a-f]*: 5c bc swap\.b r12 ++ *[0-9a-f]*: 5c b1 swap\.b r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c cf swap\.bh pc ++ *[0-9a-f]*: 5c cc swap\.bh r12 ++ *[0-9a-f]*: 5c c5 swap\.bh r5 ++ *[0-9a-f]*: 5c c4 swap\.bh r4 ++ *[0-9a-f]*: 5c ce swap\.bh lr ++ *[0-9a-f]*: 5c c9 swap\.bh r9 ++ *[0-9a-f]*: 5c c4 swap\.bh r4 ++ *[0-9a-f]*: 5c c1 swap\.bh r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c df com pc ++ *[0-9a-f]*: 5c dc com r12 ++ *[0-9a-f]*: 5c d5 com r5 ++ *[0-9a-f]*: 5c d4 com r4 ++ *[0-9a-f]*: 5c de com lr ++ *[0-9a-f]*: 5c d2 com r2 ++ *[0-9a-f]*: 5c d2 com r2 ++ *[0-9a-f]*: 5c d7 com r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c ef tnbz pc ++ *[0-9a-f]*: 5c ec tnbz r12 ++ *[0-9a-f]*: 5c e5 tnbz r5 ++ *[0-9a-f]*: 5c e4 tnbz r4 ++ *[0-9a-f]*: 5c ee tnbz lr ++ *[0-9a-f]*: 5c e8 tnbz r8 ++ *[0-9a-f]*: 5c ec tnbz r12 ++ *[0-9a-f]*: 5c ef tnbz pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c ff rol pc ++ *[0-9a-f]*: 5c fc rol r12 ++ *[0-9a-f]*: 5c f5 rol r5 ++ *[0-9a-f]*: 5c f4 rol r4 ++ *[0-9a-f]*: 5c fe rol lr ++ *[0-9a-f]*: 5c fa rol r10 ++ *[0-9a-f]*: 5c f9 rol r9 ++ *[0-9a-f]*: 5c f5 rol r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 0f ror pc ++ *[0-9a-f]*: 5d 0c ror r12 ++ *[0-9a-f]*: 5d 05 ror r5 ++ *[0-9a-f]*: 5d 04 ror r4 ++ *[0-9a-f]*: 5d 0e ror lr ++ *[0-9a-f]*: 5d 08 ror r8 ++ *[0-9a-f]*: 5d 04 ror r4 ++ *[0-9a-f]*: 5d 07 ror r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 1f icall pc ++ *[0-9a-f]*: 5d 1c icall r12 ++ *[0-9a-f]*: 5d 15 icall r5 ++ *[0-9a-f]*: 5d 14 icall r4 ++ *[0-9a-f]*: 5d 1e icall lr ++ *[0-9a-f]*: 5d 13 icall r3 ++ *[0-9a-f]*: 5d 11 icall r1 ++ *[0-9a-f]*: 5d 13 icall r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 2f mustr pc ++ *[0-9a-f]*: 5d 2c mustr r12 ++ *[0-9a-f]*: 5d 25 mustr r5 ++ *[0-9a-f]*: 5d 24 mustr r4 ++ *[0-9a-f]*: 5d 2e mustr lr ++ *[0-9a-f]*: 5d 21 mustr r1 ++ *[0-9a-f]*: 5d 24 mustr r4 ++ *[0-9a-f]*: 5d 2c mustr r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 3f musfr pc ++ *[0-9a-f]*: 5d 3c musfr r12 ++ *[0-9a-f]*: 5d 35 musfr r5 ++ *[0-9a-f]*: 5d 34 musfr r4 ++ *[0-9a-f]*: 5d 3e musfr lr ++ *[0-9a-f]*: 5d 3b musfr r11 ++ *[0-9a-f]*: 5d 3c musfr r12 ++ *[0-9a-f]*: 5d 32 musfr r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5e 0f reteq 1 ++ *[0-9a-f]*: 5e fc retal r12 ++ *[0-9a-f]*: 5e 85 retls r5 ++ *[0-9a-f]*: 5e 74 retpl r4 ++ *[0-9a-f]*: 5e 1e retne -1 ++ *[0-9a-f]*: 5e 90 retgt r0 ++ *[0-9a-f]*: 5e 9c retgt r12 ++ *[0-9a-f]*: 5e 4a retge r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5f 0f sreq pc ++ *[0-9a-f]*: 5f fc sral r12 ++ *[0-9a-f]*: 5f 85 srls r5 ++ *[0-9a-f]*: 5f 74 srpl r4 ++ *[0-9a-f]*: 5f 1e srne lr ++ *[0-9a-f]*: 5f 50 srlt r0 ++ *[0-9a-f]*: 5f fd sral sp ++ *[0-9a-f]*: 5f 49 srge r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 7e 0f ld\.w pc,pc\[0x0\] ++ *[0-9a-f]*: 79 fc ld\.w r12,r12\[0x7c\] ++ *[0-9a-f]*: 6b 05 ld\.w r5,r5\[0x40\] ++ *[0-9a-f]*: 68 f4 ld\.w r4,r4\[0x3c\] ++ *[0-9a-f]*: 7c 1e ld\.w lr,lr\[0x4\] ++ *[0-9a-f]*: 64 dd ld\.w sp,r2\[0x34\] ++ *[0-9a-f]*: 62 29 ld\.w r9,r1\[0x8\] ++ *[0-9a-f]*: 7a f5 ld\.w r5,sp\[0x3c\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 0f ld\.sh pc,pc\[0x0\] ++ *[0-9a-f]*: 98 7c ld\.sh r12,r12\[0xe\] ++ *[0-9a-f]*: 8a 45 ld\.sh r5,r5\[0x8\] ++ *[0-9a-f]*: 88 34 ld\.sh r4,r4\[0x6\] ++ *[0-9a-f]*: 9c 1e ld\.sh lr,lr\[0x2\] ++ *[0-9a-f]*: 84 44 ld\.sh r4,r2\[0x8\] ++ *[0-9a-f]*: 9c 5d ld\.sh sp,lr\[0xa\] ++ *[0-9a-f]*: 96 12 ld\.sh r2,r11\[0x2\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 8f ld\.uh pc,pc\[0x0\] ++ *[0-9a-f]*: 98 fc ld\.uh r12,r12\[0xe\] ++ *[0-9a-f]*: 8a c5 ld\.uh r5,r5\[0x8\] ++ *[0-9a-f]*: 88 b4 ld\.uh r4,r4\[0x6\] ++ *[0-9a-f]*: 9c 9e ld\.uh lr,lr\[0x2\] ++ *[0-9a-f]*: 80 da ld\.uh r10,r0\[0xa\] ++ *[0-9a-f]*: 96 c8 ld\.uh r8,r11\[0x8\] ++ *[0-9a-f]*: 84 ea ld\.uh r10,r2\[0xc\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9f 0f st\.w pc\[0x0\],pc ++ *[0-9a-f]*: 99 fc st\.w r12\[0x3c\],r12 ++ *[0-9a-f]*: 8b 85 st\.w r5\[0x20\],r5 ++ *[0-9a-f]*: 89 74 st\.w r4\[0x1c\],r4 ++ *[0-9a-f]*: 9d 1e st\.w lr\[0x4\],lr ++ *[0-9a-f]*: 8f bb st\.w r7\[0x2c\],r11 ++ *[0-9a-f]*: 85 66 st\.w r2\[0x18\],r6 ++ *[0-9a-f]*: 89 39 st\.w r4\[0xc\],r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 0f st\.h pc\[0x0\],pc ++ *[0-9a-f]*: b8 7c st\.h r12\[0xe\],r12 ++ *[0-9a-f]*: aa 45 st\.h r5\[0x8\],r5 ++ *[0-9a-f]*: a8 34 st\.h r4\[0x6\],r4 ++ *[0-9a-f]*: bc 1e st\.h lr\[0x2\],lr ++ *[0-9a-f]*: bc 5c st\.h lr\[0xa\],r12 ++ *[0-9a-f]*: ac 20 st\.h r6\[0x4\],r0 ++ *[0-9a-f]*: aa 6d st\.h r5\[0xc\],sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 8f st\.b pc\[0x0\],pc ++ *[0-9a-f]*: b8 fc st\.b r12\[0x7\],r12 ++ *[0-9a-f]*: aa c5 st\.b r5\[0x4\],r5 ++ *[0-9a-f]*: a8 b4 st\.b r4\[0x3\],r4 ++ *[0-9a-f]*: bc 9e st\.b lr\[0x1\],lr ++ *[0-9a-f]*: b8 e9 st\.b r12\[0x6\],r9 ++ *[0-9a-f]*: a4 be st\.b r2\[0x3\],lr ++ *[0-9a-f]*: a2 bb st\.b r1\[0x3\],r11 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 00 ld\.d r0,pc ++ *[0-9a-f]*: b9 0e ld\.d lr,r12 ++ *[0-9a-f]*: ab 08 ld\.d r8,r5 ++ *[0-9a-f]*: a9 06 ld\.d r6,r4 ++ *[0-9a-f]*: bd 02 ld\.d r2,lr ++ *[0-9a-f]*: af 0e ld\.d lr,r7 ++ *[0-9a-f]*: a9 04 ld\.d r4,r4 ++ *[0-9a-f]*: bf 0e ld\.d lr,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 01 ld\.d r0,pc\+\+ ++ *[0-9a-f]*: b9 0f ld\.d lr,r12\+\+ ++ *[0-9a-f]*: ab 09 ld\.d r8,r5\+\+ ++ *[0-9a-f]*: a9 07 ld\.d r6,r4\+\+ ++ *[0-9a-f]*: bd 03 ld\.d r2,lr\+\+ ++ *[0-9a-f]*: ab 0f ld\.d lr,r5\+\+ ++ *[0-9a-f]*: b7 0d ld\.d r12,r11\+\+ ++ *[0-9a-f]*: b9 03 ld\.d r2,r12\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 10 ld\.d r0,--pc ++ *[0-9a-f]*: b9 1e ld\.d lr,--r12 ++ *[0-9a-f]*: ab 18 ld\.d r8,--r5 ++ *[0-9a-f]*: a9 16 ld\.d r6,--r4 ++ *[0-9a-f]*: bd 12 ld\.d r2,--lr ++ *[0-9a-f]*: a1 18 ld\.d r8,--r0 ++ *[0-9a-f]*: bf 1a ld\.d r10,--pc ++ *[0-9a-f]*: a9 12 ld\.d r2,--r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 11 st\.d pc,r0 ++ *[0-9a-f]*: b9 1f st\.d r12,lr ++ *[0-9a-f]*: ab 19 st\.d r5,r8 ++ *[0-9a-f]*: a9 17 st\.d r4,r6 ++ *[0-9a-f]*: bd 13 st\.d lr,r2 ++ *[0-9a-f]*: a1 1d st\.d r0,r12 ++ *[0-9a-f]*: bb 15 st\.d sp,r4 ++ *[0-9a-f]*: b9 1d st\.d r12,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 20 st\.d pc\+\+,r0 ++ *[0-9a-f]*: b9 2e st\.d r12\+\+,lr ++ *[0-9a-f]*: ab 28 st\.d r5\+\+,r8 ++ *[0-9a-f]*: a9 26 st\.d r4\+\+,r6 ++ *[0-9a-f]*: bd 22 st\.d lr\+\+,r2 ++ *[0-9a-f]*: bb 26 st\.d sp\+\+,r6 ++ *[0-9a-f]*: b5 26 st\.d r10\+\+,r6 ++ *[0-9a-f]*: af 22 st\.d r7\+\+,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 21 st\.d --pc,r0 ++ *[0-9a-f]*: b9 2f st\.d --r12,lr ++ *[0-9a-f]*: ab 29 st\.d --r5,r8 ++ *[0-9a-f]*: a9 27 st\.d --r4,r6 ++ *[0-9a-f]*: bd 23 st\.d --lr,r2 ++ *[0-9a-f]*: a7 27 st\.d --r3,r6 ++ *[0-9a-f]*: bd 23 st\.d --lr,r2 ++ *[0-9a-f]*: a1 25 st\.d --r0,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 3f mul pc,pc ++ *[0-9a-f]*: b9 3c mul r12,r12 ++ *[0-9a-f]*: ab 35 mul r5,r5 ++ *[0-9a-f]*: a9 34 mul r4,r4 ++ *[0-9a-f]*: bd 3e mul lr,lr ++ *[0-9a-f]*: bd 3a mul r10,lr ++ *[0-9a-f]*: b1 30 mul r0,r8 ++ *[0-9a-f]*: ab 38 mul r8,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 4f asr pc,0x0 ++ *[0-9a-f]*: bf 5c asr r12,0x1f ++ *[0-9a-f]*: b1 45 asr r5,0x10 ++ *[0-9a-f]*: af 54 asr r4,0xf ++ *[0-9a-f]*: a1 5e asr lr,0x1 ++ *[0-9a-f]*: b7 56 asr r6,0x17 ++ *[0-9a-f]*: b3 46 asr r6,0x12 ++ *[0-9a-f]*: a9 45 asr r5,0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 6f lsl pc,0x0 ++ *[0-9a-f]*: bf 7c lsl r12,0x1f ++ *[0-9a-f]*: b1 65 lsl r5,0x10 ++ *[0-9a-f]*: af 74 lsl r4,0xf ++ *[0-9a-f]*: a1 7e lsl lr,0x1 ++ *[0-9a-f]*: ad 7c lsl r12,0xd ++ *[0-9a-f]*: b1 66 lsl r6,0x10 ++ *[0-9a-f]*: b9 71 lsl r1,0x19 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 8f lsr pc,0x0 ++ *[0-9a-f]*: bf 9c lsr r12,0x1f ++ *[0-9a-f]*: b1 85 lsr r5,0x10 ++ *[0-9a-f]*: af 94 lsr r4,0xf ++ *[0-9a-f]*: a1 9e lsr lr,0x1 ++ *[0-9a-f]*: a1 90 lsr r0,0x1 ++ *[0-9a-f]*: ab 88 lsr r8,0xa ++ *[0-9a-f]*: bb 87 lsr r7,0x1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 af sbr pc,0x0 ++ *[0-9a-f]*: bf bc sbr r12,0x1f ++ *[0-9a-f]*: b1 a5 sbr r5,0x10 ++ *[0-9a-f]*: af b4 sbr r4,0xf ++ *[0-9a-f]*: a1 be sbr lr,0x1 ++ *[0-9a-f]*: bf b8 sbr r8,0x1f ++ *[0-9a-f]*: b7 a6 sbr r6,0x16 ++ *[0-9a-f]*: b7 b1 sbr r1,0x17 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 cf cbr pc,0x0 ++ *[0-9a-f]*: bf dc cbr r12,0x1f ++ *[0-9a-f]*: b1 c5 cbr r5,0x10 ++ *[0-9a-f]*: af d4 cbr r4,0xf ++ *[0-9a-f]*: a1 de cbr lr,0x1 ++ *[0-9a-f]*: ab cc cbr r12,0xa ++ *[0-9a-f]*: b7 c7 cbr r7,0x16 ++ *[0-9a-f]*: a9 d8 cbr r8,0x9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 00 breq [0-9a-f]* <.*> ++ *[0-9a-f]*: cf f7 brpl [0-9a-f]* <.*> ++ *[0-9a-f]*: c8 04 brge [0-9a-f]* <.*> ++ *[0-9a-f]*: c7 f3 brcs [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 11 brne [0-9a-f]* <.*> ++ *[0-9a-f]*: c7 33 brcs [0-9a-f]* <.*> ++ *[0-9a-f]*: cf 70 breq [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 60 breq [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 08 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: cf fb rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 0a rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: cf f9 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 18 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c1 fa rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 78 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: cf ea rjmp [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 0c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf ff rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 0e rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf fd rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 1c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c6 cc rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf 7e rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c1 ae rcall [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d0 00 acall 0x0 ++ *[0-9a-f]*: df f0 acall 0x3fc ++ *[0-9a-f]*: d8 00 acall 0x200 ++ *[0-9a-f]*: d7 f0 acall 0x1fc ++ *[0-9a-f]*: d0 10 acall 0x4 ++ *[0-9a-f]*: d5 90 acall 0x164 ++ *[0-9a-f]*: d4 c0 acall 0x130 ++ *[0-9a-f]*: d2 b0 acall 0xac ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d8 02 popm pc ++ *[0-9a-f]*: dd fa popm r0-r11,pc,r12=-1 ++ *[0-9a-f]*: d4 02 popm lr ++ *[0-9a-f]*: db fa popm r0-r11,pc,r12=1 ++ *[0-9a-f]*: d0 12 popm r0-r3 ++ *[0-9a-f]*: d8 e2 popm r4-r10,pc ++ *[0-9a-f]*: d9 1a popm r0-r3,r11,pc,r12=0 ++ *[0-9a-f]*: d7 b2 popm r0-r7,r10-r12,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d8 01 pushm pc ++ *[0-9a-f]*: df f1 pushm r0-r12,lr-pc ++ *[0-9a-f]*: d8 01 pushm pc ++ *[0-9a-f]*: d7 f1 pushm r0-r12,lr ++ *[0-9a-f]*: d0 11 pushm r0-r3 ++ *[0-9a-f]*: dc c1 pushm r8-r10,lr-pc ++ *[0-9a-f]*: d0 91 pushm r0-r3,r10 ++ *[0-9a-f]*: d2 41 pushm r8-r9,r12 ++ ++[0-9a-f]* : ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++ ++[0-9a-f]* : ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d0 03 csrfcz 0x0 ++ *[0-9a-f]*: d1 f3 csrfcz 0x1f ++ *[0-9a-f]*: d1 03 csrfcz 0x10 ++ *[0-9a-f]*: d0 f3 csrfcz 0xf ++ *[0-9a-f]*: d0 13 csrfcz 0x1 ++ *[0-9a-f]*: d0 53 csrfcz 0x5 ++ *[0-9a-f]*: d0 d3 csrfcz 0xd ++ *[0-9a-f]*: d1 73 csrfcz 0x17 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d2 03 ssrf 0x0 ++ *[0-9a-f]*: d3 f3 ssrf 0x1f ++ *[0-9a-f]*: d3 03 ssrf 0x10 ++ *[0-9a-f]*: d2 f3 ssrf 0xf ++ *[0-9a-f]*: d2 13 ssrf 0x1 ++ *[0-9a-f]*: d3 d3 ssrf 0x1d ++ *[0-9a-f]*: d2 d3 ssrf 0xd ++ *[0-9a-f]*: d2 d3 ssrf 0xd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d4 03 csrf 0x0 ++ *[0-9a-f]*: d5 f3 csrf 0x1f ++ *[0-9a-f]*: d5 03 csrf 0x10 ++ *[0-9a-f]*: d4 f3 csrf 0xf ++ *[0-9a-f]*: d4 13 csrf 0x1 ++ *[0-9a-f]*: d4 a3 csrf 0xa ++ *[0-9a-f]*: d4 f3 csrf 0xf ++ *[0-9a-f]*: d4 b3 csrf 0xb ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 03 rete ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 13 rets ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 23 retd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 33 retj ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 43 tlbr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 53 tlbs ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 63 tlbw ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 73 breakpoint ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 83 incjosp 1 ++ *[0-9a-f]*: d6 93 incjosp 2 ++ *[0-9a-f]*: d6 a3 incjosp 3 ++ *[0-9a-f]*: d6 b3 incjosp 4 ++ *[0-9a-f]*: d6 c3 incjosp -4 ++ *[0-9a-f]*: d6 d3 incjosp -3 ++ *[0-9a-f]*: d6 e3 incjosp -2 ++ *[0-9a-f]*: d6 f3 incjosp -1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 13 popjc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 23 pushjc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 00 0f add pc,pc,pc ++ *[0-9a-f]*: f8 0c 00 3c add r12,r12,r12<<0x3 ++ *[0-9a-f]*: ea 05 00 25 add r5,r5,r5<<0x2 ++ *[0-9a-f]*: e8 04 00 14 add r4,r4,r4<<0x1 ++ *[0-9a-f]*: fc 0e 00 1e add lr,lr,lr<<0x1 ++ *[0-9a-f]*: f8 00 00 10 add r0,r12,r0<<0x1 ++ *[0-9a-f]*: f8 04 00 09 add r9,r12,r4 ++ *[0-9a-f]*: f8 07 00 2c add r12,r12,r7<<0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 0f sub pc,pc,pc ++ *[0-9a-f]*: f8 0c 01 3c sub r12,r12,r12<<0x3 ++ *[0-9a-f]*: ea 05 01 25 sub r5,r5,r5<<0x2 ++ *[0-9a-f]*: e8 04 01 14 sub r4,r4,r4<<0x1 ++ *[0-9a-f]*: fc 0e 01 1e sub lr,lr,lr<<0x1 ++ *[0-9a-f]*: e6 04 01 0d sub sp,r3,r4 ++ *[0-9a-f]*: ee 03 01 03 sub r3,r7,r3 ++ *[0-9a-f]*: f4 0d 01 1d sub sp,r10,sp<<0x1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0d 0f divu pc,pc,pc ++ *[0-9a-f]*: f8 0c 0d 0c divu r12,r12,r12 ++ *[0-9a-f]*: ea 05 0d 05 divu r5,r5,r5 ++ *[0-9a-f]*: e8 04 0d 04 divu r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0d 0e divu lr,lr,lr ++ *[0-9a-f]*: e8 0f 0d 0d divu sp,r4,pc ++ *[0-9a-f]*: ea 0d 0d 05 divu r5,r5,sp ++ *[0-9a-f]*: fa 00 0d 0a divu r10,sp,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0e 0f addhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 0e 3c addhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 0e 35 addhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 0e 04 addhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 0e 3e addhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: e0 03 0e 00 addhh\.w r0,r0:b,r3:b ++ *[0-9a-f]*: f8 07 0e 2e addhh\.w lr,r12:t,r7:b ++ *[0-9a-f]*: f4 02 0e 23 addhh\.w r3,r10:t,r2:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0f 0f subhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 0f 3c subhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 0f 35 subhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 0f 04 subhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 0f 3e subhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: e2 07 0f 2a subhh\.w r10,r1:t,r7:b ++ *[0-9a-f]*: f4 0e 0f 3f subhh\.w pc,r10:t,lr:t ++ *[0-9a-f]*: e0 0c 0f 23 subhh\.w r3,r0:t,r12:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 00 4f adc pc,pc,pc ++ *[0-9a-f]*: f8 0c 00 4c adc r12,r12,r12 ++ *[0-9a-f]*: ea 05 00 45 adc r5,r5,r5 ++ *[0-9a-f]*: e8 04 00 44 adc r4,r4,r4 ++ *[0-9a-f]*: fc 0e 00 4e adc lr,lr,lr ++ *[0-9a-f]*: e0 07 00 44 adc r4,r0,r7 ++ *[0-9a-f]*: e8 03 00 4d adc sp,r4,r3 ++ *[0-9a-f]*: f8 00 00 42 adc r2,r12,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 4f sbc pc,pc,pc ++ *[0-9a-f]*: f8 0c 01 4c sbc r12,r12,r12 ++ *[0-9a-f]*: ea 05 01 45 sbc r5,r5,r5 ++ *[0-9a-f]*: e8 04 01 44 sbc r4,r4,r4 ++ *[0-9a-f]*: fc 0e 01 4e sbc lr,lr,lr ++ *[0-9a-f]*: ee 09 01 46 sbc r6,r7,r9 ++ *[0-9a-f]*: f0 05 01 40 sbc r0,r8,r5 ++ *[0-9a-f]*: e0 04 01 41 sbc r1,r0,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 4f mul pc,pc,pc ++ *[0-9a-f]*: f8 0c 02 4c mul r12,r12,r12 ++ *[0-9a-f]*: ea 05 02 45 mul r5,r5,r5 ++ *[0-9a-f]*: e8 04 02 44 mul r4,r4,r4 ++ *[0-9a-f]*: fc 0e 02 4e mul lr,lr,lr ++ *[0-9a-f]*: e0 00 02 4f mul pc,r0,r0 ++ *[0-9a-f]*: fe 0e 02 48 mul r8,pc,lr ++ *[0-9a-f]*: f8 0f 02 44 mul r4,r12,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 03 4f mac pc,pc,pc ++ *[0-9a-f]*: f8 0c 03 4c mac r12,r12,r12 ++ *[0-9a-f]*: ea 05 03 45 mac r5,r5,r5 ++ *[0-9a-f]*: e8 04 03 44 mac r4,r4,r4 ++ *[0-9a-f]*: fc 0e 03 4e mac lr,lr,lr ++ *[0-9a-f]*: e8 00 03 4a mac r10,r4,r0 ++ *[0-9a-f]*: fc 00 03 47 mac r7,lr,r0 ++ *[0-9a-f]*: f2 0c 03 42 mac r2,r9,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 04 4f muls\.d pc,pc,pc ++ *[0-9a-f]*: f8 0c 04 4c muls\.d r12,r12,r12 ++ *[0-9a-f]*: ea 05 04 45 muls\.d r5,r5,r5 ++ *[0-9a-f]*: e8 04 04 44 muls\.d r4,r4,r4 ++ *[0-9a-f]*: fc 0e 04 4e muls\.d lr,lr,lr ++ *[0-9a-f]*: f0 0e 04 42 muls\.d r2,r8,lr ++ *[0-9a-f]*: e0 0b 04 44 muls\.d r4,r0,r11 ++ *[0-9a-f]*: fc 06 04 45 muls\.d r5,lr,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 05 40 macs\.d r0,pc,pc ++ *[0-9a-f]*: f8 0c 05 4e macs\.d lr,r12,r12 ++ *[0-9a-f]*: ea 05 05 48 macs\.d r8,r5,r5 ++ *[0-9a-f]*: e8 04 05 46 macs\.d r6,r4,r4 ++ *[0-9a-f]*: fc 0e 05 42 macs\.d r2,lr,lr ++ *[0-9a-f]*: e2 09 05 48 macs\.d r8,r1,r9 ++ *[0-9a-f]*: f0 08 05 4e macs\.d lr,r8,r8 ++ *[0-9a-f]*: e6 0c 05 44 macs\.d r4,r3,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 06 40 mulu\.d r0,pc,pc ++ *[0-9a-f]*: f8 0c 06 4e mulu\.d lr,r12,r12 ++ *[0-9a-f]*: ea 05 06 48 mulu\.d r8,r5,r5 ++ *[0-9a-f]*: e8 04 06 46 mulu\.d r6,r4,r4 ++ *[0-9a-f]*: fc 0e 06 42 mulu\.d r2,lr,lr ++ *[0-9a-f]*: ea 00 06 46 mulu\.d r6,r5,r0 ++ *[0-9a-f]*: ec 01 06 44 mulu\.d r4,r6,r1 ++ *[0-9a-f]*: f0 02 06 48 mulu\.d r8,r8,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 07 40 macu\.d r0,pc,pc ++ *[0-9a-f]*: f8 0c 07 4e macu\.d lr,r12,r12 ++ *[0-9a-f]*: ea 05 07 48 macu\.d r8,r5,r5 ++ *[0-9a-f]*: e8 04 07 46 macu\.d r6,r4,r4 ++ *[0-9a-f]*: fc 0e 07 42 macu\.d r2,lr,lr ++ *[0-9a-f]*: fa 0b 07 46 macu\.d r6,sp,r11 ++ *[0-9a-f]*: e8 08 07 42 macu\.d r2,r4,r8 ++ *[0-9a-f]*: f4 09 07 46 macu\.d r6,r10,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 08 4f asr pc,pc,pc ++ *[0-9a-f]*: f8 0c 08 4c asr r12,r12,r12 ++ *[0-9a-f]*: ea 05 08 45 asr r5,r5,r5 ++ *[0-9a-f]*: e8 04 08 44 asr r4,r4,r4 ++ *[0-9a-f]*: fc 0e 08 4e asr lr,lr,lr ++ *[0-9a-f]*: ec 0f 08 4f asr pc,r6,pc ++ *[0-9a-f]*: ec 0c 08 40 asr r0,r6,r12 ++ *[0-9a-f]*: fa 00 08 44 asr r4,sp,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 09 4f lsl pc,pc,pc ++ *[0-9a-f]*: f8 0c 09 4c lsl r12,r12,r12 ++ *[0-9a-f]*: ea 05 09 45 lsl r5,r5,r5 ++ *[0-9a-f]*: e8 04 09 44 lsl r4,r4,r4 ++ *[0-9a-f]*: fc 0e 09 4e lsl lr,lr,lr ++ *[0-9a-f]*: ea 0e 09 4e lsl lr,r5,lr ++ *[0-9a-f]*: fe 03 09 45 lsl r5,pc,r3 ++ *[0-9a-f]*: fe 09 09 41 lsl r1,pc,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0a 4f lsr pc,pc,pc ++ *[0-9a-f]*: f8 0c 0a 4c lsr r12,r12,r12 ++ *[0-9a-f]*: ea 05 0a 45 lsr r5,r5,r5 ++ *[0-9a-f]*: e8 04 0a 44 lsr r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0a 4e lsr lr,lr,lr ++ *[0-9a-f]*: e8 01 0a 42 lsr r2,r4,r1 ++ *[0-9a-f]*: e2 06 0a 45 lsr r5,r1,r6 ++ *[0-9a-f]*: ec 07 0a 4d lsr sp,r6,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0b 4f xchg pc,pc,pc ++ *[0-9a-f]*: f8 0c 0b 4c xchg r12,r12,r12 ++ *[0-9a-f]*: ea 05 0b 45 xchg r5,r5,r5 ++ *[0-9a-f]*: e8 04 0b 44 xchg r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0b 4e xchg lr,lr,lr ++ *[0-9a-f]*: e8 0d 0b 4e xchg lr,r4,sp ++ *[0-9a-f]*: ea 0c 0b 41 xchg r1,r5,r12 ++ *[0-9a-f]*: f8 00 0b 4e xchg lr,r12,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0c 4f max pc,pc,pc ++ *[0-9a-f]*: f8 0c 0c 4c max r12,r12,r12 ++ *[0-9a-f]*: ea 05 0c 45 max r5,r5,r5 ++ *[0-9a-f]*: e8 04 0c 44 max r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0c 4e max lr,lr,lr ++ *[0-9a-f]*: e4 0d 0c 4e max lr,r2,sp ++ *[0-9a-f]*: f4 09 0c 44 max r4,r10,r9 ++ *[0-9a-f]*: f2 0e 0c 4e max lr,r9,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0d 4f min pc,pc,pc ++ *[0-9a-f]*: f8 0c 0d 4c min r12,r12,r12 ++ *[0-9a-f]*: ea 05 0d 45 min r5,r5,r5 ++ *[0-9a-f]*: e8 04 0d 44 min r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0d 4e min lr,lr,lr ++ *[0-9a-f]*: ee 08 0d 49 min r9,r7,r8 ++ *[0-9a-f]*: ea 05 0d 4d min sp,r5,r5 ++ *[0-9a-f]*: e2 04 0d 44 min r4,r1,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0e 4f addabs pc,pc,pc ++ *[0-9a-f]*: f8 0c 0e 4c addabs r12,r12,r12 ++ *[0-9a-f]*: ea 05 0e 45 addabs r5,r5,r5 ++ *[0-9a-f]*: e8 04 0e 44 addabs r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0e 4e addabs lr,lr,lr ++ *[0-9a-f]*: f4 00 0e 47 addabs r7,r10,r0 ++ *[0-9a-f]*: f2 07 0e 49 addabs r9,r9,r7 ++ *[0-9a-f]*: f0 0c 0e 42 addabs r2,r8,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 8f mulnhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 01 bc mulnhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 01 b5 mulnhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 01 84 mulnhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 01 be mulnhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: fa 09 01 ab mulnhh\.w r11,sp:t,r9:b ++ *[0-9a-f]*: e8 0e 01 9d mulnhh\.w sp,r4:b,lr:t ++ *[0-9a-f]*: e4 0b 01 ac mulnhh\.w r12,r2:t,r11:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 80 mulnwh\.d r0,pc,pc:b ++ *[0-9a-f]*: f8 0c 02 9e mulnwh\.d lr,r12,r12:t ++ *[0-9a-f]*: ea 05 02 98 mulnwh\.d r8,r5,r5:t ++ *[0-9a-f]*: e8 04 02 86 mulnwh\.d r6,r4,r4:b ++ *[0-9a-f]*: fc 0e 02 92 mulnwh\.d r2,lr,lr:t ++ *[0-9a-f]*: e6 02 02 9e mulnwh\.d lr,r3,r2:t ++ *[0-9a-f]*: ea 09 02 84 mulnwh\.d r4,r5,r9:b ++ *[0-9a-f]*: e8 04 02 9c mulnwh\.d r12,r4,r4:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 04 8f machh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 04 bc machh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 04 b5 machh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 04 84 machh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 04 be machh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: ea 01 04 9e machh\.w lr,r5:b,r1:t ++ *[0-9a-f]*: ec 07 04 89 machh\.w r9,r6:b,r7:b ++ *[0-9a-f]*: fc 0c 04 a5 machh\.w r5,lr:t,r12:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 05 80 machh\.d r0,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 05 be machh\.d lr,r12:t,r12:t ++ *[0-9a-f]*: ea 05 05 b8 machh\.d r8,r5:t,r5:t ++ *[0-9a-f]*: e8 04 05 86 machh\.d r6,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 05 b2 machh\.d r2,lr:t,lr:t ++ *[0-9a-f]*: e0 08 05 8a machh\.d r10,r0:b,r8:b ++ *[0-9a-f]*: e8 05 05 9e machh\.d lr,r4:b,r5:t ++ *[0-9a-f]*: e0 04 05 98 machh\.d r8,r0:b,r4:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 06 8f macsathh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 06 bc macsathh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 06 b5 macsathh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 06 84 macsathh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 06 be macsathh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: ee 0f 06 b7 macsathh\.w r7,r7:t,pc:t ++ *[0-9a-f]*: e4 04 06 a4 macsathh\.w r4,r2:t,r4:b ++ *[0-9a-f]*: f0 03 06 b4 macsathh\.w r4,r8:t,r3:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 07 8f mulhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 07 bc mulhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 07 b5 mulhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 07 84 mulhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 07 be mulhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: e8 09 07 a7 mulhh\.w r7,r4:t,r9:b ++ *[0-9a-f]*: e6 07 07 bf mulhh\.w pc,r3:t,r7:t ++ *[0-9a-f]*: e8 09 07 9f mulhh\.w pc,r4:b,r9:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 08 8f mulsathh\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 08 bc mulsathh\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 08 b5 mulsathh\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 08 84 mulsathh\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 08 be mulsathh\.h lr,lr:t,lr:t ++ *[0-9a-f]*: e2 0d 08 83 mulsathh\.h r3,r1:b,sp:b ++ *[0-9a-f]*: fc 0b 08 ab mulsathh\.h r11,lr:t,r11:b ++ *[0-9a-f]*: f0 0b 08 98 mulsathh\.h r8,r8:b,r11:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 09 8f mulsathh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 09 bc mulsathh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 09 b5 mulsathh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 09 84 mulsathh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 09 be mulsathh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: f6 06 09 ae mulsathh\.w lr,r11:t,r6:b ++ *[0-9a-f]*: ec 07 09 96 mulsathh\.w r6,r6:b,r7:t ++ *[0-9a-f]*: e4 03 09 8a mulsathh\.w r10,r2:b,r3:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0a 8f mulsatrndhh\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 0a bc mulsatrndhh\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 0a b5 mulsatrndhh\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 0a 84 mulsatrndhh\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 0a be mulsatrndhh\.h lr,lr:t,lr:t ++ *[0-9a-f]*: ec 09 0a 8b mulsatrndhh\.h r11,r6:b,r9:b ++ *[0-9a-f]*: e6 08 0a 9b mulsatrndhh\.h r11,r3:b,r8:t ++ *[0-9a-f]*: fa 07 0a b5 mulsatrndhh\.h r5,sp:t,r7:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0b 8f mulsatrndwh\.w pc,pc,pc:b ++ *[0-9a-f]*: f8 0c 0b 9c mulsatrndwh\.w r12,r12,r12:t ++ *[0-9a-f]*: ea 05 0b 95 mulsatrndwh\.w r5,r5,r5:t ++ *[0-9a-f]*: e8 04 0b 84 mulsatrndwh\.w r4,r4,r4:b ++ *[0-9a-f]*: fc 0e 0b 9e mulsatrndwh\.w lr,lr,lr:t ++ *[0-9a-f]*: f8 00 0b 85 mulsatrndwh\.w r5,r12,r0:b ++ *[0-9a-f]*: f4 0f 0b 87 mulsatrndwh\.w r7,r10,pc:b ++ *[0-9a-f]*: f0 05 0b 9a mulsatrndwh\.w r10,r8,r5:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0c 80 macwh\.d r0,pc,pc:b ++ *[0-9a-f]*: f8 0c 0c 9e macwh\.d lr,r12,r12:t ++ *[0-9a-f]*: ea 05 0c 98 macwh\.d r8,r5,r5:t ++ *[0-9a-f]*: e8 04 0c 86 macwh\.d r6,r4,r4:b ++ *[0-9a-f]*: fc 0e 0c 92 macwh\.d r2,lr,lr:t ++ *[0-9a-f]*: f4 0c 0c 94 macwh\.d r4,r10,r12:t ++ *[0-9a-f]*: ee 0d 0c 84 macwh\.d r4,r7,sp:b ++ *[0-9a-f]*: f2 0b 0c 8e macwh\.d lr,r9,r11:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0d 80 mulwh\.d r0,pc,pc:b ++ *[0-9a-f]*: f8 0c 0d 9e mulwh\.d lr,r12,r12:t ++ *[0-9a-f]*: ea 05 0d 98 mulwh\.d r8,r5,r5:t ++ *[0-9a-f]*: e8 04 0d 86 mulwh\.d r6,r4,r4:b ++ *[0-9a-f]*: fc 0e 0d 92 mulwh\.d r2,lr,lr:t ++ *[0-9a-f]*: ea 01 0d 8c mulwh\.d r12,r5,r1:b ++ *[0-9a-f]*: e2 03 0d 90 mulwh\.d r0,r1,r3:t ++ *[0-9a-f]*: f2 02 0d 80 mulwh\.d r0,r9,r2:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0e 8f mulsatwh\.w pc,pc,pc:b ++ *[0-9a-f]*: f8 0c 0e 9c mulsatwh\.w r12,r12,r12:t ++ *[0-9a-f]*: ea 05 0e 95 mulsatwh\.w r5,r5,r5:t ++ *[0-9a-f]*: e8 04 0e 84 mulsatwh\.w r4,r4,r4:b ++ *[0-9a-f]*: fc 0e 0e 9e mulsatwh\.w lr,lr,lr:t ++ *[0-9a-f]*: fe 0a 0e 9b mulsatwh\.w r11,pc,r10:t ++ *[0-9a-f]*: f8 09 0e 9d mulsatwh\.w sp,r12,r9:t ++ *[0-9a-f]*: e6 02 0e 90 mulsatwh\.w r0,r3,r2:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0f 8f ld\.w pc,pc\[pc:b<<2\] ++ *[0-9a-f]*: f8 0c 0f bc ld\.w r12,r12\[r12:t<<2\] ++ *[0-9a-f]*: ea 05 0f a5 ld\.w r5,r5\[r5:u<<2\] ++ *[0-9a-f]*: e8 04 0f 94 ld\.w r4,r4\[r4:l<<2\] ++ *[0-9a-f]*: fc 0e 0f 9e ld\.w lr,lr\[lr:l<<2\] ++ *[0-9a-f]*: f4 06 0f 99 ld\.w r9,r10\[r6:l<<2\] ++ *[0-9a-f]*: f4 0a 0f 82 ld\.w r2,r10\[r10:b<<2\] ++ *[0-9a-f]*: ea 0f 0f 8b ld\.w r11,r5\[pc:b<<2\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 00 cf satadd\.w pc,pc,pc ++ *[0-9a-f]*: f8 0c 00 cc satadd\.w r12,r12,r12 ++ *[0-9a-f]*: ea 05 00 c5 satadd\.w r5,r5,r5 ++ *[0-9a-f]*: e8 04 00 c4 satadd\.w r4,r4,r4 ++ *[0-9a-f]*: fc 0e 00 ce satadd\.w lr,lr,lr ++ *[0-9a-f]*: f0 0b 00 c4 satadd\.w r4,r8,r11 ++ *[0-9a-f]*: f8 06 00 c3 satadd\.w r3,r12,r6 ++ *[0-9a-f]*: fc 09 00 c3 satadd\.w r3,lr,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 cf satsub\.w pc,pc,pc ++ *[0-9a-f]*: f8 0c 01 cc satsub\.w r12,r12,r12 ++ *[0-9a-f]*: ea 05 01 c5 satsub\.w r5,r5,r5 ++ *[0-9a-f]*: e8 04 01 c4 satsub\.w r4,r4,r4 ++ *[0-9a-f]*: fc 0e 01 ce satsub\.w lr,lr,lr ++ *[0-9a-f]*: fa 00 01 c8 satsub\.w r8,sp,r0 ++ *[0-9a-f]*: f0 04 01 c9 satsub\.w r9,r8,r4 ++ *[0-9a-f]*: fc 02 01 cf satsub\.w pc,lr,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 cf satadd\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 02 cc satadd\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 02 c5 satadd\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 02 c4 satadd\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 02 ce satadd\.h lr,lr,lr ++ *[0-9a-f]*: e6 09 02 c7 satadd\.h r7,r3,r9 ++ *[0-9a-f]*: e0 02 02 c1 satadd\.h r1,r0,r2 ++ *[0-9a-f]*: e8 0e 02 c1 satadd\.h r1,r4,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 03 cf satsub\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 03 cc satsub\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 03 c5 satsub\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 03 c4 satsub\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 03 ce satsub\.h lr,lr,lr ++ *[0-9a-f]*: fc 03 03 ce satsub\.h lr,lr,r3 ++ *[0-9a-f]*: ec 05 03 cb satsub\.h r11,r6,r5 ++ *[0-9a-f]*: fa 00 03 c3 satsub\.h r3,sp,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 10 00 mul pc,pc,0 ++ *[0-9a-f]*: f8 0c 10 ff mul r12,r12,-1 ++ *[0-9a-f]*: ea 05 10 80 mul r5,r5,-128 ++ *[0-9a-f]*: e8 04 10 7f mul r4,r4,127 ++ *[0-9a-f]*: fc 0e 10 01 mul lr,lr,1 ++ *[0-9a-f]*: e4 0c 10 f9 mul r12,r2,-7 ++ *[0-9a-f]*: fe 01 10 5f mul r1,pc,95 ++ *[0-9a-f]*: ec 04 10 13 mul r4,r6,19 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 11 00 rsub pc,pc,0 ++ *[0-9a-f]*: f8 0c 11 ff rsub r12,r12,-1 ++ *[0-9a-f]*: ea 05 11 80 rsub r5,r5,-128 ++ *[0-9a-f]*: e8 04 11 7f rsub r4,r4,127 ++ *[0-9a-f]*: fc 0e 11 01 rsub lr,lr,1 ++ *[0-9a-f]*: fc 09 11 60 rsub r9,lr,96 ++ *[0-9a-f]*: e2 0b 11 38 rsub r11,r1,56 ++ *[0-9a-f]*: ee 00 11 a9 rsub r0,r7,-87 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 12 00 clz pc,pc ++ *[0-9a-f]*: f8 0c 12 00 clz r12,r12 ++ *[0-9a-f]*: ea 05 12 00 clz r5,r5 ++ *[0-9a-f]*: e8 04 12 00 clz r4,r4 ++ *[0-9a-f]*: fc 0e 12 00 clz lr,lr ++ *[0-9a-f]*: e6 02 12 00 clz r2,r3 ++ *[0-9a-f]*: f6 05 12 00 clz r5,r11 ++ *[0-9a-f]*: e6 0f 12 00 clz pc,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 13 00 cpc pc,pc ++ *[0-9a-f]*: f8 0c 13 00 cpc r12,r12 ++ *[0-9a-f]*: ea 05 13 00 cpc r5,r5 ++ *[0-9a-f]*: e8 04 13 00 cpc r4,r4 ++ *[0-9a-f]*: fc 0e 13 00 cpc lr,lr ++ *[0-9a-f]*: e8 0f 13 00 cpc pc,r4 ++ *[0-9a-f]*: f2 05 13 00 cpc r5,r9 ++ *[0-9a-f]*: ee 06 13 00 cpc r6,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 14 00 asr pc,pc,0x0 ++ *[0-9a-f]*: f8 0c 14 1f asr r12,r12,0x1f ++ *[0-9a-f]*: ea 05 14 10 asr r5,r5,0x10 ++ *[0-9a-f]*: e8 04 14 0f asr r4,r4,0xf ++ *[0-9a-f]*: fc 0e 14 01 asr lr,lr,0x1 ++ *[0-9a-f]*: f6 04 14 13 asr r4,r11,0x13 ++ *[0-9a-f]*: fe 0d 14 1a asr sp,pc,0x1a ++ *[0-9a-f]*: fa 0b 14 08 asr r11,sp,0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 15 00 lsl pc,pc,0x0 ++ *[0-9a-f]*: f8 0c 15 1f lsl r12,r12,0x1f ++ *[0-9a-f]*: ea 05 15 10 lsl r5,r5,0x10 ++ *[0-9a-f]*: e8 04 15 0f lsl r4,r4,0xf ++ *[0-9a-f]*: fc 0e 15 01 lsl lr,lr,0x1 ++ *[0-9a-f]*: f4 08 15 11 lsl r8,r10,0x11 ++ *[0-9a-f]*: fc 02 15 03 lsl r2,lr,0x3 ++ *[0-9a-f]*: f6 0e 15 0e lsl lr,r11,0xe ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 16 00 lsr pc,pc,0x0 ++ *[0-9a-f]*: f8 0c 16 1f lsr r12,r12,0x1f ++ *[0-9a-f]*: ea 05 16 10 lsr r5,r5,0x10 ++ *[0-9a-f]*: e8 04 16 0f lsr r4,r4,0xf ++ *[0-9a-f]*: fc 0e 16 01 lsr lr,lr,0x1 ++ *[0-9a-f]*: e6 04 16 1f lsr r4,r3,0x1f ++ *[0-9a-f]*: f2 0f 16 0e lsr pc,r9,0xe ++ *[0-9a-f]*: e0 03 16 06 lsr r3,r0,0x6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 17 00 moveq pc,pc ++ *[0-9a-f]*: f8 0c 17 f0 moval r12,r12 ++ *[0-9a-f]*: ea 05 17 80 movls r5,r5 ++ *[0-9a-f]*: e8 04 17 70 movpl r4,r4 ++ *[0-9a-f]*: fc 0e 17 10 movne lr,lr ++ *[0-9a-f]*: f6 0f 17 10 movne pc,r11 ++ *[0-9a-f]*: e4 0a 17 60 movmi r10,r2 ++ *[0-9a-f]*: f8 08 17 80 movls r8,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 0f padd\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 0c padd\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 05 padd\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 04 padd\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 0e padd\.h lr,lr,lr ++ *[0-9a-f]*: e4 07 20 08 padd\.h r8,r2,r7 ++ *[0-9a-f]*: e0 03 20 00 padd\.h r0,r0,r3 ++ *[0-9a-f]*: f6 06 20 0d padd\.h sp,r11,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 1f psub\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 1c psub\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 15 psub\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 14 psub\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 1e psub\.h lr,lr,lr ++ *[0-9a-f]*: ec 08 20 1e psub\.h lr,r6,r8 ++ *[0-9a-f]*: e2 0d 20 10 psub\.h r0,r1,sp ++ *[0-9a-f]*: fe 0d 20 1f psub\.h pc,pc,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 2f paddx\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 2c paddx\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 25 paddx\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 24 paddx\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 2e paddx\.h lr,lr,lr ++ *[0-9a-f]*: fe 01 20 2f paddx\.h pc,pc,r1 ++ *[0-9a-f]*: e8 05 20 2a paddx\.h r10,r4,r5 ++ *[0-9a-f]*: fe 02 20 25 paddx\.h r5,pc,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 3f psubx\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 3c psubx\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 35 psubx\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 34 psubx\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 3e psubx\.h lr,lr,lr ++ *[0-9a-f]*: f8 05 20 35 psubx\.h r5,r12,r5 ++ *[0-9a-f]*: f0 03 20 33 psubx\.h r3,r8,r3 ++ *[0-9a-f]*: e4 03 20 35 psubx\.h r5,r2,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 4f padds\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 4c padds\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 45 padds\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 44 padds\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 4e padds\.sh lr,lr,lr ++ *[0-9a-f]*: fc 02 20 49 padds\.sh r9,lr,r2 ++ *[0-9a-f]*: f0 01 20 46 padds\.sh r6,r8,r1 ++ *[0-9a-f]*: e8 0a 20 46 padds\.sh r6,r4,r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 5f psubs\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 5c psubs\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 55 psubs\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 54 psubs\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 5e psubs\.sh lr,lr,lr ++ *[0-9a-f]*: fc 0b 20 56 psubs\.sh r6,lr,r11 ++ *[0-9a-f]*: f8 04 20 52 psubs\.sh r2,r12,r4 ++ *[0-9a-f]*: f2 00 20 50 psubs\.sh r0,r9,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 6f paddxs\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 6c paddxs\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 65 paddxs\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 64 paddxs\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 6e paddxs\.sh lr,lr,lr ++ *[0-9a-f]*: e6 09 20 60 paddxs\.sh r0,r3,r9 ++ *[0-9a-f]*: f4 0b 20 6f paddxs\.sh pc,r10,r11 ++ *[0-9a-f]*: f4 0f 20 6f paddxs\.sh pc,r10,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 7f psubxs\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 7c psubxs\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 75 psubxs\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 74 psubxs\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 7e psubxs\.sh lr,lr,lr ++ *[0-9a-f]*: e8 04 20 77 psubxs\.sh r7,r4,r4 ++ *[0-9a-f]*: f0 03 20 77 psubxs\.sh r7,r8,r3 ++ *[0-9a-f]*: ec 05 20 7f psubxs\.sh pc,r6,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 8f padds\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 8c padds\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 85 padds\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 84 padds\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 8e padds\.uh lr,lr,lr ++ *[0-9a-f]*: f6 07 20 8c padds\.uh r12,r11,r7 ++ *[0-9a-f]*: f0 0e 20 87 padds\.uh r7,r8,lr ++ *[0-9a-f]*: f2 07 20 86 padds\.uh r6,r9,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 9f psubs\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 9c psubs\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 95 psubs\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 94 psubs\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 9e psubs\.uh lr,lr,lr ++ *[0-9a-f]*: f4 06 20 9e psubs\.uh lr,r10,r6 ++ *[0-9a-f]*: e4 0f 20 9d psubs\.uh sp,r2,pc ++ *[0-9a-f]*: f2 02 20 92 psubs\.uh r2,r9,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 af paddxs\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 ac paddxs\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 a5 paddxs\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 a4 paddxs\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 ae paddxs\.uh lr,lr,lr ++ *[0-9a-f]*: f2 05 20 a7 paddxs\.uh r7,r9,r5 ++ *[0-9a-f]*: e2 04 20 a9 paddxs\.uh r9,r1,r4 ++ *[0-9a-f]*: e4 03 20 a5 paddxs\.uh r5,r2,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 bf psubxs\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 bc psubxs\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 b5 psubxs\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 b4 psubxs\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 be psubxs\.uh lr,lr,lr ++ *[0-9a-f]*: ea 0d 20 bd psubxs\.uh sp,r5,sp ++ *[0-9a-f]*: ec 06 20 bd psubxs\.uh sp,r6,r6 ++ *[0-9a-f]*: f6 08 20 b3 psubxs\.uh r3,r11,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 cf paddh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 cc paddh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 c5 paddh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 c4 paddh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 ce paddh\.sh lr,lr,lr ++ *[0-9a-f]*: fa 03 20 cc paddh\.sh r12,sp,r3 ++ *[0-9a-f]*: ea 03 20 cf paddh\.sh pc,r5,r3 ++ *[0-9a-f]*: f0 0d 20 c8 paddh\.sh r8,r8,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 df psubh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 dc psubh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 d5 psubh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 d4 psubh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 de psubh\.sh lr,lr,lr ++ *[0-9a-f]*: ea 08 20 d1 psubh\.sh r1,r5,r8 ++ *[0-9a-f]*: e6 06 20 d7 psubh\.sh r7,r3,r6 ++ *[0-9a-f]*: e6 03 20 d4 psubh\.sh r4,r3,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 ef paddxh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 ec paddxh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 e5 paddxh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 e4 paddxh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 ee paddxh\.sh lr,lr,lr ++ *[0-9a-f]*: e0 04 20 e6 paddxh\.sh r6,r0,r4 ++ *[0-9a-f]*: f0 09 20 e9 paddxh\.sh r9,r8,r9 ++ *[0-9a-f]*: e0 0d 20 e3 paddxh\.sh r3,r0,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 ff psubxh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 fc psubxh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 f5 psubxh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 f4 psubxh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 fe psubxh\.sh lr,lr,lr ++ *[0-9a-f]*: fe 0c 20 f4 psubxh\.sh r4,pc,r12 ++ *[0-9a-f]*: e8 06 20 f8 psubxh\.sh r8,r4,r6 ++ *[0-9a-f]*: f2 04 20 fc psubxh\.sh r12,r9,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 0f paddsub\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 3c paddsub\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 35 paddsub\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 04 paddsub\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 3e paddsub\.h lr,lr:t,lr:t ++ *[0-9a-f]*: e4 0e 21 25 paddsub\.h r5,r2:t,lr:b ++ *[0-9a-f]*: e2 08 21 07 paddsub\.h r7,r1:b,r8:b ++ *[0-9a-f]*: f4 05 21 36 paddsub\.h r6,r10:t,r5:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 4f psubadd\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 7c psubadd\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 75 psubadd\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 44 psubadd\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 7e psubadd\.h lr,lr:t,lr:t ++ *[0-9a-f]*: f6 08 21 79 psubadd\.h r9,r11:t,r8:t ++ *[0-9a-f]*: ee 0e 21 7a psubadd\.h r10,r7:t,lr:t ++ *[0-9a-f]*: fe 0f 21 66 psubadd\.h r6,pc:t,pc:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 8f paddsubs\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 bc paddsubs\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 b5 paddsubs\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 84 paddsubs\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 be paddsubs\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: fc 00 21 a0 paddsubs\.sh r0,lr:t,r0:b ++ *[0-9a-f]*: e4 04 21 b9 paddsubs\.sh r9,r2:t,r4:t ++ *[0-9a-f]*: f2 0d 21 bc paddsubs\.sh r12,r9:t,sp:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 cf psubadds\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 fc psubadds\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 f5 psubadds\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 c4 psubadds\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 fe psubadds\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: fc 01 21 df psubadds\.sh pc,lr:b,r1:t ++ *[0-9a-f]*: e6 0c 21 cb psubadds\.sh r11,r3:b,r12:b ++ *[0-9a-f]*: e4 08 21 fa psubadds\.sh r10,r2:t,r8:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 0f paddsubs\.uh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 3c paddsubs\.uh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 35 paddsubs\.uh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 04 paddsubs\.uh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 3e paddsubs\.uh lr,lr:t,lr:t ++ *[0-9a-f]*: e4 03 22 09 paddsubs\.uh r9,r2:b,r3:b ++ *[0-9a-f]*: fa 07 22 1d paddsubs\.uh sp,sp:b,r7:t ++ *[0-9a-f]*: e0 0a 22 1e paddsubs\.uh lr,r0:b,r10:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 4f psubadds\.uh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 7c psubadds\.uh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 75 psubadds\.uh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 44 psubadds\.uh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 7e psubadds\.uh lr,lr:t,lr:t ++ *[0-9a-f]*: f2 0f 22 7c psubadds\.uh r12,r9:t,pc:t ++ *[0-9a-f]*: ec 08 22 48 psubadds\.uh r8,r6:b,r8:b ++ *[0-9a-f]*: f0 04 22 48 psubadds\.uh r8,r8:b,r4:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 8f paddsubh\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 bc paddsubh\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 b5 paddsubh\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 84 paddsubh\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 be paddsubh\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: f2 09 22 a8 paddsubh\.sh r8,r9:t,r9:b ++ *[0-9a-f]*: fa 01 22 b0 paddsubh\.sh r0,sp:t,r1:t ++ *[0-9a-f]*: e2 00 22 93 paddsubh\.sh r3,r1:b,r0:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 cf psubaddh\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 fc psubaddh\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 f5 psubaddh\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 c4 psubaddh\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 fe psubaddh\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: e6 0a 22 e7 psubaddh\.sh r7,r3:t,r10:b ++ *[0-9a-f]*: e4 01 22 f7 psubaddh\.sh r7,r2:t,r1:t ++ *[0-9a-f]*: e6 06 22 cb psubaddh\.sh r11,r3:b,r6:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 0f padd\.b pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 0c padd\.b r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 05 padd\.b r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 04 padd\.b r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 0e padd\.b lr,lr,lr ++ *[0-9a-f]*: ec 0f 23 02 padd\.b r2,r6,pc ++ *[0-9a-f]*: f2 0c 23 08 padd\.b r8,r9,r12 ++ *[0-9a-f]*: f8 03 23 05 padd\.b r5,r12,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 1f psub\.b pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 1c psub\.b r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 15 psub\.b r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 14 psub\.b r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 1e psub\.b lr,lr,lr ++ *[0-9a-f]*: f8 0f 23 10 psub\.b r0,r12,pc ++ *[0-9a-f]*: fa 0a 23 17 psub\.b r7,sp,r10 ++ *[0-9a-f]*: fa 0c 23 15 psub\.b r5,sp,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 2f padds\.sb pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 2c padds\.sb r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 25 padds\.sb r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 24 padds\.sb r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 2e padds\.sb lr,lr,lr ++ *[0-9a-f]*: f6 04 23 2d padds\.sb sp,r11,r4 ++ *[0-9a-f]*: f4 0b 23 2b padds\.sb r11,r10,r11 ++ *[0-9a-f]*: f8 06 23 25 padds\.sb r5,r12,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 3f psubs\.sb pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 3c psubs\.sb r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 35 psubs\.sb r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 34 psubs\.sb r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 3e psubs\.sb lr,lr,lr ++ *[0-9a-f]*: ec 08 23 37 psubs\.sb r7,r6,r8 ++ *[0-9a-f]*: f4 09 23 3c psubs\.sb r12,r10,r9 ++ *[0-9a-f]*: f6 00 23 3f psubs\.sb pc,r11,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 4f padds\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 4c padds\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 45 padds\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 44 padds\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 4e padds\.ub lr,lr,lr ++ *[0-9a-f]*: e4 0b 23 43 padds\.ub r3,r2,r11 ++ *[0-9a-f]*: f0 01 23 4a padds\.ub r10,r8,r1 ++ *[0-9a-f]*: f0 0a 23 4b padds\.ub r11,r8,r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 5f psubs\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 5c psubs\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 55 psubs\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 54 psubs\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 5e psubs\.ub lr,lr,lr ++ *[0-9a-f]*: e4 07 23 50 psubs\.ub r0,r2,r7 ++ *[0-9a-f]*: ea 03 23 5e psubs\.ub lr,r5,r3 ++ *[0-9a-f]*: ee 09 23 56 psubs\.ub r6,r7,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 6f paddh\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 6c paddh\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 65 paddh\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 64 paddh\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 6e paddh\.ub lr,lr,lr ++ *[0-9a-f]*: e2 00 23 6e paddh\.ub lr,r1,r0 ++ *[0-9a-f]*: ee 07 23 62 paddh\.ub r2,r7,r7 ++ *[0-9a-f]*: e2 02 23 62 paddh\.ub r2,r1,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 7f psubh\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 7c psubh\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 75 psubh\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 74 psubh\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 7e psubh\.ub lr,lr,lr ++ *[0-9a-f]*: e2 06 23 70 psubh\.ub r0,r1,r6 ++ *[0-9a-f]*: fc 0a 23 74 psubh\.ub r4,lr,r10 ++ *[0-9a-f]*: f0 01 23 79 psubh\.ub r9,r8,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 8f pmax\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 8c pmax\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 85 pmax\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 84 pmax\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 8e pmax\.ub lr,lr,lr ++ *[0-9a-f]*: e4 0b 23 8f pmax\.ub pc,r2,r11 ++ *[0-9a-f]*: e2 01 23 8c pmax\.ub r12,r1,r1 ++ *[0-9a-f]*: e4 00 23 85 pmax\.ub r5,r2,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 9f pmax\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 9c pmax\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 95 pmax\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 94 pmax\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 9e pmax\.sh lr,lr,lr ++ *[0-9a-f]*: ec 0c 23 9e pmax\.sh lr,r6,r12 ++ *[0-9a-f]*: fe 05 23 92 pmax\.sh r2,pc,r5 ++ *[0-9a-f]*: e4 07 23 9f pmax\.sh pc,r2,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 af pmin\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 ac pmin\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 a5 pmin\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 a4 pmin\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 ae pmin\.ub lr,lr,lr ++ *[0-9a-f]*: e2 05 23 a8 pmin\.ub r8,r1,r5 ++ *[0-9a-f]*: f0 03 23 a1 pmin\.ub r1,r8,r3 ++ *[0-9a-f]*: e4 07 23 a0 pmin\.ub r0,r2,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 bf pmin\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 bc pmin\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 b5 pmin\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 b4 pmin\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 be pmin\.sh lr,lr,lr ++ *[0-9a-f]*: e8 0a 23 b8 pmin\.sh r8,r4,r10 ++ *[0-9a-f]*: f4 0c 23 be pmin\.sh lr,r10,r12 ++ *[0-9a-f]*: ec 02 23 b2 pmin\.sh r2,r6,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 cf pavg\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 cc pavg\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 c5 pavg\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 c4 pavg\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 ce pavg\.ub lr,lr,lr ++ *[0-9a-f]*: e2 06 23 c0 pavg\.ub r0,r1,r6 ++ *[0-9a-f]*: e6 06 23 c8 pavg\.ub r8,r3,r6 ++ *[0-9a-f]*: f8 0a 23 cf pavg\.ub pc,r12,r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 df pavg\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 dc pavg\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 d5 pavg\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 d4 pavg\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 de pavg\.sh lr,lr,lr ++ *[0-9a-f]*: fe 0d 23 d9 pavg\.sh r9,pc,sp ++ *[0-9a-f]*: fa 03 23 df pavg\.sh pc,sp,r3 ++ *[0-9a-f]*: e2 09 23 d6 pavg\.sh r6,r1,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 23 ef pabs\.sb pc,pc ++ *[0-9a-f]*: e0 0c 23 ec pabs\.sb r12,r12 ++ *[0-9a-f]*: e0 05 23 e5 pabs\.sb r5,r5 ++ *[0-9a-f]*: e0 04 23 e4 pabs\.sb r4,r4 ++ *[0-9a-f]*: e0 0e 23 ee pabs\.sb lr,lr ++ *[0-9a-f]*: e0 06 23 eb pabs\.sb r11,r6 ++ *[0-9a-f]*: e0 09 23 ee pabs\.sb lr,r9 ++ *[0-9a-f]*: e0 07 23 ed pabs\.sb sp,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 23 ff pabs\.sh pc,pc ++ *[0-9a-f]*: e0 0c 23 fc pabs\.sh r12,r12 ++ *[0-9a-f]*: e0 05 23 f5 pabs\.sh r5,r5 ++ *[0-9a-f]*: e0 04 23 f4 pabs\.sh r4,r4 ++ *[0-9a-f]*: e0 0e 23 fe pabs\.sh lr,lr ++ *[0-9a-f]*: e0 03 23 ff pabs\.sh pc,r3 ++ *[0-9a-f]*: e0 07 23 f5 pabs\.sh r5,r7 ++ *[0-9a-f]*: e0 00 23 f4 pabs\.sh r4,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 0f psad pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 0c psad r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 05 psad r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 04 psad r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 0e psad lr,lr,lr ++ *[0-9a-f]*: f6 0b 24 09 psad r9,r11,r11 ++ *[0-9a-f]*: e8 0d 24 0e psad lr,r4,sp ++ *[0-9a-f]*: e8 05 24 0e psad lr,r4,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 1f pasr\.b pc,pc,0x0 ++ *[0-9a-f]*: f8 07 24 1c pasr\.b r12,r12,0x7 ++ *[0-9a-f]*: ea 04 24 15 pasr\.b r5,r5,0x4 ++ *[0-9a-f]*: e8 03 24 14 pasr\.b r4,r4,0x3 ++ *[0-9a-f]*: fc 01 24 1e pasr\.b lr,lr,0x1 ++ *[0-9a-f]*: ee 01 24 1f pasr\.b pc,r7,0x1 ++ *[0-9a-f]*: fc 06 24 1d pasr\.b sp,lr,0x6 ++ *[0-9a-f]*: e6 02 24 1d pasr\.b sp,r3,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 2f plsl\.b pc,pc,0x0 ++ *[0-9a-f]*: f8 07 24 2c plsl\.b r12,r12,0x7 ++ *[0-9a-f]*: ea 04 24 25 plsl\.b r5,r5,0x4 ++ *[0-9a-f]*: e8 03 24 24 plsl\.b r4,r4,0x3 ++ *[0-9a-f]*: fc 01 24 2e plsl\.b lr,lr,0x1 ++ *[0-9a-f]*: f6 04 24 22 plsl\.b r2,r11,0x4 ++ *[0-9a-f]*: ea 07 24 28 plsl\.b r8,r5,0x7 ++ *[0-9a-f]*: e0 02 24 2f plsl\.b pc,r0,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 3f plsr\.b pc,pc,0x0 ++ *[0-9a-f]*: f8 07 24 3c plsr\.b r12,r12,0x7 ++ *[0-9a-f]*: ea 04 24 35 plsr\.b r5,r5,0x4 ++ *[0-9a-f]*: e8 03 24 34 plsr\.b r4,r4,0x3 ++ *[0-9a-f]*: fc 01 24 3e plsr\.b lr,lr,0x1 ++ *[0-9a-f]*: e2 02 24 3c plsr\.b r12,r1,0x2 ++ *[0-9a-f]*: fe 07 24 36 plsr\.b r6,pc,0x7 ++ *[0-9a-f]*: f6 02 24 3c plsr\.b r12,r11,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 4f pasr\.h pc,pc,0x0 ++ *[0-9a-f]*: f8 0f 24 4c pasr\.h r12,r12,0xf ++ *[0-9a-f]*: ea 08 24 45 pasr\.h r5,r5,0x8 ++ *[0-9a-f]*: e8 07 24 44 pasr\.h r4,r4,0x7 ++ *[0-9a-f]*: fc 01 24 4e pasr\.h lr,lr,0x1 ++ *[0-9a-f]*: f6 0a 24 40 pasr\.h r0,r11,0xa ++ *[0-9a-f]*: ec 08 24 44 pasr\.h r4,r6,0x8 ++ *[0-9a-f]*: e4 04 24 46 pasr\.h r6,r2,0x4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 5f plsl\.h pc,pc,0x0 ++ *[0-9a-f]*: f8 0f 24 5c plsl\.h r12,r12,0xf ++ *[0-9a-f]*: ea 08 24 55 plsl\.h r5,r5,0x8 ++ *[0-9a-f]*: e8 07 24 54 plsl\.h r4,r4,0x7 ++ *[0-9a-f]*: fc 01 24 5e plsl\.h lr,lr,0x1 ++ *[0-9a-f]*: f4 09 24 55 plsl\.h r5,r10,0x9 ++ *[0-9a-f]*: fc 08 24 5d plsl\.h sp,lr,0x8 ++ *[0-9a-f]*: fc 07 24 50 plsl\.h r0,lr,0x7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 6f plsr\.h pc,pc,0x0 ++ *[0-9a-f]*: f8 0f 24 6c plsr\.h r12,r12,0xf ++ *[0-9a-f]*: ea 08 24 65 plsr\.h r5,r5,0x8 ++ *[0-9a-f]*: e8 07 24 64 plsr\.h r4,r4,0x7 ++ *[0-9a-f]*: fc 01 24 6e plsr\.h lr,lr,0x1 ++ *[0-9a-f]*: e0 0f 24 6b plsr\.h r11,r0,0xf ++ *[0-9a-f]*: e6 03 24 6e plsr\.h lr,r3,0x3 ++ *[0-9a-f]*: fc 0a 24 68 plsr\.h r8,lr,0xa ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 7f packw\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 7c packw\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 75 packw\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 74 packw\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 7e packw\.sh lr,lr,lr ++ *[0-9a-f]*: f6 0a 24 7d packw\.sh sp,r11,r10 ++ *[0-9a-f]*: e4 0c 24 78 packw\.sh r8,r2,r12 ++ *[0-9a-f]*: e2 05 24 78 packw\.sh r8,r1,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 8f punpckub\.h pc,pc:b ++ *[0-9a-f]*: f8 00 24 9c punpckub\.h r12,r12:t ++ *[0-9a-f]*: ea 00 24 95 punpckub\.h r5,r5:t ++ *[0-9a-f]*: e8 00 24 84 punpckub\.h r4,r4:b ++ *[0-9a-f]*: fc 00 24 9e punpckub\.h lr,lr:t ++ *[0-9a-f]*: e2 00 24 96 punpckub\.h r6,r1:t ++ *[0-9a-f]*: ea 00 24 8e punpckub\.h lr,r5:b ++ *[0-9a-f]*: e4 00 24 9e punpckub\.h lr,r2:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 af punpcksb\.h pc,pc:b ++ *[0-9a-f]*: f8 00 24 bc punpcksb\.h r12,r12:t ++ *[0-9a-f]*: ea 00 24 b5 punpcksb\.h r5,r5:t ++ *[0-9a-f]*: e8 00 24 a4 punpcksb\.h r4,r4:b ++ *[0-9a-f]*: fc 00 24 be punpcksb\.h lr,lr:t ++ *[0-9a-f]*: ee 00 24 b4 punpcksb\.h r4,r7:t ++ *[0-9a-f]*: fc 00 24 a6 punpcksb\.h r6,lr:b ++ *[0-9a-f]*: f8 00 24 bc punpcksb\.h r12,r12:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 cf packsh\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 cc packsh\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 c5 packsh\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 c4 packsh\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 ce packsh\.ub lr,lr,lr ++ *[0-9a-f]*: ec 03 24 c3 packsh\.ub r3,r6,r3 ++ *[0-9a-f]*: e0 03 24 c8 packsh\.ub r8,r0,r3 ++ *[0-9a-f]*: e6 0e 24 c9 packsh\.ub r9,r3,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 df packsh\.sb pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 dc packsh\.sb r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 d5 packsh\.sb r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 d4 packsh\.sb r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 de packsh\.sb lr,lr,lr ++ *[0-9a-f]*: f0 01 24 d6 packsh\.sb r6,r8,r1 ++ *[0-9a-f]*: f2 08 24 de packsh\.sb lr,r9,r8 ++ *[0-9a-f]*: ec 06 24 dd packsh\.sb sp,r6,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 1f 00 00 andl pc,0x0 ++ *[0-9a-f]*: e0 1c ff ff andl r12,0xffff ++ *[0-9a-f]*: e0 15 80 00 andl r5,0x8000 ++ *[0-9a-f]*: e0 14 7f ff andl r4,0x7fff ++ *[0-9a-f]*: e0 1e 00 01 andl lr,0x1 ++ *[0-9a-f]*: e0 1f 5a 58 andl pc,0x5a58 ++ *[0-9a-f]*: e0 18 b8 9e andl r8,0xb89e ++ *[0-9a-f]*: e0 17 35 97 andl r7,0x3597 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e2 1f 00 00 andl pc,0x0,COH ++ *[0-9a-f]*: e2 1c ff ff andl r12,0xffff,COH ++ *[0-9a-f]*: e2 15 80 00 andl r5,0x8000,COH ++ *[0-9a-f]*: e2 14 7f ff andl r4,0x7fff,COH ++ *[0-9a-f]*: e2 1e 00 01 andl lr,0x1,COH ++ *[0-9a-f]*: e2 16 58 e1 andl r6,0x58e1,COH ++ *[0-9a-f]*: e2 10 9e cd andl r0,0x9ecd,COH ++ *[0-9a-f]*: e2 14 bd c4 andl r4,0xbdc4,COH ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e4 1f 00 00 andh pc,0x0 ++ *[0-9a-f]*: e4 1c ff ff andh r12,0xffff ++ *[0-9a-f]*: e4 15 80 00 andh r5,0x8000 ++ *[0-9a-f]*: e4 14 7f ff andh r4,0x7fff ++ *[0-9a-f]*: e4 1e 00 01 andh lr,0x1 ++ *[0-9a-f]*: e4 1c cc 58 andh r12,0xcc58 ++ *[0-9a-f]*: e4 13 21 e3 andh r3,0x21e3 ++ *[0-9a-f]*: e4 12 a7 eb andh r2,0xa7eb ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e6 1f 00 00 andh pc,0x0,COH ++ *[0-9a-f]*: e6 1c ff ff andh r12,0xffff,COH ++ *[0-9a-f]*: e6 15 80 00 andh r5,0x8000,COH ++ *[0-9a-f]*: e6 14 7f ff andh r4,0x7fff,COH ++ *[0-9a-f]*: e6 1e 00 01 andh lr,0x1,COH ++ *[0-9a-f]*: e6 1b 86 0d andh r11,0x860d,COH ++ *[0-9a-f]*: e6 18 ce f6 andh r8,0xcef6,COH ++ *[0-9a-f]*: e6 1a 5c 83 andh r10,0x5c83,COH ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e8 1f 00 00 orl pc,0x0 ++ *[0-9a-f]*: e8 1c ff ff orl r12,0xffff ++ *[0-9a-f]*: e8 15 80 00 orl r5,0x8000 ++ *[0-9a-f]*: e8 14 7f ff orl r4,0x7fff ++ *[0-9a-f]*: e8 1e 00 01 orl lr,0x1 ++ *[0-9a-f]*: e8 1d 41 7e orl sp,0x417e ++ *[0-9a-f]*: e8 10 52 bd orl r0,0x52bd ++ *[0-9a-f]*: e8 1f ac 47 orl pc,0xac47 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ea 1f 00 00 orh pc,0x0 ++ *[0-9a-f]*: ea 1c ff ff orh r12,0xffff ++ *[0-9a-f]*: ea 15 80 00 orh r5,0x8000 ++ *[0-9a-f]*: ea 14 7f ff orh r4,0x7fff ++ *[0-9a-f]*: ea 1e 00 01 orh lr,0x1 ++ *[0-9a-f]*: ea 18 6e 7d orh r8,0x6e7d ++ *[0-9a-f]*: ea 1c 77 1c orh r12,0x771c ++ *[0-9a-f]*: ea 11 ea 1a orh r1,0xea1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ec 1f 00 00 eorl pc,0x0 ++ *[0-9a-f]*: ec 1c ff ff eorl r12,0xffff ++ *[0-9a-f]*: ec 15 80 00 eorl r5,0x8000 ++ *[0-9a-f]*: ec 14 7f ff eorl r4,0x7fff ++ *[0-9a-f]*: ec 1e 00 01 eorl lr,0x1 ++ *[0-9a-f]*: ec 14 c7 b9 eorl r4,0xc7b9 ++ *[0-9a-f]*: ec 16 fb dd eorl r6,0xfbdd ++ *[0-9a-f]*: ec 11 51 b1 eorl r1,0x51b1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ee 1f 00 00 eorh pc,0x0 ++ *[0-9a-f]*: ee 1c ff ff eorh r12,0xffff ++ *[0-9a-f]*: ee 15 80 00 eorh r5,0x8000 ++ *[0-9a-f]*: ee 14 7f ff eorh r4,0x7fff ++ *[0-9a-f]*: ee 1e 00 01 eorh lr,0x1 ++ *[0-9a-f]*: ee 10 2d d4 eorh r0,0x2dd4 ++ *[0-9a-f]*: ee 1a 94 b5 eorh r10,0x94b5 ++ *[0-9a-f]*: ee 19 df 2a eorh r9,0xdf2a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f0 1f 00 00 mcall [0-9a-f]* <.*> ++ *[0-9a-f]*: f0 1c ff ff mcall r12\[-4\] ++ *[0-9a-f]*: f0 15 80 00 mcall r5\[-131072\] ++ *[0-9a-f]*: f0 14 7f ff mcall r4\[131068\] ++ *[0-9a-f]*: f0 1e 00 01 mcall lr\[4\] ++ *[0-9a-f]*: f0 1d 3b bf mcall sp\[61180\] ++ *[0-9a-f]*: f0 14 dd d2 mcall r4\[-35000\] ++ *[0-9a-f]*: f0 10 09 b1 mcall r0\[9924\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f2 1f 00 00 pref pc\[0\] ++ *[0-9a-f]*: f2 1c ff ff pref r12\[-1\] ++ *[0-9a-f]*: f2 15 80 00 pref r5\[-32768\] ++ *[0-9a-f]*: f2 14 7f ff pref r4\[32767\] ++ *[0-9a-f]*: f2 1e 00 01 pref lr\[1\] ++ *[0-9a-f]*: f2 17 1e 44 pref r7\[7748\] ++ *[0-9a-f]*: f2 17 e1 ed pref r7\[-7699\] ++ *[0-9a-f]*: f2 12 9a dc pref r2\[-25892\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f4 1f 00 00 cache pc\[0\],0x0 ++ *[0-9a-f]*: f4 1c ff ff cache r12\[-1\],0x1f ++ *[0-9a-f]*: f4 15 84 00 cache r5\[-1024\],0x10 ++ *[0-9a-f]*: f4 14 7b ff cache r4\[1023\],0xf ++ *[0-9a-f]*: f4 1e 08 01 cache lr\[1\],0x1 ++ *[0-9a-f]*: f4 13 8c 3c cache r3\[-964\],0x11 ++ *[0-9a-f]*: f4 14 b6 89 cache r4\[-375\],0x16 ++ *[0-9a-f]*: f4 13 8c 88 cache r3\[-888\],0x11 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 20 0f sub pc,0 ++ *[0-9a-f]*: 2f fc sub r12,-1 ++ *[0-9a-f]*: f0 25 00 00 sub r5,-1048576 ++ *[0-9a-f]*: ee 34 ff ff sub r4,1048575 ++ *[0-9a-f]*: 20 1e sub lr,1 ++ *[0-9a-f]*: f6 22 8d 6c sub r2,-619156 ++ *[0-9a-f]*: e6 3e 0a cd sub lr,461517 ++ *[0-9a-f]*: fc 38 2d 25 sub r8,-185051 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 58 0f cp.w pc,0 ++ *[0-9a-f]*: 5b fc cp.w r12,-1 ++ *[0-9a-f]*: f0 45 00 00 cp.w r5,-1048576 ++ *[0-9a-f]*: ee 54 ff ff cp.w r4,1048575 ++ *[0-9a-f]*: 58 1e cp.w lr,1 ++ *[0-9a-f]*: e0 51 e4 ae cp.w r1,124078 ++ *[0-9a-f]*: fa 40 37 e3 cp.w r0,-378909 ++ *[0-9a-f]*: fc 44 4a 14 cp.w r4,-243180 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 30 0f mov pc,0 ++ *[0-9a-f]*: 3f fc mov r12,-1 ++ *[0-9a-f]*: f0 65 00 00 mov r5,-1048576 ++ *[0-9a-f]*: ee 74 ff ff mov r4,1048575 ++ *[0-9a-f]*: 30 1e mov lr,1 ++ *[0-9a-f]*: fa 75 29 a3 mov r5,-317021 ++ *[0-9a-f]*: f4 6d 91 94 mov sp,-749164 ++ *[0-9a-f]*: ee 65 58 93 mov r5,940179 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 00 breq [0-9a-f]* <.*> ++ *[0-9a-f]*: fe 9f ff ff bral [0-9a-f]* <.*> ++ *[0-9a-f]*: f0 88 00 00 brls [0-9a-f]* <.*> ++ *[0-9a-f]*: ee 97 ff ff brpl [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 11 brne [0-9a-f]* <.*> ++ *[0-9a-f]*: f2 8b 4a 4d brhi [0-9a-f]* <.*> ++ *[0-9a-f]*: ea 8e 14 cc brqs [0-9a-f]* <.*> ++ *[0-9a-f]*: fa 98 98 33 brls [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 0c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf ff rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: f0 a0 00 00 rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: ee b0 ff ff rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 1c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: e2 b0 ca 5a rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: e8 a0 47 52 rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: fe b0 fd ef rcall [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe cf 00 00 sub pc,pc,0 ++ *[0-9a-f]*: f8 cc ff ff sub r12,r12,-1 ++ *[0-9a-f]*: ea c5 80 00 sub r5,r5,-32768 ++ *[0-9a-f]*: e8 c4 7f ff sub r4,r4,32767 ++ *[0-9a-f]*: fc ce 00 01 sub lr,lr,1 ++ *[0-9a-f]*: fe cf ce 38 sub pc,pc,-12744 ++ *[0-9a-f]*: ee c7 95 1b sub r7,r7,-27365 ++ *[0-9a-f]*: f2 c2 bc 32 sub r2,r9,-17358 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe df 00 00 satsub\.w pc,pc,0 ++ *[0-9a-f]*: f8 dc ff ff satsub\.w r12,r12,-1 ++ *[0-9a-f]*: ea d5 80 00 satsub\.w r5,r5,-32768 ++ *[0-9a-f]*: e8 d4 7f ff satsub\.w r4,r4,32767 ++ *[0-9a-f]*: fc de 00 01 satsub\.w lr,lr,1 ++ *[0-9a-f]*: fc d2 f8 29 satsub\.w r2,lr,-2007 ++ *[0-9a-f]*: f8 d7 fc f0 satsub\.w r7,r12,-784 ++ *[0-9a-f]*: ee d4 5a 8c satsub\.w r4,r7,23180 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe e0 00 00 ld\.d r0,pc\[0\] ++ *[0-9a-f]*: f8 ee ff ff ld\.d lr,r12\[-1\] ++ *[0-9a-f]*: ea e8 80 00 ld\.d r8,r5\[-32768\] ++ *[0-9a-f]*: e8 e6 7f ff ld\.d r6,r4\[32767\] ++ *[0-9a-f]*: fc e2 00 01 ld\.d r2,lr\[1\] ++ *[0-9a-f]*: f6 ee 39 c0 ld\.d lr,r11\[14784\] ++ *[0-9a-f]*: f2 e6 b6 27 ld\.d r6,r9\[-18905\] ++ *[0-9a-f]*: e6 e2 e7 2d ld\.d r2,r3\[-6355\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 7e 0f ld\.w pc,pc\[0x0\] ++ *[0-9a-f]*: f8 fc ff ff ld\.w r12,r12\[-1\] ++ *[0-9a-f]*: ea f5 80 00 ld\.w r5,r5\[-32768\] ++ *[0-9a-f]*: e8 f4 7f ff ld\.w r4,r4\[32767\] ++ *[0-9a-f]*: fc fe 00 01 ld\.w lr,lr\[1\] ++ *[0-9a-f]*: f8 f0 a9 8b ld\.w r0,r12\[-22133\] ++ *[0-9a-f]*: fe fd af d7 ld\.w sp,pc\[-20521\] ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 0f ld\.sh pc,pc\[0x0\] ++ *[0-9a-f]*: f9 0c ff ff ld\.sh r12,r12\[-1\] ++ *[0-9a-f]*: eb 05 80 00 ld\.sh r5,r5\[-32768\] ++ *[0-9a-f]*: e9 04 7f ff ld\.sh r4,r4\[32767\] ++ *[0-9a-f]*: fd 0e 00 01 ld\.sh lr,lr\[1\] ++ *[0-9a-f]*: f5 06 78 d2 ld\.sh r6,r10\[30930\] ++ *[0-9a-f]*: f5 06 55 d5 ld\.sh r6,r10\[21973\] ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 8f ld\.uh pc,pc\[0x0\] ++ *[0-9a-f]*: f9 1c ff ff ld\.uh r12,r12\[-1\] ++ *[0-9a-f]*: eb 15 80 00 ld\.uh r5,r5\[-32768\] ++ *[0-9a-f]*: e9 14 7f ff ld\.uh r4,r4\[32767\] ++ *[0-9a-f]*: fd 1e 00 01 ld\.uh lr,lr\[1\] ++ *[0-9a-f]*: f3 11 cb d6 ld\.uh r1,r9\[-13354\] ++ *[0-9a-f]*: f7 1e 53 59 ld\.uh lr,r11\[21337\] ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff 2f 00 00 ld\.sb pc,pc\[0\] ++ *[0-9a-f]*: f9 2c ff ff ld\.sb r12,r12\[-1\] ++ *[0-9a-f]*: eb 25 80 00 ld\.sb r5,r5\[-32768\] ++ *[0-9a-f]*: e9 24 7f ff ld\.sb r4,r4\[32767\] ++ *[0-9a-f]*: fd 2e 00 01 ld\.sb lr,lr\[1\] ++ *[0-9a-f]*: fb 27 90 09 ld\.sb r7,sp\[-28663\] ++ *[0-9a-f]*: e3 22 e9 09 ld\.sb r2,r1\[-5879\] ++ *[0-9a-f]*: e7 2c 49 2e ld\.sb r12,r3\[18734\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 8f ld\.ub pc,pc\[0x0\] ++ *[0-9a-f]*: f9 3c ff ff ld\.ub r12,r12\[-1\] ++ *[0-9a-f]*: eb 35 80 00 ld\.ub r5,r5\[-32768\] ++ *[0-9a-f]*: e9 34 7f ff ld\.ub r4,r4\[32767\] ++ *[0-9a-f]*: 1d 9e ld\.ub lr,lr\[0x1\] ++ *[0-9a-f]*: e9 3f 20 55 ld\.ub pc,r4\[8277\] ++ *[0-9a-f]*: f9 35 4a e4 ld\.ub r5,r12\[19172\] ++ *[0-9a-f]*: fd 3a 66 eb ld\.ub r10,lr\[26347\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe e1 00 00 st\.d pc\[0\],r0 ++ *[0-9a-f]*: f8 ef ff ff st\.d r12\[-1\],lr ++ *[0-9a-f]*: ea e9 80 00 st\.d r5\[-32768\],r8 ++ *[0-9a-f]*: e8 e7 7f ff st\.d r4\[32767\],r6 ++ *[0-9a-f]*: fc e3 00 01 st\.d lr\[1\],r2 ++ *[0-9a-f]*: ea eb 33 90 st\.d r5\[13200\],r10 ++ *[0-9a-f]*: ea eb 24 88 st\.d r5\[9352\],r10 ++ *[0-9a-f]*: ea e5 7e 75 st\.d r5\[32373\],r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9f 0f st\.w pc\[0x0\],pc ++ *[0-9a-f]*: f9 4c ff ff st\.w r12\[-1\],r12 ++ *[0-9a-f]*: eb 45 80 00 st\.w r5\[-32768\],r5 ++ *[0-9a-f]*: e9 44 7f ff st\.w r4\[32767\],r4 ++ *[0-9a-f]*: fd 4e 00 01 st\.w lr\[1\],lr ++ *[0-9a-f]*: fb 47 17 f8 st\.w sp\[6136\],r7 ++ *[0-9a-f]*: ed 4c 69 cf st\.w r6\[27087\],r12 ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 0f st\.h pc\[0x0\],pc ++ *[0-9a-f]*: f9 5c ff ff st\.h r12\[-1\],r12 ++ *[0-9a-f]*: eb 55 80 00 st\.h r5\[-32768\],r5 ++ *[0-9a-f]*: e9 54 7f ff st\.h r4\[32767\],r4 ++ *[0-9a-f]*: fd 5e 00 01 st\.h lr\[1\],lr ++ *[0-9a-f]*: e9 57 d9 16 st\.h r4\[-9962\],r7 ++ *[0-9a-f]*: f3 53 c0 86 st\.h r9\[-16250\],r3 ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 8f st\.b pc\[0x0\],pc ++ *[0-9a-f]*: f9 6c ff ff st\.b r12\[-1\],r12 ++ *[0-9a-f]*: eb 65 80 00 st\.b r5\[-32768\],r5 ++ *[0-9a-f]*: e9 64 7f ff st\.b r4\[32767\],r4 ++ *[0-9a-f]*: bc 9e st\.b lr\[0x1\],lr ++ *[0-9a-f]*: f9 66 75 96 st\.b r12\[30102\],r6 ++ *[0-9a-f]*: eb 61 71 31 st\.b r5\[28977\],r1 ++ *[0-9a-f]*: e1 61 15 5e st\.b r0\[5470\],r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 bf 00 00 mfsr pc,0x0 ++ *[0-9a-f]*: e1 bc 00 ff mfsr r12,0x3fc ++ *[0-9a-f]*: e1 b5 00 80 mfsr r5,0x200 ++ *[0-9a-f]*: e1 b4 00 7f mfsr r4,0x1fc ++ *[0-9a-f]*: e1 be 00 01 mfsr lr,0x4 ++ *[0-9a-f]*: e1 b2 00 ae mfsr r2,0x2b8 ++ *[0-9a-f]*: e1 b4 00 41 mfsr r4,0x104 ++ *[0-9a-f]*: e1 ba 00 fe mfsr r10,0x3f8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e3 bf 00 00 mtsr 0x0,pc ++ *[0-9a-f]*: e3 bc 00 ff mtsr 0x3fc,r12 ++ *[0-9a-f]*: e3 b5 00 80 mtsr 0x200,r5 ++ *[0-9a-f]*: e3 b4 00 7f mtsr 0x1fc,r4 ++ *[0-9a-f]*: e3 be 00 01 mtsr 0x4,lr ++ *[0-9a-f]*: e3 ba 00 38 mtsr 0xe0,r10 ++ *[0-9a-f]*: e3 bc 00 d1 mtsr 0x344,r12 ++ *[0-9a-f]*: e3 b9 00 4c mtsr 0x130,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 bf 00 00 mfdr pc,0x0 ++ *[0-9a-f]*: e5 bc 00 ff mfdr r12,0x3fc ++ *[0-9a-f]*: e5 b5 00 80 mfdr r5,0x200 ++ *[0-9a-f]*: e5 b4 00 7f mfdr r4,0x1fc ++ *[0-9a-f]*: e5 be 00 01 mfdr lr,0x4 ++ *[0-9a-f]*: e5 b6 00 e9 mfdr r6,0x3a4 ++ *[0-9a-f]*: e5 b5 00 09 mfdr r5,0x24 ++ *[0-9a-f]*: e5 b9 00 4b mfdr r9,0x12c ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e7 bf 00 00 mtdr 0x0,pc ++ *[0-9a-f]*: e7 bc 00 ff mtdr 0x3fc,r12 ++ *[0-9a-f]*: e7 b5 00 80 mtdr 0x200,r5 ++ *[0-9a-f]*: e7 b4 00 7f mtdr 0x1fc,r4 ++ *[0-9a-f]*: e7 be 00 01 mtdr 0x4,lr ++ *[0-9a-f]*: e7 b8 00 2d mtdr 0xb4,r8 ++ *[0-9a-f]*: e7 ba 00 b4 mtdr 0x2d0,r10 ++ *[0-9a-f]*: e7 be 00 66 mtdr 0x198,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 b0 00 00 sleep 0x0 ++ *[0-9a-f]*: e9 b0 00 ff sleep 0xff ++ *[0-9a-f]*: e9 b0 00 80 sleep 0x80 ++ *[0-9a-f]*: e9 b0 00 7f sleep 0x7f ++ *[0-9a-f]*: e9 b0 00 01 sleep 0x1 ++ *[0-9a-f]*: e9 b0 00 fe sleep 0xfe ++ *[0-9a-f]*: e9 b0 00 0f sleep 0xf ++ *[0-9a-f]*: e9 b0 00 2b sleep 0x2b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb b0 00 00 sync 0x0 ++ *[0-9a-f]*: eb b0 00 ff sync 0xff ++ *[0-9a-f]*: eb b0 00 80 sync 0x80 ++ *[0-9a-f]*: eb b0 00 7f sync 0x7f ++ *[0-9a-f]*: eb b0 00 01 sync 0x1 ++ *[0-9a-f]*: eb b0 00 a6 sync 0xa6 ++ *[0-9a-f]*: eb b0 00 e6 sync 0xe6 ++ *[0-9a-f]*: eb b0 00 b4 sync 0xb4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed bf 00 00 bld pc,0x0 ++ *[0-9a-f]*: ed bc 00 1f bld r12,0x1f ++ *[0-9a-f]*: ed b5 00 10 bld r5,0x10 ++ *[0-9a-f]*: ed b4 00 0f bld r4,0xf ++ *[0-9a-f]*: ed be 00 01 bld lr,0x1 ++ *[0-9a-f]*: ed b9 00 0f bld r9,0xf ++ *[0-9a-f]*: ed b0 00 04 bld r0,0x4 ++ *[0-9a-f]*: ed be 00 1a bld lr,0x1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef bf 00 00 bst pc,0x0 ++ *[0-9a-f]*: ef bc 00 1f bst r12,0x1f ++ *[0-9a-f]*: ef b5 00 10 bst r5,0x10 ++ *[0-9a-f]*: ef b4 00 0f bst r4,0xf ++ *[0-9a-f]*: ef be 00 01 bst lr,0x1 ++ *[0-9a-f]*: ef ba 00 1c bst r10,0x1c ++ *[0-9a-f]*: ef b0 00 03 bst r0,0x3 ++ *[0-9a-f]*: ef bd 00 02 bst sp,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f1 bf 00 00 sats pc,0x0 ++ *[0-9a-f]*: f1 bc 03 ff sats r12>>0x1f,0x1f ++ *[0-9a-f]*: f1 b5 02 10 sats r5>>0x10,0x10 ++ *[0-9a-f]*: f1 b4 01 ef sats r4>>0xf,0xf ++ *[0-9a-f]*: f1 be 00 21 sats lr>>0x1,0x1 ++ *[0-9a-f]*: f1 ba 02 63 sats r10>>0x3,0x13 ++ *[0-9a-f]*: f1 ba 03 42 sats r10>>0x2,0x1a ++ *[0-9a-f]*: f1 b1 00 34 sats r1>>0x14,0x1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f1 bf 04 00 satu pc,0x0 ++ *[0-9a-f]*: f1 bc 07 ff satu r12>>0x1f,0x1f ++ *[0-9a-f]*: f1 b5 06 10 satu r5>>0x10,0x10 ++ *[0-9a-f]*: f1 b4 05 ef satu r4>>0xf,0xf ++ *[0-9a-f]*: f1 be 04 21 satu lr>>0x1,0x1 ++ *[0-9a-f]*: f1 bf 04 e5 satu pc>>0x5,0x7 ++ *[0-9a-f]*: f1 b7 04 a5 satu r7>>0x5,0x5 ++ *[0-9a-f]*: f1 b2 06 7a satu r2>>0x1a,0x13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f3 bf 00 00 satrnds pc,0x0 ++ *[0-9a-f]*: f3 bc 03 ff satrnds r12>>0x1f,0x1f ++ *[0-9a-f]*: f3 b5 02 10 satrnds r5>>0x10,0x10 ++ *[0-9a-f]*: f3 b4 01 ef satrnds r4>>0xf,0xf ++ *[0-9a-f]*: f3 be 00 21 satrnds lr>>0x1,0x1 ++ *[0-9a-f]*: f3 b0 02 75 satrnds r0>>0x15,0x13 ++ *[0-9a-f]*: f3 bd 00 40 satrnds sp,0x2 ++ *[0-9a-f]*: f3 b7 03 a6 satrnds r7>>0x6,0x1d ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f3 bf 04 00 satrndu pc,0x0 ++ *[0-9a-f]*: f3 bc 07 ff satrndu r12>>0x1f,0x1f ++ *[0-9a-f]*: f3 b5 06 10 satrndu r5>>0x10,0x10 ++ *[0-9a-f]*: f3 b4 05 ef satrndu r4>>0xf,0xf ++ *[0-9a-f]*: f3 be 04 21 satrndu lr>>0x1,0x1 ++ *[0-9a-f]*: f3 bc 07 40 satrndu r12,0x1a ++ *[0-9a-f]*: f3 b4 04 75 satrndu r4>>0x15,0x3 ++ *[0-9a-f]*: f3 ba 06 03 satrndu r10>>0x3,0x10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f5 bf 00 00 subfeq pc,0 ++ *[0-9a-f]*: f5 bc 0f ff subfal r12,-1 ++ *[0-9a-f]*: f5 b5 08 80 subfls r5,-128 ++ *[0-9a-f]*: f5 b4 07 7f subfpl r4,127 ++ *[0-9a-f]*: f5 be 01 01 subfne lr,1 ++ *[0-9a-f]*: f5 ba 08 08 subfls r10,8 ++ *[0-9a-f]*: f5 bb 0d 63 subfvc r11,99 ++ *[0-9a-f]*: f5 b2 0c 49 subfvs r2,73 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f7 bf 00 00 subeq pc,0 ++ *[0-9a-f]*: f7 bc 0f ff subal r12,-1 ++ *[0-9a-f]*: f7 b5 08 80 subls r5,-128 ++ *[0-9a-f]*: f7 b4 07 7f subpl r4,127 ++ *[0-9a-f]*: f7 be 01 01 subne lr,1 ++ *[0-9a-f]*: f7 bc 08 76 subls r12,118 ++ *[0-9a-f]*: f7 be 0d f4 subvc lr,-12 ++ *[0-9a-f]*: f7 b4 06 f3 submi r4,-13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f9 bf 00 00 moveq pc,0 ++ *[0-9a-f]*: f9 bc 0f ff moval r12,-1 ++ *[0-9a-f]*: f9 b5 08 80 movls r5,-128 ++ *[0-9a-f]*: f9 b4 07 7f movpl r4,127 ++ *[0-9a-f]*: f9 be 01 01 movne lr,1 ++ *[0-9a-f]*: f9 b3 05 86 movlt r3,-122 ++ *[0-9a-f]*: f9 b8 0d 02 movvc r8,2 ++ *[0-9a-f]*: f9 b7 01 91 movne r7,-111 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 18 00 cp\.b pc,r0 ++ *[0-9a-f]*: fe 00 18 00 cp\.b r0,pc ++ *[0-9a-f]*: f0 07 18 00 cp\.b r7,r8 ++ *[0-9a-f]*: ee 08 18 00 cp\.b r8,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 19 00 cp\.h pc,r0 ++ *[0-9a-f]*: fe 00 19 00 cp\.h r0,pc ++ *[0-9a-f]*: f0 07 19 00 cp\.h r7,r8 ++ *[0-9a-f]*: ee 08 19 00 cp\.h r8,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 cf 00 7e ldm pc,r1-r6 ++ *[0-9a-f]*: e1 cc ff ff ldm r12,r0-pc ++ *[0-9a-f]*: e1 c5 80 00 ldm r5,pc ++ *[0-9a-f]*: e1 c4 7f ff ldm r4,r0-lr ++ *[0-9a-f]*: e1 ce 00 01 ldm lr,r0 ++ *[0-9a-f]*: e1 c9 40 22 ldm r9,r1,r5,lr ++ *[0-9a-f]*: e1 cb 81 ec ldm r11,r2-r3,r5-r8,pc ++ *[0-9a-f]*: e1 c6 a2 09 ldm r6,r0,r3,r9,sp,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e3 cf 03 c0 ldm pc\+\+,r6-r9 ++ *[0-9a-f]*: e3 cc ff ff ldm r12\+\+,r0-pc ++ *[0-9a-f]*: e3 c5 80 00 ldm r5\+\+,pc ++ *[0-9a-f]*: e3 c4 7f ff ldm r4\+\+,r0-lr ++ *[0-9a-f]*: e3 ce 00 01 ldm lr\+\+,r0 ++ *[0-9a-f]*: e3 cc d5 38 ldm r12\+\+,r3-r5,r8,r10,r12,lr-pc ++ *[0-9a-f]*: e3 ca c0 74 ldm r10\+\+,r2,r4-r6,lr-pc ++ *[0-9a-f]*: e3 c6 7e 1a ldm r6\+\+,r1,r3-r4,r9-lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 cf 01 80 ldmts pc,r7-r8 ++ *[0-9a-f]*: e5 cc ff ff ldmts r12,r0-pc ++ *[0-9a-f]*: e5 c5 80 00 ldmts r5,pc ++ *[0-9a-f]*: e5 c4 7f ff ldmts r4,r0-lr ++ *[0-9a-f]*: e5 ce 00 01 ldmts lr,r0 ++ *[0-9a-f]*: e5 c0 18 06 ldmts r0,r1-r2,r11-r12 ++ *[0-9a-f]*: e5 ce 61 97 ldmts lr,r0-r2,r4,r7-r8,sp-lr ++ *[0-9a-f]*: e5 cc c2 3b ldmts r12,r0-r1,r3-r5,r9,lr-pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e7 cf 02 00 ldmts pc\+\+,r9 ++ *[0-9a-f]*: e7 cc ff ff ldmts r12\+\+,r0-pc ++ *[0-9a-f]*: e7 c5 80 00 ldmts r5\+\+,pc ++ *[0-9a-f]*: e7 c4 7f ff ldmts r4\+\+,r0-lr ++ *[0-9a-f]*: e7 ce 00 01 ldmts lr\+\+,r0 ++ *[0-9a-f]*: e7 cd 0a bd ldmts sp\+\+,r0,r2-r5,r7,r9,r11 ++ *[0-9a-f]*: e7 c5 0c 8e ldmts r5\+\+,r1-r3,r7,r10-r11 ++ *[0-9a-f]*: e7 c8 a1 9c ldmts r8\+\+,r2-r4,r7-r8,sp,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 cf 00 80 stm pc,r7 ++ *[0-9a-f]*: e9 cc ff ff stm r12,r0-pc ++ *[0-9a-f]*: e9 c5 80 00 stm r5,pc ++ *[0-9a-f]*: e9 c4 7f ff stm r4,r0-lr ++ *[0-9a-f]*: e9 ce 00 01 stm lr,r0 ++ *[0-9a-f]*: e9 cd 49 2c stm sp,r2-r3,r5,r8,r11,lr ++ *[0-9a-f]*: e9 c4 4c 5f stm r4,r0-r4,r6,r10-r11,lr ++ *[0-9a-f]*: e9 c9 f2 22 stm r9,r1,r5,r9,r12-pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb cf 00 70 stm --pc,r4-r6 ++ *[0-9a-f]*: eb cc ff ff stm --r12,r0-pc ++ *[0-9a-f]*: eb c5 80 00 stm --r5,pc ++ *[0-9a-f]*: eb c4 7f ff stm --r4,r0-lr ++ *[0-9a-f]*: eb ce 00 01 stm --lr,r0 ++ *[0-9a-f]*: eb cb fb f1 stm --r11,r0,r4-r9,r11-pc ++ *[0-9a-f]*: eb cb 56 09 stm --r11,r0,r3,r9-r10,r12,lr ++ *[0-9a-f]*: eb c6 63 04 stm --r6,r2,r8-r9,sp-lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed cf 01 00 stmts pc,r8 ++ *[0-9a-f]*: ed cc ff ff stmts r12,r0-pc ++ *[0-9a-f]*: ed c5 80 00 stmts r5,pc ++ *[0-9a-f]*: ed c4 7f ff stmts r4,r0-lr ++ *[0-9a-f]*: ed ce 00 01 stmts lr,r0 ++ *[0-9a-f]*: ed c1 c6 5b stmts r1,r0-r1,r3-r4,r6,r9-r10,lr-pc ++ *[0-9a-f]*: ed c3 1d c1 stmts r3,r0,r6-r8,r10-r12 ++ *[0-9a-f]*: ed cb d6 d1 stmts r11,r0,r4,r6-r7,r9-r10,r12,lr-pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef cf 01 c0 stmts --pc,r6-r8 ++ *[0-9a-f]*: ef cc ff ff stmts --r12,r0-pc ++ *[0-9a-f]*: ef c5 80 00 stmts --r5,pc ++ *[0-9a-f]*: ef c4 7f ff stmts --r4,r0-lr ++ *[0-9a-f]*: ef ce 00 01 stmts --lr,r0 ++ *[0-9a-f]*: ef c2 36 19 stmts --r2,r0,r3-r4,r9-r10,r12-sp ++ *[0-9a-f]*: ef c3 c0 03 stmts --r3,r0-r1,lr-pc ++ *[0-9a-f]*: ef c0 44 7d stmts --r0,r0,r2-r6,r10,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 00 00 ldins\.h pc:b,pc\[0\] ++ *[0-9a-f]*: f9 dc 1f ff ldins\.h r12:t,r12\[-2\] ++ *[0-9a-f]*: eb d5 18 00 ldins\.h r5:t,r5\[-4096\] ++ *[0-9a-f]*: e9 d4 07 ff ldins\.h r4:b,r4\[4094\] ++ *[0-9a-f]*: fd de 10 01 ldins\.h lr:t,lr\[2\] ++ *[0-9a-f]*: fd d0 13 c5 ldins\.h r0:t,lr\[1930\] ++ *[0-9a-f]*: ef d3 0e f5 ldins\.h r3:b,r7\[-534\] ++ *[0-9a-f]*: f9 d2 0b 9a ldins\.h r2:b,r12\[-2252\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 40 00 ldins\.b pc:b,pc\[0\] ++ *[0-9a-f]*: f9 dc 7f ff ldins\.b r12:t,r12\[-1\] ++ *[0-9a-f]*: eb d5 68 00 ldins\.b r5:u,r5\[-2048\] ++ *[0-9a-f]*: e9 d4 57 ff ldins\.b r4:l,r4\[2047\] ++ *[0-9a-f]*: fd de 50 01 ldins\.b lr:l,lr\[1\] ++ *[0-9a-f]*: e9 d6 7d 6a ldins\.b r6:t,r4\[-662\] ++ *[0-9a-f]*: e3 d5 4f 69 ldins\.b r5:b,r1\[-151\] ++ *[0-9a-f]*: f7 da 78 7d ldins\.b r10:t,r11\[-1923\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 20 00 ldswp\.sh pc,pc\[0\] ++ *[0-9a-f]*: f9 dc 2f ff ldswp\.sh r12,r12\[-2\] ++ *[0-9a-f]*: eb d5 28 00 ldswp\.sh r5,r5\[-4096\] ++ *[0-9a-f]*: e9 d4 27 ff ldswp\.sh r4,r4\[4094\] ++ *[0-9a-f]*: fd de 20 01 ldswp\.sh lr,lr\[2\] ++ *[0-9a-f]*: f5 d9 27 84 ldswp\.sh r9,r10\[3848\] ++ *[0-9a-f]*: f9 d4 2c 04 ldswp\.sh r4,r12\[-2040\] ++ *[0-9a-f]*: e5 da 26 08 ldswp\.sh r10,r2\[3088\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 30 00 ldswp\.uh pc,pc\[0\] ++ *[0-9a-f]*: f9 dc 3f ff ldswp\.uh r12,r12\[-2\] ++ *[0-9a-f]*: eb d5 38 00 ldswp\.uh r5,r5\[-4096\] ++ *[0-9a-f]*: e9 d4 37 ff ldswp\.uh r4,r4\[4094\] ++ *[0-9a-f]*: fd de 30 01 ldswp\.uh lr,lr\[2\] ++ *[0-9a-f]*: f3 d4 37 46 ldswp\.uh r4,r9\[3724\] ++ *[0-9a-f]*: fb de 3c bc ldswp\.uh lr,sp\[-1672\] ++ *[0-9a-f]*: f9 d8 38 7d ldswp\.uh r8,r12\[-3846\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 80 00 ldswp\.w pc,pc\[0\] ++ *[0-9a-f]*: f9 dc 8f ff ldswp\.w r12,r12\[-4\] ++ *[0-9a-f]*: eb d5 88 00 ldswp\.w r5,r5\[-8192\] ++ *[0-9a-f]*: e9 d4 87 ff ldswp\.w r4,r4\[8188\] ++ *[0-9a-f]*: fd de 80 01 ldswp\.w lr,lr\[4\] ++ *[0-9a-f]*: ef dd 81 d1 ldswp\.w sp,r7\[1860\] ++ *[0-9a-f]*: eb df 8c c1 ldswp\.w pc,r5\[-3324\] ++ *[0-9a-f]*: f5 dc 8c c8 ldswp\.w r12,r10\[-3296\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 90 00 stswp\.h pc\[0\],pc ++ *[0-9a-f]*: f9 dc 9f ff stswp\.h r12\[-2\],r12 ++ *[0-9a-f]*: eb d5 98 00 stswp\.h r5\[-4096\],r5 ++ *[0-9a-f]*: e9 d4 97 ff stswp\.h r4\[4094\],r4 ++ *[0-9a-f]*: fd de 90 01 stswp\.h lr\[2\],lr ++ *[0-9a-f]*: ef da 90 20 stswp\.h r7\[64\],r10 ++ *[0-9a-f]*: f5 d2 95 e8 stswp\.h r10\[3024\],r2 ++ *[0-9a-f]*: e1 da 9b 74 stswp\.h r0\[-2328\],r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df a0 00 stswp\.w pc\[0\],pc ++ *[0-9a-f]*: f9 dc af ff stswp\.w r12\[-4\],r12 ++ *[0-9a-f]*: eb d5 a8 00 stswp\.w r5\[-8192\],r5 ++ *[0-9a-f]*: e9 d4 a7 ff stswp\.w r4\[8188\],r4 ++ *[0-9a-f]*: fd de a0 01 stswp\.w lr\[4\],lr ++ *[0-9a-f]*: ff d8 a1 21 stswp\.w pc\[1156\],r8 ++ *[0-9a-f]*: fb da a7 ce stswp\.w sp\[7992\],r10 ++ *[0-9a-f]*: f1 d5 ae db stswp\.w r8\[-1172\],r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 00 0f and pc,pc,pc ++ *[0-9a-f]*: f9 ec 01 fc and r12,r12,r12<<0x1f ++ *[0-9a-f]*: eb e5 01 05 and r5,r5,r5<<0x10 ++ *[0-9a-f]*: e9 e4 00 f4 and r4,r4,r4<<0xf ++ *[0-9a-f]*: fd ee 00 1e and lr,lr,lr<<0x1 ++ *[0-9a-f]*: e5 e1 00 1a and r10,r2,r1<<0x1 ++ *[0-9a-f]*: f1 eb 01 bc and r12,r8,r11<<0x1b ++ *[0-9a-f]*: ef e0 00 3a and r10,r7,r0<<0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 02 0f and pc,pc,pc ++ *[0-9a-f]*: f9 ec 03 fc and r12,r12,r12>>0x1f ++ *[0-9a-f]*: eb e5 03 05 and r5,r5,r5>>0x10 ++ *[0-9a-f]*: e9 e4 02 f4 and r4,r4,r4>>0xf ++ *[0-9a-f]*: fd ee 02 1e and lr,lr,lr>>0x1 ++ *[0-9a-f]*: f1 e7 03 1c and r12,r8,r7>>0x11 ++ *[0-9a-f]*: e9 e9 03 4f and pc,r4,r9>>0x14 ++ *[0-9a-f]*: f3 ea 02 ca and r10,r9,r10>>0xc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 10 0f or pc,pc,pc ++ *[0-9a-f]*: f9 ec 11 fc or r12,r12,r12<<0x1f ++ *[0-9a-f]*: eb e5 11 05 or r5,r5,r5<<0x10 ++ *[0-9a-f]*: e9 e4 10 f4 or r4,r4,r4<<0xf ++ *[0-9a-f]*: fd ee 10 1e or lr,lr,lr<<0x1 ++ *[0-9a-f]*: fb eb 11 d8 or r8,sp,r11<<0x1d ++ *[0-9a-f]*: f3 e2 11 cf or pc,r9,r2<<0x1c ++ *[0-9a-f]*: e3 e2 10 35 or r5,r1,r2<<0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 12 0f or pc,pc,pc ++ *[0-9a-f]*: f9 ec 13 fc or r12,r12,r12>>0x1f ++ *[0-9a-f]*: eb e5 13 05 or r5,r5,r5>>0x10 ++ *[0-9a-f]*: e9 e4 12 f4 or r4,r4,r4>>0xf ++ *[0-9a-f]*: fd ee 12 1e or lr,lr,lr>>0x1 ++ *[0-9a-f]*: fb ed 12 21 or r1,sp,sp>>0x2 ++ *[0-9a-f]*: e3 e1 13 d0 or r0,r1,r1>>0x1d ++ *[0-9a-f]*: f9 e8 12 84 or r4,r12,r8>>0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 20 0f eor pc,pc,pc ++ *[0-9a-f]*: f9 ec 21 fc eor r12,r12,r12<<0x1f ++ *[0-9a-f]*: eb e5 21 05 eor r5,r5,r5<<0x10 ++ *[0-9a-f]*: e9 e4 20 f4 eor r4,r4,r4<<0xf ++ *[0-9a-f]*: fd ee 20 1e eor lr,lr,lr<<0x1 ++ *[0-9a-f]*: f3 e4 20 ba eor r10,r9,r4<<0xb ++ *[0-9a-f]*: e1 e1 21 f4 eor r4,r0,r1<<0x1f ++ *[0-9a-f]*: e5 ec 20 d6 eor r6,r2,r12<<0xd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 22 0f eor pc,pc,pc ++ *[0-9a-f]*: f9 ec 23 fc eor r12,r12,r12>>0x1f ++ *[0-9a-f]*: eb e5 23 05 eor r5,r5,r5>>0x10 ++ *[0-9a-f]*: e9 e4 22 f4 eor r4,r4,r4>>0xf ++ *[0-9a-f]*: fd ee 22 1e eor lr,lr,lr>>0x1 ++ *[0-9a-f]*: eb e5 23 65 eor r5,r5,r5>>0x16 ++ *[0-9a-f]*: e3 ee 22 3a eor r10,r1,lr>>0x3 ++ *[0-9a-f]*: fd ed 23 a7 eor r7,lr,sp>>0x1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 8f 0f sthh\.w pc\[pc\],pc:b,pc:b ++ *[0-9a-f]*: f9 ec bc 3c sthh\.w r12\[r12<<0x3\],r12:t,r12:t ++ *[0-9a-f]*: eb e5 b5 25 sthh\.w r5\[r5<<0x2\],r5:t,r5:t ++ *[0-9a-f]*: e9 e4 84 14 sthh\.w r4\[r4<<0x1\],r4:b,r4:b ++ *[0-9a-f]*: fd ee be 1e sthh\.w lr\[lr<<0x1\],lr:t,lr:t ++ *[0-9a-f]*: e3 ec b6 3d sthh\.w sp\[r6<<0x3\],r1:t,r12:t ++ *[0-9a-f]*: f3 e9 b6 06 sthh\.w r6\[r6\],r9:t,r9:t ++ *[0-9a-f]*: e1 eb 93 0a sthh\.w r10\[r3\],r0:b,r11:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef c0 0f sthh\.w pc\[0x0\],pc:b,pc:b ++ *[0-9a-f]*: f9 ec ff fc sthh\.w r12\[0x3fc\],r12:t,r12:t ++ *[0-9a-f]*: eb e5 f8 05 sthh\.w r5\[0x200\],r5:t,r5:t ++ *[0-9a-f]*: e9 e4 c7 f4 sthh\.w r4\[0x1fc\],r4:b,r4:b ++ *[0-9a-f]*: fd ee f0 1e sthh\.w lr\[0x4\],lr:t,lr:t ++ *[0-9a-f]*: f3 e0 e6 54 sthh\.w r4\[0x194\],r9:t,r0:b ++ *[0-9a-f]*: e5 ea e5 78 sthh\.w r8\[0x15c\],r2:t,r10:b ++ *[0-9a-f]*: f3 e2 c2 bd sthh\.w sp\[0xac\],r9:b,r2:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 00 00 cop cp0,cr0,cr0,cr0,0x0 ++ *[0-9a-f]*: e7 af ff ff cop cp7,cr15,cr15,cr15,0x7f ++ *[0-9a-f]*: e3 a8 75 55 cop cp3,cr5,cr5,cr5,0x31 ++ *[0-9a-f]*: e3 a8 44 44 cop cp2,cr4,cr4,cr4,0x30 ++ *[0-9a-f]*: e5 ad a8 37 cop cp5,cr8,cr3,cr7,0x5a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 a0 00 00 ldc\.w cp0,cr0,r0\[0x0\] ++ *[0-9a-f]*: e9 af ef ff ldc\.w cp7,cr15,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a5 65 80 ldc\.w cp3,cr5,r5\[0x200\] ++ *[0-9a-f]*: e9 a4 44 7f ldc\.w cp2,cr4,r4\[0x1fc\] ++ *[0-9a-f]*: e9 ad 89 24 ldc\.w cp4,cr9,sp\[0x90\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 40 ldc\.w cp0,cr0,--r0 ++ *[0-9a-f]*: ef af ef 40 ldc\.w cp7,cr15,--pc ++ *[0-9a-f]*: ef a5 65 40 ldc\.w cp3,cr5,--r5 ++ *[0-9a-f]*: ef a4 44 40 ldc\.w cp2,cr4,--r4 ++ *[0-9a-f]*: ef ad 89 40 ldc\.w cp4,cr9,--sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 00 ldc\.w cp0,cr0,r0\[r0\] ++ *[0-9a-f]*: ef af ff 3f ldc\.w cp7,cr15,pc\[pc<<0x3\] ++ *[0-9a-f]*: ef a5 75 24 ldc\.w cp3,cr5,r5\[r4<<0x2\] ++ *[0-9a-f]*: ef a4 54 13 ldc\.w cp2,cr4,r4\[r3<<0x1\] ++ *[0-9a-f]*: ef ad 99 0c ldc\.w cp4,cr9,sp\[r12\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 a0 10 00 ldc\.d cp0,cr0,r0\[0x0\] ++ *[0-9a-f]*: e9 af fe ff ldc\.d cp7,cr14,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a5 76 80 ldc\.d cp3,cr6,r5\[0x200\] ++ *[0-9a-f]*: e9 a4 54 7f ldc\.d cp2,cr4,r4\[0x1fc\] ++ *[0-9a-f]*: e9 ad 98 24 ldc\.d cp4,cr8,sp\[0x90\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 50 ldc\.d cp0,cr0,--r0 ++ *[0-9a-f]*: ef af ee 50 ldc\.d cp7,cr14,--pc ++ *[0-9a-f]*: ef a5 66 50 ldc\.d cp3,cr6,--r5 ++ *[0-9a-f]*: ef a4 44 50 ldc\.d cp2,cr4,--r4 ++ *[0-9a-f]*: ef ad 88 50 ldc\.d cp4,cr8,--sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 40 ldc\.d cp0,cr0,r0\[r0\] ++ *[0-9a-f]*: ef af fe 7f ldc\.d cp7,cr14,pc\[pc<<0x3\] ++ *[0-9a-f]*: ef a5 76 64 ldc\.d cp3,cr6,r5\[r4<<0x2\] ++ *[0-9a-f]*: ef a4 54 53 ldc\.d cp2,cr4,r4\[r3<<0x1\] ++ *[0-9a-f]*: ef ad 98 4c ldc\.d cp4,cr8,sp\[r12\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb a0 00 00 stc\.w cp0,r0\[0x0\],cr0 ++ *[0-9a-f]*: eb af ef ff stc\.w cp7,pc\[0x3fc\],cr15 ++ *[0-9a-f]*: eb a5 65 80 stc\.w cp3,r5\[0x200\],cr5 ++ *[0-9a-f]*: eb a4 44 7f stc\.w cp2,r4\[0x1fc\],cr4 ++ *[0-9a-f]*: eb ad 89 24 stc\.w cp4,sp\[0x90\],cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 60 stc\.w cp0,r0\+\+,cr0 ++ *[0-9a-f]*: ef af ef 60 stc\.w cp7,pc\+\+,cr15 ++ *[0-9a-f]*: ef a5 65 60 stc\.w cp3,r5\+\+,cr5 ++ *[0-9a-f]*: ef a4 44 60 stc\.w cp2,r4\+\+,cr4 ++ *[0-9a-f]*: ef ad 89 60 stc\.w cp4,sp\+\+,cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 80 stc\.w cp0,r0\[r0\],cr0 ++ *[0-9a-f]*: ef af ff bf stc\.w cp7,pc\[pc<<0x3\],cr15 ++ *[0-9a-f]*: ef a5 75 a4 stc\.w cp3,r5\[r4<<0x2\],cr5 ++ *[0-9a-f]*: ef a4 54 93 stc\.w cp2,r4\[r3<<0x1\],cr4 ++ *[0-9a-f]*: ef ad 99 8c stc\.w cp4,sp\[r12\],cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb a0 10 00 stc\.d cp0,r0\[0x0\],cr0 ++ *[0-9a-f]*: eb af fe ff stc\.d cp7,pc\[0x3fc\],cr14 ++ *[0-9a-f]*: eb a5 76 80 stc\.d cp3,r5\[0x200\],cr6 ++ *[0-9a-f]*: eb a4 54 7f stc\.d cp2,r4\[0x1fc\],cr4 ++ *[0-9a-f]*: eb ad 98 24 stc\.d cp4,sp\[0x90\],cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 70 stc\.d cp0,r0\+\+,cr0 ++ *[0-9a-f]*: ef af ee 70 stc\.d cp7,pc\+\+,cr14 ++ *[0-9a-f]*: ef a5 66 70 stc\.d cp3,r5\+\+,cr6 ++ *[0-9a-f]*: ef a4 44 70 stc\.d cp2,r4\+\+,cr4 ++ *[0-9a-f]*: ef ad 88 70 stc\.d cp4,sp\+\+,cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 c0 stc\.d cp0,r0\[r0\],cr0 ++ *[0-9a-f]*: ef af fe ff stc\.d cp7,pc\[pc<<0x3\],cr14 ++ *[0-9a-f]*: ef a5 76 e4 stc\.d cp3,r5\[r4<<0x2\],cr6 ++ *[0-9a-f]*: ef a4 54 d3 stc\.d cp2,r4\[r3<<0x1\],cr4 ++ *[0-9a-f]*: ef ad 98 cc stc\.d cp4,sp\[r12\],cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f1 a0 00 00 ldc0\.w cr0,r0\[0x0\] ++ *[0-9a-f]*: f1 af ff ff ldc0\.w cr15,pc\[0x3ffc\] ++ *[0-9a-f]*: f1 a5 85 00 ldc0\.w cr5,r5\[0x2000\] ++ *[0-9a-f]*: f1 a4 74 ff ldc0\.w cr4,r4\[0x1ffc\] ++ *[0-9a-f]*: f1 ad 09 93 ldc0\.w cr9,sp\[0x24c\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f3 a0 00 00 ldc0\.d cr0,r0\[0x0\] ++ *[0-9a-f]*: f3 af fe ff ldc0\.d cr14,pc\[0x3ffc\] ++ *[0-9a-f]*: f3 a5 86 00 ldc0\.d cr6,r5\[0x2000\] ++ *[0-9a-f]*: f3 a4 74 ff ldc0\.d cr4,r4\[0x1ffc\] ++ *[0-9a-f]*: f3 ad 08 93 ldc0\.d cr8,sp\[0x24c\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f5 a0 00 00 stc0\.w r0\[0x0\],cr0 ++ *[0-9a-f]*: f5 af ff ff stc0\.w pc\[0x3ffc\],cr15 ++ *[0-9a-f]*: f5 a5 85 00 stc0\.w r5\[0x2000\],cr5 ++ *[0-9a-f]*: f5 a4 74 ff stc0\.w r4\[0x1ffc\],cr4 ++ *[0-9a-f]*: f5 ad 09 93 stc0\.w sp\[0x24c\],cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f7 a0 00 00 stc0\.d r0\[0x0\],cr0 ++ *[0-9a-f]*: f7 af fe ff stc0\.d pc\[0x3ffc\],cr14 ++ *[0-9a-f]*: f7 a5 86 00 stc0\.d r5\[0x2000\],cr6 ++ *[0-9a-f]*: f7 a4 74 ff stc0\.d r4\[0x1ffc\],cr4 ++ *[0-9a-f]*: f7 ad 08 93 stc0\.d sp\[0x24c\],cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f6 10 00 00 memc 0,0x0 ++ *[0-9a-f]*: f6 1f ff ff memc -4,0x1f ++ *[0-9a-f]*: f6 18 40 00 memc -65536,0x10 ++ *[0-9a-f]*: f6 17 bf ff memc 65532,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f8 10 00 00 mems 0,0x0 ++ *[0-9a-f]*: f8 1f ff ff mems -4,0x1f ++ *[0-9a-f]*: f8 18 40 00 mems -65536,0x10 ++ *[0-9a-f]*: f8 17 bf ff mems 65532,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fa 10 00 00 memt 0,0x0 ++ *[0-9a-f]*: fa 1f ff ff memt -4,0x1f ++ *[0-9a-f]*: fa 18 40 00 memt -65536,0x10 ++ *[0-9a-f]*: fa 17 bf ff memt 65532,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 70 00 00 stcond r0\[0\],r0 ++ *[0-9a-f]*: ff 7f ff ff stcond pc\[-1\],pc ++ *[0-9a-f]*: f1 77 80 00 stcond r8\[-32768\],r7 ++ *[0-9a-f]*: ef 78 7f ff stcond r7\[32767\],r8 ++ *[0-9a-f]*: eb 7a 12 34 stcond r5\[4660\],r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 00 ff ldcm\.w cp0,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 e0 01 ldcm\.w cp7,r0,cr0 ++ *[0-9a-f]*: ed a4 90 7f ldcm\.w cp4,r4\+\+,cr0-cr6 ++ *[0-9a-f]*: ed a7 60 80 ldcm\.w cp3,r7,cr7 ++ *[0-9a-f]*: ed ac 30 72 ldcm\.w cp1,r12\+\+,cr1,cr4-cr6 ++ *[0-9a-f]*: ed af 01 ff ldcm\.w cp0,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 e1 01 ldcm\.w cp7,r0,cr8 ++ *[0-9a-f]*: ed a4 91 7f ldcm\.w cp4,r4\+\+,cr8-cr14 ++ *[0-9a-f]*: ed a7 61 80 ldcm\.w cp3,r7,cr15 ++ *[0-9a-f]*: ed ac 31 72 ldcm\.w cp1,r12\+\+,cr9,cr12-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 04 ff ldcm\.d cp0,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 e4 01 ldcm\.d cp7,r0,cr0-cr1 ++ *[0-9a-f]*: ed a4 94 7f ldcm\.d cp4,r4\+\+,cr0-cr13 ++ *[0-9a-f]*: ed a7 64 80 ldcm\.d cp3,r7,cr14-cr15 ++ *[0-9a-f]*: ed ac 54 93 ldcm\.d cp2,r12\+\+,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 02 ff stcm\.w cp0,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 e2 01 stcm\.w cp7,r0,cr0 ++ *[0-9a-f]*: ed a4 92 7f stcm\.w cp4,--r4,cr0-cr6 ++ *[0-9a-f]*: ed a7 62 80 stcm\.w cp3,r7,cr7 ++ *[0-9a-f]*: ed ac 32 72 stcm\.w cp1,--r12,cr1,cr4-cr6 ++ *[0-9a-f]*: ed af 03 ff stcm\.w cp0,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 e3 01 stcm\.w cp7,r0,cr8 ++ *[0-9a-f]*: ed a4 93 7f stcm\.w cp4,--r4,cr8-cr14 ++ *[0-9a-f]*: ed a7 63 80 stcm\.w cp3,r7,cr15 ++ *[0-9a-f]*: ed ac 33 72 stcm\.w cp1,--r12,cr9,cr12-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 05 ff stcm\.d cp0,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 e5 01 stcm\.d cp7,r0,cr0-cr1 ++ *[0-9a-f]*: ed a4 95 7f stcm\.d cp4,--r4,cr0-cr13 ++ *[0-9a-f]*: ed a7 65 80 stcm\.d cp3,r7,cr14-cr15 ++ *[0-9a-f]*: ed ac 55 93 stcm\.d cp2,--r12,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef af ef 00 mvcr\.w cp7,pc,cr15 ++ *[0-9a-f]*: ef a0 00 00 mvcr\.w cp0,r0,cr0 ++ *[0-9a-f]*: ef af 0f 00 mvcr\.w cp0,pc,cr15 ++ *[0-9a-f]*: ef a0 ef 00 mvcr\.w cp7,r0,cr15 ++ *[0-9a-f]*: ef af e0 00 mvcr\.w cp7,pc,cr0 ++ *[0-9a-f]*: ef a7 88 00 mvcr\.w cp4,r7,cr8 ++ *[0-9a-f]*: ef a8 67 00 mvcr\.w cp3,r8,cr7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef ae ee 10 mvcr\.d cp7,lr,cr14 ++ *[0-9a-f]*: ef a0 00 10 mvcr\.d cp0,r0,cr0 ++ *[0-9a-f]*: ef ae 0e 10 mvcr\.d cp0,lr,cr14 ++ *[0-9a-f]*: ef a0 ee 10 mvcr\.d cp7,r0,cr14 ++ *[0-9a-f]*: ef ae e0 10 mvcr\.d cp7,lr,cr0 ++ *[0-9a-f]*: ef a6 88 10 mvcr\.d cp4,r6,cr8 ++ *[0-9a-f]*: ef a8 66 10 mvcr\.d cp3,r8,cr6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef af ef 20 mvrc\.w cp7,cr15,pc ++ *[0-9a-f]*: ef a0 00 20 mvrc\.w cp0,cr0,r0 ++ *[0-9a-f]*: ef af 0f 20 mvrc\.w cp0,cr15,pc ++ *[0-9a-f]*: ef a0 ef 20 mvrc\.w cp7,cr15,r0 ++ *[0-9a-f]*: ef af e0 20 mvrc\.w cp7,cr0,pc ++ *[0-9a-f]*: ef a7 88 20 mvrc\.w cp4,cr8,r7 ++ *[0-9a-f]*: ef a8 67 20 mvrc\.w cp3,cr7,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef ae ee 30 mvrc\.d cp7,cr14,lr ++ *[0-9a-f]*: ef a0 00 30 mvrc\.d cp0,cr0,r0 ++ *[0-9a-f]*: ef ae 0e 30 mvrc\.d cp0,cr14,lr ++ *[0-9a-f]*: ef a0 ee 30 mvrc\.d cp7,cr14,r0 ++ *[0-9a-f]*: ef ae e0 30 mvrc\.d cp7,cr0,lr ++ *[0-9a-f]*: ef a6 88 30 mvrc\.d cp4,cr8,r6 ++ *[0-9a-f]*: ef a8 66 30 mvrc\.d cp3,cr6,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df b3 ff bfexts pc,pc,0x1f,0x1f ++ *[0-9a-f]*: e1 d0 b0 00 bfexts r0,r0,0x0,0x0 ++ *[0-9a-f]*: e1 df b3 ff bfexts r0,pc,0x1f,0x1f ++ *[0-9a-f]*: ff d0 b3 ff bfexts pc,r0,0x1f,0x1f ++ *[0-9a-f]*: ff df b0 1f bfexts pc,pc,0x0,0x1f ++ *[0-9a-f]*: ff df b3 e0 bfexts pc,pc,0x1f,0x0 ++ *[0-9a-f]*: ef d8 b1 f0 bfexts r7,r8,0xf,0x10 ++ *[0-9a-f]*: f1 d7 b2 0f bfexts r8,r7,0x10,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df c3 ff bfextu pc,pc,0x1f,0x1f ++ *[0-9a-f]*: e1 d0 c0 00 bfextu r0,r0,0x0,0x0 ++ *[0-9a-f]*: e1 df c3 ff bfextu r0,pc,0x1f,0x1f ++ *[0-9a-f]*: ff d0 c3 ff bfextu pc,r0,0x1f,0x1f ++ *[0-9a-f]*: ff df c0 1f bfextu pc,pc,0x0,0x1f ++ *[0-9a-f]*: ff df c3 e0 bfextu pc,pc,0x1f,0x0 ++ *[0-9a-f]*: ef d8 c1 f0 bfextu r7,r8,0xf,0x10 ++ *[0-9a-f]*: f1 d7 c2 0f bfextu r8,r7,0x10,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df d3 ff bfins pc,pc,0x1f,0x1f ++ *[0-9a-f]*: e1 d0 d0 00 bfins r0,r0,0x0,0x0 ++ *[0-9a-f]*: e1 df d3 ff bfins r0,pc,0x1f,0x1f ++ *[0-9a-f]*: ff d0 d3 ff bfins pc,r0,0x1f,0x1f ++ *[0-9a-f]*: ff df d0 1f bfins pc,pc,0x0,0x1f ++ *[0-9a-f]*: ff df d3 e0 bfins pc,pc,0x1f,0x0 ++ *[0-9a-f]*: ef d8 d1 f0 bfins r7,r8,0xf,0x10 ++ *[0-9a-f]*: f1 d7 d2 0f bfins r8,r7,0x10,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fb bf 00 00 rsubeq pc,0 ++ *[0-9a-f]*: fb bc 0f ff rsubal r12,-1 ++ *[0-9a-f]*: fb b5 08 80 rsubls r5,-128 ++ *[0-9a-f]*: fb b4 07 7f rsubpl r4,127 ++ *[0-9a-f]*: fb be 01 01 rsubne lr,1 ++ *[0-9a-f]*: fb bc 08 76 rsubls r12,118 ++ *[0-9a-f]*: fb be 0d f4 rsubvc lr,-12 ++ *[0-9a-f]*: fb b4 06 f3 rsubmi r4,-13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 0f addeq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 0c addal r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 05 addls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 04 addpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 0e addne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 0a addls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 0c addvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 0a addmi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 1f subeq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 1c subal r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 15 subls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 14 subpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 1e subne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 1a subls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 1c subvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 1a submi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 2f andeq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 2c andal r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 25 andls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 24 andpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 2e andne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 2a andls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 2c andvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 2a andmi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 3f oreq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 3c oral r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 35 orls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 34 orpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 3e orne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 3a orls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 3c orvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 3a ormi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 4f eoreq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 4c eoral r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 45 eorls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 44 eorpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 4e eorne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 4a eorls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 4c eorvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 4a eormi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ff 01 ff ld.weq pc,pc[0x7fc] ++ *[0-9a-f]*: f9 fc f3 ff ld.shal r12,r12[0x3fe] ++ *[0-9a-f]*: eb f5 84 00 ld.shls r5,r5[0x0] ++ *[0-9a-f]*: e9 f4 79 ff ld.ubpl r4,r4[0x1ff] ++ *[0-9a-f]*: fd fe 16 00 ld.sbne lr,lr[0x0] ++ *[0-9a-f]*: e5 fa 80 00 ld.wls r10,r2[0x0] ++ *[0-9a-f]*: f1 fc d3 ff ld.shvc r12,r8[0x3fe] ++ *[0-9a-f]*: ef fa 68 01 ld.ubmi r10,r7[0x1] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ff 0b ff st.weq pc[0x7fc],pc ++ *[0-9a-f]*: f9 fc fd ff st.hal r12[0x3fe],r12 ++ *[0-9a-f]*: eb f5 8c 00 st.hls r5[0x0],r5 ++ *[0-9a-f]*: e9 f4 7f ff st.bpl r4[0x1ff],r4 ++ *[0-9a-f]*: fd fe 1e 00 st.bne lr[0x0],lr ++ *[0-9a-f]*: e5 fa 8a 00 st.wls r2[0x0],r10 ++ *[0-9a-f]*: f1 fc dd ff st.hvc r8[0x3fe],r12 ++ *[0-9a-f]*: ef fa 6e 01 st.bmi r7[0x1],r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fc 1f ff ff movh pc,0xffff ++ *[0-9a-f]*: fc 10 00 00 movh r0,0x0 ++ *[0-9a-f]*: fc 15 00 01 movh r5,0x1 ++ *[0-9a-f]*: fc 1c 7f ff movh r12,0x7fff ++ +--- /dev/null ++++ b/gas/testsuite/gas/avr32/allinsn.exp +@@ -0,0 +1,5 @@ ++# AVR32 assembler testsuite. -*- Tcl -*- ++ ++if [istarget avr32-*-*] { ++ run_dump_test "allinsn" ++} +--- /dev/null ++++ b/gas/testsuite/gas/avr32/allinsn.s +@@ -0,0 +1,3330 @@ ++ .data ++foodata: .word 42 ++ .text ++footext: ++ .text ++ .global ld_d5 ++ld_d5: ++ ld.d lr,pc[pc<<3] ++ ld.d r0,r0[r0<<0] ++ ld.d r6,r5[r5<<2] ++ ld.d r4,r4[r4<<1] ++ ld.d lr,lr[lr<<1] ++ ld.d r10,r3[sp<<2] ++ ld.d r8,r10[r6<<2] ++ ld.d r2,r7[r9<<0] ++ .text ++ .global ld_w5 ++ld_w5: ++ ld.w pc,pc[pc<<0] ++ ld.w r12,r12[r12<<3] ++ ld.w r5,r5[r5<<2] ++ ld.w r4,r4[r4<<1] ++ ld.w lr,lr[lr<<1] ++ ld.w r2,r9[r9<<0] ++ ld.w r11,r2[r6<<0] ++ ld.w r0,r2[sp<<3] ++ .text ++ .global ld_sh5 ++ld_sh5: ++ ld.sh pc,pc[pc<<0] ++ ld.sh r12,r12[r12<<3] ++ ld.sh r5,r5[r5<<2] ++ ld.sh r4,r4[r4<<1] ++ ld.sh lr,lr[lr<<1] ++ ld.sh r11,r0[pc<<2] ++ ld.sh r10,sp[r6<<2] ++ ld.sh r12,r2[r2<<0] ++ .text ++ .global ld_uh5 ++ld_uh5: ++ ld.uh pc,pc[pc<<0] ++ ld.uh r12,r12[r12<<3] ++ ld.uh r5,r5[r5<<2] ++ ld.uh r4,r4[r4<<1] ++ ld.uh lr,lr[lr<<1] ++ ld.uh r8,pc[lr<<3] ++ ld.uh r6,r1[pc<<1] ++ ld.uh r6,lr[sp<<1] ++ .text ++ .global ld_sb2 ++ld_sb2: ++ ld.sb pc,pc[pc<<0] ++ ld.sb r12,r12[r12<<3] ++ ld.sb r5,r5[r5<<2] ++ ld.sb r4,r4[r4<<1] ++ ld.sb lr,lr[lr<<1] ++ ld.sb r9,r1[pc<<3] ++ ld.sb r0,r3[r11<<1] ++ ld.sb r10,r5[r5<<1] ++ .text ++ .global ld_ub5 ++ld_ub5: ++ ld.ub pc,pc[pc<<0] ++ ld.ub r12,r12[r12<<3] ++ ld.ub r5,r5[r5<<2] ++ ld.ub r4,r4[r4<<1] ++ ld.ub lr,lr[lr<<1] ++ ld.ub r6,r12[r7<<3] ++ ld.ub r2,r6[r12<<0] ++ ld.ub r0,r7[r11<<1] ++ .text ++ .global st_d5 ++st_d5: ++ st.d pc[pc<<0],r14 ++ st.d r12[r12<<3],r12 ++ st.d r5[r5<<2],r6 ++ st.d r4[r4<<1],r4 ++ st.d lr[lr<<1],lr ++ st.d r1[r9<<1],r4 ++ st.d r10[r2<<1],r4 ++ st.d r12[r6<<0],lr ++ .text ++ .global st_w5 ++st_w5: ++ st.w pc[pc<<0],pc ++ st.w r12[r12<<3],r12 ++ st.w r5[r5<<2],r5 ++ st.w r4[r4<<1],r4 ++ st.w lr[lr<<1],lr ++ st.w r1[r10<<0],r3 ++ st.w r0[r10<<1],r9 ++ st.w r4[r5<<3],pc ++ .text ++ .global st_h5 ++st_h5: ++ st.h pc[pc<<0],pc ++ st.h r12[r12<<3],r12 ++ st.h r5[r5<<2],r5 ++ st.h r4[r4<<1],r4 ++ st.h lr[lr<<1],lr ++ st.h r2[r9<<0],r11 ++ st.h r5[r1<<2],r12 ++ st.h pc[r8<<2],r3 ++ .text ++ .global st_b5 ++st_b5: ++ st.b pc[pc<<0],pc ++ st.b r12[r12<<3],r12 ++ st.b r5[r5<<2],r5 ++ st.b r4[r4<<1],r4 ++ st.b lr[lr<<1],lr ++ st.b r1[r8<<1],r6 ++ st.b lr[lr<<3],r1 ++ st.b r5[r0<<2],pc ++ .text ++ .global divs ++divs: ++ divs pc,pc,pc ++ divs r12,r12,r12 ++ divs r5,r5,r5 ++ divs r4,r4,r4 ++ divs lr,lr,lr ++ divs r3,pc,pc ++ divs r9,r12,r2 ++ divs r7,r4,r1 ++ .text ++ .global add1 ++add1: ++ add pc,pc ++ add r12,r12 ++ add r5,r5 ++ add r4,r4 ++ add lr,lr ++ add r12,r9 ++ add r6,r3 ++ add r10,r12 ++ .text ++ .global sub1 ++sub1: ++ sub pc,pc ++ sub r12,r12 ++ sub r5,r5 ++ sub r4,r4 ++ sub lr,lr ++ sub lr,r6 ++ sub r0,sp ++ sub r6,r12 ++ .text ++ .global rsub1 ++rsub1: ++ rsub pc,pc ++ rsub r12,r12 ++ rsub r5,r5 ++ rsub r4,r4 ++ rsub lr,lr ++ rsub r11,sp ++ rsub r7,r4 ++ rsub r9,r1 ++ .text ++ .global cp1 ++cp1: ++ cp pc,pc ++ cp r12,r12 ++ cp r5,r5 ++ cp r4,r4 ++ cp lr,lr ++ cp r6,r2 ++ cp r0,r9 ++ cp r3,sp ++ .text ++ .global or1 ++or1: ++ or pc,pc ++ or r12,r12 ++ or r5,r5 ++ or r4,r4 ++ or lr,lr ++ or r4,r9 ++ or r11,r4 ++ or r4,r0 ++ .text ++ .global eor1 ++eor1: ++ eor pc,pc ++ eor r12,r12 ++ eor r5,r5 ++ eor r4,r4 ++ eor lr,lr ++ eor r12,r11 ++ eor r0,r1 ++ eor r5,pc ++ .text ++ .global and1 ++and1: ++ and pc,pc ++ and r12,r12 ++ and r5,r5 ++ and r4,r4 ++ and lr,lr ++ and r8,r1 ++ and r0,sp ++ and r10,r5 ++ .text ++ .global tst ++tst: ++ tst pc,pc ++ tst r12,r12 ++ tst r5,r5 ++ tst r4,r4 ++ tst lr,lr ++ tst r0,r12 ++ tst r10,r6 ++ tst sp,r4 ++ .text ++ .global andn ++andn: ++ andn pc,pc ++ andn r12,r12 ++ andn r5,r5 ++ andn r4,r4 ++ andn lr,lr ++ andn r9,r12 ++ andn r11,sp ++ andn r12,r5 ++ .text ++ .global mov3 ++mov3: ++ mov pc,pc ++ mov r12,r12 ++ mov r5,r5 ++ mov r4,r4 ++ mov lr,lr ++ mov r5,r9 ++ mov r11,r11 ++ mov r2,lr ++ .text ++ .global st_w1 ++st_w1: ++ st.w pc++,pc ++ st.w r12++,r12 ++ st.w r5++,r5 ++ st.w r4++,r4 ++ st.w lr++,lr ++ st.w r1++,r11 ++ st.w sp++,r0 ++ st.w sp++,r1 ++ .text ++ .global st_h1 ++st_h1: ++ st.h pc++,pc ++ st.h r12++,r12 ++ st.h r5++,r5 ++ st.h r4++,r4 ++ st.h lr++,lr ++ st.h r12++,sp ++ st.h r7++,lr ++ st.h r7++,r4 ++ .text ++ .global st_b1 ++st_b1: ++ st.b pc++,pc ++ st.b r12++,r12 ++ st.b r5++,r5 ++ st.b r4++,r4 ++ st.b lr++,lr ++ st.b r9++,sp ++ st.b r1++,sp ++ st.b r0++,r4 ++ .text ++ .global st_w2 ++st_w2: ++ st.w --pc,pc ++ st.w --r12,r12 ++ st.w --r5,r5 ++ st.w --r4,r4 ++ st.w --lr,lr ++ st.w --r1,r7 ++ st.w --r3,r9 ++ st.w --r5,r5 ++ .text ++ .global st_h2 ++st_h2: ++ st.h --pc,pc ++ st.h --r12,r12 ++ st.h --r5,r5 ++ st.h --r4,r4 ++ st.h --lr,lr ++ st.h --r5,r7 ++ st.h --r8,r8 ++ st.h --r7,r2 ++ .text ++ .global st_b2 ++st_b2: ++ st.b --pc,pc ++ st.b --r12,r12 ++ st.b --r5,r5 ++ st.b --r4,r4 ++ st.b --lr,lr ++ st.b --sp,sp ++ st.b --sp,r11 ++ st.b --r4,r5 ++ .text ++ .global ld_w1 ++ld_w1: ++ ld.w pc,pc++ ++ ld.w r12,r12++ ++ ld.w r5,r5++ ++ ld.w r4,r4++ ++ ld.w lr,lr++ ++ ld.w r3,r7++ ++ ld.w r3,lr++ ++ ld.w r12,r5++ ++ .text ++ .global ld_sh1 ++ld_sh1: ++ ld.sh pc,pc++ ++ ld.sh r12,r12++ ++ ld.sh r5,r5++ ++ ld.sh r4,r4++ ++ ld.sh lr,lr++ ++ ld.sh r11,r2++ ++ ld.sh r2,r8++ ++ ld.sh r7,r6++ ++ .text ++ .global ld_uh1 ++ld_uh1: ++ ld.uh pc,pc++ ++ ld.uh r12,r12++ ++ ld.uh r5,r5++ ++ ld.uh r4,r4++ ++ ld.uh lr,lr++ ++ ld.uh r6,r7++ ++ ld.uh r10,r11++ ++ ld.uh lr,r4++ ++ .text ++ .global ld_ub1 ++ld_ub1: ++ ld.ub pc,pc++ ++ ld.ub r12,r12++ ++ ld.ub r5,r5++ ++ ld.ub r4,r4++ ++ ld.ub lr,lr++ ++ ld.ub r8,lr++ ++ ld.ub r12,r12++ ++ ld.ub r11,r10++ ++ .text ++ .global ld_w2 ++ld_w2: ++ ld.w pc,--pc ++ ld.w r12,--r12 ++ ld.w r5,--r5 ++ ld.w r4,--r4 ++ ld.w lr,--lr ++ ld.w r10,--lr ++ ld.w r12,--r9 ++ ld.w r6,--r5 ++ .text ++ .global ld_sh2 ++ld_sh2: ++ ld.sh pc,--pc ++ ld.sh r12,--r12 ++ ld.sh r5,--r5 ++ ld.sh r4,--r4 ++ ld.sh lr,--lr ++ ld.sh pc,--r10 ++ ld.sh r6,--r3 ++ ld.sh r4,--r6 ++ .text ++ .global ld_uh2 ++ld_uh2: ++ ld.uh pc,--pc ++ ld.uh r12,--r12 ++ ld.uh r5,--r5 ++ ld.uh r4,--r4 ++ ld.uh lr,--lr ++ ld.uh r3,--r2 ++ ld.uh r1,--r0 ++ ld.uh r2,--r9 ++ .text ++ .global ld_ub2 ++ld_ub2: ++ ld.ub pc,--pc ++ ld.ub r12,--r12 ++ ld.ub r5,--r5 ++ ld.ub r4,--r4 ++ ld.ub lr,--lr ++ ld.ub r1,--r1 ++ ld.ub r0,--r6 ++ ld.ub r2,--r7 ++ .text ++ .global ld_ub3 ++ld_ub3: ++ ld.ub pc,pc[0] ++ ld.ub r12,r12[7] ++ ld.ub r5,r5[4] ++ ld.ub r4,r4[3] ++ ld.ub lr,lr[1] ++ ld.ub r6,r9[6] ++ ld.ub r2,lr[4] ++ ld.ub r1,r8[0] ++ .text ++ .global sub3_sp ++sub3_sp: ++ sub sp,0 ++ sub sp,-4 ++ sub sp,-512 ++ sub sp,508 ++ sub sp,4 ++ sub sp,44 ++ sub sp,8 ++ sub sp,348 ++ .text ++ .global sub3 ++sub3: ++ sub pc,0 ++ sub r12,-1 ++ sub r5,-128 ++ sub r4,127 ++ sub lr,1 ++ sub r6,-41 ++ sub r4,37 ++ sub r12,56 ++ .text ++ .global mov1 ++mov1: ++ mov pc,0 ++ mov r12,-1 ++ mov r5,-128 ++ mov r4,127 ++ mov lr,1 ++ mov pc,14 ++ mov r6,-100 ++ mov lr,-122 ++ .text ++ .global lddsp ++lddsp: ++ lddsp pc,sp[0] ++ lddsp r12,sp[508] ++ lddsp r5,sp[256] ++ lddsp r4,sp[252] ++ lddsp lr,sp[4] ++ lddsp lr,sp[256] ++ lddsp r12,sp[20] ++ lddsp r9,sp[472] ++ .text ++ .global lddpc ++lddpc: ++ lddpc pc,pc[0] ++ lddpc r0,pc[508] ++ lddpc r8,pc[256] ++ lddpc r7,pc[252] ++ lddpc lr,pc[4] ++ lddpc sp,pc[472] ++ lddpc r6,pc[120] ++ lddpc r11,pc[28] ++ .text ++ .global stdsp ++stdsp: ++ stdsp sp[0],pc ++ stdsp sp[508],r12 ++ stdsp sp[256],r5 ++ stdsp sp[252],r4 ++ stdsp sp[4],lr ++ stdsp sp[304],pc ++ stdsp sp[256],r0 ++ stdsp sp[336],r5 ++ .text ++ .global cp2 ++cp2: ++ cp pc,0 ++ cp r12,-1 ++ cp r5,-32 ++ cp r4,31 ++ cp lr,1 ++ cp r8,3 ++ cp lr,16 ++ cp r7,-26 ++ .text ++ .global acr ++acr: ++ acr pc ++ acr r12 ++ acr r5 ++ acr r4 ++ acr lr ++ acr r2 ++ acr r12 ++ acr pc ++ .text ++ .global scr ++scr: ++ scr pc ++ scr r12 ++ scr r5 ++ scr r4 ++ scr lr ++ scr pc ++ scr r6 ++ scr r1 ++ .text ++ .global cpc0 ++cpc0: ++ cpc pc ++ cpc r12 ++ cpc r5 ++ cpc r4 ++ cpc lr ++ cpc pc ++ cpc r4 ++ cpc r9 ++ .text ++ .global neg ++neg: ++ neg pc ++ neg r12 ++ neg r5 ++ neg r4 ++ neg lr ++ neg r7 ++ neg r1 ++ neg r9 ++ .text ++ .global abs ++abs: ++ abs pc ++ abs r12 ++ abs r5 ++ abs r4 ++ abs lr ++ abs r6 ++ abs r6 ++ abs r4 ++ .text ++ .global castu_b ++castu_b: ++ castu.b pc ++ castu.b r12 ++ castu.b r5 ++ castu.b r4 ++ castu.b lr ++ castu.b r7 ++ castu.b sp ++ castu.b r9 ++ .text ++ .global casts_b ++casts_b: ++ casts.b pc ++ casts.b r12 ++ casts.b r5 ++ casts.b r4 ++ casts.b lr ++ casts.b r11 ++ casts.b r1 ++ casts.b r10 ++ .text ++ .global castu_h ++castu_h: ++ castu.h pc ++ castu.h r12 ++ castu.h r5 ++ castu.h r4 ++ castu.h lr ++ castu.h r10 ++ castu.h r11 ++ castu.h r1 ++ .text ++ .global casts_h ++casts_h: ++ casts.h pc ++ casts.h r12 ++ casts.h r5 ++ casts.h r4 ++ casts.h lr ++ casts.h r0 ++ casts.h r5 ++ casts.h r9 ++ .text ++ .global brev ++brev: ++ brev pc ++ brev r12 ++ brev r5 ++ brev r4 ++ brev lr ++ brev r5 ++ brev r10 ++ brev r8 ++ .text ++ .global swap_h ++swap_h: ++ swap.h pc ++ swap.h r12 ++ swap.h r5 ++ swap.h r4 ++ swap.h lr ++ swap.h r7 ++ swap.h r0 ++ swap.h r8 ++ .text ++ .global swap_b ++swap_b: ++ swap.b pc ++ swap.b r12 ++ swap.b r5 ++ swap.b r4 ++ swap.b lr ++ swap.b r10 ++ swap.b r12 ++ swap.b r1 ++ .text ++ .global swap_bh ++swap_bh: ++ swap.bh pc ++ swap.bh r12 ++ swap.bh r5 ++ swap.bh r4 ++ swap.bh lr ++ swap.bh r9 ++ swap.bh r4 ++ swap.bh r1 ++ .text ++ .global One_s_compliment ++One_s_compliment: ++ com pc ++ com r12 ++ com r5 ++ com r4 ++ com lr ++ com r2 ++ com r2 ++ com r7 ++ .text ++ .global tnbz ++tnbz: ++ tnbz pc ++ tnbz r12 ++ tnbz r5 ++ tnbz r4 ++ tnbz lr ++ tnbz r8 ++ tnbz r12 ++ tnbz pc ++ .text ++ .global rol ++rol: ++ rol pc ++ rol r12 ++ rol r5 ++ rol r4 ++ rol lr ++ rol r10 ++ rol r9 ++ rol r5 ++ .text ++ .global ror ++ror: ++ ror pc ++ ror r12 ++ ror r5 ++ ror r4 ++ ror lr ++ ror r8 ++ ror r4 ++ ror r7 ++ .text ++ .global icall ++icall: ++ icall pc ++ icall r12 ++ icall r5 ++ icall r4 ++ icall lr ++ icall r3 ++ icall r1 ++ icall r3 ++ .text ++ .global mustr ++mustr: ++ mustr pc ++ mustr r12 ++ mustr r5 ++ mustr r4 ++ mustr lr ++ mustr r1 ++ mustr r4 ++ mustr r12 ++ .text ++ .global musfr ++musfr: ++ musfr pc ++ musfr r12 ++ musfr r5 ++ musfr r4 ++ musfr lr ++ musfr r11 ++ musfr r12 ++ musfr r2 ++ .text ++ .global ret_cond ++ret_cond: ++ reteq pc ++ retal r12 ++ retls r5 ++ retpl r4 ++ retne lr ++ retgt r0 ++ retgt r12 ++ retge r10 ++ .text ++ .global sr_cond ++sr_cond: ++ sreq pc ++ sral r12 ++ srls r5 ++ srpl r4 ++ srne lr ++ srlt r0 ++ sral sp ++ srge r9 ++ .text ++ .global ld_w3 ++ld_w3: ++ ld.w pc,pc[0] ++ ld.w r12,r12[124] ++ ld.w r5,r5[64] ++ ld.w r4,r4[60] ++ ld.w lr,lr[4] ++ ld.w sp,r2[52] ++ ld.w r9,r1[8] ++ ld.w r5,sp[60] ++ .text ++ .global ld_sh3 ++ld_sh3: ++ ld.sh pc,pc[0] ++ ld.sh r12,r12[14] ++ ld.sh r5,r5[8] ++ ld.sh r4,r4[6] ++ ld.sh lr,lr[2] ++ ld.sh r4,r2[8] ++ ld.sh sp,lr[10] ++ ld.sh r2,r11[2] ++ .text ++ .global ld_uh3 ++ld_uh3: ++ ld.uh pc,pc[0] ++ ld.uh r12,r12[14] ++ ld.uh r5,r5[8] ++ ld.uh r4,r4[6] ++ ld.uh lr,lr[2] ++ ld.uh r10,r0[10] ++ ld.uh r8,r11[8] ++ ld.uh r10,r2[12] ++ .text ++ .global st_w3 ++st_w3: ++ st.w pc[0],pc ++ st.w r12[60],r12 ++ st.w r5[32],r5 ++ st.w r4[28],r4 ++ st.w lr[4],lr ++ st.w r7[44],r11 ++ st.w r2[24],r6 ++ st.w r4[12],r9 ++ .text ++ .global st_h3 ++st_h3: ++ st.h pc[0],pc ++ st.h r12[14],r12 ++ st.h r5[8],r5 ++ st.h r4[6],r4 ++ st.h lr[2],lr ++ st.h lr[10],r12 ++ st.h r6[4],r0 ++ st.h r5[12],sp ++ .text ++ .global st_b3 ++st_b3: ++ st.b pc[0],pc ++ st.b r12[7],r12 ++ st.b r5[4],r5 ++ st.b r4[3],r4 ++ st.b lr[1],lr ++ st.b r12[6],r9 ++ st.b r2[3],lr ++ st.b r1[3],r11 ++ .text ++ .global ldd ++ldd: ++ ld.d r0,pc ++ ld.d r14,r12 ++ ld.d r8,r5 ++ ld.d r6,r4 ++ ld.d r2,lr ++ ld.d r14,r7 ++ ld.d r4,r4 ++ ld.d r14,pc ++ .text ++ .global ldd_postinc ++ldd_postinc: ++ ld.d r0,pc++ ++ ld.d r14,r12++ ++ ld.d r8,r5++ ++ ld.d r6,r4++ ++ ld.d r2,lr++ ++ ld.d r14,r5++ ++ ld.d r12,r11++ ++ ld.d r2,r12++ ++ .text ++ .global ldd_predec ++ldd_predec: ++ ld.d r0,--pc ++ ld.d r14,--r12 ++ ld.d r8,--r5 ++ ld.d r6,--r4 ++ ld.d r2,--lr ++ ld.d r8,--r0 ++ ld.d r10,--pc ++ ld.d r2,--r4 ++ .text ++ .global std ++std: ++ st.d pc,r0 ++ st.d r12,r14 ++ st.d r5,r8 ++ st.d r4,r6 ++ st.d lr,r2 ++ st.d r0,r12 ++ st.d sp,r4 ++ st.d r12,r12 ++ .text ++ .global std_postinc ++std_postinc: ++ st.d pc++,r0 ++ st.d r12++,r14 ++ st.d r5++,r8 ++ st.d r4++,r6 ++ st.d lr++,r2 ++ st.d sp++,r6 ++ st.d r10++,r6 ++ st.d r7++,r2 ++ .text ++ .global std_predec ++std_predec: ++ st.d --pc,r0 ++ st.d --r12,r14 ++ st.d --r5,r8 ++ st.d --r4,r6 ++ st.d --lr,r2 ++ st.d --r3,r6 ++ st.d --lr,r2 ++ st.d --r0,r4 ++ .text ++ .global mul ++mul: ++ mul pc,pc ++ mul r12,r12 ++ mul r5,r5 ++ mul r4,r4 ++ mul lr,lr ++ mul r10,lr ++ mul r0,r8 ++ mul r8,r5 ++ .text ++ .global asr_imm5 ++asr_imm5: ++ asr pc,0 ++ asr r12,31 ++ asr r5,16 ++ asr r4,15 ++ asr lr,1 ++ asr r6,23 ++ asr r6,18 ++ asr r5,8 ++ .text ++ .global lsl_imm5 ++lsl_imm5: ++ lsl pc,0 ++ lsl r12,31 ++ lsl r5,16 ++ lsl r4,15 ++ lsl lr,1 ++ lsl r12,13 ++ lsl r6,16 ++ lsl r1,25 ++ .text ++ .global lsr_imm5 ++lsr_imm5: ++ lsr pc,0 ++ lsr r12,31 ++ lsr r5,16 ++ lsr r4,15 ++ lsr lr,1 ++ lsr r0,1 ++ lsr r8,10 ++ lsr r7,26 ++ .text ++ .global sbr ++sbr: ++ sbr pc,0 ++ sbr r12,31 ++ sbr r5,16 ++ sbr r4,15 ++ sbr lr,1 ++ sbr r8,31 ++ sbr r6,22 ++ sbr r1,23 ++ .text ++ .global cbr ++cbr: ++ cbr pc,0 ++ cbr r12,31 ++ cbr r5,16 ++ cbr r4,15 ++ cbr lr,1 ++ cbr r12,10 ++ cbr r7,22 ++ cbr r8,9 ++ .text ++ .global brc1 ++brc1: ++ breq 0 ++ brpl -2 ++ brge -256 ++ brcs 254 ++ brne 2 ++ brcs 230 ++ breq -18 ++ breq 12 ++ .text ++ .global rjmp ++rjmp: ++ rjmp 0 ++ rjmp -2 ++ rjmp -1024 ++ rjmp 1022 ++ rjmp 2 ++ rjmp -962 ++ rjmp 14 ++ rjmp -516 ++ .text ++ .global rcall1 ++rcall1: ++ rcall 0 ++ rcall -2 ++ rcall -1024 ++ rcall 1022 ++ rcall 2 ++ rcall 216 ++ rcall -530 ++ rcall -972 ++ .text ++ .global acall ++acall: ++ acall 0 ++ acall 1020 ++ acall 512 ++ acall 508 ++ acall 4 ++ acall 356 ++ acall 304 ++ acall 172 ++ .text ++ .global scall ++scall: ++ scall ++ scall ++ scall ++ scall ++ scall ++ scall ++ scall ++ scall ++ .text ++ .global popm ++popm: ++ /* popm with no argument fails currently */ ++ popm pc ++ popm r0-r11,pc,r12=-1 ++ popm lr ++ popm r0-r11,pc,r12=1 ++ popm r0-r3 ++ popm r4-r10,pc ++ popm r0-r3,r11,pc,r12=0 ++ popm r0-r7,r10-r12,lr ++ .text ++ .global pushm ++pushm: ++ pushm pc ++ pushm r0-r12,lr,pc ++ pushm pc ++ pushm r0-r12,lr ++ pushm r0-r3 ++ pushm r8-r10,lr,pc ++ pushm r0-r3,r10 ++ pushm r8-r9,r12 ++ .text ++ .global popm_n ++popm_n: ++ popm pc ++ popm r0-r11,pc,r12=-1 ++ popm lr ++ popm r0-r11,pc,r12=1 ++ popm r0-r3 ++ popm r4-r10,pc ++ popm r0-r3,r11,pc,r12=0 ++ popm r0-r7,r10-r12,lr ++ .text ++ .global pushm_n ++pushm_n: ++ pushm pc ++ pushm r0-r12,lr,pc ++ pushm pc ++ pushm r0-r12,lr ++ pushm r0-r3 ++ pushm r8-r10,lr,pc ++ pushm r0-r3,r10 ++ pushm r8-r9,r12 ++ .text ++ .global csrfcz ++csrfcz: ++ csrfcz 0 ++ csrfcz 31 ++ csrfcz 16 ++ csrfcz 15 ++ csrfcz 1 ++ csrfcz 5 ++ csrfcz 13 ++ csrfcz 23 ++ .text ++ .global ssrf ++ssrf: ++ ssrf 0 ++ ssrf 31 ++ ssrf 16 ++ ssrf 15 ++ ssrf 1 ++ ssrf 29 ++ ssrf 13 ++ ssrf 13 ++ .text ++ .global csrf ++csrf: ++ csrf 0 ++ csrf 31 ++ csrf 16 ++ csrf 15 ++ csrf 1 ++ csrf 10 ++ csrf 15 ++ csrf 11 ++ .text ++ .global rete ++rete: ++ rete ++ .text ++ .global rets ++rets: ++ rets ++ .text ++ .global retd ++retd: ++ retd ++ .text ++ .global retj ++retj: ++ retj ++ .text ++ .global tlbr ++tlbr: ++ tlbr ++ .text ++ .global tlbs ++tlbs: ++ tlbs ++ .text ++ .global tlbw ++tlbw: ++ tlbw ++ .text ++ .global breakpoint ++breakpoint: ++ breakpoint ++ .text ++ .global incjosp ++incjosp: ++ incjosp 1 ++ incjosp 2 ++ incjosp 3 ++ incjosp 4 ++ incjosp -4 ++ incjosp -3 ++ incjosp -2 ++ incjosp -1 ++ .text ++ .global nop ++nop: ++ nop ++ .text ++ .global popjc ++popjc: ++ popjc ++ .text ++ .global pushjc ++pushjc: ++ pushjc ++ .text ++ .global add2 ++add2: ++ add pc,pc,pc<<0 ++ add r12,r12,r12<<3 ++ add r5,r5,r5<<2 ++ add r4,r4,r4<<1 ++ add lr,lr,lr<<1 ++ add r0,r12,r0<<1 ++ add r9,r12,r4<<0 ++ add r12,r12,r7<<2 ++ .text ++ .global sub2 ++sub2: ++ sub pc,pc,pc<<0 ++ sub r12,r12,r12<<3 ++ sub r5,r5,r5<<2 ++ sub r4,r4,r4<<1 ++ sub lr,lr,lr<<1 ++ sub sp,r3,r4<<0 ++ sub r3,r7,r3<<0 ++ sub sp,r10,sp<<1 ++ .text ++ .global divu ++divu: ++ divu pc,pc,pc ++ divu r12,r12,r12 ++ divu r5,r5,r5 ++ divu r4,r4,r4 ++ divu lr,lr,lr ++ divu sp,r4,pc ++ divu r5,r5,sp ++ divu r10,sp,r0 ++ .text ++ .global addhh_w ++addhh_w: ++ addhh.w pc,pc:b,pc:b ++ addhh.w r12,r12:t,r12:t ++ addhh.w r5,r5:t,r5:t ++ addhh.w r4,r4:b,r4:b ++ addhh.w lr,lr:t,lr:t ++ addhh.w r0,r0:b,r3:b ++ addhh.w lr,r12:t,r7:b ++ addhh.w r3,r10:t,r2:b ++ .text ++ .global subhh_w ++subhh_w: ++ subhh.w pc,pc:b,pc:b ++ subhh.w r12,r12:t,r12:t ++ subhh.w r5,r5:t,r5:t ++ subhh.w r4,r4:b,r4:b ++ subhh.w lr,lr:t,lr:t ++ subhh.w r10,r1:t,r7:b ++ subhh.w pc,r10:t,lr:t ++ subhh.w r3,r0:t,r12:b ++ .text ++ .global adc ++adc: ++ adc pc,pc,pc ++ adc r12,r12,r12 ++ adc r5,r5,r5 ++ adc r4,r4,r4 ++ adc lr,lr,lr ++ adc r4,r0,r7 ++ adc sp,r4,r3 ++ adc r2,r12,r0 ++ .text ++ .global sbc ++sbc: ++ sbc pc,pc,pc ++ sbc r12,r12,r12 ++ sbc r5,r5,r5 ++ sbc r4,r4,r4 ++ sbc lr,lr,lr ++ sbc r6,r7,r9 ++ sbc r0,r8,r5 ++ sbc r1,r0,r4 ++ .text ++ .global mul_2 ++mul_2: ++ mul pc,pc,pc ++ mul r12,r12,r12 ++ mul r5,r5,r5 ++ mul r4,r4,r4 ++ mul lr,lr,lr ++ mul pc,r0,r0 ++ mul r8,pc,lr ++ mul r4,r12,pc ++ .text ++ .global mac ++mac: ++ mac pc,pc,pc ++ mac r12,r12,r12 ++ mac r5,r5,r5 ++ mac r4,r4,r4 ++ mac lr,lr,lr ++ mac r10,r4,r0 ++ mac r7,lr,r0 ++ mac r2,r9,r12 ++ .text ++ .global mulsd ++mulsd: ++ muls.d pc,pc,pc ++ muls.d r12,r12,r12 ++ muls.d r5,r5,r5 ++ muls.d r4,r4,r4 ++ muls.d lr,lr,lr ++ muls.d r2,r8,lr ++ muls.d r4,r0,r11 ++ muls.d r5,lr,r6 ++ .text ++ .global macsd ++macsd: ++ macs.d r0,pc,pc ++ macs.d r14,r12,r12 ++ macs.d r8,r5,r5 ++ macs.d r6,r4,r4 ++ macs.d r2,lr,lr ++ macs.d r8,r1,r9 ++ macs.d r14,r8,r8 ++ macs.d r4,r3,r12 ++ .text ++ .global mulud ++mulud: ++ mulu.d r0,pc,pc ++ mulu.d r14,r12,r12 ++ mulu.d r8,r5,r5 ++ mulu.d r6,r4,r4 ++ mulu.d r2,lr,lr ++ mulu.d r6,r5,r0 ++ mulu.d r4,r6,r1 ++ mulu.d r8,r8,r2 ++ .text ++ .global macud ++macud: ++ macu.d r0,pc,pc ++ macu.d r14,r12,r12 ++ macu.d r8,r5,r5 ++ macu.d r6,r4,r4 ++ macu.d r2,lr,lr ++ macu.d r6,sp,r11 ++ macu.d r2,r4,r8 ++ macu.d r6,r10,r9 ++ .text ++ .global asr_1 ++asr_1: ++ asr pc,pc,pc ++ asr r12,r12,r12 ++ asr r5,r5,r5 ++ asr r4,r4,r4 ++ asr lr,lr,lr ++ asr pc,r6,pc ++ asr r0,r6,r12 ++ asr r4,sp,r0 ++ .text ++ .global lsl_1 ++lsl_1: ++ lsl pc,pc,pc ++ lsl r12,r12,r12 ++ lsl r5,r5,r5 ++ lsl r4,r4,r4 ++ lsl lr,lr,lr ++ lsl lr,r5,lr ++ lsl r5,pc,r3 ++ lsl r1,pc,r9 ++ .text ++ .global lsr_1 ++lsr_1: ++ lsr pc,pc,pc ++ lsr r12,r12,r12 ++ lsr r5,r5,r5 ++ lsr r4,r4,r4 ++ lsr lr,lr,lr ++ lsr r2,r4,r1 ++ lsr r5,r1,r6 ++ lsr sp,r6,r7 ++ .text ++ .global xchg ++xchg: ++ xchg pc,pc,pc ++ xchg r12,r12,r12 ++ xchg r5,r5,r5 ++ xchg r4,r4,r4 ++ xchg lr,lr,lr ++ xchg lr,r4,sp ++ xchg r1,r5,r12 ++ xchg lr,r12,r0 ++ .text ++ .global max ++max: ++ max pc,pc,pc ++ max r12,r12,r12 ++ max r5,r5,r5 ++ max r4,r4,r4 ++ max lr,lr,lr ++ max lr,r2,sp ++ max r4,r10,r9 ++ max lr,r9,lr ++ .text ++ .global min ++min: ++ min pc,pc,pc ++ min r12,r12,r12 ++ min r5,r5,r5 ++ min r4,r4,r4 ++ min lr,lr,lr ++ min r9,r7,r8 ++ min sp,r5,r5 ++ min r4,r1,r4 ++ .text ++ .global addabs ++addabs: ++ addabs pc,pc,pc ++ addabs r12,r12,r12 ++ addabs r5,r5,r5 ++ addabs r4,r4,r4 ++ addabs lr,lr,lr ++ addabs r7,r10,r0 ++ addabs r9,r9,r7 ++ addabs r2,r8,r12 ++ .text ++ .global mulnhh_w ++mulnhh_w: ++ mulnhh.w pc,pc:b,pc:b ++ mulnhh.w r12,r12:t,r12:t ++ mulnhh.w r5,r5:t,r5:t ++ mulnhh.w r4,r4:b,r4:b ++ mulnhh.w lr,lr:t,lr:t ++ mulnhh.w r11,sp:t,r9:b ++ mulnhh.w sp,r4:b,lr:t ++ mulnhh.w r12,r2:t,r11:b ++ .text ++ .global mulnwh_d ++mulnwh_d: ++ mulnwh.d r0,pc,pc:b ++ mulnwh.d r14,r12,r12:t ++ mulnwh.d r8,r5,r5:t ++ mulnwh.d r6,r4,r4:b ++ mulnwh.d r2,lr,lr:t ++ mulnwh.d r14,r3,r2:t ++ mulnwh.d r4,r5,r9:b ++ mulnwh.d r12,r4,r4:t ++ .text ++ .global machh_w ++machh_w: ++ machh.w pc,pc:b,pc:b ++ machh.w r12,r12:t,r12:t ++ machh.w r5,r5:t,r5:t ++ machh.w r4,r4:b,r4:b ++ machh.w lr,lr:t,lr:t ++ machh.w lr,r5:b,r1:t ++ machh.w r9,r6:b,r7:b ++ machh.w r5,lr:t,r12:b ++ .text ++ .global machh_d ++machh_d: ++ machh.d r0,pc:b,pc:b ++ machh.d r14,r12:t,r12:t ++ machh.d r8,r5:t,r5:t ++ machh.d r6,r4:b,r4:b ++ machh.d r2,lr:t,lr:t ++ machh.d r10,r0:b,r8:b ++ machh.d r14,r4:b,r5:t ++ machh.d r8,r0:b,r4:t ++ .text ++ .global macsathh_w ++macsathh_w: ++ macsathh.w pc,pc:b,pc:b ++ macsathh.w r12,r12:t,r12:t ++ macsathh.w r5,r5:t,r5:t ++ macsathh.w r4,r4:b,r4:b ++ macsathh.w lr,lr:t,lr:t ++ macsathh.w r7,r7:t,pc:t ++ macsathh.w r4,r2:t,r4:b ++ macsathh.w r4,r8:t,r3:t ++ .text ++ .global mulhh_w ++mulhh_w: ++ mulhh.w pc,pc:b,pc:b ++ mulhh.w r12,r12:t,r12:t ++ mulhh.w r5,r5:t,r5:t ++ mulhh.w r4,r4:b,r4:b ++ mulhh.w lr,lr:t,lr:t ++ mulhh.w r7,r4:t,r9:b ++ mulhh.w pc,r3:t,r7:t ++ mulhh.w pc,r4:b,r9:t ++ .text ++ .global mulsathh_h ++mulsathh_h: ++ mulsathh.h pc,pc:b,pc:b ++ mulsathh.h r12,r12:t,r12:t ++ mulsathh.h r5,r5:t,r5:t ++ mulsathh.h r4,r4:b,r4:b ++ mulsathh.h lr,lr:t,lr:t ++ mulsathh.h r3,r1:b,sp:b ++ mulsathh.h r11,lr:t,r11:b ++ mulsathh.h r8,r8:b,r11:t ++ .text ++ .global mulsathh_w ++mulsathh_w: ++ mulsathh.w pc,pc:b,pc:b ++ mulsathh.w r12,r12:t,r12:t ++ mulsathh.w r5,r5:t,r5:t ++ mulsathh.w r4,r4:b,r4:b ++ mulsathh.w lr,lr:t,lr:t ++ mulsathh.w lr,r11:t,r6:b ++ mulsathh.w r6,r6:b,r7:t ++ mulsathh.w r10,r2:b,r3:b ++ .text ++ .global mulsatrndhh_h ++mulsatrndhh_h: ++ mulsatrndhh.h pc,pc:b,pc:b ++ mulsatrndhh.h r12,r12:t,r12:t ++ mulsatrndhh.h r5,r5:t,r5:t ++ mulsatrndhh.h r4,r4:b,r4:b ++ mulsatrndhh.h lr,lr:t,lr:t ++ mulsatrndhh.h r11,r6:b,r9:b ++ mulsatrndhh.h r11,r3:b,r8:t ++ mulsatrndhh.h r5,sp:t,r7:t ++ .text ++ .global mulsatrndwh_w ++mulsatrndwh_w: ++ mulsatrndwh.w pc,pc,pc:b ++ mulsatrndwh.w r12,r12,r12:t ++ mulsatrndwh.w r5,r5,r5:t ++ mulsatrndwh.w r4,r4,r4:b ++ mulsatrndwh.w lr,lr,lr:t ++ mulsatrndwh.w r5,r12,r0:b ++ mulsatrndwh.w r7,r10,pc:b ++ mulsatrndwh.w r10,r8,r5:t ++ .text ++ .global macwh_d ++macwh_d: ++ macwh.d r0,pc,pc:b ++ macwh.d r14,r12,r12:t ++ macwh.d r8,r5,r5:t ++ macwh.d r6,r4,r4:b ++ macwh.d r2,lr,lr:t ++ macwh.d r4,r10,r12:t ++ macwh.d r4,r7,sp:b ++ macwh.d r14,r9,r11:b ++ .text ++ .global mulwh_d ++mulwh_d: ++ mulwh.d r0,pc,pc:b ++ mulwh.d r14,r12,r12:t ++ mulwh.d r8,r5,r5:t ++ mulwh.d r6,r4,r4:b ++ mulwh.d r2,lr,lr:t ++ mulwh.d r12,r5,r1:b ++ mulwh.d r0,r1,r3:t ++ mulwh.d r0,r9,r2:b ++ .text ++ .global mulsatwh_w ++mulsatwh_w: ++ mulsatwh.w pc,pc,pc:b ++ mulsatwh.w r12,r12,r12:t ++ mulsatwh.w r5,r5,r5:t ++ mulsatwh.w r4,r4,r4:b ++ mulsatwh.w lr,lr,lr:t ++ mulsatwh.w r11,pc,r10:t ++ mulsatwh.w sp,r12,r9:t ++ mulsatwh.w r0,r3,r2:t ++ .text ++ .global ldw7 ++ldw7: ++ ld.w pc,pc[pc:b<<2] ++ ld.w r12,r12[r12:t<<2] ++ ld.w r5,r5[r5:u<<2] ++ ld.w r4,r4[r4:l<<2] ++ ld.w lr,lr[lr:l<<2] ++ ld.w r9,r10[r6:l<<2] ++ ld.w r2,r10[r10:b<<2] ++ ld.w r11,r5[pc:b<<2] ++ .text ++ .global satadd_w ++satadd_w: ++ satadd.w pc,pc,pc ++ satadd.w r12,r12,r12 ++ satadd.w r5,r5,r5 ++ satadd.w r4,r4,r4 ++ satadd.w lr,lr,lr ++ satadd.w r4,r8,r11 ++ satadd.w r3,r12,r6 ++ satadd.w r3,lr,r9 ++ .text ++ .global satsub_w1 ++satsub_w1: ++ satsub.w pc,pc,pc ++ satsub.w r12,r12,r12 ++ satsub.w r5,r5,r5 ++ satsub.w r4,r4,r4 ++ satsub.w lr,lr,lr ++ satsub.w r8,sp,r0 ++ satsub.w r9,r8,r4 ++ satsub.w pc,lr,r2 ++ .text ++ .global satadd_h ++satadd_h: ++ satadd.h pc,pc,pc ++ satadd.h r12,r12,r12 ++ satadd.h r5,r5,r5 ++ satadd.h r4,r4,r4 ++ satadd.h lr,lr,lr ++ satadd.h r7,r3,r9 ++ satadd.h r1,r0,r2 ++ satadd.h r1,r4,lr ++ .text ++ .global satsub_h ++satsub_h: ++ satsub.h pc,pc,pc ++ satsub.h r12,r12,r12 ++ satsub.h r5,r5,r5 ++ satsub.h r4,r4,r4 ++ satsub.h lr,lr,lr ++ satsub.h lr,lr,r3 ++ satsub.h r11,r6,r5 ++ satsub.h r3,sp,r0 ++ .text ++ .global mul3 ++mul3: ++ mul pc,pc,0 ++ mul r12,r12,-1 ++ mul r5,r5,-128 ++ mul r4,r4,127 ++ mul lr,lr,1 ++ mul r12,r2,-7 ++ mul r1,pc,95 ++ mul r4,r6,19 ++ .text ++ .global rsub2 ++rsub2: ++ rsub pc,pc,0 ++ rsub r12,r12,-1 ++ rsub r5,r5,-128 ++ rsub r4,r4,127 ++ rsub lr,lr,1 ++ rsub r9,lr,96 ++ rsub r11,r1,56 ++ rsub r0,r7,-87 ++ .text ++ .global clz ++clz: ++ clz pc,pc ++ clz r12,r12 ++ clz r5,r5 ++ clz r4,r4 ++ clz lr,lr ++ clz r2,r3 ++ clz r5,r11 ++ clz pc,r3 ++ .text ++ .global cpc1 ++cpc1: ++ cpc pc,pc ++ cpc r12,r12 ++ cpc r5,r5 ++ cpc r4,r4 ++ cpc lr,lr ++ cpc pc,r4 ++ cpc r5,r9 ++ cpc r6,r7 ++ .text ++ .global asr3 ++asr3: ++ asr pc,pc,0 ++ asr r12,r12,31 ++ asr r5,r5,16 ++ asr r4,r4,15 ++ asr lr,lr,1 ++ asr r4,r11,19 ++ asr sp,pc,26 ++ asr r11,sp,8 ++ .text ++ .global lsl3 ++lsl3: ++ lsl pc,pc,0 ++ lsl r12,r12,31 ++ lsl r5,r5,16 ++ lsl r4,r4,15 ++ lsl lr,lr,1 ++ lsl r8,r10,17 ++ lsl r2,lr,3 ++ lsl lr,r11,14 ++ .text ++ .global lsr3 ++lsr3: ++ lsr pc,pc,0 ++ lsr r12,r12,31 ++ lsr r5,r5,16 ++ lsr r4,r4,15 ++ lsr lr,lr,1 ++ lsr r4,r3,31 ++ lsr pc,r9,14 ++ lsr r3,r0,6 ++/* .text ++ .global extract_b ++extract_b: ++ extract.b pc,pc:b ++ extract.b r12,r12:t ++ extract.b r5,r5:u ++ extract.b r4,r4:l ++ extract.b lr,lr:l ++ extract.b r2,r5:l ++ extract.b r12,r3:l ++ extract.b sp,r3:l ++ .text ++ .global insert_b ++insert_b: ++ insert.b pc:b,pc ++ insert.b r12:t,r12 ++ insert.b r5:u,r5 ++ insert.b r4:l,r4 ++ insert.b lr:l,lr ++ insert.b r12:u,r3 ++ insert.b r10:l,lr ++ insert.b r11:l,r12 ++ .text ++ .global extract_h ++extract_h: ++ extract.h pc,pc:b ++ extract.h r12,r12:t ++ extract.h r5,r5:t ++ extract.h r4,r4:b ++ extract.h lr,lr:t ++ extract.h r11,lr:b ++ extract.h r10,r0:b ++ extract.h r11,r12:b ++ .text ++ .global insert_h ++insert_h: ++ insert.h pc:b,pc ++ insert.h r12:t,r12 ++ insert.h r5:t,r5 ++ insert.h r4:b,r4 ++ insert.h lr:t,lr ++ insert.h r12:t,r11 ++ insert.h r7:b,r6 ++ insert.h r1:t,r11 */ ++ .text ++ .global movc1 ++movc1: ++ moveq pc,pc ++ moval r12,r12 ++ movls r5,r5 ++ movpl r4,r4 ++ movne lr,lr ++ movne pc,r11 ++ movmi r10,r2 ++ movls r8,r12 ++ .text ++ .global padd_h ++padd_h: ++ padd.h pc,pc,pc ++ padd.h r12,r12,r12 ++ padd.h r5,r5,r5 ++ padd.h r4,r4,r4 ++ padd.h lr,lr,lr ++ padd.h r8,r2,r7 ++ padd.h r0,r0,r3 ++ padd.h sp,r11,r6 ++ .text ++ .global psub_h ++psub_h: ++ psub.h pc,pc,pc ++ psub.h r12,r12,r12 ++ psub.h r5,r5,r5 ++ psub.h r4,r4,r4 ++ psub.h lr,lr,lr ++ psub.h lr,r6,r8 ++ psub.h r0,r1,sp ++ psub.h pc,pc,sp ++ .text ++ .global paddx_h ++paddx_h: ++ paddx.h pc,pc,pc ++ paddx.h r12,r12,r12 ++ paddx.h r5,r5,r5 ++ paddx.h r4,r4,r4 ++ paddx.h lr,lr,lr ++ paddx.h pc,pc,r1 ++ paddx.h r10,r4,r5 ++ paddx.h r5,pc,r2 ++ .text ++ .global psubx_h ++psubx_h: ++ psubx.h pc,pc,pc ++ psubx.h r12,r12,r12 ++ psubx.h r5,r5,r5 ++ psubx.h r4,r4,r4 ++ psubx.h lr,lr,lr ++ psubx.h r5,r12,r5 ++ psubx.h r3,r8,r3 ++ psubx.h r5,r2,r3 ++ .text ++ .global padds_sh ++padds_sh: ++ padds.sh pc,pc,pc ++ padds.sh r12,r12,r12 ++ padds.sh r5,r5,r5 ++ padds.sh r4,r4,r4 ++ padds.sh lr,lr,lr ++ padds.sh r9,lr,r2 ++ padds.sh r6,r8,r1 ++ padds.sh r6,r4,r10 ++ .text ++ .global psubs_sh ++psubs_sh: ++ psubs.sh pc,pc,pc ++ psubs.sh r12,r12,r12 ++ psubs.sh r5,r5,r5 ++ psubs.sh r4,r4,r4 ++ psubs.sh lr,lr,lr ++ psubs.sh r6,lr,r11 ++ psubs.sh r2,r12,r4 ++ psubs.sh r0,r9,r0 ++ .text ++ .global paddxs_sh ++paddxs_sh: ++ paddxs.sh pc,pc,pc ++ paddxs.sh r12,r12,r12 ++ paddxs.sh r5,r5,r5 ++ paddxs.sh r4,r4,r4 ++ paddxs.sh lr,lr,lr ++ paddxs.sh r0,r3,r9 ++ paddxs.sh pc,r10,r11 ++ paddxs.sh pc,r10,pc ++ .text ++ .global psubxs_sh ++psubxs_sh: ++ psubxs.sh pc,pc,pc ++ psubxs.sh r12,r12,r12 ++ psubxs.sh r5,r5,r5 ++ psubxs.sh r4,r4,r4 ++ psubxs.sh lr,lr,lr ++ psubxs.sh r7,r4,r4 ++ psubxs.sh r7,r8,r3 ++ psubxs.sh pc,r6,r5 ++ .text ++ .global padds_uh ++padds_uh: ++ padds.uh pc,pc,pc ++ padds.uh r12,r12,r12 ++ padds.uh r5,r5,r5 ++ padds.uh r4,r4,r4 ++ padds.uh lr,lr,lr ++ padds.uh r12,r11,r7 ++ padds.uh r7,r8,lr ++ padds.uh r6,r9,r7 ++ .text ++ .global psubs_uh ++psubs_uh: ++ psubs.uh pc,pc,pc ++ psubs.uh r12,r12,r12 ++ psubs.uh r5,r5,r5 ++ psubs.uh r4,r4,r4 ++ psubs.uh lr,lr,lr ++ psubs.uh lr,r10,r6 ++ psubs.uh sp,r2,pc ++ psubs.uh r2,r9,r2 ++ .text ++ .global paddxs_uh ++paddxs_uh: ++ paddxs.uh pc,pc,pc ++ paddxs.uh r12,r12,r12 ++ paddxs.uh r5,r5,r5 ++ paddxs.uh r4,r4,r4 ++ paddxs.uh lr,lr,lr ++ paddxs.uh r7,r9,r5 ++ paddxs.uh r9,r1,r4 ++ paddxs.uh r5,r2,r3 ++ .text ++ .global psubxs_uh ++psubxs_uh: ++ psubxs.uh pc,pc,pc ++ psubxs.uh r12,r12,r12 ++ psubxs.uh r5,r5,r5 ++ psubxs.uh r4,r4,r4 ++ psubxs.uh lr,lr,lr ++ psubxs.uh sp,r5,sp ++ psubxs.uh sp,r6,r6 ++ psubxs.uh r3,r11,r8 ++ .text ++ .global paddh_sh ++paddh_sh: ++ paddh.sh pc,pc,pc ++ paddh.sh r12,r12,r12 ++ paddh.sh r5,r5,r5 ++ paddh.sh r4,r4,r4 ++ paddh.sh lr,lr,lr ++ paddh.sh r12,sp,r3 ++ paddh.sh pc,r5,r3 ++ paddh.sh r8,r8,sp ++ .text ++ .global psubh_sh ++psubh_sh: ++ psubh.sh pc,pc,pc ++ psubh.sh r12,r12,r12 ++ psubh.sh r5,r5,r5 ++ psubh.sh r4,r4,r4 ++ psubh.sh lr,lr,lr ++ psubh.sh r1,r5,r8 ++ psubh.sh r7,r3,r6 ++ psubh.sh r4,r3,r3 ++ .text ++ .global paddxh_sh ++paddxh_sh: ++ paddxh.sh pc,pc,pc ++ paddxh.sh r12,r12,r12 ++ paddxh.sh r5,r5,r5 ++ paddxh.sh r4,r4,r4 ++ paddxh.sh lr,lr,lr ++ paddxh.sh r6,r0,r4 ++ paddxh.sh r9,r8,r9 ++ paddxh.sh r3,r0,sp ++ .text ++ .global psubxh_sh ++psubxh_sh: ++ psubxh.sh pc,pc,pc ++ psubxh.sh r12,r12,r12 ++ psubxh.sh r5,r5,r5 ++ psubxh.sh r4,r4,r4 ++ psubxh.sh lr,lr,lr ++ psubxh.sh r4,pc,r12 ++ psubxh.sh r8,r4,r6 ++ psubxh.sh r12,r9,r4 ++ .text ++ .global paddsub_h ++paddsub_h: ++ paddsub.h pc,pc:b,pc:b ++ paddsub.h r12,r12:t,r12:t ++ paddsub.h r5,r5:t,r5:t ++ paddsub.h r4,r4:b,r4:b ++ paddsub.h lr,lr:t,lr:t ++ paddsub.h r5,r2:t,lr:b ++ paddsub.h r7,r1:b,r8:b ++ paddsub.h r6,r10:t,r5:t ++ .text ++ .global psubadd_h ++psubadd_h: ++ psubadd.h pc,pc:b,pc:b ++ psubadd.h r12,r12:t,r12:t ++ psubadd.h r5,r5:t,r5:t ++ psubadd.h r4,r4:b,r4:b ++ psubadd.h lr,lr:t,lr:t ++ psubadd.h r9,r11:t,r8:t ++ psubadd.h r10,r7:t,lr:t ++ psubadd.h r6,pc:t,pc:b ++ .text ++ .global paddsubs_sh ++paddsubs_sh: ++ paddsubs.sh pc,pc:b,pc:b ++ paddsubs.sh r12,r12:t,r12:t ++ paddsubs.sh r5,r5:t,r5:t ++ paddsubs.sh r4,r4:b,r4:b ++ paddsubs.sh lr,lr:t,lr:t ++ paddsubs.sh r0,lr:t,r0:b ++ paddsubs.sh r9,r2:t,r4:t ++ paddsubs.sh r12,r9:t,sp:t ++ .text ++ .global psubadds_sh ++psubadds_sh: ++ psubadds.sh pc,pc:b,pc:b ++ psubadds.sh r12,r12:t,r12:t ++ psubadds.sh r5,r5:t,r5:t ++ psubadds.sh r4,r4:b,r4:b ++ psubadds.sh lr,lr:t,lr:t ++ psubadds.sh pc,lr:b,r1:t ++ psubadds.sh r11,r3:b,r12:b ++ psubadds.sh r10,r2:t,r8:t ++ .text ++ .global paddsubs_uh ++paddsubs_uh: ++ paddsubs.uh pc,pc:b,pc:b ++ paddsubs.uh r12,r12:t,r12:t ++ paddsubs.uh r5,r5:t,r5:t ++ paddsubs.uh r4,r4:b,r4:b ++ paddsubs.uh lr,lr:t,lr:t ++ paddsubs.uh r9,r2:b,r3:b ++ paddsubs.uh sp,sp:b,r7:t ++ paddsubs.uh lr,r0:b,r10:t ++ .text ++ .global psubadds_uh ++psubadds_uh: ++ psubadds.uh pc,pc:b,pc:b ++ psubadds.uh r12,r12:t,r12:t ++ psubadds.uh r5,r5:t,r5:t ++ psubadds.uh r4,r4:b,r4:b ++ psubadds.uh lr,lr:t,lr:t ++ psubadds.uh r12,r9:t,pc:t ++ psubadds.uh r8,r6:b,r8:b ++ psubadds.uh r8,r8:b,r4:b ++ .text ++ .global paddsubh_sh ++paddsubh_sh: ++ paddsubh.sh pc,pc:b,pc:b ++ paddsubh.sh r12,r12:t,r12:t ++ paddsubh.sh r5,r5:t,r5:t ++ paddsubh.sh r4,r4:b,r4:b ++ paddsubh.sh lr,lr:t,lr:t ++ paddsubh.sh r8,r9:t,r9:b ++ paddsubh.sh r0,sp:t,r1:t ++ paddsubh.sh r3,r1:b,r0:t ++ .text ++ .global psubaddh_sh ++psubaddh_sh: ++ psubaddh.sh pc,pc:b,pc:b ++ psubaddh.sh r12,r12:t,r12:t ++ psubaddh.sh r5,r5:t,r5:t ++ psubaddh.sh r4,r4:b,r4:b ++ psubaddh.sh lr,lr:t,lr:t ++ psubaddh.sh r7,r3:t,r10:b ++ psubaddh.sh r7,r2:t,r1:t ++ psubaddh.sh r11,r3:b,r6:b ++ .text ++ .global padd_b ++padd_b: ++ padd.b pc,pc,pc ++ padd.b r12,r12,r12 ++ padd.b r5,r5,r5 ++ padd.b r4,r4,r4 ++ padd.b lr,lr,lr ++ padd.b r2,r6,pc ++ padd.b r8,r9,r12 ++ padd.b r5,r12,r3 ++ .text ++ .global psub_b ++psub_b: ++ psub.b pc,pc,pc ++ psub.b r12,r12,r12 ++ psub.b r5,r5,r5 ++ psub.b r4,r4,r4 ++ psub.b lr,lr,lr ++ psub.b r0,r12,pc ++ psub.b r7,sp,r10 ++ psub.b r5,sp,r12 ++ .text ++ .global padds_sb ++padds_sb: ++ padds.sb pc,pc,pc ++ padds.sb r12,r12,r12 ++ padds.sb r5,r5,r5 ++ padds.sb r4,r4,r4 ++ padds.sb lr,lr,lr ++ padds.sb sp,r11,r4 ++ padds.sb r11,r10,r11 ++ padds.sb r5,r12,r6 ++ .text ++ .global psubs_sb ++psubs_sb: ++ psubs.sb pc,pc,pc ++ psubs.sb r12,r12,r12 ++ psubs.sb r5,r5,r5 ++ psubs.sb r4,r4,r4 ++ psubs.sb lr,lr,lr ++ psubs.sb r7,r6,r8 ++ psubs.sb r12,r10,r9 ++ psubs.sb pc,r11,r0 ++ .text ++ .global padds_ub ++padds_ub: ++ padds.ub pc,pc,pc ++ padds.ub r12,r12,r12 ++ padds.ub r5,r5,r5 ++ padds.ub r4,r4,r4 ++ padds.ub lr,lr,lr ++ padds.ub r3,r2,r11 ++ padds.ub r10,r8,r1 ++ padds.ub r11,r8,r10 ++ .text ++ .global psubs_ub ++psubs_ub: ++ psubs.ub pc,pc,pc ++ psubs.ub r12,r12,r12 ++ psubs.ub r5,r5,r5 ++ psubs.ub r4,r4,r4 ++ psubs.ub lr,lr,lr ++ psubs.ub r0,r2,r7 ++ psubs.ub lr,r5,r3 ++ psubs.ub r6,r7,r9 ++ .text ++ .global paddh_ub ++paddh_ub: ++ paddh.ub pc,pc,pc ++ paddh.ub r12,r12,r12 ++ paddh.ub r5,r5,r5 ++ paddh.ub r4,r4,r4 ++ paddh.ub lr,lr,lr ++ paddh.ub lr,r1,r0 ++ paddh.ub r2,r7,r7 ++ paddh.ub r2,r1,r2 ++ .text ++ .global psubh_ub ++psubh_ub: ++ psubh.ub pc,pc,pc ++ psubh.ub r12,r12,r12 ++ psubh.ub r5,r5,r5 ++ psubh.ub r4,r4,r4 ++ psubh.ub lr,lr,lr ++ psubh.ub r0,r1,r6 ++ psubh.ub r4,lr,r10 ++ psubh.ub r9,r8,r1 ++ .text ++ .global pmax_ub ++pmax_ub: ++ pmax.ub pc,pc,pc ++ pmax.ub r12,r12,r12 ++ pmax.ub r5,r5,r5 ++ pmax.ub r4,r4,r4 ++ pmax.ub lr,lr,lr ++ pmax.ub pc,r2,r11 ++ pmax.ub r12,r1,r1 ++ pmax.ub r5,r2,r0 ++ .text ++ .global pmax_sh ++pmax_sh: ++ pmax.sh pc,pc,pc ++ pmax.sh r12,r12,r12 ++ pmax.sh r5,r5,r5 ++ pmax.sh r4,r4,r4 ++ pmax.sh lr,lr,lr ++ pmax.sh lr,r6,r12 ++ pmax.sh r2,pc,r5 ++ pmax.sh pc,r2,r7 ++ .text ++ .global pmin_ub ++pmin_ub: ++ pmin.ub pc,pc,pc ++ pmin.ub r12,r12,r12 ++ pmin.ub r5,r5,r5 ++ pmin.ub r4,r4,r4 ++ pmin.ub lr,lr,lr ++ pmin.ub r8,r1,r5 ++ pmin.ub r1,r8,r3 ++ pmin.ub r0,r2,r7 ++ .text ++ .global pmin_sh ++pmin_sh: ++ pmin.sh pc,pc,pc ++ pmin.sh r12,r12,r12 ++ pmin.sh r5,r5,r5 ++ pmin.sh r4,r4,r4 ++ pmin.sh lr,lr,lr ++ pmin.sh r8,r4,r10 ++ pmin.sh lr,r10,r12 ++ pmin.sh r2,r6,r2 ++ .text ++ .global pavg_ub ++pavg_ub: ++ pavg.ub pc,pc,pc ++ pavg.ub r12,r12,r12 ++ pavg.ub r5,r5,r5 ++ pavg.ub r4,r4,r4 ++ pavg.ub lr,lr,lr ++ pavg.ub r0,r1,r6 ++ pavg.ub r8,r3,r6 ++ pavg.ub pc,r12,r10 ++ .text ++ .global pavg_sh ++pavg_sh: ++ pavg.sh pc,pc,pc ++ pavg.sh r12,r12,r12 ++ pavg.sh r5,r5,r5 ++ pavg.sh r4,r4,r4 ++ pavg.sh lr,lr,lr ++ pavg.sh r9,pc,sp ++ pavg.sh pc,sp,r3 ++ pavg.sh r6,r1,r9 ++ .text ++ .global pabs_sb ++pabs_sb: ++ pabs.sb pc,pc ++ pabs.sb r12,r12 ++ pabs.sb r5,r5 ++ pabs.sb r4,r4 ++ pabs.sb lr,lr ++ pabs.sb r11,r6 ++ pabs.sb lr,r9 ++ pabs.sb sp,r7 ++ .text ++ .global pabs_sh ++pabs_sh: ++ pabs.sh pc,pc ++ pabs.sh r12,r12 ++ pabs.sh r5,r5 ++ pabs.sh r4,r4 ++ pabs.sh lr,lr ++ pabs.sh pc,r3 ++ pabs.sh r5,r7 ++ pabs.sh r4,r0 ++ .text ++ .global psad ++psad: ++ psad pc,pc,pc ++ psad r12,r12,r12 ++ psad r5,r5,r5 ++ psad r4,r4,r4 ++ psad lr,lr,lr ++ psad r9,r11,r11 ++ psad lr,r4,sp ++ psad lr,r4,r5 ++ .text ++ .global pasr_b ++pasr_b: ++ pasr.b pc,pc,0 ++ pasr.b r12,r12,7 ++ pasr.b r5,r5,4 ++ pasr.b r4,r4,3 ++ pasr.b lr,lr,1 ++ pasr.b pc,r7,1 ++ pasr.b sp,lr,6 ++ pasr.b sp,r3,2 ++ .text ++ .global plsl_b ++plsl_b: ++ plsl.b pc,pc,0 ++ plsl.b r12,r12,7 ++ plsl.b r5,r5,4 ++ plsl.b r4,r4,3 ++ plsl.b lr,lr,1 ++ plsl.b r2,r11,4 ++ plsl.b r8,r5,7 ++ plsl.b pc,r0,2 ++ .text ++ .global plsr_b ++plsr_b: ++ plsr.b pc,pc,0 ++ plsr.b r12,r12,7 ++ plsr.b r5,r5,4 ++ plsr.b r4,r4,3 ++ plsr.b lr,lr,1 ++ plsr.b r12,r1,2 ++ plsr.b r6,pc,7 ++ plsr.b r12,r11,2 ++ .text ++ .global pasr_h ++pasr_h: ++ pasr.h pc,pc,0 ++ pasr.h r12,r12,15 ++ pasr.h r5,r5,8 ++ pasr.h r4,r4,7 ++ pasr.h lr,lr,1 ++ pasr.h r0,r11,10 ++ pasr.h r4,r6,8 ++ pasr.h r6,r2,4 ++ .text ++ .global plsl_h ++plsl_h: ++ plsl.h pc,pc,0 ++ plsl.h r12,r12,15 ++ plsl.h r5,r5,8 ++ plsl.h r4,r4,7 ++ plsl.h lr,lr,1 ++ plsl.h r5,r10,9 ++ plsl.h sp,lr,8 ++ plsl.h r0,lr,7 ++ .text ++ .global plsr_h ++plsr_h: ++ plsr.h pc,pc,0 ++ plsr.h r12,r12,15 ++ plsr.h r5,r5,8 ++ plsr.h r4,r4,7 ++ plsr.h lr,lr,1 ++ plsr.h r11,r0,15 ++ plsr.h lr,r3,3 ++ plsr.h r8,lr,10 ++ .text ++ .global packw_sh ++packw_sh: ++ packw.sh pc,pc,pc ++ packw.sh r12,r12,r12 ++ packw.sh r5,r5,r5 ++ packw.sh r4,r4,r4 ++ packw.sh lr,lr,lr ++ packw.sh sp,r11,r10 ++ packw.sh r8,r2,r12 ++ packw.sh r8,r1,r5 ++ .text ++ .global punpckub_h ++punpckub_h: ++ punpckub.h pc,pc:b ++ punpckub.h r12,r12:t ++ punpckub.h r5,r5:t ++ punpckub.h r4,r4:b ++ punpckub.h lr,lr:t ++ punpckub.h r6,r1:t ++ punpckub.h lr,r5:b ++ punpckub.h lr,r2:t ++ .text ++ .global punpcksb_h ++punpcksb_h: ++ punpcksb.h pc,pc:b ++ punpcksb.h r12,r12:t ++ punpcksb.h r5,r5:t ++ punpcksb.h r4,r4:b ++ punpcksb.h lr,lr:t ++ punpcksb.h r4,r7:t ++ punpcksb.h r6,lr:b ++ punpcksb.h r12,r12:t ++ .text ++ .global packsh_ub ++packsh_ub: ++ packsh.ub pc,pc,pc ++ packsh.ub r12,r12,r12 ++ packsh.ub r5,r5,r5 ++ packsh.ub r4,r4,r4 ++ packsh.ub lr,lr,lr ++ packsh.ub r3,r6,r3 ++ packsh.ub r8,r0,r3 ++ packsh.ub r9,r3,lr ++ .text ++ .global packsh_sb ++packsh_sb: ++ packsh.sb pc,pc,pc ++ packsh.sb r12,r12,r12 ++ packsh.sb r5,r5,r5 ++ packsh.sb r4,r4,r4 ++ packsh.sb lr,lr,lr ++ packsh.sb r6,r8,r1 ++ packsh.sb lr,r9,r8 ++ packsh.sb sp,r6,r6 ++ .text ++ .global andl ++andl: ++ andl pc,0 ++ andl r12,65535 ++ andl r5,32768 ++ andl r4,32767 ++ andl lr,1 ++ andl pc,23128 ++ andl r8,47262 ++ andl r7,13719 ++ .text ++ .global andl_coh ++andl_coh: ++ andl pc,0,COH ++ andl r12,65535,COH ++ andl r5,32768,COH ++ andl r4,32767,COH ++ andl lr,1,COH ++ andl r6,22753,COH ++ andl r0,40653,COH ++ andl r4,48580,COH ++ .text ++ .global andh ++andh: ++ andh pc,0 ++ andh r12,65535 ++ andh r5,32768 ++ andh r4,32767 ++ andh lr,1 ++ andh r12,52312 ++ andh r3,8675 ++ andh r2,42987 ++ .text ++ .global andh_coh ++andh_coh: ++ andh pc,0,COH ++ andh r12,65535,COH ++ andh r5,32768,COH ++ andh r4,32767,COH ++ andh lr,1,COH ++ andh r11,34317,COH ++ andh r8,52982,COH ++ andh r10,23683,COH ++ .text ++ .global orl ++orl: ++ orl pc,0 ++ orl r12,65535 ++ orl r5,32768 ++ orl r4,32767 ++ orl lr,1 ++ orl sp,16766 ++ orl r0,21181 ++ orl pc,44103 ++ .text ++ .global orh ++orh: ++ orh pc,0 ++ orh r12,65535 ++ orh r5,32768 ++ orh r4,32767 ++ orh lr,1 ++ orh r8,28285 ++ orh r12,30492 ++ orh r1,59930 ++ .text ++ .global eorl ++eorl: ++ eorl pc,0 ++ eorl r12,65535 ++ eorl r5,32768 ++ eorl r4,32767 ++ eorl lr,1 ++ eorl r4,51129 ++ eorl r6,64477 ++ eorl r1,20913 ++ .text ++ .global eorh ++eorh: ++ eorh pc,0 ++ eorh r12,65535 ++ eorh r5,32768 ++ eorh r4,32767 ++ eorh lr,1 ++ eorh r0,11732 ++ eorh r10,38069 ++ eorh r9,57130 ++ .text ++ .global mcall ++mcall: ++ mcall pc[0] ++ mcall r12[-4] ++ mcall r5[-131072] ++ mcall r4[131068] ++ mcall lr[4] ++ mcall sp[61180] ++ mcall r4[-35000] ++ mcall r0[9924] ++ .text ++ .global pref ++pref: ++ pref pc[0] ++ pref r12[-1] ++ pref r5[-32768] ++ pref r4[32767] ++ pref lr[1] ++ pref r7[7748] ++ pref r7[-7699] ++ pref r2[-25892] ++ .text ++ .global cache ++cache: ++ cache pc[0],0 ++ cache r12[-1],31 ++ cache r5[-1024],16 ++ cache r4[1023],15 ++ cache lr[1],1 ++ cache r3[-964],17 ++ cache r4[-375],22 ++ cache r3[-888],17 ++ .text ++ .global sub4 ++sub4: ++ sub pc,0 ++ sub r12,-1 ++ sub r5,-1048576 ++ sub r4,1048575 ++ sub lr,1 ++ sub r2,-619156 ++ sub lr,461517 ++ sub r8,-185051 ++ .text ++ .global cp3 ++cp3: ++ cp pc,0 ++ cp r12,-1 ++ cp r5,-1048576 ++ cp r4,1048575 ++ cp lr,1 ++ cp r1,124078 ++ cp r0,-378909 ++ cp r4,-243180 ++ .text ++ .global mov2 ++mov2: ++ mov pc,0 ++ mov r12,-1 ++ mov r5,-1048576 ++ mov r4,1048575 ++ mov lr,1 ++ mov r5,-317021 ++ mov sp,-749164 ++ mov r5,940179 ++ .text ++ .global brc2 ++brc2: ++ breq 0 ++ bral -2 ++ brls -2097152 ++ brpl 2097150 ++ brne 2 ++ brhi -1796966 ++ brqs 1321368 ++ brls -577434 ++ .text ++ .global rcall2 ++rcall2: ++ rcall 0 ++ rcall -2 ++ rcall -2097152 ++ rcall 2097150 ++ rcall 2 ++ rcall 496820 ++ rcall 1085092 ++ rcall -1058 ++ .text ++ .global sub5 ++sub5: ++ sub pc,pc,0 ++ sub r12,r12,-1 ++ sub r5,r5,-32768 ++ sub r4,r4,32767 ++ sub lr,lr,1 ++ sub pc,pc,-12744 ++ sub r7,r7,-27365 ++ sub r2,r9,-17358 ++ .text ++ .global satsub_w2 ++satsub_w2: ++ satsub.w pc,pc,0 ++ satsub.w r12,r12,-1 ++ satsub.w r5,r5,-32768 ++ satsub.w r4,r4,32767 ++ satsub.w lr,lr,1 ++ satsub.w r2,lr,-2007 ++ satsub.w r7,r12,-784 ++ satsub.w r4,r7,23180 ++ .text ++ .global ld_d4 ++ld_d4: ++ ld.d r0,pc[0] ++ ld.d r14,r12[-1] ++ ld.d r8,r5[-32768] ++ ld.d r6,r4[32767] ++ ld.d r2,lr[1] ++ ld.d r14,r11[14784] ++ ld.d r6,r9[-18905] ++ ld.d r2,r3[-6355] ++ .text ++ .global ld_w4 ++ld_w4: ++ ld.w pc,pc[0] ++ ld.w r12,r12[-1] ++ ld.w r5,r5[-32768] ++ ld.w r4,r4[32767] ++ ld.w lr,lr[1] ++ ld.w r0,r12[-22133] ++ ld.w sp,pc[-20521] ++ /* ld.w r3,r5[29035] */ ++ nop ++ .text ++ .global ld_sh4 ++ld_sh4: ++ ld.sh pc,pc[0] ++ ld.sh r12,r12[-1] ++ ld.sh r5,r5[-32768] ++ ld.sh r4,r4[32767] ++ ld.sh lr,lr[1] ++ ld.sh r6,r10[30930] ++ ld.sh r6,r10[21973] ++ /* ld.sh r11,r10[-2058] */ ++ nop ++ .text ++ .global ld_uh4 ++ld_uh4: ++ ld.uh pc,pc[0] ++ ld.uh r12,r12[-1] ++ ld.uh r5,r5[-32768] ++ ld.uh r4,r4[32767] ++ ld.uh lr,lr[1] ++ ld.uh r1,r9[-13354] ++ ld.uh lr,r11[21337] ++ /* ld.uh r2,lr[-25370] */ ++ nop ++ .text ++ .global ld_sb1 ++ld_sb1: ++ ld.sb pc,pc[0] ++ ld.sb r12,r12[-1] ++ ld.sb r5,r5[-32768] ++ ld.sb r4,r4[32767] ++ ld.sb lr,lr[1] ++ ld.sb r7,sp[-28663] ++ ld.sb r2,r1[-5879] ++ ld.sb r12,r3[18734] ++ .text ++ .global ld_ub4 ++ld_ub4: ++ ld.ub pc,pc[0] ++ ld.ub r12,r12[-1] ++ ld.ub r5,r5[-32768] ++ ld.ub r4,r4[32767] ++ ld.ub lr,lr[1] ++ ld.ub pc,r4[8277] ++ ld.ub r5,r12[19172] ++ ld.ub r10,lr[26347] ++ .text ++ .global st_d4 ++st_d4: ++ st.d pc[0],r0 ++ st.d r12[-1],r14 ++ st.d r5[-32768],r8 ++ st.d r4[32767],r6 ++ st.d lr[1],r2 ++ st.d r5[13200],r10 ++ st.d r5[9352],r10 ++ st.d r5[32373],r4 ++ .text ++ .global st_w4 ++st_w4: ++ st.w pc[0],pc ++ st.w r12[-1],r12 ++ st.w r5[-32768],r5 ++ st.w r4[32767],r4 ++ st.w lr[1],lr ++ st.w sp[6136],r7 ++ st.w r6[27087],r12 ++ /* st.w r3[20143],r7 */ ++ nop ++ .text ++ .global st_h4 ++st_h4: ++ st.h pc[0],pc ++ st.h r12[-1],r12 ++ st.h r5[-32768],r5 ++ st.h r4[32767],r4 ++ st.h lr[1],lr ++ st.h r4[-9962],r7 ++ st.h r9[-16250],r3 ++ /* st.h r8[-28810],r7 */ ++ nop ++ .text ++ .global st_b4 ++st_b4: ++ st.b pc[0],pc ++ st.b r12[-1],r12 ++ st.b r5[-32768],r5 ++ st.b r4[32767],r4 ++ st.b lr[1],lr ++ st.b r12[30102],r6 ++ st.b r5[28977],r1 ++ st.b r0[5470],r1 ++ .text ++ .global mfsr ++mfsr: ++ mfsr pc,0 ++ mfsr r12,1020 ++ mfsr r5,512 ++ mfsr r4,508 ++ mfsr lr,4 ++ mfsr r2,696 ++ mfsr r4,260 ++ mfsr r10,1016 ++ .text ++ .global mtsr ++mtsr: ++ mtsr 0,pc ++ mtsr 1020,r12 ++ mtsr 512,r5 ++ mtsr 508,r4 ++ mtsr 4,lr ++ mtsr 224,r10 ++ mtsr 836,r12 ++ mtsr 304,r9 ++ .text ++ .global mfdr ++mfdr: ++ mfdr pc,0 ++ mfdr r12,1020 ++ mfdr r5,512 ++ mfdr r4,508 ++ mfdr lr,4 ++ mfdr r6,932 ++ mfdr r5,36 ++ mfdr r9,300 ++ .text ++ .global mtdr ++mtdr: ++ mtdr 0,pc ++ mtdr 1020,r12 ++ mtdr 512,r5 ++ mtdr 508,r4 ++ mtdr 4,lr ++ mtdr 180,r8 ++ mtdr 720,r10 ++ mtdr 408,lr ++ .text ++ .global sleep ++sleep: ++ sleep 0 ++ sleep 255 ++ sleep 128 ++ sleep 127 ++ sleep 1 ++ sleep 254 ++ sleep 15 ++ sleep 43 ++ .text ++ .global sync ++sync: ++ sync 0 ++ sync 255 ++ sync 128 ++ sync 127 ++ sync 1 ++ sync 166 ++ sync 230 ++ sync 180 ++ .text ++ .global bld ++bld: ++ bld pc,0 ++ bld r12,31 ++ bld r5,16 ++ bld r4,15 ++ bld lr,1 ++ bld r9,15 ++ bld r0,4 ++ bld lr,26 ++ .text ++ .global bst ++bst: ++ bst pc,0 ++ bst r12,31 ++ bst r5,16 ++ bst r4,15 ++ bst lr,1 ++ bst r10,28 ++ bst r0,3 ++ bst sp,2 ++ .text ++ .global sats ++sats: ++ sats pc>>0,0 ++ sats r12>>31,31 ++ sats r5>>16,16 ++ sats r4>>15,15 ++ sats lr>>1,1 ++ sats r10>>3,19 ++ sats r10>>2,26 ++ sats r1>>20,1 ++ .text ++ .global satu ++satu: ++ satu pc>>0,0 ++ satu r12>>31,31 ++ satu r5>>16,16 ++ satu r4>>15,15 ++ satu lr>>1,1 ++ satu pc>>5,7 ++ satu r7>>5,5 ++ satu r2>>26,19 ++ .text ++ .global satrnds ++satrnds: ++ satrnds pc>>0,0 ++ satrnds r12>>31,31 ++ satrnds r5>>16,16 ++ satrnds r4>>15,15 ++ satrnds lr>>1,1 ++ satrnds r0>>21,19 ++ satrnds sp>>0,2 ++ satrnds r7>>6,29 ++ .text ++ .global satrndu ++satrndu: ++ satrndu pc>>0,0 ++ satrndu r12>>31,31 ++ satrndu r5>>16,16 ++ satrndu r4>>15,15 ++ satrndu lr>>1,1 ++ satrndu r12>>0,26 ++ satrndu r4>>21,3 ++ satrndu r10>>3,16 ++ .text ++ .global subfc ++subfc: ++ subfeq pc,0 ++ subfal r12,-1 ++ subfls r5,-128 ++ subfpl r4,127 ++ subfne lr,1 ++ subfls r10,8 ++ subfvc r11,99 ++ subfvs r2,73 ++ .text ++ .global subc ++subc: ++ subeq pc,0 ++ subal r12,-1 ++ subls r5,-128 ++ subpl r4,127 ++ subne lr,1 ++ subls r12,118 ++ subvc lr,-12 ++ submi r4,-13 ++ .text ++ .global movc2 ++movc2: ++ moveq pc,0 ++ moval r12,-1 ++ movls r5,-128 ++ movpl r4,127 ++ movne lr,1 ++ movlt r3,-122 ++ movvc r8,2 ++ movne r7,-111 ++ .text ++ .global cp_b ++cp_b: ++ cp.b pc,r0 ++ cp.b r0,pc ++ cp.b r7,r8 ++ cp.b r8,r7 ++ .text ++ .global cp_h ++cp_h: ++ cp.h pc,r0 ++ cp.h r0,pc ++ cp.h r7,r8 ++ cp.h r8,r7 ++ .text ++ .global ldm ++ldm: ++ ldm pc,r1-r6 ++ ldm r12,r0-r15 ++ ldm r5,r15 ++ ldm r4,r0-r14 ++ ldm lr,r0 ++ ldm r9,r1,r5,r14 ++ ldm r11,r2-r3,r5-r8,r15 ++ ldm r6,r0,r3,r9,r13,r15 ++ .text ++ .global ldm_pu ++ldm_pu: ++ ldm pc++,r6-r9 ++ ldm r12++,r0-r15 ++ ldm r5++,r15 ++ ldm r4++,r0-r14 ++ ldm lr++,r0 ++ ldm r12++,r3-r5,r8,r10,r12,r14-r15 ++ ldm r10++,r2,r4-r6,r14-r15 ++ ldm r6++,r1,r3-r4,r9-r14 ++ .text ++ .global ldmts ++ldmts: ++ ldmts pc,r7-r8 ++ ldmts r12,r0-r15 ++ ldmts r5,r15 ++ ldmts r4,r0-r14 ++ ldmts lr,r0 ++ ldmts r0,r1-r2,r11-r12 ++ ldmts lr,r0-r2,r4,r7-r8,r13-r14 ++ ldmts r12,r0-r1,r3-r5,r9,r14-r15 ++ .text ++ .global ldmts_pu ++ldmts_pu: ++ ldmts pc++,r9 ++ ldmts r12++,r0-r15 ++ ldmts r5++,r15 ++ ldmts r4++,r0-r14 ++ ldmts lr++,r0 ++ ldmts sp++,r0,r2-r5,r7,r9,r11 ++ ldmts r5++,r1-r3,r7,r10-r11 ++ ldmts r8++,r2-r4,r7-r8,r13,r15 ++ .text ++ .global stm ++stm: ++ stm pc,r7 ++ stm r12,r0-r15 ++ stm r5,r15 ++ stm r4,r0-r14 ++ stm lr,r0 ++ stm sp,r2-r3,r5,r8,r11,r14 ++ stm r4,r0-r4,r6,r10-r11,r14 ++ stm r9,r1,r5,r9,r12-r15 ++ .text ++ .global stm_pu ++stm_pu: ++ stm --pc,r4-r6 ++ stm --r12,r0-r15 ++ stm --r5,r15 ++ stm --r4,r0-r14 ++ stm --lr,r0 ++ stm --r11,r0,r4-r9,r11-r15 ++ stm --r11,r0,r3,r9-r10,r12,r14 ++ stm --r6,r2,r8-r9,r13-r14 ++ .text ++ .global stmts ++stmts: ++ stmts pc,r8 ++ stmts r12,r0-r15 ++ stmts r5,r15 ++ stmts r4,r0-r14 ++ stmts lr,r0 ++ stmts r1,r0-r1,r3-r4,r6,r9-r10,r14-r15 ++ stmts r3,r0,r6-r8,r10-r12 ++ stmts r11,r0,r4,r6-r7,r9-r10,r12,r14-r15 ++ .text ++ .global stmts_pu ++stmts_pu: ++ stmts --pc,r6-r8 ++ stmts --r12,r0-r15 ++ stmts --r5,r15 ++ stmts --r4,r0-r14 ++ stmts --lr,r0 ++ stmts --r2,r0,r3-r4,r9-r10,r12-r13 ++ stmts --r3,r0-r1,r14-r15 ++ stmts --r0,r0,r2-r6,r10,r14 ++ .text ++ .global ldins_h ++ldins_h: ++ ldins.h pc:b,pc[0] ++ ldins.h r12:t,r12[-2] ++ ldins.h r5:t,r5[-4096] ++ ldins.h r4:b,r4[4094] ++ ldins.h lr:t,lr[2] ++ ldins.h r0:t,lr[1930] ++ ldins.h r3:b,r7[-534] ++ ldins.h r2:b,r12[-2252] ++ .text ++ .global ldins_b ++ldins_b: ++ ldins.b pc:b,pc[0] ++ ldins.b r12:t,r12[-1] ++ ldins.b r5:u,r5[-2048] ++ ldins.b r4:l,r4[2047] ++ ldins.b lr:l,lr[1] ++ ldins.b r6:t,r4[-662] ++ ldins.b r5:b,r1[-151] ++ ldins.b r10:t,r11[-1923] ++ .text ++ .global ldswp_sh ++ldswp_sh: ++ ldswp.sh pc,pc[0] ++ ldswp.sh r12,r12[-2] ++ ldswp.sh r5,r5[-4096] ++ ldswp.sh r4,r4[4094] ++ ldswp.sh lr,lr[2] ++ ldswp.sh r9,r10[3848] ++ ldswp.sh r4,r12[-2040] ++ ldswp.sh r10,r2[3088] ++ .text ++ .global ldswp_uh ++ldswp_uh: ++ ldswp.uh pc,pc[0] ++ ldswp.uh r12,r12[-2] ++ ldswp.uh r5,r5[-4096] ++ ldswp.uh r4,r4[4094] ++ ldswp.uh lr,lr[2] ++ ldswp.uh r4,r9[3724] ++ ldswp.uh lr,sp[-1672] ++ ldswp.uh r8,r12[-3846] ++ .text ++ .global ldswp_w ++ldswp_w: ++ ldswp.w pc,pc[0] ++ ldswp.w r12,r12[-4] ++ ldswp.w r5,r5[-8192] ++ ldswp.w r4,r4[8188] ++ ldswp.w lr,lr[4] ++ ldswp.w sp,r7[1860] ++ ldswp.w pc,r5[-3324] ++ ldswp.w r12,r10[-3296] ++ .text ++ .global stswp_h ++stswp_h: ++ stswp.h pc[0],pc ++ stswp.h r12[-2],r12 ++ stswp.h r5[-4096],r5 ++ stswp.h r4[4094],r4 ++ stswp.h lr[2],lr ++ stswp.h r7[64],r10 ++ stswp.h r10[3024],r2 ++ stswp.h r0[-2328],r10 ++ .text ++ .global stswp_w ++stswp_w: ++ stswp.w pc[0],pc ++ stswp.w r12[-4],r12 ++ stswp.w r5[-8192],r5 ++ stswp.w r4[8188],r4 ++ stswp.w lr[4],lr ++ stswp.w pc[1156],r8 ++ stswp.w sp[7992],r10 ++ stswp.w r8[-1172],r5 ++ .text ++ .global and2 ++and2: ++ and pc,pc,pc<<0 ++ and r12,r12,r12<<31 ++ and r5,r5,r5<<16 ++ and r4,r4,r4<<15 ++ and lr,lr,lr<<1 ++ and r10,r2,r1<<1 ++ and r12,r8,r11<<27 ++ and r10,r7,r0<<3 ++ .text ++ .global and3 ++and3: ++ and pc,pc,pc>>0 ++ and r12,r12,r12>>31 ++ and r5,r5,r5>>16 ++ and r4,r4,r4>>15 ++ and lr,lr,lr>>1 ++ and r12,r8,r7>>17 ++ and pc,r4,r9>>20 ++ and r10,r9,r10>>12 ++ .text ++ .global or2 ++or2: ++ or pc,pc,pc<<0 ++ or r12,r12,r12<<31 ++ or r5,r5,r5<<16 ++ or r4,r4,r4<<15 ++ or lr,lr,lr<<1 ++ or r8,sp,r11<<29 ++ or pc,r9,r2<<28 ++ or r5,r1,r2<<3 ++ .text ++ .global or3 ++or3: ++ or pc,pc,pc>>0 ++ or r12,r12,r12>>31 ++ or r5,r5,r5>>16 ++ or r4,r4,r4>>15 ++ or lr,lr,lr>>1 ++ or r1,sp,sp>>2 ++ or r0,r1,r1>>29 ++ or r4,r12,r8>>8 ++ .text ++ .global eor2 ++eor2: ++ eor pc,pc,pc<<0 ++ eor r12,r12,r12<<31 ++ eor r5,r5,r5<<16 ++ eor r4,r4,r4<<15 ++ eor lr,lr,lr<<1 ++ eor r10,r9,r4<<11 ++ eor r4,r0,r1<<31 ++ eor r6,r2,r12<<13 ++ .text ++ .global eor3 ++eor3: ++ eor pc,pc,pc>>0 ++ eor r12,r12,r12>>31 ++ eor r5,r5,r5>>16 ++ eor r4,r4,r4>>15 ++ eor lr,lr,lr>>1 ++ eor r5,r5,r5>>22 ++ eor r10,r1,lr>>3 ++ eor r7,lr,sp>>26 ++ .text ++ .global sthh_w2 ++sthh_w2: ++ sthh.w pc[pc<<0],pc:b,pc:b ++ sthh.w r12[r12<<3],r12:t,r12:t ++ sthh.w r5[r5<<2],r5:t,r5:t ++ sthh.w r4[r4<<1],r4:b,r4:b ++ sthh.w lr[lr<<1],lr:t,lr:t ++ sthh.w sp[r6<<3],r1:t,r12:t ++ sthh.w r6[r6<<0],r9:t,r9:t ++ sthh.w r10[r3<<0],r0:b,r11:t ++ .text ++ .global sthh_w1 ++sthh_w1: ++ sthh.w pc[0],pc:b,pc:b ++ sthh.w r12[1020],r12:t,r12:t ++ sthh.w r5[512],r5:t,r5:t ++ sthh.w r4[508],r4:b,r4:b ++ sthh.w lr[4],lr:t,lr:t ++ sthh.w r4[404],r9:t,r0:b ++ sthh.w r8[348],r2:t,r10:b ++ sthh.w sp[172],r9:b,r2:b ++ .text ++ .global cop ++cop: ++ cop cp0,cr0,cr0,cr0,0 ++ cop cp7,cr15,cr15,cr15,0x7f ++ cop cp3,cr5,cr5,cr5,0x31 ++ cop cp2,cr4,cr4,cr4,0x30 ++ cop cp5,cr8,cr3,cr7,0x5a ++ .text ++ .global ldc_w1 ++ldc_w1: ++ ldc.w cp0,cr0,r0[0] ++ ldc.w cp7,cr15,pc[255<<2] ++ ldc.w cp3,cr5,r5[128<<2] ++ ldc.w cp2,cr4,r4[127<<2] ++ ldc.w cp4,cr9,r13[36<<2] ++ .text ++ .global ldc_w2 ++ldc_w2: ++ ldc.w cp0,cr0,--r0 ++ ldc.w cp7,cr15,--pc ++ ldc.w cp3,cr5,--r5 ++ ldc.w cp2,cr4,--r4 ++ ldc.w cp4,cr9,--r13 ++ .text ++ .global ldc_w3 ++ldc_w3: ++ ldc.w cp0,cr0,r0[r0] ++ ldc.w cp7,cr15,pc[pc<<3] ++ ldc.w cp3,cr5,r5[r4<<2] ++ ldc.w cp2,cr4,r4[r3<<1] ++ ldc.w cp4,cr9,r13[r12<<0] ++ .text ++ .global ldc_d1 ++ldc_d1: ++ ldc.d cp0,cr0,r0[0] ++ ldc.d cp7,cr14,pc[255<<2] ++ ldc.d cp3,cr6,r5[128<<2] ++ ldc.d cp2,cr4,r4[127<<2] ++ ldc.d cp4,cr8,r13[36<<2] ++ .text ++ .global ldc_d2 ++ldc_d2: ++ ldc.d cp0,cr0,--r0 ++ ldc.d cp7,cr14,--pc ++ ldc.d cp3,cr6,--r5 ++ ldc.d cp2,cr4,--r4 ++ ldc.d cp4,cr8,--r13 ++ .text ++ .global ldc_d3 ++ldc_d3: ++ ldc.d cp0,cr0,r0[r0] ++ ldc.d cp7,cr14,pc[pc<<3] ++ ldc.d cp3,cr6,r5[r4<<2] ++ ldc.d cp2,cr4,r4[r3<<1] ++ ldc.d cp4,cr8,r13[r12<<0] ++ .text ++ .global stc_w1 ++stc_w1: ++ stc.w cp0,r0[0],cr0 ++ stc.w cp7,pc[255<<2],cr15 ++ stc.w cp3,r5[128<<2],cr5 ++ stc.w cp2,r4[127<<2],cr4 ++ stc.w cp4,r13[36<<2],cr9 ++ .text ++ .global stc_w2 ++stc_w2: ++ stc.w cp0,r0++,cr0 ++ stc.w cp7,pc++,cr15 ++ stc.w cp3,r5++,cr5 ++ stc.w cp2,r4++,cr4 ++ stc.w cp4,r13++,cr9 ++ .text ++ .global stc_w3 ++stc_w3: ++ stc.w cp0,r0[r0],cr0 ++ stc.w cp7,pc[pc<<3],cr15 ++ stc.w cp3,r5[r4<<2],cr5 ++ stc.w cp2,r4[r3<<1],cr4 ++ stc.w cp4,r13[r12<<0],cr9 ++ .text ++ .global stc_d1 ++stc_d1: ++ stc.d cp0,r0[0],cr0 ++ stc.d cp7,pc[255<<2],cr14 ++ stc.d cp3,r5[128<<2],cr6 ++ stc.d cp2,r4[127<<2],cr4 ++ stc.d cp4,r13[36<<2],cr8 ++ .text ++ .global stc_d2 ++stc_d2: ++ stc.d cp0,r0++,cr0 ++ stc.d cp7,pc++,cr14 ++ stc.d cp3,r5++,cr6 ++ stc.d cp2,r4++,cr4 ++ stc.d cp4,r13++,cr8 ++ .text ++ .global stc_d3 ++stc_d3: ++ stc.d cp0,r0[r0],cr0 ++ stc.d cp7,pc[pc<<3],cr14 ++ stc.d cp3,r5[r4<<2],cr6 ++ stc.d cp2,r4[r3<<1],cr4 ++ stc.d cp4,r13[r12<<0],cr8 ++ .text ++ .global ldc0_w ++ldc0_w: ++ ldc0.w cr0,r0[0] ++ ldc0.w cr15,pc[4095<<2] ++ ldc0.w cr5,r5[2048<<2] ++ ldc0.w cr4,r4[2047<<2] ++ ldc0.w cr9,r13[147<<2] ++ .text ++ .global ldc0_d ++ldc0_d: ++ ldc0.d cr0,r0[0] ++ ldc0.d cr14,pc[4095<<2] ++ ldc0.d cr6,r5[2048<<2] ++ ldc0.d cr4,r4[2047<<2] ++ ldc0.d cr8,r13[147<<2] ++ .text ++ .global stc0_w ++stc0_w: ++ stc0.w r0[0],cr0 ++ stc0.w pc[4095<<2],cr15 ++ stc0.w r5[2048<<2],cr5 ++ stc0.w r4[2047<<2],cr4 ++ stc0.w r13[147<<2],cr9 ++ .text ++ .global stc0_d ++stc0_d: ++ stc0.d r0[0],cr0 ++ stc0.d pc[4095<<2],cr14 ++ stc0.d r5[2048<<2],cr6 ++ stc0.d r4[2047<<2],cr4 ++ stc0.d r13[147<<2],cr8 ++ .text ++ .global memc ++memc: ++ memc 0, 0 ++ memc -4, 31 ++ memc -65536, 16 ++ memc 65532, 15 ++ .text ++ .global mems ++mems: ++ mems 0, 0 ++ mems -4, 31 ++ mems -65536, 16 ++ mems 65532, 15 ++ .text ++ .global memt ++memt: ++ memt 0, 0 ++ memt -4, 31 ++ memt -65536, 16 ++ memt 65532, 15 ++ ++ .text ++ .global stcond ++stcond: ++ stcond r0[0], r0 ++ stcond pc[-1], pc ++ stcond r8[-32768], r7 ++ stcond r7[32767], r8 ++ stcond r5[0x1234], r10 ++ ++ldcm_w: ++ ldcm.w cp0,pc,cr0-cr7 ++ ldcm.w cp7,r0,cr0 ++ ldcm.w cp4,r4++,cr0-cr6 ++ ldcm.w cp3,r7,cr7 ++ ldcm.w cp1,r12++,cr1,cr4-cr6 ++ ldcm.w cp0,pc,cr8-cr15 ++ ldcm.w cp7,r0,cr8 ++ ldcm.w cp4,r4++,cr8-cr14 ++ ldcm.w cp3,r7,cr15 ++ ldcm.w cp1,r12++,cr9,cr12-cr14 ++ ++ldcm_d: ++ ldcm.d cp0,pc,cr0-cr15 ++ ldcm.d cp7,r0,cr0,cr1 ++ ldcm.d cp4,r4++,cr0-cr13 ++ ldcm.d cp3,r7,cr14-cr15 ++ ldcm.d cp2,r12++,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++stcm_w: ++ stcm.w cp0,pc,cr0-cr7 ++ stcm.w cp7,r0,cr0 ++ stcm.w cp4,--r4,cr0-cr6 ++ stcm.w cp3,r7,cr7 ++ stcm.w cp1,--r12,cr1,cr4-cr6 ++ stcm.w cp0,pc,cr8-cr15 ++ stcm.w cp7,r0,cr8 ++ stcm.w cp4,--r4,cr8-cr14 ++ stcm.w cp3,r7,cr15 ++ stcm.w cp1,--r12,cr9,cr12-cr14 ++ ++stcm_d: ++ stcm.d cp0,pc,cr0-cr15 ++ stcm.d cp7,r0,cr0,cr1 ++ stcm.d cp4,--r4,cr0-cr13 ++ stcm.d cp3,r7,cr14-cr15 ++ stcm.d cp2,--r12,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++mvcr_w: ++ mvcr.w cp7,pc,cr15 ++ mvcr.w cp0,r0,cr0 ++ mvcr.w cp0,pc,cr15 ++ mvcr.w cp7,r0,cr15 ++ mvcr.w cp7,pc,cr0 ++ mvcr.w cp4,r7,cr8 ++ mvcr.w cp3,r8,cr7 ++ ++mvcr_d: ++ mvcr.d cp7,lr,cr14 ++ mvcr.d cp0,r0,cr0 ++ mvcr.d cp0,lr,cr14 ++ mvcr.d cp7,r0,cr14 ++ mvcr.d cp7,lr,cr0 ++ mvcr.d cp4,r6,cr8 ++ mvcr.d cp3,r8,cr6 ++ ++mvrc_w: ++ mvrc.w cp7,cr15,pc ++ mvrc.w cp0,cr0,r0 ++ mvrc.w cp0,cr15,pc ++ mvrc.w cp7,cr15,r0 ++ mvrc.w cp7,cr0,pc ++ mvrc.w cp4,cr8,r7 ++ mvrc.w cp3,cr7,r8 ++ ++mvrc_d: ++ mvrc.d cp7,cr14,lr ++ mvrc.d cp0,cr0,r0 ++ mvrc.d cp0,cr14,lr ++ mvrc.d cp7,cr14,r0 ++ mvrc.d cp7,cr0,lr ++ mvrc.d cp4,cr8,r6 ++ mvrc.d cp3,cr6,r8 ++ ++bfexts: ++ bfexts pc,pc,31,31 ++ bfexts r0,r0,0,0 ++ bfexts r0,pc,31,31 ++ bfexts pc,r0,31,31 ++ bfexts pc,pc,0,31 ++ bfexts pc,pc,31,0 ++ bfexts r7,r8,15,16 ++ bfexts r8,r7,16,15 ++ ++bfextu: ++ bfextu pc,pc,31,31 ++ bfextu r0,r0,0,0 ++ bfextu r0,pc,31,31 ++ bfextu pc,r0,31,31 ++ bfextu pc,pc,0,31 ++ bfextu pc,pc,31,0 ++ bfextu r7,r8,15,16 ++ bfextu r8,r7,16,15 ++ ++bfins: ++ bfins pc,pc,31,31 ++ bfins r0,r0,0,0 ++ bfins r0,pc,31,31 ++ bfins pc,r0,31,31 ++ bfins pc,pc,0,31 ++ bfins pc,pc,31,0 ++ bfins r7,r8,15,16 ++ bfins r8,r7,16,15 ++ ++rsubc: ++ rsubeq pc,0 ++ rsubal r12,-1 ++ rsubls r5,-128 ++ rsubpl r4,127 ++ rsubne lr,1 ++ rsubls r12,118 ++ rsubvc lr,-12 ++ rsubmi r4,-13 ++ ++addc: ++ addeq pc,pc,pc ++ addal r12,r12,r12 ++ addls r5,r5,r5 ++ addpl r4,r4,r4 ++ addne lr,lr,lr ++ addls r10,r2,r1 ++ addvc r12,r8,r11 ++ addmi r10,r7,r0 ++ ++subc2: ++ subeq pc,pc,pc ++ subal r12,r12,r12 ++ subls r5,r5,r5 ++ subpl r4,r4,r4 ++ subne lr,lr,lr ++ subls r10,r2,r1 ++ subvc r12,r8,r11 ++ submi r10,r7,r0 ++ ++andc: ++ andeq pc,pc,pc ++ andal r12,r12,r12 ++ andls r5,r5,r5 ++ andpl r4,r4,r4 ++ andne lr,lr,lr ++ andls r10,r2,r1 ++ andvc r12,r8,r11 ++ andmi r10,r7,r0 ++ ++orc: ++ oreq pc,pc,pc ++ oral r12,r12,r12 ++ orls r5,r5,r5 ++ orpl r4,r4,r4 ++ orne lr,lr,lr ++ orls r10,r2,r1 ++ orvc r12,r8,r11 ++ ormi r10,r7,r0 ++ ++eorc: ++ eoreq pc,pc,pc ++ eoral r12,r12,r12 ++ eorls r5,r5,r5 ++ eorpl r4,r4,r4 ++ eorne lr,lr,lr ++ eorls r10,r2,r1 ++ eorvc r12,r8,r11 ++ eormi r10,r7,r0 ++ ++ldcond: ++ ld.weq pc,pc[2044] ++ ld.shal r12,r12[1022] ++ ld.uhls r5,r5[0] ++ ld.ubpl r4,r4[511] ++ ld.sbne lr,lr[0] ++ ld.wls r10,r2[0] ++ ld.shvc r12,r8[0x3fe] ++ ld.ubmi r10,r7[1] ++ ++stcond2: ++ st.weq pc[2044],pc ++ st.hal r12[1022],r12 ++ st.hls r5[0],r5 ++ st.bpl r4[511],r4 ++ st.bne lr[0],lr ++ st.wls r2[0],r10 ++ st.hvc r8[0x3fe],r12 ++ st.bmi r7[1],r10 ++ ++movh: ++ movh pc, 65535 ++ movh r0, 0 ++ movh r5, 1 ++ movh r12, 32767 ++ ++ +--- /dev/null ++++ b/gas/testsuite/gas/avr32/avr32.exp +@@ -0,0 +1,23 @@ ++# AVR32 assembler testsuite. -*- Tcl -*- ++ ++if [istarget avr32-*-*] { ++ run_dump_test "hwrd-lwrd" ++ run_dump_test "pcrel" ++ run_dump_test "aliases" ++ run_dump_test "dwarf2" ++ run_dump_test "pic_reloc" ++ run_dump_test "fpinsn" ++ run_dump_test "pico" ++ run_dump_test "lda_pic" ++ run_dump_test "lda_pic_linkrelax" ++ run_dump_test "lda_nopic" ++ run_dump_test "lda_nopic_linkrelax" ++ run_dump_test "call_pic" ++ run_dump_test "call_pic_linkrelax" ++ run_dump_test "call_nopic" ++ run_dump_test "call_nopic_linkrelax" ++ run_dump_test "jmptable" ++ run_dump_test "jmptable_linkrelax" ++ run_dump_test "symdiff" ++ run_dump_test "symdiff_linkrelax" ++} +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_nopic.d +@@ -0,0 +1,36 @@ ++#source: call.s ++#as: ++#objdump: -dr ++#name: call_nopic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: f0 a0 00 00 rcall 0 ++ 200004: f0 1f 00 0c mcall 200034 ++ 200008: f0 1f 00 0c mcall 200038 ++ 20000c: f0 1f 00 0c mcall 20003c ++ 200010: f0 1f 00 0c mcall 200040 ++ \.\.\. ++ 200030: ee b0 ff ff rcall 40002e ++ \.\.\. ++ 200034: R_AVR32_32_CPENT \.text\+0x2 ++ 200038: R_AVR32_32_CPENT \.text\.init ++ 20003c: R_AVR32_32_CPENT undefined ++ 200040: R_AVR32_32_CPENT \.text\+0x40002c ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_nopic_linkrelax.d +@@ -0,0 +1,43 @@ ++#source: call.s ++#as: --linkrelax ++#objdump: -dr ++#name: call_nopic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: e0 a0 00 00 rcall 200000 ++ 200000: R_AVR32_22H_PCREL \.text ++ 200004: f0 1f 00 00 mcall 200004 ++ 200004: R_AVR32_CPCALL \.text\+0x200034 ++ 200008: f0 1f 00 00 mcall 200008 ++ 200008: R_AVR32_CPCALL \.text\+0x200038 ++ 20000c: f0 1f 00 00 mcall 20000c ++ 20000c: R_AVR32_CPCALL \.text\+0x20003c ++ 200010: f0 1f 00 00 mcall 200010 ++ 200010: R_AVR32_CPCALL \.text\+0x200040 ++ \.\.\. ++ 200030: e0 a0 00 00 rcall 200030 ++ 200030: R_AVR32_22H_PCREL \.text\+0x40002e ++ \.\.\. ++ 200034: R_AVR32_ALIGN \*ABS\*\+0x2 ++ 200034: R_AVR32_32_CPENT \.text\+0x2 ++ 200038: R_AVR32_32_CPENT \.text\.init ++ 20003c: R_AVR32_32_CPENT undefined ++ 200040: R_AVR32_32_CPENT \.text\+0x40002c ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_pic.d +@@ -0,0 +1,36 @@ ++#source: call.s ++#as: --pic ++#objdump: -dr ++#name: call_pic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: f0 a0 00 00 rcall 0 ++ 200004: f0 16 00 00 mcall r6\[0\] ++ 200004: R_AVR32_GOT18SW toofar_negative ++ 200008: f0 16 00 00 mcall r6\[0\] ++ 200008: R_AVR32_GOT18SW different_section ++ 20000c: f0 16 00 00 mcall r6\[0\] ++ 20000c: R_AVR32_GOT18SW undefined ++ 200010: f0 16 00 00 mcall r6\[0\] ++ 200010: R_AVR32_GOT18SW toofar_positive ++ \.\.\. ++ 200030: ee b0 ff ff rcall 40002e ++ \.\.\. ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_pic_linkrelax.d +@@ -0,0 +1,47 @@ ++#source: call.s ++#as: --pic --linkrelax ++#objdump: -dr ++#name: call_pic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: e0 a0 00 00 rcall 200000 ++ 200000: R_AVR32_22H_PCREL \.text ++ 200004: e0 6e 00 00 mov lr,0 ++ 200004: R_AVR32_GOTCALL toofar_negative ++ 200008: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 20000c: 5d 1e icall lr ++ 20000e: e0 6e 00 00 mov lr,0 ++ 20000e: R_AVR32_GOTCALL different_section ++ 200012: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 200016: 5d 1e icall lr ++ 200018: e0 6e 00 00 mov lr,0 ++ 200018: R_AVR32_GOTCALL undefined ++ 20001c: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 200020: 5d 1e icall lr ++ 200022: e0 6e 00 00 mov lr,0 ++ 200022: R_AVR32_GOTCALL toofar_positive ++ 200026: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 20002a: 5d 1e icall lr ++ 20002c: 00 00 add r0,r0 ++ 20002e: 00 00 add r0,r0 ++ 200030: e0 a0 00 00 rcall 200030 ++ 200030: R_AVR32_22H_PCREL \.text\+0x40002e ++ \.\.\. ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call.s +@@ -0,0 +1,30 @@ ++ ++ .text ++ .global call_test ++call_test: ++far_negative: ++ nop ++toofar_negative: ++ ++ .org 0x200000 ++ ++ call far_negative ++ call toofar_negative ++ call different_section ++ call undefined ++ call toofar_positive ++ .org 0x200030 ++ call far_positive ++ ++ .cpool ++ ++ .org 0x40002c ++ ++toofar_positive: ++ nop ++far_positive: ++ nop ++ ++ .section .text.init,"ax",@progbits ++different_section: ++ sub r0, r1, 0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/dwarf2.d +@@ -0,0 +1,42 @@ ++#readelf: -wl ++#name: dwarf2 ++#source: dwarf2.s ++ ++Dump of debug contents of section \.debug_line: ++ ++ Length: 53 ++ DWARF Version: 2 ++ Prologue Length: 26 ++ Minimum Instruction Length: 1 ++ Initial value of 'is_stmt': 1 ++ Line Base: -5 ++ Line Range: 14 ++ Opcode Base: 10 ++ \(Pointer size: 4\) ++ ++ Opcodes: ++ Opcode 1 has 0 args ++ Opcode 2 has 1 args ++ Opcode 3 has 1 args ++ Opcode 4 has 1 args ++ Opcode 5 has 1 args ++ Opcode 6 has 0 args ++ Opcode 7 has 0 args ++ Opcode 8 has 0 args ++ Opcode 9 has 1 args ++ ++ The Directory Table is empty\. ++ ++ The File Name Table: ++ Entry Dir Time Size Name ++ 1 0 0 0 main\.c ++ ++ Line Number Statements: ++ Extended opcode 2: set Address to 0x0 ++ Advance Line by 87 to 88 ++ Copy ++ Advance Line by 23 to 111 ++ Special opcode .*: advance Address by 4 to 0x4 and Line by 0 to 111 ++ Special opcode .*: advance Address by 10 to 0xe and Line by 1 to 112 ++ Advance PC by 530 to 220 ++ Extended opcode 1: End of Sequence +--- /dev/null ++++ b/gas/testsuite/gas/avr32/dwarf2.s +@@ -0,0 +1,67 @@ ++# Source file used to test DWARF2 information for AVR32. ++ ++ .file "main.c" ++ ++ .section .debug_abbrev,"",@progbits ++.Ldebug_abbrev0: ++ .section .debug_info,"",@progbits ++.Ldebug_info0: ++ .section .debug_line,"",@progbits ++.Ldebug_line0: ++ ++ .text ++ .align 1 ++ .globl main ++ .type main, @function ++.Ltext0: ++main: ++ .file 1 "main.c" ++ .loc 1 88 0 ++ pushm r0-r7,lr ++ sub sp, 4 ++ .loc 1 111 0 ++ lddpc r12, .LC1 ++ lddpc r7, .LC1 ++ icall r7 ++ .loc 1 112 0 ++ lddpc r6, .LC4 ++ ++ .align 2 ++.LC4: .int 0 ++ ++ .fill 256, 2, 0 ++ ++ .align 2 ++.LC1: ++ .int 0 ++.LC2: ++ .int 0 ++.LC3: ++ .int 0 ++ .size main, . - main ++ ++.Letext0: ++ ++ .section .debug_info ++ .int .Ledebug_info0 - .Ldebug_info0 // size ++ .short 2 // version ++ .int .Ldebug_abbrev0 // abbrev offset ++ .byte 4 // bytes per addr ++ ++ .uleb128 1 // abbrev 1 ++ .int .Ldebug_line0 // DW_AT_stmt_list ++ .int .Letext0 // DW_AT_high_pc ++ .int .Ltext0 // DW_AT_low_pc ++ ++.Ledebug_info0: ++ ++ .section .debug_abbrev ++ .uleb128 0x01 ++ .uleb128 0x11 // DW_TAG_compile_unit ++ .byte 0 // DW_CHILDREN_no ++ .uleb128 0x10, 0x6 // DW_AT_stmt_list ++ .uleb128 0x12, 0x1 // DW_AT_high_pc ++ .uleb128 0x11, 0x1 // DW_AT_low_pc ++ .uleb128 0, 0 ++ ++ .byte 0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/fpinsn.d +@@ -0,0 +1,271 @@ ++#as: ++#objdump: -dr ++#name: fpinsn ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a2 0f ff cop cp0,cr15,cr15,cr15,0x4 ++ *[0-9a-f]*: e1 a2 00 00 cop cp0,cr0,cr0,cr0,0x4 ++ *[0-9a-f]*: e1 a2 00 ff cop cp0,cr0,cr15,cr15,0x4 ++ *[0-9a-f]*: e1 a2 0f 0f cop cp0,cr15,cr0,cr15,0x4 ++ *[0-9a-f]*: e1 a2 0f f0 cop cp0,cr15,cr15,cr0,0x4 ++ *[0-9a-f]*: e1 a2 07 88 cop cp0,cr7,cr8,cr8,0x4 ++ *[0-9a-f]*: e1 a2 08 78 cop cp0,cr8,cr7,cr8,0x4 ++ *[0-9a-f]*: e1 a2 08 87 cop cp0,cr8,cr8,cr7,0x4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a2 1f ff cop cp0,cr15,cr15,cr15,0x5 ++ *[0-9a-f]*: e1 a2 10 00 cop cp0,cr0,cr0,cr0,0x5 ++ *[0-9a-f]*: e1 a2 10 ff cop cp0,cr0,cr15,cr15,0x5 ++ *[0-9a-f]*: e1 a2 1f 0f cop cp0,cr15,cr0,cr15,0x5 ++ *[0-9a-f]*: e1 a2 1f f0 cop cp0,cr15,cr15,cr0,0x5 ++ *[0-9a-f]*: e1 a2 17 88 cop cp0,cr7,cr8,cr8,0x5 ++ *[0-9a-f]*: e1 a2 18 78 cop cp0,cr8,cr7,cr8,0x5 ++ *[0-9a-f]*: e1 a2 18 87 cop cp0,cr8,cr8,cr7,0x5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 0f ff cop cp0,cr15,cr15,cr15,0x0 ++ *[0-9a-f]*: e1 a0 00 00 cop cp0,cr0,cr0,cr0,0x0 ++ *[0-9a-f]*: e1 a0 00 ff cop cp0,cr0,cr15,cr15,0x0 ++ *[0-9a-f]*: e1 a0 0f 0f cop cp0,cr15,cr0,cr15,0x0 ++ *[0-9a-f]*: e1 a0 0f f0 cop cp0,cr15,cr15,cr0,0x0 ++ *[0-9a-f]*: e1 a0 07 88 cop cp0,cr7,cr8,cr8,0x0 ++ *[0-9a-f]*: e1 a0 08 78 cop cp0,cr8,cr7,cr8,0x0 ++ *[0-9a-f]*: e1 a0 08 87 cop cp0,cr8,cr8,cr7,0x0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 1f ff cop cp0,cr15,cr15,cr15,0x1 ++ *[0-9a-f]*: e1 a0 10 00 cop cp0,cr0,cr0,cr0,0x1 ++ *[0-9a-f]*: e1 a0 10 ff cop cp0,cr0,cr15,cr15,0x1 ++ *[0-9a-f]*: e1 a0 1f 0f cop cp0,cr15,cr0,cr15,0x1 ++ *[0-9a-f]*: e1 a0 1f f0 cop cp0,cr15,cr15,cr0,0x1 ++ *[0-9a-f]*: e1 a0 17 88 cop cp0,cr7,cr8,cr8,0x1 ++ *[0-9a-f]*: e1 a0 18 78 cop cp0,cr8,cr7,cr8,0x1 ++ *[0-9a-f]*: e1 a0 18 87 cop cp0,cr8,cr8,cr7,0x1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a1 0f ff cop cp0,cr15,cr15,cr15,0x2 ++ *[0-9a-f]*: e1 a1 00 00 cop cp0,cr0,cr0,cr0,0x2 ++ *[0-9a-f]*: e1 a1 00 ff cop cp0,cr0,cr15,cr15,0x2 ++ *[0-9a-f]*: e1 a1 0f 0f cop cp0,cr15,cr0,cr15,0x2 ++ *[0-9a-f]*: e1 a1 0f f0 cop cp0,cr15,cr15,cr0,0x2 ++ *[0-9a-f]*: e1 a1 07 88 cop cp0,cr7,cr8,cr8,0x2 ++ *[0-9a-f]*: e1 a1 08 78 cop cp0,cr8,cr7,cr8,0x2 ++ *[0-9a-f]*: e1 a1 08 87 cop cp0,cr8,cr8,cr7,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a1 1f ff cop cp0,cr15,cr15,cr15,0x3 ++ *[0-9a-f]*: e1 a1 10 00 cop cp0,cr0,cr0,cr0,0x3 ++ *[0-9a-f]*: e1 a1 10 ff cop cp0,cr0,cr15,cr15,0x3 ++ *[0-9a-f]*: e1 a1 1f 0f cop cp0,cr15,cr0,cr15,0x3 ++ *[0-9a-f]*: e1 a1 1f f0 cop cp0,cr15,cr15,cr0,0x3 ++ *[0-9a-f]*: e1 a1 17 88 cop cp0,cr7,cr8,cr8,0x3 ++ *[0-9a-f]*: e1 a1 18 78 cop cp0,cr8,cr7,cr8,0x3 ++ *[0-9a-f]*: e1 a1 18 87 cop cp0,cr8,cr8,cr7,0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a3 0f ff cop cp0,cr15,cr15,cr15,0x6 ++ *[0-9a-f]*: e1 a3 00 00 cop cp0,cr0,cr0,cr0,0x6 ++ *[0-9a-f]*: e1 a3 00 ff cop cp0,cr0,cr15,cr15,0x6 ++ *[0-9a-f]*: e1 a3 0f 0f cop cp0,cr15,cr0,cr15,0x6 ++ *[0-9a-f]*: e1 a3 0f f0 cop cp0,cr15,cr15,cr0,0x6 ++ *[0-9a-f]*: e1 a3 07 88 cop cp0,cr7,cr8,cr8,0x6 ++ *[0-9a-f]*: e1 a3 08 78 cop cp0,cr8,cr7,cr8,0x6 ++ *[0-9a-f]*: e1 a3 08 87 cop cp0,cr8,cr8,cr7,0x6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a3 1f ff cop cp0,cr15,cr15,cr15,0x7 ++ *[0-9a-f]*: e1 a3 10 00 cop cp0,cr0,cr0,cr0,0x7 ++ *[0-9a-f]*: e1 a3 10 ff cop cp0,cr0,cr15,cr15,0x7 ++ *[0-9a-f]*: e1 a3 1f 0f cop cp0,cr15,cr0,cr15,0x7 ++ *[0-9a-f]*: e1 a3 1f f0 cop cp0,cr15,cr15,cr0,0x7 ++ *[0-9a-f]*: e1 a3 17 88 cop cp0,cr7,cr8,cr8,0x7 ++ *[0-9a-f]*: e1 a3 18 78 cop cp0,cr8,cr7,cr8,0x7 ++ *[0-9a-f]*: e1 a3 18 87 cop cp0,cr8,cr8,cr7,0x7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a4 0f f0 cop cp0,cr15,cr15,cr0,0x8 ++ *[0-9a-f]*: e1 a4 00 00 cop cp0,cr0,cr0,cr0,0x8 ++ *[0-9a-f]*: e1 a4 00 f0 cop cp0,cr0,cr15,cr0,0x8 ++ *[0-9a-f]*: e1 a4 0f 00 cop cp0,cr15,cr0,cr0,0x8 ++ *[0-9a-f]*: e1 a4 07 80 cop cp0,cr7,cr8,cr0,0x8 ++ *[0-9a-f]*: e1 a4 08 70 cop cp0,cr8,cr7,cr0,0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a4 1f f0 cop cp0,cr15,cr15,cr0,0x9 ++ *[0-9a-f]*: e1 a4 10 00 cop cp0,cr0,cr0,cr0,0x9 ++ *[0-9a-f]*: e1 a4 10 f0 cop cp0,cr0,cr15,cr0,0x9 ++ *[0-9a-f]*: e1 a4 1f 00 cop cp0,cr15,cr0,cr0,0x9 ++ *[0-9a-f]*: e1 a4 17 80 cop cp0,cr7,cr8,cr0,0x9 ++ *[0-9a-f]*: e1 a4 18 70 cop cp0,cr8,cr7,cr0,0x9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a6 10 ff cop cp0,cr0,cr15,cr15,0xd ++ *[0-9a-f]*: e1 a6 10 00 cop cp0,cr0,cr0,cr0,0xd ++ *[0-9a-f]*: e1 a6 10 0f cop cp0,cr0,cr0,cr15,0xd ++ *[0-9a-f]*: e1 a6 10 f0 cop cp0,cr0,cr15,cr0,0xd ++ *[0-9a-f]*: e1 a6 10 78 cop cp0,cr0,cr7,cr8,0xd ++ *[0-9a-f]*: e1 a6 10 87 cop cp0,cr0,cr8,cr7,0xd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a2 0e ee cop cp0,cr14,cr14,cr14,0x44 ++ *[0-9a-f]*: e5 a2 00 00 cop cp0,cr0,cr0,cr0,0x44 ++ *[0-9a-f]*: e5 a2 00 ee cop cp0,cr0,cr14,cr14,0x44 ++ *[0-9a-f]*: e5 a2 0e 0e cop cp0,cr14,cr0,cr14,0x44 ++ *[0-9a-f]*: e5 a2 0e e0 cop cp0,cr14,cr14,cr0,0x44 ++ *[0-9a-f]*: e5 a2 06 88 cop cp0,cr6,cr8,cr8,0x44 ++ *[0-9a-f]*: e5 a2 08 68 cop cp0,cr8,cr6,cr8,0x44 ++ *[0-9a-f]*: e5 a2 08 86 cop cp0,cr8,cr8,cr6,0x44 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a2 1e ee cop cp0,cr14,cr14,cr14,0x45 ++ *[0-9a-f]*: e5 a2 10 00 cop cp0,cr0,cr0,cr0,0x45 ++ *[0-9a-f]*: e5 a2 10 ee cop cp0,cr0,cr14,cr14,0x45 ++ *[0-9a-f]*: e5 a2 1e 0e cop cp0,cr14,cr0,cr14,0x45 ++ *[0-9a-f]*: e5 a2 1e e0 cop cp0,cr14,cr14,cr0,0x45 ++ *[0-9a-f]*: e5 a2 16 88 cop cp0,cr6,cr8,cr8,0x45 ++ *[0-9a-f]*: e5 a2 18 68 cop cp0,cr8,cr6,cr8,0x45 ++ *[0-9a-f]*: e5 a2 18 86 cop cp0,cr8,cr8,cr6,0x45 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a0 0e ee cop cp0,cr14,cr14,cr14,0x40 ++ *[0-9a-f]*: e5 a0 00 00 cop cp0,cr0,cr0,cr0,0x40 ++ *[0-9a-f]*: e5 a0 00 ee cop cp0,cr0,cr14,cr14,0x40 ++ *[0-9a-f]*: e5 a0 0e 0e cop cp0,cr14,cr0,cr14,0x40 ++ *[0-9a-f]*: e5 a0 0e e0 cop cp0,cr14,cr14,cr0,0x40 ++ *[0-9a-f]*: e5 a0 06 88 cop cp0,cr6,cr8,cr8,0x40 ++ *[0-9a-f]*: e5 a0 08 68 cop cp0,cr8,cr6,cr8,0x40 ++ *[0-9a-f]*: e5 a0 08 86 cop cp0,cr8,cr8,cr6,0x40 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a0 1e ee cop cp0,cr14,cr14,cr14,0x41 ++ *[0-9a-f]*: e5 a0 10 00 cop cp0,cr0,cr0,cr0,0x41 ++ *[0-9a-f]*: e5 a0 10 ee cop cp0,cr0,cr14,cr14,0x41 ++ *[0-9a-f]*: e5 a0 1e 0e cop cp0,cr14,cr0,cr14,0x41 ++ *[0-9a-f]*: e5 a0 1e e0 cop cp0,cr14,cr14,cr0,0x41 ++ *[0-9a-f]*: e5 a0 16 88 cop cp0,cr6,cr8,cr8,0x41 ++ *[0-9a-f]*: e5 a0 18 68 cop cp0,cr8,cr6,cr8,0x41 ++ *[0-9a-f]*: e5 a0 18 86 cop cp0,cr8,cr8,cr6,0x41 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a1 0e ee cop cp0,cr14,cr14,cr14,0x42 ++ *[0-9a-f]*: e5 a1 00 00 cop cp0,cr0,cr0,cr0,0x42 ++ *[0-9a-f]*: e5 a1 00 ee cop cp0,cr0,cr14,cr14,0x42 ++ *[0-9a-f]*: e5 a1 0e 0e cop cp0,cr14,cr0,cr14,0x42 ++ *[0-9a-f]*: e5 a1 0e e0 cop cp0,cr14,cr14,cr0,0x42 ++ *[0-9a-f]*: e5 a1 06 88 cop cp0,cr6,cr8,cr8,0x42 ++ *[0-9a-f]*: e5 a1 08 68 cop cp0,cr8,cr6,cr8,0x42 ++ *[0-9a-f]*: e5 a1 08 86 cop cp0,cr8,cr8,cr6,0x42 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a1 1e ee cop cp0,cr14,cr14,cr14,0x43 ++ *[0-9a-f]*: e5 a1 10 00 cop cp0,cr0,cr0,cr0,0x43 ++ *[0-9a-f]*: e5 a1 10 ee cop cp0,cr0,cr14,cr14,0x43 ++ *[0-9a-f]*: e5 a1 1e 0e cop cp0,cr14,cr0,cr14,0x43 ++ *[0-9a-f]*: e5 a1 1e e0 cop cp0,cr14,cr14,cr0,0x43 ++ *[0-9a-f]*: e5 a1 16 88 cop cp0,cr6,cr8,cr8,0x43 ++ *[0-9a-f]*: e5 a1 18 68 cop cp0,cr8,cr6,cr8,0x43 ++ *[0-9a-f]*: e5 a1 18 86 cop cp0,cr8,cr8,cr6,0x43 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a3 0e ee cop cp0,cr14,cr14,cr14,0x46 ++ *[0-9a-f]*: e5 a3 00 00 cop cp0,cr0,cr0,cr0,0x46 ++ *[0-9a-f]*: e5 a3 00 ee cop cp0,cr0,cr14,cr14,0x46 ++ *[0-9a-f]*: e5 a3 0e 0e cop cp0,cr14,cr0,cr14,0x46 ++ *[0-9a-f]*: e5 a3 0e e0 cop cp0,cr14,cr14,cr0,0x46 ++ *[0-9a-f]*: e5 a3 06 88 cop cp0,cr6,cr8,cr8,0x46 ++ *[0-9a-f]*: e5 a3 08 68 cop cp0,cr8,cr6,cr8,0x46 ++ *[0-9a-f]*: e5 a3 08 86 cop cp0,cr8,cr8,cr6,0x46 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a3 1e ee cop cp0,cr14,cr14,cr14,0x47 ++ *[0-9a-f]*: e5 a3 10 00 cop cp0,cr0,cr0,cr0,0x47 ++ *[0-9a-f]*: e5 a3 10 ee cop cp0,cr0,cr14,cr14,0x47 ++ *[0-9a-f]*: e5 a3 1e 0e cop cp0,cr14,cr0,cr14,0x47 ++ *[0-9a-f]*: e5 a3 1e e0 cop cp0,cr14,cr14,cr0,0x47 ++ *[0-9a-f]*: e5 a3 16 88 cop cp0,cr6,cr8,cr8,0x47 ++ *[0-9a-f]*: e5 a3 18 68 cop cp0,cr8,cr6,cr8,0x47 ++ *[0-9a-f]*: e5 a3 18 86 cop cp0,cr8,cr8,cr6,0x47 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a4 0e e0 cop cp0,cr14,cr14,cr0,0x48 ++ *[0-9a-f]*: e5 a4 00 00 cop cp0,cr0,cr0,cr0,0x48 ++ *[0-9a-f]*: e5 a4 00 e0 cop cp0,cr0,cr14,cr0,0x48 ++ *[0-9a-f]*: e5 a4 0e 00 cop cp0,cr14,cr0,cr0,0x48 ++ *[0-9a-f]*: e5 a4 06 80 cop cp0,cr6,cr8,cr0,0x48 ++ *[0-9a-f]*: e5 a4 08 60 cop cp0,cr8,cr6,cr0,0x48 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a4 1e e0 cop cp0,cr14,cr14,cr0,0x49 ++ *[0-9a-f]*: e5 a4 10 00 cop cp0,cr0,cr0,cr0,0x49 ++ *[0-9a-f]*: e5 a4 10 e0 cop cp0,cr0,cr14,cr0,0x49 ++ *[0-9a-f]*: e5 a4 1e 00 cop cp0,cr14,cr0,cr0,0x49 ++ *[0-9a-f]*: e5 a4 16 80 cop cp0,cr6,cr8,cr0,0x49 ++ *[0-9a-f]*: e5 a4 18 60 cop cp0,cr8,cr6,cr0,0x49 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a6 10 ee cop cp0,cr0,cr14,cr14,0x4d ++ *[0-9a-f]*: e5 a6 10 00 cop cp0,cr0,cr0,cr0,0x4d ++ *[0-9a-f]*: e5 a6 10 0e cop cp0,cr0,cr0,cr14,0x4d ++ *[0-9a-f]*: e5 a6 10 e0 cop cp0,cr0,cr14,cr0,0x4d ++ *[0-9a-f]*: e5 a6 10 68 cop cp0,cr0,cr6,cr8,0x4d ++ *[0-9a-f]*: e5 a6 10 86 cop cp0,cr0,cr8,cr6,0x4d ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a5 0f f0 cop cp0,cr15,cr15,cr0,0xa ++ *[0-9a-f]*: e1 a5 00 00 cop cp0,cr0,cr0,cr0,0xa ++ *[0-9a-f]*: e1 a5 0f 00 cop cp0,cr15,cr0,cr0,0xa ++ *[0-9a-f]*: e1 a5 00 f0 cop cp0,cr0,cr15,cr0,0xa ++ *[0-9a-f]*: e1 a5 08 70 cop cp0,cr8,cr7,cr0,0xa ++ *[0-9a-f]*: e1 a5 07 80 cop cp0,cr7,cr8,cr0,0xa ++ *[0-9a-f]*: ef af 0f 00 mvcr.w cp0,pc,cr15 ++ *[0-9a-f]*: ef a0 00 00 mvcr.w cp0,r0,cr0 ++ *[0-9a-f]*: ef af 00 00 mvcr.w cp0,pc,cr0 ++ *[0-9a-f]*: ef a0 0f 00 mvcr.w cp0,r0,cr15 ++ *[0-9a-f]*: ef a8 07 00 mvcr.w cp0,r8,cr7 ++ *[0-9a-f]*: ef a7 08 00 mvcr.w cp0,r7,cr8 ++ *[0-9a-f]*: ef af 0f 20 mvrc.w cp0,cr15,pc ++ *[0-9a-f]*: ef a0 00 20 mvrc.w cp0,cr0,r0 ++ *[0-9a-f]*: ef a0 0f 20 mvrc.w cp0,cr15,r0 ++ *[0-9a-f]*: ef af 00 20 mvrc.w cp0,cr0,pc ++ *[0-9a-f]*: ef a7 08 20 mvrc.w cp0,cr8,r7 ++ *[0-9a-f]*: ef a8 07 20 mvrc.w cp0,cr7,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a5 0e e0 cop cp0,cr14,cr14,cr0,0x4a ++ *[0-9a-f]*: e5 a5 00 00 cop cp0,cr0,cr0,cr0,0x4a ++ *[0-9a-f]*: e5 a5 0e 00 cop cp0,cr14,cr0,cr0,0x4a ++ *[0-9a-f]*: e5 a5 00 e0 cop cp0,cr0,cr14,cr0,0x4a ++ *[0-9a-f]*: e5 a5 08 60 cop cp0,cr8,cr6,cr0,0x4a ++ *[0-9a-f]*: e5 a5 06 80 cop cp0,cr6,cr8,cr0,0x4a ++ *[0-9a-f]*: ef ae 0e 10 mvcr.d cp0,lr,cr14 ++ *[0-9a-f]*: ef a0 00 10 mvcr.d cp0,r0,cr0 ++ *[0-9a-f]*: ef ae 00 10 mvcr.d cp0,lr,cr0 ++ *[0-9a-f]*: ef a0 0e 10 mvcr.d cp0,r0,cr14 ++ *[0-9a-f]*: ef a8 06 10 mvcr.d cp0,r8,cr6 ++ *[0-9a-f]*: ef a6 08 10 mvcr.d cp0,r6,cr8 ++ *[0-9a-f]*: ef ae 0e 30 mvrc.d cp0,cr14,lr ++ *[0-9a-f]*: ef a0 00 30 mvrc.d cp0,cr0,r0 ++ *[0-9a-f]*: ef a0 0e 30 mvrc.d cp0,cr14,r0 ++ *[0-9a-f]*: ef ae 00 30 mvrc.d cp0,cr0,lr ++ *[0-9a-f]*: ef a6 08 30 mvrc.d cp0,cr8,r6 ++ *[0-9a-f]*: ef a8 06 30 mvrc.d cp0,cr6,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a7 1f e0 cop cp0,cr15,cr14,cr0,0xf ++ *[0-9a-f]*: e1 a7 10 00 cop cp0,cr0,cr0,cr0,0xf ++ *[0-9a-f]*: e1 a7 1f 00 cop cp0,cr15,cr0,cr0,0xf ++ *[0-9a-f]*: e1 a7 10 e0 cop cp0,cr0,cr14,cr0,0xf ++ *[0-9a-f]*: e1 a7 18 60 cop cp0,cr8,cr6,cr0,0xf ++ *[0-9a-f]*: e1 a7 17 80 cop cp0,cr7,cr8,cr0,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a8 0e f0 cop cp0,cr14,cr15,cr0,0x10 ++ *[0-9a-f]*: e1 a8 00 00 cop cp0,cr0,cr0,cr0,0x10 ++ *[0-9a-f]*: e1 a8 0e 00 cop cp0,cr14,cr0,cr0,0x10 ++ *[0-9a-f]*: e1 a8 00 f0 cop cp0,cr0,cr15,cr0,0x10 ++ *[0-9a-f]*: e1 a8 08 70 cop cp0,cr8,cr7,cr0,0x10 ++ *[0-9a-f]*: e1 a8 06 80 cop cp0,cr6,cr8,cr0,0x10 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/fpinsn.s +@@ -0,0 +1,266 @@ ++ ++ .text ++ .global fadd_s ++fadd_s: ++ fadd.s fr15, fr15, fr15 ++ fadd.s fr0, fr0, fr0 ++ fadd.s fr0, fr15, fr15 ++ fadd.s fr15, fr0, fr15 ++ fadd.s fr15, fr15, fr0 ++ fadd.s fr7, fr8, fr8 ++ fadd.s fr8, fr7, fr8 ++ fadd.s fr8, fr8, fr7 ++ .global fsub_s ++fsub_s: ++ fsub.s fr15, fr15, fr15 ++ fsub.s fr0, fr0, fr0 ++ fsub.s fr0, fr15, fr15 ++ fsub.s fr15, fr0, fr15 ++ fsub.s fr15, fr15, fr0 ++ fsub.s fr7, fr8, fr8 ++ fsub.s fr8, fr7, fr8 ++ fsub.s fr8, fr8, fr7 ++ .global fmac_s ++fmac_s: ++ fmac.s fr15, fr15, fr15 ++ fmac.s fr0, fr0, fr0 ++ fmac.s fr0, fr15, fr15 ++ fmac.s fr15, fr0, fr15 ++ fmac.s fr15, fr15, fr0 ++ fmac.s fr7, fr8, fr8 ++ fmac.s fr8, fr7, fr8 ++ fmac.s fr8, fr8, fr7 ++ .global fnmac_s ++fnmac_s: ++ fnmac.s fr15, fr15, fr15 ++ fnmac.s fr0, fr0, fr0 ++ fnmac.s fr0, fr15, fr15 ++ fnmac.s fr15, fr0, fr15 ++ fnmac.s fr15, fr15, fr0 ++ fnmac.s fr7, fr8, fr8 ++ fnmac.s fr8, fr7, fr8 ++ fnmac.s fr8, fr8, fr7 ++ .global fmsc_s ++fmsc_s: ++ fmsc.s fr15, fr15, fr15 ++ fmsc.s fr0, fr0, fr0 ++ fmsc.s fr0, fr15, fr15 ++ fmsc.s fr15, fr0, fr15 ++ fmsc.s fr15, fr15, fr0 ++ fmsc.s fr7, fr8, fr8 ++ fmsc.s fr8, fr7, fr8 ++ fmsc.s fr8, fr8, fr7 ++ .global fnmsc_s ++fnmsc_s: ++ fnmsc.s fr15, fr15, fr15 ++ fnmsc.s fr0, fr0, fr0 ++ fnmsc.s fr0, fr15, fr15 ++ fnmsc.s fr15, fr0, fr15 ++ fnmsc.s fr15, fr15, fr0 ++ fnmsc.s fr7, fr8, fr8 ++ fnmsc.s fr8, fr7, fr8 ++ fnmsc.s fr8, fr8, fr7 ++ .global fmul_s ++fmul_s: ++ fmul.s fr15, fr15, fr15 ++ fmul.s fr0, fr0, fr0 ++ fmul.s fr0, fr15, fr15 ++ fmul.s fr15, fr0, fr15 ++ fmul.s fr15, fr15, fr0 ++ fmul.s fr7, fr8, fr8 ++ fmul.s fr8, fr7, fr8 ++ fmul.s fr8, fr8, fr7 ++ .global fnmul_s ++fnmul_s: ++ fnmul.s fr15, fr15, fr15 ++ fnmul.s fr0, fr0, fr0 ++ fnmul.s fr0, fr15, fr15 ++ fnmul.s fr15, fr0, fr15 ++ fnmul.s fr15, fr15, fr0 ++ fnmul.s fr7, fr8, fr8 ++ fnmul.s fr8, fr7, fr8 ++ fnmul.s fr8, fr8, fr7 ++ .global fneg_s ++fneg_s: ++ fneg.s fr15, fr15 ++ fneg.s fr0, fr0 ++ fneg.s fr0, fr15 ++ fneg.s fr15, fr0 ++ fneg.s fr7, fr8 ++ fneg.s fr8, fr7 ++ .global fabs_s ++fabs_s: ++ fabs.s fr15, fr15 ++ fabs.s fr0, fr0 ++ fabs.s fr0, fr15 ++ fabs.s fr15, fr0 ++ fabs.s fr7, fr8 ++ fabs.s fr8, fr7 ++ .global fcmp_s ++fcmp_s: ++ fcmp.s fr15, fr15 ++ fcmp.s fr0, fr0 ++ fcmp.s fr0, fr15 ++ fcmp.s fr15, fr0 ++ fcmp.s fr7, fr8 ++ fcmp.s fr8, fr7 ++ .global fadd_d ++fadd_d: ++ fadd.d fr14, fr14, fr14 ++ fadd.d fr0, fr0, fr0 ++ fadd.d fr0, fr14, fr14 ++ fadd.d fr14, fr0, fr14 ++ fadd.d fr14, fr14, fr0 ++ fadd.d fr6, fr8, fr8 ++ fadd.d fr8, fr6, fr8 ++ fadd.d fr8, fr8, fr6 ++ .global fsub_d ++fsub_d: ++ fsub.d fr14, fr14, fr14 ++ fsub.d fr0, fr0, fr0 ++ fsub.d fr0, fr14, fr14 ++ fsub.d fr14, fr0, fr14 ++ fsub.d fr14, fr14, fr0 ++ fsub.d fr6, fr8, fr8 ++ fsub.d fr8, fr6, fr8 ++ fsub.d fr8, fr8, fr6 ++ .global fmac_d ++fmac_d: ++ fmac.d fr14, fr14, fr14 ++ fmac.d fr0, fr0, fr0 ++ fmac.d fr0, fr14, fr14 ++ fmac.d fr14, fr0, fr14 ++ fmac.d fr14, fr14, fr0 ++ fmac.d fr6, fr8, fr8 ++ fmac.d fr8, fr6, fr8 ++ fmac.d fr8, fr8, fr6 ++ .global fnmac_d ++fnmac_d: ++ fnmac.d fr14, fr14, fr14 ++ fnmac.d fr0, fr0, fr0 ++ fnmac.d fr0, fr14, fr14 ++ fnmac.d fr14, fr0, fr14 ++ fnmac.d fr14, fr14, fr0 ++ fnmac.d fr6, fr8, fr8 ++ fnmac.d fr8, fr6, fr8 ++ fnmac.d fr8, fr8, fr6 ++ .global fmsc_d ++fmsc_d: ++ fmsc.d fr14, fr14, fr14 ++ fmsc.d fr0, fr0, fr0 ++ fmsc.d fr0, fr14, fr14 ++ fmsc.d fr14, fr0, fr14 ++ fmsc.d fr14, fr14, fr0 ++ fmsc.d fr6, fr8, fr8 ++ fmsc.d fr8, fr6, fr8 ++ fmsc.d fr8, fr8, fr6 ++ .global fnmsc_d ++fnmsc_d: ++ fnmsc.d fr14, fr14, fr14 ++ fnmsc.d fr0, fr0, fr0 ++ fnmsc.d fr0, fr14, fr14 ++ fnmsc.d fr14, fr0, fr14 ++ fnmsc.d fr14, fr14, fr0 ++ fnmsc.d fr6, fr8, fr8 ++ fnmsc.d fr8, fr6, fr8 ++ fnmsc.d fr8, fr8, fr6 ++ .global fmul_d ++fmul_d: ++ fmul.d fr14, fr14, fr14 ++ fmul.d fr0, fr0, fr0 ++ fmul.d fr0, fr14, fr14 ++ fmul.d fr14, fr0, fr14 ++ fmul.d fr14, fr14, fr0 ++ fmul.d fr6, fr8, fr8 ++ fmul.d fr8, fr6, fr8 ++ fmul.d fr8, fr8, fr6 ++ .global fnmul_d ++fnmul_d: ++ fnmul.d fr14, fr14, fr14 ++ fnmul.d fr0, fr0, fr0 ++ fnmul.d fr0, fr14, fr14 ++ fnmul.d fr14, fr0, fr14 ++ fnmul.d fr14, fr14, fr0 ++ fnmul.d fr6, fr8, fr8 ++ fnmul.d fr8, fr6, fr8 ++ fnmul.d fr8, fr8, fr6 ++ .global fneg_d ++fneg_d: ++ fneg.d fr14, fr14 ++ fneg.d fr0, fr0 ++ fneg.d fr0, fr14 ++ fneg.d fr14, fr0 ++ fneg.d fr6, fr8 ++ fneg.d fr8, fr6 ++ .global fabs_d ++fabs_d: ++ fabs.d fr14, fr14 ++ fabs.d fr0, fr0 ++ fabs.d fr0, fr14 ++ fabs.d fr14, fr0 ++ fabs.d fr6, fr8 ++ fabs.d fr8, fr6 ++ .global fcmp_d ++fcmp_d: ++ fcmp.d fr14, fr14 ++ fcmp.d fr0, fr0 ++ fcmp.d fr0, fr14 ++ fcmp.d fr14, fr0 ++ fcmp.d fr6, fr8 ++ fcmp.d fr8, fr6 ++ .global fmov_s ++fmov_s: ++ fmov.s fr15, fr15 ++ fmov.s fr0, fr0 ++ fmov.s fr15, fr0 ++ fmov.s fr0, fr15 ++ fmov.s fr8, fr7 ++ fmov.s fr7, fr8 ++ fmov.s pc, fr15 ++ fmov.s r0, fr0 ++ fmov.s pc, fr0 ++ fmov.s r0, fr15 ++ fmov.s r8, fr7 ++ fmov.s r7, fr8 ++ fmov.s fr15, pc ++ fmov.s fr0, r0 ++ fmov.s fr15, r0 ++ fmov.s fr0, pc ++ fmov.s fr8, r7 ++ fmov.s fr7, r8 ++ .global fmov_d ++fmov_d: ++ fmov.d fr14, fr14 ++ fmov.d fr0, fr0 ++ fmov.d fr14, fr0 ++ fmov.d fr0, fr14 ++ fmov.d fr8, fr6 ++ fmov.d fr6, fr8 ++ fmov.d lr, fr14 ++ fmov.d r0, fr0 ++ fmov.d lr, fr0 ++ fmov.d r0, fr14 ++ fmov.d r8, fr6 ++ fmov.d r6, fr8 ++ fmov.d fr14, lr ++ fmov.d fr0, r0 ++ fmov.d fr14, r0 ++ fmov.d fr0, lr ++ fmov.d fr8, r6 ++ fmov.d fr6, r8 ++ .global fcasts_d ++fcasts_d: ++ fcasts.d fr15, fr14 ++ fcasts.d fr0, fr0 ++ fcasts.d fr15, fr0 ++ fcasts.d fr0, fr14 ++ fcasts.d fr8, fr6 ++ fcasts.d fr7, fr8 ++ .global fcastd_s ++fcastd_s: ++ fcastd.s fr14, fr15 ++ fcastd.s fr0, fr0 ++ fcastd.s fr14, fr0 ++ fcastd.s fr0, fr15 ++ fcastd.s fr8, fr7 ++ fcastd.s fr6, fr8 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/hwrd-lwrd.d +@@ -0,0 +1,47 @@ ++#as: ++#objdump: -dr ++#name: hwrd-lwrd ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: e0 60 87 65 mov r0,34661 ++ 4: e0 60 12 34 mov r0,4660 ++ 8: e0 60 00 00 mov r0,0 ++ 8: R_AVR32_HI16 \.text\+0x60 ++ c: e0 60 00 00 mov r0,0 ++ c: R_AVR32_HI16 extsym1 ++ 10: ea 10 87 65 orh r0,0x8765 ++ 14: ea 10 12 34 orh r0,0x1234 ++ 18: ea 10 00 00 orh r0,0x0 ++ 18: R_AVR32_HI16 \.text\+0x60 ++ 1c: ea 10 00 00 orh r0,0x0 ++ 1c: R_AVR32_HI16 extsym1 ++ 20: e4 10 87 65 andh r0,0x8765 ++ 24: e4 10 12 34 andh r0,0x1234 ++ 28: e4 10 00 00 andh r0,0x0 ++ 28: R_AVR32_HI16 \.text\+0x60 ++ 2c: e4 10 00 00 andh r0,0x0 ++ 2c: R_AVR32_HI16 extsym1 ++ ++00000030 : ++ 30: e0 60 43 21 mov r0,17185 ++ 34: e0 60 56 78 mov r0,22136 ++ 38: e0 60 00 00 mov r0,0 ++ 38: R_AVR32_LO16 \.text\+0x60 ++ 3c: e0 60 00 00 mov r0,0 ++ 3c: R_AVR32_LO16 extsym1 ++ 40: e8 10 43 21 orl r0,0x4321 ++ 44: e8 10 56 78 orl r0,0x5678 ++ 48: e8 10 00 00 orl r0,0x0 ++ 48: R_AVR32_LO16 \.text\+0x60 ++ 4c: e8 10 00 00 orl r0,0x0 ++ 4c: R_AVR32_LO16 extsym1 ++ 50: e0 10 43 21 andl r0,0x4321 ++ 54: e0 10 56 78 andl r0,0x5678 ++ 58: e0 10 00 00 andl r0,0x0 ++ 58: R_AVR32_LO16 \.text\+0x60 ++ 5c: e0 10 00 00 andl r0,0x0 ++ 5c: R_AVR32_LO16 extsym1 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/hwrd-lwrd.s +@@ -0,0 +1,39 @@ ++ ++ .equ sym1, 0x12345678 ++ ++ .text ++ .global test_hwrd ++test_hwrd: ++ mov r0, hi(0x87654321) ++ mov r0, hi(sym1) ++ mov r0, hi(sym2) ++ mov r0, hi(extsym1) ++ ++ orh r0, hi(0x87654321) ++ orh r0, hi(sym1) ++ orh r0, hi(sym2) ++ orh r0, hi(extsym1) ++ ++ andh r0, hi(0x87654321) ++ andh r0, hi(sym1) ++ andh r0, hi(sym2) ++ andh r0, hi(extsym1) ++ ++ .global test_lwrd ++test_lwrd: ++ mov r0, lo(0x87654321) ++ mov r0, lo(sym1) ++ mov r0, lo(sym2) ++ mov r0, lo(extsym1) ++ ++ orl r0, lo(0x87654321) ++ orl r0, lo(sym1) ++ orl r0, lo(sym2) ++ orl r0, lo(extsym1) ++ ++ andl r0, lo(0x87654321) ++ andl r0, lo(sym1) ++ andl r0, lo(sym2) ++ andl r0, lo(extsym1) ++ ++sym2: +--- /dev/null ++++ b/gas/testsuite/gas/avr32/jmptable.d +@@ -0,0 +1,20 @@ ++#source: jmptable.s ++#as: ++#objdump: -dr ++#name: jmptable ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: fe c8 ff f4 sub r8,pc,-12 ++ 4: f0 00 00 2f add pc,r8,r0<<0x2 ++ 8: d7 03 nop ++ a: 00 00 add r0,r0 ++ c: c0 38 rjmp 12 ++ e: c0 38 rjmp 14 ++ 10: c0 38 rjmp 16 ++ 12: d7 03 nop ++ 14: d7 03 nop ++ 16: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/jmptable_linkrelax.d +@@ -0,0 +1,25 @@ ++#source: jmptable.s ++#as: --linkrelax ++#objdump: -dr ++#name: jmptable_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: fe c8 00 00 sub r8,pc,0 ++ 0: R_AVR32_16N_PCREL \.text\+0xc ++ 4: f0 00 00 2f add pc,r8,r0<<0x2 ++ 8: d7 03 nop ++ a: 00 00 add r0,r0 ++ a: R_AVR32_ALIGN \*ABS\*\+0x2 ++ c: c0 08 rjmp c ++ c: R_AVR32_11H_PCREL \.text\+0x12 ++ e: c0 08 rjmp e ++ e: R_AVR32_11H_PCREL \.text\+0x14 ++ 10: c0 08 rjmp 10 ++ 10: R_AVR32_11H_PCREL \.text\+0x16 ++ 12: d7 03 nop ++ 14: d7 03 nop ++ 16: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/jmptable.s +@@ -0,0 +1,14 @@ ++ ++ .text ++ .global jmptable_test ++jmptable_test: ++ sub r8, pc, -(.L1 - .) ++ add pc, r8, r0 << 2 ++ nop ++ .align 2 ++.L1: rjmp 1f ++ rjmp 2f ++ rjmp 3f ++1: nop ++2: nop ++3: nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_nopic.d +@@ -0,0 +1,32 @@ ++#source: lda.s ++#as: ++#objdump: -dr ++#name: lda_nopic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ ... ++ 8000: fe c0 7f fc sub r0,pc,32764 ++ 8004: 48 31 lddpc r1,8010 ++ 8006: 48 42 lddpc r2,8014 ++ 8008: 48 43 lddpc r3,8018 ++ 800a: 48 54 lddpc r4,801c ++ 800c: fe c5 80 04 sub r5,pc,-32764 ++ ... ++ 8010: R_AVR32_32_CPENT \.text ++ 8014: R_AVR32_32_CPENT \.data ++ 8018: R_AVR32_32_CPENT undefined ++ 801c: R_AVR32_32_CPENT \.text\+0x1001c ++ ++00010008 : ++ 10008: fa cc 00 00 sub r12,sp,0 ++ ... ++0001001c : ++ 1001c: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_nopic_linkrelax.d +@@ -0,0 +1,41 @@ ++#source: lda.s ++#as: --linkrelax ++#objdump: -dr ++#name: lda_nopic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ \.\.\. ++ 8000: 48 00 lddpc r0,8000 ++ 8000: R_AVR32_9W_CP \.text\+0x800c ++ 8002: 48 01 lddpc r1,8000 ++ 8002: R_AVR32_9W_CP \.text\+0x8010 ++ 8004: 48 02 lddpc r2,8004 ++ 8004: R_AVR32_9W_CP \.text\+0x8014 ++ 8006: 48 03 lddpc r3,8004 ++ 8006: R_AVR32_9W_CP \.text\+0x8018 ++ 8008: 48 04 lddpc r4,8008 ++ 8008: R_AVR32_9W_CP \.text\+0x801c ++ 800a: 48 05 lddpc r5,8008 ++ 800a: R_AVR32_9W_CP \.text\+0x8020 ++ \.\.\. ++ 800c: R_AVR32_ALIGN \*ABS\*\+0x2 ++ 800c: R_AVR32_32_CPENT \.text\+0x4 ++ 8010: R_AVR32_32_CPENT \.text ++ 8014: R_AVR32_32_CPENT \.data ++ 8018: R_AVR32_32_CPENT undefined ++ 801c: R_AVR32_32_CPENT \.text\+0x10020 ++ 8020: R_AVR32_32_CPENT \.text\+0x1000c ++ ++0001000c : ++ 1000c: fa cc 00 00 sub r12,sp,0 ++ \.\.\. ++00010020 : ++ 10020: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_pic.d +@@ -0,0 +1,32 @@ ++#source: lda.s ++#as: --pic ++#objdump: -dr ++#name: lda_pic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ ... ++ 8000: fe c0 7f fc sub r0,pc,32764 ++ 8004: ec f1 00 00 ld.w r1,r6\[0\] ++ 8004: R_AVR32_GOT16S toofar_negative ++ 8008: ec f2 00 00 ld.w r2,r6\[0\] ++ 8008: R_AVR32_GOT16S different_section ++ 800c: ec f3 00 00 ld.w r3,r6\[0\] ++ 800c: R_AVR32_GOT16S undefined ++ 8010: ec f4 00 00 ld.w r4,r6\[0\] ++ 8010: R_AVR32_GOT16S toofar_positive ++ 8014: fe c5 80 14 sub r5,pc,-32748 ++ ... ++ ++00010000 : ++ 10000: fa cc 00 00 sub r12,sp,0 ++ ... ++00010014 : ++ 10014: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_pic_linkrelax.d +@@ -0,0 +1,40 @@ ++#source: lda.s ++#as: --pic --linkrelax ++#objdump: -dr ++#name: lda_pic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ ... ++ 8000: e0 60 00 00 mov r0,0 ++ 8000: R_AVR32_LDA_GOT far_negative ++ 8004: ec 00 03 20 ld\.w r0,r6\[r0<<0x2\] ++ 8008: e0 61 00 00 mov r1,0 ++ 8008: R_AVR32_LDA_GOT toofar_negative ++ 800c: ec 01 03 21 ld\.w r1,r6\[r1<<0x2\] ++ 8010: e0 62 00 00 mov r2,0 ++ 8010: R_AVR32_LDA_GOT different_section ++ 8014: ec 02 03 22 ld\.w r2,r6\[r2<<0x2\] ++ 8018: e0 63 00 00 mov r3,0 ++ 8018: R_AVR32_LDA_GOT undefined ++ 801c: ec 03 03 23 ld\.w r3,r6\[r3<<0x2\] ++ 8020: e0 64 00 00 mov r4,0 ++ 8020: R_AVR32_LDA_GOT toofar_positive ++ 8024: ec 04 03 24 ld\.w r4,r6\[r4<<0x2\] ++ 8028: e0 65 00 00 mov r5,0 ++ 8028: R_AVR32_LDA_GOT far_positive ++ 802c: ec 05 03 25 ld\.w r5,r6\[r5<<0x2\] ++ ... ++ ++00010018 : ++ 10018: fa cc 00 00 sub r12,sp,0 ++ ... ++0001002c : ++ 1002c: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda.s +@@ -0,0 +1,30 @@ ++ ++ .text ++ .global lda_test ++lda_test: ++toofar_negative: ++ sub r8, r9, 0 ++far_negative: ++ sub r10, r11, 0 ++ ++ .fill 32760, 1, 0x00 ++ ++ lda.w r0, far_negative ++ lda.w r1, toofar_negative ++ lda.w r2, different_section ++ lda.w r3, undefined ++ lda.w r4, toofar_positive ++ lda.w r5, far_positive ++ ++ .cpool ++ ++ .fill 32744, 1, 0x00 ++far_positive: ++ sub r12, sp, 0 ++ .fill 16, 1, 0x00 ++toofar_positive: ++ sub lr, pc, 0 ++ ++ .data ++different_section: ++ .long 0x12345678 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pcrel.d +@@ -0,0 +1,64 @@ ++#as: ++#objdump: -dr ++#name: pcrel ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ 2: c0 28 rjmp 6 ++ 4: d7 03 nop ++ 6: e0 8f 00 00 bral 6 ++ 6: R_AVR32_22H_PCREL extsym10 ++ ++0000000a : ++ a: d7 03 nop ++0000000c : ++ c: c0 2c rcall 10 ++ e: d7 03 nop ++ 10: e0 a0 00 00 rcall 10 ++ 10: R_AVR32_22H_PCREL extsym21 ++ ++00000014 : ++ 14: c0 31 brne 1a ++ 16: e0 8f 00 00 bral 16 ++ 16: R_AVR32_22H_PCREL test_branch ++ 1a: e0 80 00 00 breq 1a ++ 1a: R_AVR32_22H_PCREL extsym21 ++ ++0000001e : ++ 1e: 48 30 lddpc r0,28 ++ 20: 48 20 lddpc r0,28 ++ 22: fe f0 00 00 ld.w r0,pc\[0\] ++ 22: R_AVR32_16B_PCREL extsym16 ++ \.\.\. ++ ++00000028 : ++ 28: d7 03 nop ++ 2a: d7 03 nop ++ ++0000002c : ++ 2c: 48 20 lddpc r0,34 ++ 2e: 48 30 lddpc r0,38 ++ 30: 48 20 lddpc r0,38 ++ 32: 00 00 add r0,r0 ++ 34: d7 03 nop ++ 36: d7 03 nop ++ 38: d7 03 nop ++ 3a: d7 03 nop ++ ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e0 a0 .. .. rcall [0-9a-f]+ <.*> ++ 0: R_AVR32_22H_PCREL test_rcall ++ 4: d7 03 nop ++ 6: e0 a0 .. .. rcall [0-9a-f]+ <.*> ++ 6: R_AVR32_22H_PCREL test_rcall ++ a: e0 a0 .. .. rcall [0-9a-z]+ <.*> ++ a: R_AVR32_22H_PCREL \.text\+0xc ++ e: d7 03 nop ++ 10: e0 a0 .. .. rcall [0-9a-f]+ <.*> ++ 10: R_AVR32_22H_PCREL \.text\+0xc +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pcrel.s +@@ -0,0 +1,57 @@ ++ ++ .text ++ .global test_rjmp ++test_rjmp: ++ nop ++ rjmp 0f ++ nop ++0: rjmp extsym10 ++ ++ .global test_rcall ++test_rcall: ++ nop ++test_rcall2: ++ rcall 0f ++ nop ++0: rcall extsym21 ++ ++ .global test_branch ++test_branch: ++ brne 0f ++ /* This will generate a reloc since test_branch is global */ ++ bral test_branch ++0: breq extsym21 ++ ++ .global test_lddpc ++test_lddpc: ++ lddpc r0,sym1 ++ lddpc r0,sym1 ++ lddpc r0,extsym16 ++ ++ .align 2 ++sym1: nop ++ nop ++ ++ .global test_local ++test_local: ++ lddpc r0, .LC1 ++ lddpc r0, .LC2 ++ lddpc r0, .LC1 + 0x4 ++ ++ .align 2 ++.LC1: ++ nop ++ nop ++.LC2: ++ nop ++ nop ++ ++ .section .text.init,"ax" ++ .global test_inter_section ++test_inter_section: ++ rcall test_rcall ++ nop ++ rcall test_rcall ++ rcall test_rcall2 ++ nop ++ rcall test_rcall2 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pico.d +@@ -0,0 +1,149 @@ ++#as: ++#objdump: -dr ++#name: pico ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a6 20 00 cop cp1,cr0,cr0,cr0,0xc ++ *[0-9a-f]*: e1 a7 2b bb cop cp1,cr11,cr11,cr11,0xe ++ *[0-9a-f]*: e1 a6 3a 05 cop cp1,cr10,cr0,cr5,0xd ++ *[0-9a-f]*: e1 a7 36 90 cop cp1,cr6,cr9,cr0,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a4 20 00 cop cp1,cr0,cr0,cr0,0x8 ++ *[0-9a-f]*: e1 a5 2b bb cop cp1,cr11,cr11,cr11,0xa ++ *[0-9a-f]*: e1 a4 3a 05 cop cp1,cr10,cr0,cr5,0x9 ++ *[0-9a-f]*: e1 a5 36 90 cop cp1,cr6,cr9,cr0,0xb ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a2 20 00 cop cp1,cr0,cr0,cr0,0x4 ++ *[0-9a-f]*: e1 a3 2b bb cop cp1,cr11,cr11,cr11,0x6 ++ *[0-9a-f]*: e1 a2 3a 05 cop cp1,cr10,cr0,cr5,0x5 ++ *[0-9a-f]*: e1 a3 36 90 cop cp1,cr6,cr9,cr0,0x7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 20 00 cop cp1,cr0,cr0,cr0,0x0 ++ *[0-9a-f]*: e1 a1 2b bb cop cp1,cr11,cr11,cr11,0x2 ++ *[0-9a-f]*: e1 a0 3a 05 cop cp1,cr10,cr0,cr5,0x1 ++ *[0-9a-f]*: e1 a1 36 90 cop cp1,cr6,cr9,cr0,0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 af 3e ff ldc\.d cp1,cr14,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a0 30 ff ldc\.d cp1,cr0,r0\[0x3fc\] ++ *[0-9a-f]*: e9 a0 30 00 ldc\.d cp1,cr0,r0\[0x0\] ++ *[0-9a-f]*: ef a8 26 50 ldc\.d cp1,cr6,--r8 ++ *[0-9a-f]*: ef a7 28 50 ldc\.d cp1,cr8,--r7 ++ *[0-9a-f]*: ef aa 32 65 ldc\.d cp1,cr2,r10\[r5<<0x2\] ++ *[0-9a-f]*: ef a3 3c 46 ldc\.d cp1,cr12,r3\[r6\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 af 2f ff ldc\.w cp1,cr15,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a0 20 ff ldc\.w cp1,cr0,r0\[0x3fc\] ++ *[0-9a-f]*: e9 a0 20 00 ldc\.w cp1,cr0,r0\[0x0\] ++ *[0-9a-f]*: ef a8 27 40 ldc\.w cp1,cr7,--r8 ++ *[0-9a-f]*: ef a7 28 40 ldc\.w cp1,cr8,--r7 ++ *[0-9a-f]*: ef aa 31 25 ldc\.w cp1,cr1,r10\[r5<<0x2\] ++ *[0-9a-f]*: ef a3 3d 06 ldc\.w cp1,cr13,r3\[r6\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 24 ff ldcm\.d cp1,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 24 01 ldcm\.d cp1,r0,cr0-cr1 ++ *[0-9a-f]*: ed a7 24 80 ldcm\.d cp1,r7,cr14-cr15 ++ *[0-9a-f]*: ed a8 24 7f ldcm\.d cp1,r8,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 34 ff ldcm\.d cp1,pc\+\+,cr0-cr15 ++ *[0-9a-f]*: ed a0 34 01 ldcm\.d cp1,r0\+\+,cr0-cr1 ++ *[0-9a-f]*: ed a7 34 80 ldcm\.d cp1,r7\+\+,cr14-cr15 ++ *[0-9a-f]*: ed a8 34 7f ldcm\.d cp1,r8\+\+,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 20 ff ldcm\.w cp1,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 20 01 ldcm\.w cp1,r0,cr0 ++ *[0-9a-f]*: ed a7 20 80 ldcm\.w cp1,r7,cr7 ++ *[0-9a-f]*: ed a8 20 7f ldcm\.w cp1,r8,cr0-cr6 ++ *[0-9a-f]*: ed af 21 ff ldcm\.w cp1,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 21 01 ldcm\.w cp1,r0,cr8 ++ *[0-9a-f]*: ed a7 21 80 ldcm\.w cp1,r7,cr15 ++ *[0-9a-f]*: ed a8 21 7f ldcm\.w cp1,r8,cr8-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 30 ff ldcm\.w cp1,pc\+\+,cr0-cr7 ++ *[0-9a-f]*: ed a0 30 01 ldcm\.w cp1,r0\+\+,cr0 ++ *[0-9a-f]*: ed a7 30 80 ldcm\.w cp1,r7\+\+,cr7 ++ *[0-9a-f]*: ed a8 30 7f ldcm\.w cp1,r8\+\+,cr0-cr6 ++ *[0-9a-f]*: ed af 31 ff ldcm\.w cp1,pc\+\+,cr8-cr15 ++ *[0-9a-f]*: ed a0 31 01 ldcm\.w cp1,r0\+\+,cr8 ++ *[0-9a-f]*: ed a7 31 80 ldcm\.w cp1,r7\+\+,cr15 ++ *[0-9a-f]*: ed a8 31 7f ldcm\.w cp1,r8\+\+,cr8-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef ae 2e 30 mvrc\.d cp1,cr14,lr ++ *[0-9a-f]*: ef a0 20 30 mvrc\.d cp1,cr0,r0 ++ *[0-9a-f]*: ef a8 26 30 mvrc\.d cp1,cr6,r8 ++ *[0-9a-f]*: ef a6 28 30 mvrc\.d cp1,cr8,r6 ++ *[0-9a-f]*: ef ae 2e 10 mvcr\.d cp1,lr,cr14 ++ *[0-9a-f]*: ef a0 20 10 mvcr\.d cp1,r0,cr0 ++ *[0-9a-f]*: ef a8 26 10 mvcr\.d cp1,r8,cr6 ++ *[0-9a-f]*: ef a6 28 10 mvcr\.d cp1,r6,cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef af 2f 20 mvrc\.w cp1,cr15,pc ++ *[0-9a-f]*: ef a0 20 20 mvrc\.w cp1,cr0,r0 ++ *[0-9a-f]*: ef a8 27 20 mvrc\.w cp1,cr7,r8 ++ *[0-9a-f]*: ef a7 28 20 mvrc\.w cp1,cr8,r7 ++ *[0-9a-f]*: ef af 2f 00 mvcr\.w cp1,pc,cr15 ++ *[0-9a-f]*: ef a0 20 00 mvcr\.w cp1,r0,cr0 ++ *[0-9a-f]*: ef a8 27 00 mvcr\.w cp1,r8,cr7 ++ *[0-9a-f]*: ef a7 28 00 mvcr\.w cp1,r7,cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb af 3e ff stc\.d cp1,pc\[0x3fc\],cr14 ++ *[0-9a-f]*: eb a0 30 00 stc\.d cp1,r0\[0x0\],cr0 ++ *[0-9a-f]*: ef a8 26 70 stc\.d cp1,r8\+\+,cr6 ++ *[0-9a-f]*: ef a7 28 70 stc\.d cp1,r7\+\+,cr8 ++ *[0-9a-f]*: ef aa 32 e5 stc\.d cp1,r10\[r5<<0x2\],cr2 ++ *[0-9a-f]*: ef a3 3c c6 stc\.d cp1,r3\[r6\],cr12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb af 2f ff stc\.w cp1,pc\[0x3fc\],cr15 ++ *[0-9a-f]*: eb a0 20 00 stc\.w cp1,r0\[0x0\],cr0 ++ *[0-9a-f]*: ef a8 27 60 stc\.w cp1,r8\+\+,cr7 ++ *[0-9a-f]*: ef a7 28 60 stc\.w cp1,r7\+\+,cr8 ++ *[0-9a-f]*: ef aa 31 a5 stc\.w cp1,r10\[r5<<0x2\],cr1 ++ *[0-9a-f]*: ef a3 3d 86 stc\.w cp1,r3\[r6\],cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 25 ff stcm\.d cp1,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 25 01 stcm\.d cp1,r0,cr0-cr1 ++ *[0-9a-f]*: ed a7 25 80 stcm\.d cp1,r7,cr14-cr15 ++ *[0-9a-f]*: ed a8 25 7f stcm\.d cp1,r8,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 35 ff stcm\.d cp1,--pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 35 01 stcm\.d cp1,--r0,cr0-cr1 ++ *[0-9a-f]*: ed a7 35 80 stcm\.d cp1,--r7,cr14-cr15 ++ *[0-9a-f]*: ed a8 35 7f stcm\.d cp1,--r8,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 22 ff stcm\.w cp1,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 22 01 stcm\.w cp1,r0,cr0 ++ *[0-9a-f]*: ed a7 22 80 stcm\.w cp1,r7,cr7 ++ *[0-9a-f]*: ed a8 22 7f stcm\.w cp1,r8,cr0-cr6 ++ *[0-9a-f]*: ed af 23 ff stcm\.w cp1,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 23 01 stcm\.w cp1,r0,cr8 ++ *[0-9a-f]*: ed a7 23 80 stcm\.w cp1,r7,cr15 ++ *[0-9a-f]*: ed a8 23 7f stcm\.w cp1,r8,cr8-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 32 ff stcm\.w cp1,--pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 32 01 stcm\.w cp1,--r0,cr0 ++ *[0-9a-f]*: ed a7 32 80 stcm\.w cp1,--r7,cr7 ++ *[0-9a-f]*: ed a8 32 7f stcm\.w cp1,--r8,cr0-cr6 ++ *[0-9a-f]*: ed af 33 ff stcm\.w cp1,--pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 33 01 stcm\.w cp1,--r0,cr8 ++ *[0-9a-f]*: ed a7 33 80 stcm\.w cp1,--r7,cr15 ++ *[0-9a-f]*: ed a8 33 7f stcm\.w cp1,--r8,cr8-cr14 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pico.s +@@ -0,0 +1,144 @@ ++ ++ .text ++ .global picosvmac ++picosvmac: ++ picosvmac out0, in0, in0, in0 ++ picosvmac out2, in11, in11, in11 ++ picosvmac out1, in10, in0, in5 ++ picosvmac out3, in6, in9, in0 ++ .global picosvmul ++picosvmul: ++ picosvmul out0, in0, in0, in0 ++ picosvmul out2, in11, in11, in11 ++ picosvmul out1, in10, in0, in5 ++ picosvmul out3, in6, in9, in0 ++ .global picovmac ++picovmac: ++ picovmac out0, in0, in0, in0 ++ picovmac out2, in11, in11, in11 ++ picovmac out1, in10, in0, in5 ++ picovmac out3, in6, in9, in0 ++ .global picovmul ++picovmul: ++ picovmul out0, in0, in0, in0 ++ picovmul out2, in11, in11, in11 ++ picovmul out1, in10, in0, in5 ++ picovmul out3, in6, in9, in0 ++ .global picold_d ++picold_d: ++ picold.d vmu2_out, pc[1020] ++ picold.d inpix2, r0[1020] ++ picold.d inpix2, r0[0] ++ picold.d coeff0_a, --r8 ++ picold.d coeff1_a, --r7 ++ picold.d inpix0, r10[r5 << 2] ++ picold.d vmu0_out, r3[r6 << 0] ++ .global picold_w ++picold_w: ++ picold.w config, pc[1020] ++ picold.w inpix2, r0[1020] ++ picold.w inpix2, r0[0] ++ picold.w coeff0_b, --r8 ++ picold.w coeff1_a, --r7 ++ picold.w inpix1, r10[r5 << 2] ++ picold.w vmu1_out, r3[r6 << 0] ++ .global picoldm_d ++picoldm_d: ++ picoldm.d pc, inpix2-config ++ picoldm.d r0, inpix2, inpix1 ++ picoldm.d r7, vmu2_out, config ++ picoldm.d r8, inpix2-vmu1_out ++ .global picoldm_d_pu ++picoldm_d_pu: ++ picoldm.d pc++, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out, vmu2_out, config ++ picoldm.d r0++, inpix2, inpix1 ++ picoldm.d r7++, vmu2_out, config ++ picoldm.d r8++, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out ++ .global picoldm_w ++picoldm_w: ++ picoldm.w pc, inpix2-coeff0_b ++ picoldm.w r0, inpix2 ++ picoldm.w r7, coeff0_b ++ picoldm.w r8, inpix2-coeff0_a ++ picoldm.w pc, coeff1_a-config ++ picoldm.w r0, coeff1_a ++ picoldm.w r7, config ++ picoldm.w r8, coeff1_a-vmu2_out ++ .global picoldm_w_pu ++picoldm_w_pu: ++ picoldm.w pc++, inpix2-coeff0_b ++ picoldm.w r0++, inpix2 ++ picoldm.w r7++, coeff0_b ++ picoldm.w r8++, inpix2-coeff0_a ++ picoldm.w pc++, coeff1_a-config ++ picoldm.w r0++, coeff1_a ++ picoldm.w r7++, config ++ picoldm.w r8++, coeff1_a-vmu2_out ++ .global picomv_d ++picomv_d: ++ picomv.d vmu2_out, lr ++ picomv.d inpix2, r0 ++ picomv.d coeff0_a, r8 ++ picomv.d coeff1_a, r6 ++ picomv.d pc, vmu2_out ++ picomv.d r0, inpix2 ++ picomv.d r8, coeff0_a ++ picomv.d r6, coeff1_a ++ .global picomv_w ++picomv_w: ++ picomv.w config, pc ++ picomv.w inpix2, r0 ++ picomv.w coeff0_b, r8 ++ picomv.w coeff1_a, r7 ++ picomv.w pc, config ++ picomv.w r0, inpix2 ++ picomv.w r8, coeff0_b ++ picomv.w r7, coeff1_a ++ .global picost_d ++picost_d: ++ picost.d pc[1020], vmu2_out ++ picost.d r0[0], inpix2 ++ picost.d r8++, coeff0_a ++ picost.d r7++, coeff1_a ++ picost.d r10[r5 << 2], inpix0 ++ picost.d r3[r6 << 0], vmu0_out ++ .global picost_w ++picost_w: ++ picost.w pc[1020], config ++ picost.w r0[0], inpix2 ++ picost.w r8++, coeff0_b ++ picost.w r7++, coeff1_a ++ picost.w r10[r5 << 2], inpix1 ++ picost.w r3[r6 << 0], vmu1_out ++ .global picostm_d ++picostm_d: ++ picostm.d pc, inpix2-config ++ picostm.d r0, inpix2, inpix1 ++ picostm.d r7, vmu2_out, config ++ picostm.d r8, inpix2-vmu1_out ++ .global picostm_d_pu ++picostm_d_pu: ++ picostm.d --pc, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out, vmu2_out, config ++ picostm.d --r0, inpix2, inpix1 ++ picostm.d --r7, vmu2_out, config ++ picostm.d --r8, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out ++ .global picostm_w ++picostm_w: ++ picostm.w pc, inpix2-coeff0_b ++ picostm.w r0, inpix2 ++ picostm.w r7, coeff0_b ++ picostm.w r8, inpix2-coeff0_a ++ picostm.w pc, coeff1_a-config ++ picostm.w r0, coeff1_a ++ picostm.w r7, config ++ picostm.w r8, coeff1_a-vmu2_out ++ .global picostm_w_pu ++picostm_w_pu: ++ picostm.w --pc, inpix2-coeff0_b ++ picostm.w --r0, inpix2 ++ picostm.w --r7, coeff0_b ++ picostm.w --r8, inpix2-coeff0_a ++ picostm.w --pc, coeff1_a-config ++ picostm.w --r0, coeff1_a ++ picostm.w --r7, config ++ picostm.w --r8, coeff1_a-vmu2_out +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pic_reloc.d +@@ -0,0 +1,27 @@ ++#as: ++#objdump: -dr ++#name: pic_reloc ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f0 16 00 00 mcall r6\[0\] ++ 0: R_AVR32_GOT18SW extfunc ++ 4: f0 16 00 00 mcall r6\[0\] ++ 4: R_AVR32_GOT18SW \.L1 ++ 8: f0 16 00 00 mcall r6\[0\] ++ 8: R_AVR32_GOT18SW \.L2 ++ c: f0 16 00 00 mcall r6\[0\] ++ c: R_AVR32_GOT18SW mcall_got ++ ++00000010 : ++ 10: ec f0 00 00 ld.w r0,r6\[0\] ++ 10: R_AVR32_GOT16S extvar ++ 14: ec f0 00 00 ld.w r0,r6\[0\] ++ 14: R_AVR32_GOT16S \.L3 ++ 18: ec f0 00 00 ld.w r0,r6\[0\] ++ 18: R_AVR32_GOT16S \.L4 ++ 1c: ec f0 00 00 ld.w r0,r6\[0\] ++ 1c: R_AVR32_GOT16S ldw_got +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pic_reloc.s +@@ -0,0 +1,18 @@ ++ ++ .text ++ .global mcall_got ++mcall_got: ++.L1: ++ mcall r6[extfunc@got] ++ mcall r6[.L1@got] ++ mcall r6[.L2@got] ++ mcall r6[mcall_got@got] ++.L2: ++ ++ .global ldw_got ++ldw_got: ++.L3: ld.w r0,r6[extvar@got] ++ ld.w r0,r6[.L3@got] ++ ld.w r0,r6[.L4@got] ++ ld.w r0,r6[ldw_got@got] ++.L4: +--- /dev/null ++++ b/gas/testsuite/gas/avr32/symdiff.d +@@ -0,0 +1,24 @@ ++#source: symdiff.s ++#as: ++#objdump: -dr ++#name: symdiff ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: 00 00 add r0,r0 ++ 2: 00 04 add r4,r0 ++ ++00000004 : ++ 4: 00 04 add r4,r0 ++ ++00000006 : ++ 6: 04 00 add r0,r2 ++ ++00000008 : ++ 8: d7 03 nop ++ a: d7 03 nop ++ c: d7 03 nop ++ e: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/symdiff_linkrelax.d +@@ -0,0 +1,28 @@ ++#source: symdiff.s ++#as: --linkrelax ++#objdump: -dr ++#name: symdiff_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: 00 00 add r0,r0 ++ 0: R_AVR32_DIFF32 \.text\+0xa ++ 2: 00 04 add r4,r0 ++ ++00000004 : ++ 4: 00 04 add r4,r0 ++ 4: R_AVR32_DIFF16 \.text\+0xa ++ ++00000006 : ++ 6: 04 00 add r0,r2 ++ 6: R_AVR32_DIFF8 \.text\+0xa ++ 7: R_AVR32_ALIGN \*ABS\*\+0x1 ++ ++00000008 : ++ 8: d7 03 nop ++ a: d7 03 nop ++ c: d7 03 nop ++ e: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/symdiff.s +@@ -0,0 +1,19 @@ ++ ++ .text ++ .global diff32 ++diff32: ++ .long .L2 - .L1 ++ .global diff16 ++diff16: ++ .short .L2 - .L1 ++ .global diff8 ++diff8: ++ .byte .L2 - .L1 ++ ++ .global symdiff_test ++ .align 1 ++symdiff_test: ++ nop ++.L1: nop ++ nop ++.L2: nop +--- a/gas/write.c ++++ b/gas/write.c +@@ -2221,6 +2221,10 @@ relax_frag (segT segment, fragS *fragP, + + #endif /* defined (TC_GENERIC_RELAX_TABLE) */ + ++#ifdef TC_RELAX_ALIGN ++#define RELAX_ALIGN(SEG, FRAG, ADDR) TC_RELAX_ALIGN(SEG, FRAG, ADDR) ++#else ++#define RELAX_ALIGN(SEG, FRAG, ADDR) relax_align(ADDR, (FRAG)->fr_offset) + /* Relax_align. Advance location counter to next address that has 'alignment' + lowest order bits all 0s, return size of adjustment made. */ + static relax_addressT +@@ -2240,6 +2244,7 @@ relax_align (register relax_addressT add + #endif + return (new_address - address); + } ++#endif + + /* Now we have a segment, not a crowd of sub-segments, we can make + fr_address values. +@@ -2286,7 +2291,7 @@ relax_segment (struct frag *segment_frag + case rs_align_code: + case rs_align_test: + { +- addressT offset = relax_align (address, (int) fragP->fr_offset); ++ addressT offset = RELAX_ALIGN(segment, fragP, address); + + if (fragP->fr_subtype != 0 && offset > fragP->fr_subtype) + offset = 0; +@@ -2497,10 +2502,10 @@ relax_segment (struct frag *segment_frag + { + addressT oldoff, newoff; + +- oldoff = relax_align (was_address + fragP->fr_fix, +- (int) offset); +- newoff = relax_align (address + fragP->fr_fix, +- (int) offset); ++ oldoff = RELAX_ALIGN (segment, fragP, ++ was_address + fragP->fr_fix); ++ newoff = RELAX_ALIGN (segment, fragP, ++ address + fragP->fr_fix); + + if (fragP->fr_subtype != 0) + { +--- a/include/dis-asm.h ++++ b/include/dis-asm.h +@@ -222,6 +222,7 @@ typedef int (*disassembler_ftype) (bfd_v + + extern int print_insn_alpha (bfd_vma, disassemble_info *); + extern int print_insn_avr (bfd_vma, disassemble_info *); ++extern int print_insn_avr32 (bfd_vma, disassemble_info *); + extern int print_insn_bfin (bfd_vma, disassemble_info *); + extern int print_insn_big_arm (bfd_vma, disassemble_info *); + extern int print_insn_big_mips (bfd_vma, disassemble_info *); +@@ -304,7 +305,9 @@ extern void print_i386_disassembler_opti + extern void print_mips_disassembler_options (FILE *); + extern void print_ppc_disassembler_options (FILE *); + extern void print_arm_disassembler_options (FILE *); ++extern void print_avr32_disassembler_options (FILE *); + extern void parse_arm_disassembler_option (char *); ++extern void parse_avr32_disassembler_option (char *); + extern void print_s390_disassembler_options (FILE *); + extern int get_arm_regname_num_options (void); + extern int set_arm_regname_option (int); +--- /dev/null ++++ b/include/elf/avr32.h +@@ -0,0 +1,98 @@ ++/* AVR32 ELF support for BFD. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include "elf/reloc-macros.h" ++ ++/* CPU-specific flags for the ELF header e_flags field */ ++#define EF_AVR32_LINKRELAX 0x01 ++#define EF_AVR32_PIC 0x02 ++ ++START_RELOC_NUMBERS (elf_avr32_reloc_type) ++ RELOC_NUMBER (R_AVR32_NONE, 0) ++ ++ /* Data Relocations */ ++ RELOC_NUMBER (R_AVR32_32, 1) ++ RELOC_NUMBER (R_AVR32_16, 2) ++ RELOC_NUMBER (R_AVR32_8, 3) ++ RELOC_NUMBER (R_AVR32_32_PCREL, 4) ++ RELOC_NUMBER (R_AVR32_16_PCREL, 5) ++ RELOC_NUMBER (R_AVR32_8_PCREL, 6) ++ RELOC_NUMBER (R_AVR32_DIFF32, 7) ++ RELOC_NUMBER (R_AVR32_DIFF16, 8) ++ RELOC_NUMBER (R_AVR32_DIFF8, 9) ++ RELOC_NUMBER (R_AVR32_GOT32, 10) ++ RELOC_NUMBER (R_AVR32_GOT16, 11) ++ RELOC_NUMBER (R_AVR32_GOT8, 12) ++ ++ /* Normal Code Relocations */ ++ RELOC_NUMBER (R_AVR32_21S, 13) ++ RELOC_NUMBER (R_AVR32_16U, 14) ++ RELOC_NUMBER (R_AVR32_16S, 15) ++ RELOC_NUMBER (R_AVR32_8S, 16) ++ RELOC_NUMBER (R_AVR32_8S_EXT, 17) ++ ++ /* PC-Relative Code Relocations */ ++ RELOC_NUMBER (R_AVR32_22H_PCREL, 18) ++ RELOC_NUMBER (R_AVR32_18W_PCREL, 19) ++ RELOC_NUMBER (R_AVR32_16B_PCREL, 20) ++ RELOC_NUMBER (R_AVR32_16N_PCREL, 21) ++ RELOC_NUMBER (R_AVR32_14UW_PCREL, 22) ++ RELOC_NUMBER (R_AVR32_11H_PCREL, 23) ++ RELOC_NUMBER (R_AVR32_10UW_PCREL, 24) ++ RELOC_NUMBER (R_AVR32_9H_PCREL, 25) ++ RELOC_NUMBER (R_AVR32_9UW_PCREL, 26) ++ ++ /* Special Code Relocations */ ++ RELOC_NUMBER (R_AVR32_HI16, 27) ++ RELOC_NUMBER (R_AVR32_LO16, 28) ++ ++ /* PIC Relocations */ ++ RELOC_NUMBER (R_AVR32_GOTPC, 29) ++ RELOC_NUMBER (R_AVR32_GOTCALL, 30) ++ RELOC_NUMBER (R_AVR32_LDA_GOT, 31) ++ RELOC_NUMBER (R_AVR32_GOT21S, 32) ++ RELOC_NUMBER (R_AVR32_GOT18SW, 33) ++ RELOC_NUMBER (R_AVR32_GOT16S, 34) ++ RELOC_NUMBER (R_AVR32_GOT7UW, 35) ++ ++ /* Constant Pool Relocations */ ++ RELOC_NUMBER (R_AVR32_32_CPENT, 36) ++ RELOC_NUMBER (R_AVR32_CPCALL, 37) ++ RELOC_NUMBER (R_AVR32_16_CP, 38) ++ RELOC_NUMBER (R_AVR32_9W_CP, 39) ++ ++ /* Dynamic Relocations */ ++ RELOC_NUMBER (R_AVR32_RELATIVE, 40) ++ RELOC_NUMBER (R_AVR32_GLOB_DAT, 41) ++ RELOC_NUMBER (R_AVR32_JMP_SLOT, 42) ++ ++ /* Linkrelax Information */ ++ RELOC_NUMBER (R_AVR32_ALIGN, 43) ++ ++ RELOC_NUMBER (R_AVR32_15S, 44) ++ ++END_RELOC_NUMBERS (R_AVR32_max) ++ ++/* Processor specific dynamic array tags. */ ++ ++/* The total size in bytes of the Global Offset Table */ ++#define DT_AVR32_GOTSZ 0x70000001 +--- a/include/elf/common.h ++++ b/include/elf/common.h +@@ -289,7 +289,7 @@ + #define EM_INTEL182 182 /* Reserved by Intel */ + #define EM_res183 183 /* Reserved by ARM */ + #define EM_res184 184 /* Reserved by ARM */ +-#define EM_AVR32 185 /* Atmel Corporation 32-bit microprocessor family */ ++#define EM_AVR32_OLD 185 /* Atmel Corporation 32-bit microprocessor family */ + #define EM_STM8 186 /* STMicroeletronics STM8 8-bit microcontroller */ + #define EM_TILE64 187 /* Tilera TILE64 multicore architecture family */ + #define EM_TILEPRO 188 /* Tilera TILEPro multicore architecture family */ +@@ -369,6 +369,9 @@ + /* V850 backend magic number. Written in the absense of an ABI. */ + #define EM_CYGNUS_V850 0x9080 + ++/* AVR32 magic number, picked by IAR Systems. */ ++#define EM_AVR32 0x18ad ++ + /* old S/390 backend magic number. Written in the absence of an ABI. */ + #define EM_S390_OLD 0xa390 + +--- a/ld/configdoc.texi ++++ b/ld/configdoc.texi +@@ -7,6 +7,7 @@ + @set H8300 + @set HPPA + @set I960 ++@set AVR32 + @set M68HC11 + @set M68K + @set MMIX +--- a/ld/configure.tgt ++++ b/ld/configure.tgt +@@ -113,6 +113,9 @@ xscale-*-elf) targ_emul=armelf + avr-*-*) targ_emul=avr2 + targ_extra_emuls="avr1 avr25 avr3 avr31 avr35 avr4 avr5 avr51 avr6" + ;; ++avr32-*-none) targ_emul=avr32elf_ap7000 ++ targ_extra_emuls="avr32elf_ap7001 avr32elf_ap7002 avr32elf_ap7200 avr32elf_uc3a0128 avr32elf_uc3a0256 avr32elf_uc3a0512 avr32elf_uc3a0512es avr32elf_uc3a1128 avr32elf_uc3a1256 avr32elf_uc3a1512es avr32elf_uc3a1512 avr32elf_uc3a364 avr32elf_uc3a364s avr32elf_uc3a3128 avr32elf_uc3a3128s avr32elf_uc3a3256 avr32elf_uc3a3256s avr32elf_uc3b064 avr32elf_uc3b0128 avr32elf_uc3b0256es avr32elf_uc3b0256 avr32elf_uc3b0512 avr32elf_uc3b0512revc avr32elf_uc3b164 avr32elf_uc3b1128 avr32elf_uc3b1256es avr32elf_uc3b1256 avr32elf_uc3b1512 avr32elf_uc3b1512revc avr32elf_uc3c0512crevc avr32elf_uc3c1512crevc avr32elf_uc3c2512crevc avr32elf_atuc3l0256 avr32elf_mxt768e avr32elf_uc3l064 avr32elf_uc3l032 avr32elf_uc3l016 avr32elf_uc3l064revb avr32elf_uc3c064c avr32elf_uc3c0128c avr32elf_uc3c0256c avr32elf_uc3c0512c avr32elf_uc3c164c avr32elf_uc3c1128c avr32elf_uc3c1256c avr32elf_uc3c1512c avr32elf_uc3c264c avr32elf_uc3c2128c avr32elf_uc3c2256c avr32elf_uc3c2512c" ;; ++avr32-*-linux*) targ_emul=avr32linux ;; + bfin-*-elf) targ_emul=elf32bfin; + targ_extra_emuls="elf32bfinfd" + targ_extra_libpath=$targ_extra_emuls +--- /dev/null ++++ b/ld/emulparams/avr32elf.sh +@@ -0,0 +1,402 @@ ++# This script is called from ld/genscript.sh ++# There is a difference on how 'bash' and POSIX handles ++# the '.' (source) command in a script. ++# genscript.sh calls this script with argument ${EMULATION_NAME} ++# but that will fail on POSIX compilant shells like 'sh' or 'dash' ++# therefor I use the variable directly instead of $1 ++EMULATION=${EMULATION_NAME} ++SCRIPT_NAME=avr32 ++TEMPLATE_NAME=elf32 ++EXTRA_EM_FILE=avr32elf ++OUTPUT_FORMAT="elf32-avr32" ++ARCH=avr32 ++MAXPAGESIZE=4096 ++ENTRY=_start ++EMBEDDED=yes ++NO_SMALL_DATA=yes ++NOP=0xd703d703 ++ ++DATA_SEGMENT_ALIGN=8 ++BSS_ALIGNMENT=8 ++ ++RO_LMA_REGION="FLASH" ++RO_VMA_REGION="FLASH" ++RW_LMA_REGION="FLASH" ++RW_VMA_REGION="CPUSRAM" ++ ++STACK_SIZE=_stack_size ++STACK_ADDR="ORIGIN(CPUSRAM) + LENGTH(CPUSRAM) - ${STACK_SIZE}" ++ ++DATA_SEGMENT_END=" ++ __heap_start__ = ALIGN(8); ++ . = ${STACK_ADDR}; ++ __heap_end__ = .; ++" ++ ++case "$EMULATION" in ++avr32elf_ap*) ++ MACHINE=ap ++ INITIAL_READONLY_SECTIONS=" ++ .reset : { *(.reset) } >FLASH AT>FLASH ++ . = . & 0x9fffffff; ++" ++ TEXT_START_ADDR=0xa0000000 ++ case "$EMULATION" in ++ avr32elf_ap700[0-2]) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai) : ORIGIN = 0x00000000, LENGTH = 64M ++ CPUSRAM (rwxa) : ORIGIN = 0x24000000, LENGTH = 32K ++} ++" ++ ;; ++ avr32elf_ap7200) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai) : ORIGIN = 0x00000000, LENGTH = 64M ++ CPUSRAM (rwxa) : ORIGIN = 0x08000000, LENGTH = 64K ++} ++" ++ ;; ++ esac ++ ;; ++ ++avr32elf_mxt768e) ++ MACHINE=uc ++ INITIAL_READONLY_SECTIONS=".reset : { *(.reset) } >FLASH AT>FLASH" ++ TEXT_START_ADDR=0x80000000 ++ OTHER_SECTIONS=" ++ .userpage : { *(.userpage .userpage.*) } >USERPAGE AT>USERPAGE ++ .factorypage : { *(.factorypage .factorypage.*) } >FACTORYPAGE AT>FACTORYPAGE ++" ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++avr32elf_atuc3*) ++ MACHINE=uc ++ INITIAL_READONLY_SECTIONS=".reset : { *(.reset) } >FLASH AT>FLASH" ++ TEXT_START_ADDR=0x80000000 ++ OTHER_SECTIONS=" ++ .userpage : { *(.userpage .userpage.*) } >USERPAGE AT>USERPAGE ++ .factorypage : { *(.factorypage .factorypage.*) } >FACTORYPAGE AT>FACTORYPAGE ++" ++ case "$EMULATION" in ++ avr32elf_atuc3l0256) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ esac ++ ;; ++ ++avr32elf_uc3*) ++ MACHINE=uc ++ INITIAL_READONLY_SECTIONS=".reset : { *(.reset) } >FLASH AT>FLASH" ++ TEXT_START_ADDR=0x80000000 ++ OTHER_SECTIONS=" ++ .userpage : { *(.userpage .userpage.*) } >USERPAGE AT>USERPAGE ++ .factorypage : { *(.factorypage .factorypage.*) } >FACTORYPAGE AT>FACTORYPAGE ++" ++ ++ case "$EMULATION" in ++ avr32elf_uc3c[012]512c) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 512K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3c[012]256c) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3c[012]128c) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 128K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x7FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3c[012]64c) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3[ac][012]512*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 512K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3a[012]256*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3b[01]512revc) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 512K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x17FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ PADDING=" ++ .padding : { ++ QUAD(0) ++ QUAD(0) ++ QUAD(0) ++ QUAD(0) ++ } >FLASH AT>FLASH ++" ++ ;; ++ ++ avr32elf_uc3b[01]512) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 512K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x17FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3b[01]256*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x7FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3[ab][012]128*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 128K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x7FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3b[0123]64*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3a3256*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ HSBSRAM (wxa!ri) : ORIGIN = 0xFF000000, LENGTH = 64K ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .hsbsram : { *(.hsbsram .hsbsram.*) } >HSBSRAM AT>FLASH :FLASH ++" ++ ++ ;; ++ ++ avr32elf_uc3a3128*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 128K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ HSBSRAM (wxa!ri) : ORIGIN = 0xFF000000, LENGTH = 64K ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .hsbsram : { *(.hsbsram .hsbsram.*) } >HSBSRAM AT>FLASH :FLASH ++" ++ ;; ++ ++ avr32elf_uc3a364*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ HSBSRAM (wxa!ri) : ORIGIN = 0xFF000000, LENGTH = 64K ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .hsbsram : { *(.hsbsram .hsbsram.*) } >HSBSRAM AT>FLASH :FLASH ++" ++ ;; ++ ++ ++ avr32elf_uc3l[0123]64*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3l[0123]32*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 32K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3l[0123]16*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 16K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x1FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ ++ esac ++ ;; ++ ++esac +--- /dev/null ++++ b/ld/emulparams/avr32linux.sh +@@ -0,0 +1,14 @@ ++ARCH=avr32 ++SCRIPT_NAME=elf ++TEMPLATE_NAME=elf32 ++EXTRA_EM_FILE=avr32elf ++OUTPUT_FORMAT="elf32-avr32" ++GENERATE_SHLIB_SCRIPT=yes ++MAXPAGESIZE=0x1000 ++TEXT_START_ADDR=0x00001000 ++NOP=0xd703d703 ++ ++# This appears to place the GOT before the data section, which is ++# essential for uClinux. We don't use those .s* sections on AVR32 ++# anyway, so it shouldn't hurt for regular Linux either... ++NO_SMALL_DATA=yes +--- /dev/null ++++ b/ld/emultempl/avr32elf.em +@@ -0,0 +1,162 @@ ++# This shell script emits a C file. -*- C -*- ++# Copyright (C) 2007,2008,2009 Atmel Corporation ++# ++# This file is part of GLD, the Gnu Linker. ++# ++# This program is free software; you can redistribute it and/or modify ++# it under the terms of the GNU General Public License as published by ++# the Free Software Foundation; either version 2 of the License, or ++# (at your option) any later version. ++# ++# This program is distributed in the hope that it will be useful, ++# but WITHOUT ANY WARRANTY; without even the implied warranty of ++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++# GNU General Public License for more details. ++# ++# You should have received a copy of the GNU General Public License ++# along with this program; if not, write to the Free Software ++# Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. ++# ++ ++# This file is sourced from elf32.em, and defines extra avr32-elf ++# specific routines. ++# ++ ++# Generate linker script for writable rodata ++LD_FLAG=rodata-writable ++DATA_ALIGNMENT=${DATA_ALIGNMENT_} ++RELOCATING=" " ++WRITABLE_RODATA=" " ++( echo "/* Linker script for writable rodata */" ++ . ${CUSTOMIZER_SCRIPT} ${EMULATION_NAME} ++ . ${srcdir}/scripttempl/${SCRIPT_NAME}.sc ++) | sed -e '/^ *$/d;s/[ ]*$//' > ldscripts/${EMULATION_NAME}.xwr ++ ++ ++cat >> e${EMULATION_NAME}.c <children); ++ ++ lang_add_assignment (exp_assop ('=', "_stack_size", ++ exp_intop (stack_size))); ++ ++ stat_ptr = save; ++} ++ ++static char * gld${EMULATION_NAME}_get_script (int *isfile); ++ ++static char * avr32_elf_get_script (int *isfile) ++{ ++ if ( rodata_writable ) ++ { ++EOF ++if test -n "$COMPILE_IN" ++then ++# Scripts compiled in. ++ ++# sed commands to quote an ld script as a C string. ++sc="-f stringify.sed" ++ ++cat >>e${EMULATION_NAME}.c <> e${EMULATION_NAME}.c ++echo ';' >> e${EMULATION_NAME}.c ++else ++# Scripts read from the filesystem. ++ ++cat >>e${EMULATION_NAME}.c <>e${EMULATION_NAME}.c <: ++a0000000: d7 03 nop ++a0000002: d7 03 nop ++ ++a0000004 : ++a0000004: d7 03 nop ++a0000006: c0 28 rjmp a000000a ++a0000008: d7 03 nop ++a000000a: e0 8f 01 fb bral a0000400 ++ ++a000000e : ++a000000e: d7 03 nop ++a0000010 : ++a0000010: c0 2c rcall a0000014 ++a0000012: d7 03 nop ++a0000014: ee b0 ff f6 rcall a0200000 ++ ++a0000018 : ++a0000018: c0 31 brne a000001e ++a000001a: fe 9f ff ff bral a0000018 ++a000001e: ee 90 ff f1 breq a0200000 ++ ++a0000022 : ++a0000022: 48 30 lddpc r0,a000002c ++a0000024: 48 20 lddpc r0,a000002c ++a0000026: fe f0 7f da ld.w r0,pc\[32730\] ++ ... ++ ++a000002c : ++a000002c: d7 03 nop ++a000002e: d7 03 nop ++ ++a0000030 : ++a0000030: 48 20 lddpc r0,a0000038 ++a0000032: 48 30 lddpc r0,a000003c ++a0000034: 48 20 lddpc r0,a000003c ++a0000036: 00 00 add r0,r0 ++a0000038: d7 03 nop ++a000003a: d7 03 nop ++a000003c: d7 03 nop ++a000003e: d7 03 nop ++ ++Disassembly of section \.text\.init: ++a0000040 : ++a0000040: fe b0 ff e7 rcall a000000e ++a0000044: d7 03 nop ++a0000046: fe b0 ff e4 rcall a000000e ++a000004a: fe b0 ff e3 rcall a0000010 ++a000004e: d7 03 nop ++a0000050: fe b0 ff e0 rcall a0000010 ++ ++Disassembly of section \.text\.pcrel10: ++ ++a0000400 : ++a0000400: d7 03 nop ++ ++Disassembly of section \.text\.pcrel16: ++ ++a0008000 : ++a0008000: d7 03 nop ++ ++Disassembly of section \.text\.pcrel21: ++a0200000 : ++a0200000: d7 03 nop +--- /dev/null ++++ b/ld/testsuite/ld-avr32/pcrel.ld +@@ -0,0 +1,23 @@ ++ENTRY(_start) ++SECTIONS ++{ ++ .text 0xa0000000: ++ { ++ *(.text) ++ } ++ ++ .text.pcrel10 0xa0000400: ++ { ++ *(.text.pcrel10) ++ } ++ ++ .text.pcrel16 0xa0008000: ++ { ++ *(.text.pcrel16) ++ } ++ ++ .text.pcrel21 0xa0200000: ++ { ++ *(.text.pcrel21) ++ } ++} +--- /dev/null ++++ b/ld/testsuite/ld-avr32/symbols.s +@@ -0,0 +1,20 @@ ++ .text ++ .global _start ++_start: ++ nop ++ nop ++ ++ .section .text.pcrel10,"ax" ++ .global extsym10 ++extsym10: ++ nop ++ ++ .section .text.pcrel16,"ax" ++ .global extsym16 ++extsym16: ++ nop ++ ++ .section .text.pcrel21,"ax" ++ .global extsym21 ++extsym21: ++ nop +--- /dev/null ++++ b/opcodes/avr32-asm.c +@@ -0,0 +1,244 @@ ++/* Assembler interface for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include ++ ++#include "avr32-opc.h" ++#include "avr32-asm.h" ++ ++/* Structure for a register hash table entry. */ ++struct reg_entry ++{ ++ const char *name; ++ int number; ++}; ++ ++/* Integer Registers. */ ++static const struct reg_entry reg_table[] = ++ { ++ /* Primary names (used by the disassembler) */ ++ { "r0", 0 }, { "r1", 1 }, { "r2", 2 }, { "r3", 3 }, ++ { "r4", 4 }, { "r5", 5 }, { "r6", 6 }, { "r7", 7 }, ++ { "r8", 8 }, { "r9", 9 }, { "r10", 10 }, { "r11", 11 }, ++ { "r12", 12 }, { "sp", 13 }, { "lr", 14 }, { "pc", 15 }, ++ /* Alternatives to sp, lr and pc. */ ++ { "r13", 13 }, { "r14", 14 }, { "r15", 15 }, ++ }; ++#define AVR32_NR_INTREGS (sizeof(reg_table)/sizeof(reg_table[0])) ++ ++/* Coprocessor Registers. */ ++static const struct reg_entry cr_table[] = ++ { ++ { "cr0", 0 }, { "cr1", 1 }, { "cr2", 2 }, { "cr3", 3 }, ++ { "cr4", 4 }, { "cr5", 5 }, { "cr6", 6 }, { "cr7", 7 }, ++ { "cr8", 8 }, { "cr9", 9 }, { "cr10", 10 }, { "cr11", 11 }, ++ { "cr12", 12 }, { "cr13", 13 }, { "cr14", 14 }, { "cr15", 15 }, ++ }; ++#define AVR32_NR_CPREGS (sizeof(cr_table)/sizeof(cr_table[0])) ++ ++#define AVR32_NR_FPREGS (sizeof(fr_table)/sizeof(fr_table[0])) ++ ++/* PiCo Registers. */ ++static const struct reg_entry pico_table[] = ++ { ++ { "inpix2", 0 }, { "inpix1", 1 }, { "inpix0", 2 }, ++ { "outpix2", 3 }, { "outpix1", 4 }, { "outpix0", 5 }, ++ { "coeff0_a", 6 }, { "coeff0_b", 7 }, { "coeff1_a", 8 }, ++ { "coeff1_b", 9 }, { "coeff2_a", 10 }, { "coeff2_b", 11 }, ++ { "vmu0_out", 12 }, { "vmu1_out", 13 }, { "vmu2_out", 14 }, ++ { "config", 15 }, ++ }; ++#define AVR32_NR_PICOREGS (sizeof(pico_table)/sizeof(pico_table[0])) ++ ++int ++avr32_parse_intreg(const char *str) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < AVR32_NR_INTREGS; i++) ++ { ++ if (strcasecmp(reg_table[i].name, str) == 0) ++ return reg_table[i].number; ++ } ++ ++ return -1; ++} ++ ++int ++avr32_parse_cpreg(const char *str) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < AVR32_NR_CPREGS; i++) ++ { ++ if (strcasecmp(cr_table[i].name, str) == 0) ++ return cr_table[i].number; ++ } ++ ++ return -1; ++} ++ ++ ++int avr32_parse_picoreg(const char *str) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < AVR32_NR_PICOREGS; i++) ++ { ++ if (strcasecmp(pico_table[i].name, str) == 0) ++ return pico_table[i].number; ++ } ++ ++ return -1; ++} ++ ++static unsigned long ++parse_reglist(char *str, char **endptr, int (*parse_reg)(const char *)) ++{ ++ int reg_from, reg_to; ++ unsigned long result = 0; ++ char *p1, *p2, c; ++ ++ while (*str) ++ { ++ for (p1 = str; *p1; p1++) ++ if (*p1 == ',' || *p1 == '-') ++ break; ++ ++ c = *p1, *p1 = 0; ++ reg_from = parse_reg(str); ++ *p1 = c; ++ ++ if (reg_from < 0) ++ break; ++ ++ if (*p1 == '-') ++ { ++ for (p2 = ++p1; *p2; p2++) ++ if (*p2 == ',') ++ break; ++ ++ c = *p2, *p2 = 0; ++ /* printf("going to parse reg_to from `%s'\n", p1); */ ++ reg_to = parse_reg(p1); ++ *p2 = c; ++ ++ if (reg_to < 0) ++ break; ++ ++ while (reg_from <= reg_to) ++ result |= (1 << reg_from++); ++ p1 = p2; ++ } ++ else ++ result |= (1 << reg_from); ++ ++ str = p1; ++ if (*str) ++str; ++ } ++ ++ if (endptr) ++ *endptr = str; ++ ++ return result; ++} ++ ++unsigned long ++avr32_parse_reglist(char *str, char **endptr) ++{ ++ return parse_reglist(str, endptr, avr32_parse_intreg); ++} ++ ++unsigned long ++avr32_parse_cpreglist(char *str, char **endptr) ++{ ++ return parse_reglist(str, endptr, avr32_parse_cpreg); ++} ++ ++unsigned long ++avr32_parse_pico_reglist(char *str, char **endptr) ++{ ++ return parse_reglist(str, endptr, avr32_parse_picoreg); ++} ++ ++int ++avr32_make_regmask8(unsigned long regmask16, unsigned long *regmask8) ++{ ++ unsigned long result = 0; ++ ++ /* printf("convert regmask16 0x%04lx\n", regmask16); */ ++ ++ if (regmask16 & 0xf) ++ { ++ if ((regmask16 & 0xf) == 0xf) ++ result |= 1 << 0; ++ else ++ return -1; ++ } ++ if (regmask16 & 0xf0) ++ { ++ if ((regmask16 & 0xf0) == 0xf0) ++ result |= 1 << 1; ++ else ++ return -1; ++ } ++ if (regmask16 & 0x300) ++ { ++ if ((regmask16 & 0x300) == 0x300) ++ result |= 1 << 2; ++ else ++ return -1; ++ } ++ if (regmask16 & (1 << 13)) ++ return -1; ++ ++ if (regmask16 & (1 << 10)) ++ result |= 1 << 3; ++ if (regmask16 & (1 << 11)) ++ result |= 1 << 4; ++ if (regmask16 & (1 << 12)) ++ result |= 1 << 5; ++ if (regmask16 & (1 << 14)) ++ result |= 1 << 6; ++ if (regmask16 & (1 << 15)) ++ result |= 1 << 7; ++ ++ *regmask8 = result; ++ ++ return 0; ++} ++ ++#if 0 ++struct reg_map ++{ ++ const struct reg_entry *names; ++ int nr_regs; ++ struct hash_control *htab; ++ const char *errmsg; ++}; ++ ++struct reg_map all_reg_maps[] = ++ { ++ { reg_table, AVR32_NR_INTREGS, NULL, N_("integral register expected") }, ++ { cr_table, AVR32_NR_CPREGS, NULL, N_("coprocessor register expected") }, ++ }; ++#endif +--- /dev/null ++++ b/opcodes/avr32-asm.h +@@ -0,0 +1,40 @@ ++/* Assembler interface for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++#ifndef __OPCODES_AVR32_ASM_H ++#define __OPCODES_AVR32_ASM_H ++ ++extern int ++avr32_parse_intreg(const char *str); ++extern int ++avr32_parse_cpreg(const char *str); ++extern int ++avr32_parse_picoreg(const char *str); ++extern unsigned long ++avr32_parse_reglist(char *str, char **endptr); ++extern unsigned long ++avr32_parse_cpreglist(char *str, char **endptr); ++extern unsigned long ++avr32_parse_pico_reglist(char *str, char **endptr); ++extern int ++avr32_make_regmask8(unsigned long regmask16, unsigned long *regmask8); ++ ++#endif /* __OPCODES_AVR32_ASM_H */ +--- /dev/null ++++ b/opcodes/avr32-dis.c +@@ -0,0 +1,916 @@ ++/* Print AVR32 instructions for GDB and objdump. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include "sysdep.h" ++#include "dis-asm.h" ++#include "avr32-opc.h" ++#include "opintl.h" ++#include "safe-ctype.h" ++ ++/* TODO: Share this with -asm */ ++ ++/* Structure for a register hash table entry. */ ++struct reg_entry ++{ ++ const char *name; ++ int number; ++}; ++ ++#ifndef strneq ++#define strneq(a,b,n) (strncmp ((a), (b), (n)) == 0) ++#endif ++ ++static char avr32_opt_decode_fpu = 0; ++ ++static const struct reg_entry reg_table[] = ++ { ++ /* Primary names (used by the disassembler) */ ++ { "r0", 0 }, { "r1", 1 }, { "r2", 2 }, { "r3", 3 }, ++ { "r4", 4 }, { "r5", 5 }, { "r6", 6 }, { "r7", 7 }, ++ { "r8", 8 }, { "r9", 9 }, { "r10", 10 }, { "r11", 11 }, ++ { "r12", 12 }, { "sp", 13 }, { "lr", 14 }, { "pc", 15 }, ++ /* Alternatives to sp, lr and pc. */ ++ { "r13", 13 }, { "r14", 14 }, { "r15", 15 }, ++ }; ++#define AVR32_NR_INTREGS (sizeof(reg_table)/sizeof(reg_table[0])) ++ ++/* Coprocessor Registers. */ ++static const struct reg_entry cr_table[] = ++ { ++ { "cr0", 0 }, { "cr1", 1 }, { "cr2", 2 }, { "cr3", 3 }, ++ { "cr4", 4 }, { "cr5", 5 }, { "cr6", 6 }, { "cr7", 7 }, ++ { "cr8", 8 }, { "cr9", 9 }, { "cr10", 10 }, { "cr11", 11 }, ++ { "cr12", 12 }, { "cr13", 13 }, { "cr14", 14 }, { "cr15", 15 }, ++ }; ++#define AVR32_NR_CPREGS (sizeof(cr_table)/sizeof(cr_table[0])) ++ ++static const char bparts[4] = { 'b', 'l', 'u', 't' }; ++static bfd_vma current_pc; ++ ++struct avr32_field_value ++{ ++ const struct avr32_ifield *ifield; ++ unsigned long value; ++}; ++ ++struct avr32_operand ++{ ++ int id; ++ int is_pcrel; ++ int align_order; ++ int (*print)(struct avr32_operand *op, struct disassemble_info *info, ++ struct avr32_field_value *ifields); ++}; ++ ++static signed long ++get_signed_value(const struct avr32_field_value *fv) ++{ ++ signed long value = fv->value; ++ ++ if (fv->value & (1 << (fv->ifield->bitsize - 1))) ++ value |= (~0UL << fv->ifield->bitsize); ++ ++ return value; ++} ++ ++static void ++print_reglist_range(unsigned int first, unsigned int last, ++ const struct reg_entry *reg_names, ++ int need_comma, ++ struct disassemble_info *info) ++{ ++ if (need_comma) ++ info->fprintf_func(info->stream, ","); ++ ++ if (first == last) ++ info->fprintf_func(info->stream, "%s", ++ reg_names[first].name); ++ else ++ info->fprintf_func(info->stream, "%s-%s", ++ reg_names[first].name, reg_names[last].name); ++} ++ ++static int ++print_intreg(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regid = ifields[0].value << op->align_order; ++ ++ info->fprintf_func(info->stream, "%s", ++ reg_table[regid].name); ++ return 1; ++} ++ ++static int ++print_intreg_predec(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "--%s", ++ reg_table[ifields[0].value].name); ++ return 1; ++} ++ ++static int ++print_intreg_postinc(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s++", ++ reg_table[ifields[0].value].name); ++ return 1; ++} ++ ++static int ++print_intreg_lsl(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ const char *rp = reg_table[ifields[0].value].name; ++ unsigned long sa = ifields[1].value; ++ ++ if (sa) ++ info->fprintf_func(info->stream, "%s<<0x%lx", rp, sa); ++ else ++ info->fprintf_func(info->stream, "%s", rp); ++ ++ return 2; ++} ++ ++static int ++print_intreg_lsr(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ const char *rp = reg_table[ifields[0].value].name; ++ unsigned long sa = ifields[1].value; ++ ++ if (sa) ++ info->fprintf_func(info->stream, "%s>>0x%lx", rp, sa); ++ else ++ info->fprintf_func(info->stream, "%s", rp); ++ ++ return 2; ++} ++ ++static int ++print_intreg_bpart(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s:%c", ++ reg_table[ifields[0].value].name, ++ bparts[ifields[1].value]); ++ return 2; ++} ++ ++static int ++print_intreg_hpart(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s:%c", ++ reg_table[ifields[0].value].name, ++ ifields[1].value ? 't' : 'b'); ++ return 2; ++} ++ ++static int ++print_intreg_sdisp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ signed long disp; ++ ++ disp = get_signed_value(&ifields[1]) << op->align_order; ++ ++ info->fprintf_func(info->stream, "%s[%ld]", ++ reg_table[ifields[0].value].name, disp); ++ return 2; ++} ++ ++static int ++print_intreg_udisp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s[0x%lx]", ++ reg_table[ifields[0].value].name, ++ ifields[1].value << op->align_order); ++ return 2; ++} ++ ++static int ++print_intreg_index(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ const char *rb, *ri; ++ unsigned long sa = ifields[2].value; ++ ++ rb = reg_table[ifields[0].value].name; ++ ri = reg_table[ifields[1].value].name; ++ ++ if (sa) ++ info->fprintf_func(info->stream, "%s[%s<<0x%lx]", rb, ri, sa); ++ else ++ info->fprintf_func(info->stream, "%s[%s]", rb, ri); ++ ++ return 3; ++} ++ ++static int ++print_intreg_xindex(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s[%s:%c<<2]", ++ reg_table[ifields[0].value].name, ++ reg_table[ifields[1].value].name, ++ bparts[ifields[2].value]); ++ return 3; ++} ++ ++static int ++print_jmplabel(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ bfd_vma address, offset; ++ ++ offset = get_signed_value(ifields) << op->align_order; ++ address = (current_pc & (~0UL << op->align_order)) + offset; ++ ++ info->print_address_func(address, info); ++ ++ return 1; ++} ++ ++static int ++print_pc_disp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ bfd_vma address, offset; ++ ++ offset = ifields[0].value << op->align_order; ++ address = (current_pc & (~0UL << op->align_order)) + offset; ++ ++ info->print_address_func(address, info); ++ ++ return 1; ++} ++ ++static int ++print_sp(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields ATTRIBUTE_UNUSED) ++{ ++ info->fprintf_func(info->stream, "sp"); ++ return 1; ++} ++ ++static int ++print_sp_disp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "sp[0x%lx]", ++ ifields[0].value << op->align_order); ++ return 1; ++} ++ ++static int ++print_cpno(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "cp%lu", ifields[0].value); ++ return 1; ++} ++ ++static int ++print_cpreg(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "cr%lu", ++ ifields[0].value << op->align_order); ++ return 1; ++} ++ ++static int ++print_uconst(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "0x%lx", ++ ifields[0].value << op->align_order); ++ return 1; ++} ++ ++static int ++print_sconst(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%ld", ++ get_signed_value(ifields) << op->align_order); ++ return 1; ++} ++ ++static int ++print_reglist8_head(unsigned long regmask, int *commap, ++ struct disassemble_info *info) ++{ ++ int first = -1, last, i = 0; ++ int need_comma = 0; ++ ++ while (i < 12) ++ { ++ if (first == -1 && (regmask & 1)) ++ { ++ first = i; ++ } ++ else if (first != -1 && !(regmask & 1)) ++ { ++ last = i - 1; ++ ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ first = -1; ++ } ++ ++ if (i < 8) ++ i += 4; ++ else if (i < 10) ++ i += 2; ++ else ++ i++; ++ regmask >>= 1; ++ } ++ ++ *commap = need_comma; ++ return first; ++} ++ ++static void ++print_reglist8_tail(unsigned long regmask, int first, int need_comma, ++ struct disassemble_info *info) ++{ ++ int last = 11; ++ ++ if (regmask & 0x20) ++ { ++ if (first == -1) ++ first = 12; ++ last = 12; ++ } ++ ++ if (first != -1) ++ { ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ first = -1; ++ } ++ ++ if (regmask & 0x40) ++ { ++ if (first == -1) ++ first = 14; ++ last = 14; ++ } ++ ++ if (regmask & 0x80) ++ { ++ if (first == -1) ++ first = 15; ++ last = 15; ++ } ++ ++ if (first != -1) ++ print_reglist_range(first, last, reg_table, need_comma, info); ++} ++ ++static int ++print_reglist8(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ int first, need_comma; ++ ++ first = print_reglist8_head(regmask, &need_comma, info); ++ print_reglist8_tail(regmask, first, need_comma, info); ++ ++ return 1; ++} ++ ++static int ++print_reglist9(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value >> 1; ++ int first, last, need_comma; ++ ++ first = print_reglist8_head(regmask, &need_comma, info); ++ ++ if ((ifields[0].value & 0x101) == 0x101) ++ { ++ if (first != -1) ++ { ++ last = 11; ++ ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ first = -1; ++ } ++ ++ print_reglist_range(15, 15, reg_table, need_comma, info); ++ ++ regmask >>= 5; ++ ++ if ((regmask & 3) == 0) ++ info->fprintf_func(info->stream, ",r12=0"); ++ else if ((regmask & 3) == 1) ++ info->fprintf_func(info->stream, ",r12=1"); ++ else ++ info->fprintf_func(info->stream, ",r12=-1"); ++ } ++ else ++ print_reglist8_tail(regmask, first, need_comma, info); ++ ++ return 1; ++} ++ ++static int ++print_reglist16(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ unsigned int i = 0, first, last; ++ int need_comma = 0; ++ ++ while (i < 16) ++ { ++ if (regmask & 1) ++ { ++ first = i; ++ while (i < 16) ++ { ++ i++; ++ regmask >>= 1; ++ if (!(regmask & 1)) ++ break; ++ } ++ last = i - 1; ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ } ++ else ++ { ++ i++; ++ regmask >>= 1; ++ } ++ } ++ ++ return 1; ++} ++ ++static int ++print_reglist_ldm(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ int rp, w_bit; ++ int i, first, last; ++ unsigned long regmask; ++ ++ rp = ifields[0].value; ++ w_bit = ifields[1].value; ++ regmask = ifields[2].value; ++ ++ if (regmask & (1 << AVR32_REG_PC) && rp == AVR32_REG_PC) ++ { ++ if (w_bit) ++ info->fprintf_func(info->stream, "sp++"); ++ else ++ info->fprintf_func(info->stream, "sp"); ++ ++ for (i = 0; i < 12; ) ++ { ++ if (regmask & (1 << i)) ++ { ++ first = i; ++ while (i < 12) ++ { ++ i++; ++ if (!(regmask & (1 << i))) ++ break; ++ } ++ last = i - 1; ++ print_reglist_range(first, last, reg_table, 1, info); ++ } ++ else ++ i++; ++ } ++ ++ info->fprintf_func(info->stream, ",pc"); ++ if (regmask & (1 << AVR32_REG_LR)) ++ info->fprintf_func(info->stream, ",r12=-1"); ++ else if (regmask & (1 << AVR32_REG_R12)) ++ info->fprintf_func(info->stream, ",r12=1"); ++ else ++ info->fprintf_func(info->stream, ",r12=0"); ++ } ++ else ++ { ++ if (w_bit) ++ info->fprintf_func(info->stream, "%s++,", reg_table[rp].name); ++ else ++ info->fprintf_func(info->stream, "%s,", reg_table[rp].name); ++ ++ print_reglist16(op, info, ifields + 2); ++ } ++ ++ return 3; ++} ++ ++static int ++print_reglist_cp8(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ unsigned int i = 0, first, last, offset = 0; ++ int need_comma = 0; ++ ++ if (ifields[1].value) ++ offset = 8; ++ ++ while (i < 8) ++ { ++ if (regmask & 1) ++ { ++ first = i; ++ while (i < 8) ++ { ++ i++; ++ regmask >>= 1; ++ if (!(regmask & 1)) ++ break; ++ } ++ last = i - 1; ++ print_reglist_range(offset + first, offset + last, ++ cr_table, need_comma, info); ++ need_comma = 1; ++ } ++ else ++ { ++ i++; ++ regmask >>= 1; ++ } ++ } ++ ++ return 2; ++} ++ ++static int ++print_reglist_cpd8(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ unsigned int i = 0, first, last; ++ int need_comma = 0; ++ ++ while (i < 8) ++ { ++ if (regmask & 1) ++ { ++ first = 2 * i; ++ while (i < 8) ++ { ++ i++; ++ regmask >>= 1; ++ if (!(regmask & 1)) ++ break; ++ } ++ last = 2 * (i - 1) + 1; ++ print_reglist_range(first, last, cr_table, need_comma, info); ++ need_comma = 1; ++ } ++ else ++ { ++ i++; ++ regmask >>= 1; ++ } ++ } ++ ++ return 1; ++} ++ ++static int ++print_retval(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regid = ifields[0].value; ++ const char *retval; ++ ++ if (regid < AVR32_REG_SP) ++ retval = reg_table[regid].name; ++ else if (regid == AVR32_REG_SP) ++ retval = "0"; ++ else if (regid == AVR32_REG_LR) ++ retval = "-1"; ++ else ++ retval = "1"; ++ ++ info->fprintf_func(info->stream, "%s", retval); ++ ++ return 1; ++} ++ ++static int ++print_mcall(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regid = ifields[0].value; ++ ++ if (regid == AVR32_REG_PC) ++ print_jmplabel(op, info, ifields + 1); ++ else ++ print_intreg_sdisp(op, info, ifields); ++ ++ return 2; ++} ++ ++static int ++print_jospinc(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ signed long value = ifields[0].value; ++ ++ if (value >= 4) ++ value -= 8; ++ else ++ value += 1; ++ ++ info->fprintf_func(info->stream, "%ld", value); ++ ++ return 1; ++} ++ ++static int ++print_coh(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields ATTRIBUTE_UNUSED) ++{ ++ info->fprintf_func(info->stream, "COH"); ++ return 0; ++} ++ ++#define OP(name, sgn, pcrel, align, func) \ ++ { AVR32_OPERAND_##name, pcrel, align, print_##func } ++ ++struct avr32_operand operand[AVR32_NR_OPERANDS] = ++ { ++ OP(INTREG, 0, 0, 0, intreg), ++ OP(INTREG_PREDEC, 0, 0, 0, intreg_predec), ++ OP(INTREG_POSTINC, 0, 0, 0, intreg_postinc), ++ OP(INTREG_LSL, 0, 0, 0, intreg_lsl), ++ OP(INTREG_LSR, 0, 0, 0, intreg_lsr), ++ OP(INTREG_BSEL, 0, 0, 0, intreg_bpart), ++ OP(INTREG_HSEL, 0, 0, 1, intreg_hpart), ++ OP(INTREG_SDISP, 1, 0, 0, intreg_sdisp), ++ OP(INTREG_SDISP_H, 1, 0, 1, intreg_sdisp), ++ OP(INTREG_SDISP_W, 1, 0, 2, intreg_sdisp), ++ OP(INTREG_UDISP, 0, 0, 0, intreg_udisp), ++ OP(INTREG_UDISP_H, 0, 0, 1, intreg_udisp), ++ OP(INTREG_UDISP_W, 0, 0, 2, intreg_udisp), ++ OP(INTREG_INDEX, 0, 0, 0, intreg_index), ++ OP(INTREG_XINDEX, 0, 0, 0, intreg_xindex), ++ OP(DWREG, 0, 0, 1, intreg), ++ OP(PC_UDISP_W, 0, 1, 2, pc_disp), ++ OP(SP, 0, 0, 0, sp), ++ OP(SP_UDISP_W, 0, 0, 2, sp_disp), ++ OP(CPNO, 0, 0, 0, cpno), ++ OP(CPREG, 0, 0, 0, cpreg), ++ OP(CPREG_D, 0, 0, 1, cpreg), ++ OP(UNSIGNED_CONST, 0, 0, 0, uconst), ++ OP(UNSIGNED_CONST_W, 0, 0, 2, uconst), ++ OP(SIGNED_CONST, 1, 0, 0, sconst), ++ OP(SIGNED_CONST_W, 1, 0, 2, sconst), ++ OP(JMPLABEL, 1, 1, 1, jmplabel), ++ OP(UNSIGNED_NUMBER, 0, 0, 0, uconst), ++ OP(UNSIGNED_NUMBER_W, 0, 0, 2, uconst), ++ OP(REGLIST8, 0, 0, 0, reglist8), ++ OP(REGLIST9, 0, 0, 0, reglist9), ++ OP(REGLIST16, 0, 0, 0, reglist16), ++ OP(REGLIST_LDM, 0, 0, 0, reglist_ldm), ++ OP(REGLIST_CP8, 0, 0, 0, reglist_cp8), ++ OP(REGLIST_CPD8, 0, 0, 0, reglist_cpd8), ++ OP(RETVAL, 0, 0, 0, retval), ++ OP(MCALL, 1, 0, 2, mcall), ++ OP(JOSPINC, 0, 0, 0, jospinc), ++ OP(COH, 0, 0, 0, coh), ++ }; ++ ++static void ++print_opcode(bfd_vma insn_word, const struct avr32_opcode *opc, ++ bfd_vma pc, struct disassemble_info *info) ++{ ++ const struct avr32_syntax *syntax = opc->syntax; ++ struct avr32_field_value fields[AVR32_MAX_FIELDS]; ++ unsigned int i, next_field = 0, nr_operands; ++ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ opc->fields[i]->extract(opc->fields[i], &insn_word, &fields[i].value); ++ fields[i].ifield = opc->fields[i]; ++ } ++ ++ current_pc = pc; ++ info->fprintf_func(info->stream, "%s", syntax->mnemonic->name); ++ ++ if (syntax->nr_operands < 0) ++ nr_operands = (unsigned int) -syntax->nr_operands; ++ else ++ nr_operands = (unsigned int) syntax->nr_operands; ++ ++ for (i = 0; i < nr_operands; i++) ++ { ++ struct avr32_operand *op = &operand[syntax->operand[i]]; ++ ++ if (i) ++ info->fprintf_func(info->stream, ","); ++ else ++ info->fprintf_func(info->stream, "\t"); ++ next_field += op->print(op, info, &fields[next_field]); ++ } ++} ++ ++#define is_fpu_insn(iw) ((iw&0xf9f0e000)==0xe1a00000) ++ ++static const struct avr32_opcode * ++find_opcode(bfd_vma insn_word) ++{ ++ int i; ++ ++ for (i = 0; i < AVR32_NR_OPCODES; i++) ++ { ++ const struct avr32_opcode *opc = &avr32_opc_table[i]; ++ ++ if ((insn_word & opc->mask) == opc->value) ++ { ++ if (avr32_opt_decode_fpu) ++ { ++ if (is_fpu_insn(insn_word)) ++ { ++ if (opc->id != AVR32_OPC_COP) ++ return opc; ++ } ++ else ++ return opc; ++ } ++ else ++ return opc; ++ } ++ } ++ ++ return NULL; ++} ++ ++static int ++read_insn_word(bfd_vma pc, bfd_vma *valuep, ++ struct disassemble_info *info) ++{ ++ bfd_byte b[4]; ++ int status; ++ ++ status = info->read_memory_func(pc, b, 4, info); ++ if (status) ++ { ++ status = info->read_memory_func(pc, b, 2, info); ++ if (status) ++ { ++ info->memory_error_func(status, pc, info); ++ return -1; ++ } ++ b[3] = b[2] = 0; ++ } ++ ++ *valuep = (b[0] << 24) | (b[1] << 16) | (b[2] << 8) | b[3]; ++ return 0; ++} ++ ++/* Parse an individual disassembler option. */ ++ ++void ++parse_avr32_disassembler_option (option) ++ char * option; ++{ ++ if (option == NULL) ++ return; ++ ++ if (!strcmp(option,"decode-fpu")) ++ { ++ avr32_opt_decode_fpu = 1; ++ return; ++ } ++ ++ printf("\n%s--",option); ++ /* XXX - should break 'option' at following delimiter. */ ++ fprintf (stderr, _("Unrecognised disassembler option: %s\n"), option); ++ ++ return; ++} ++ ++/* Parse the string of disassembler options, spliting it at whitespaces ++ or commas. (Whitespace separators supported for backwards compatibility). */ ++ ++static void ++parse_disassembler_options (char *options) ++{ ++ if (options == NULL) ++ return; ++ ++ while (*options) ++ { ++ parse_avr32_disassembler_option (options); ++ ++ /* Skip forward to next seperator. */ ++ while ((*options) && (! ISSPACE (*options)) && (*options != ',')) ++ ++ options; ++ /* Skip forward past seperators. */ ++ while (ISSPACE (*options) || (*options == ',')) ++ ++ options; ++ } ++} ++ ++int ++print_insn_avr32(bfd_vma pc, struct disassemble_info *info) ++{ ++ bfd_vma insn_word; ++ const struct avr32_opcode *opc; ++ ++ if (info->disassembler_options) ++ { ++ parse_disassembler_options (info->disassembler_options); ++ ++ /* To avoid repeated parsing of these options, we remove them here. */ ++ info->disassembler_options = NULL; ++ } ++ ++ info->bytes_per_chunk = 1; ++ info->display_endian = BFD_ENDIAN_BIG; ++ ++ if (read_insn_word(pc, &insn_word, info)) ++ return -1; ++ ++ opc = find_opcode(insn_word); ++ if (opc) ++ { ++ print_opcode(insn_word, opc, pc, info); ++ return opc->size; ++ } ++ else ++ { ++ info->fprintf_func(info->stream, _("*unknown*")); ++ return 2; ++ } ++ ++} ++ ++void ++print_avr32_disassembler_options (FILE *stream ATTRIBUTE_UNUSED) ++{ ++ fprintf(stream, "\n AVR32 Specific Disassembler Options:\n"); ++ fprintf(stream, " -M decode-fpu Print FPU instructions instead of 'cop' \n"); ++} ++ +--- /dev/null ++++ b/opcodes/avr32-opc.c +@@ -0,0 +1,6906 @@ ++/* Opcode tables for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include ++#include ++ ++#include "avr32-opc.h" ++ ++#define PICO_CPNO 1 ++ ++void ++avr32_insert_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ word |= (value << field->shift) & field->mask; ++ bfd_putb32(word, buf); ++} ++ ++void ++avr32_insert_bit5c(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long value) ++{ ++ char *opcode = buf; ++ ++ opcode[0] = (opcode[0] & 0xe1) | (value & 0x1e); ++ opcode[1] = (opcode[1] & 0xef) | ((value & 1) << 4); ++} ++ ++void ++avr32_insert_k10(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long value) ++{ ++ char *opcode = buf; ++ ++ opcode[0] = (opcode[0] & 0xf0) | ((value & 0xf0) >> 4); ++ opcode[1] = ((opcode[1] & 0x0c) | ((value & 0x0f) << 4) ++ | ((value & 0x300) >> 8)); ++} ++ ++ ++void ++avr32_insert_k21(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ bfd_vma k21; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ k21 = ((value & 0xffff) | ((value & 0x10000) << 4) ++ | ((value & 0x1e0000) << 8)); ++ assert(!(k21 & ~field->mask)); ++ word |= k21; ++ bfd_putb32(word, buf); ++} ++ ++void ++avr32_insert_cpop(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ word |= (((value & 0x1e) << 15) | ((value & 0x60) << 20) ++ | ((value & 0x01) << 12)); ++ bfd_putb32(word, buf); ++} ++ ++void ++avr32_insert_k12cp(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ word |= ((value & 0xf00) << 4) | (value & 0xff); ++ bfd_putb32(word, buf); ++} ++ ++void avr32_extract_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long *value) ++{ ++ /* XXX: The disassembler has done any necessary byteswapping already */ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = (word & field->mask) >> field->shift; ++} ++ ++void avr32_extract_bit5c(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word >> 20) & 1) | ((word >> 24) & 0x1e); ++} ++ ++void avr32_extract_k10(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word >> 8) & 0x300) | ((word >> 20) & 0xff); ++} ++ ++void avr32_extract_k21(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word & 0xffff) | ((word >> 4) & 0x10000) ++ | ((word >> 8) & 0x1e0000)); ++} ++ ++void avr32_extract_cpop(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = (((word >> 12) & 1) | ((word >> 15) & 0x1e) ++ | ((word >> 20) & 0x60)); ++} ++ ++void avr32_extract_k12cp(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word >> 4) & 0xf00) | (word & 0xff); ++} ++ ++ ++#define IFLD(id, bitsz, shift, mask, func) \ ++ { AVR32_IFIELD_##id, bitsz, shift, mask, \ ++ avr32_insert_##func, avr32_extract_##func } ++ ++const struct avr32_ifield avr32_ifield_table[] = ++ { ++ IFLD(RX, 4, 25, 0x1e000000, simple), ++ IFLD(RY, 4, 16, 0x000f0000, simple), ++ IFLD(COND4C, 4, 20, 0x00f00000, simple), ++ IFLD(K8C, 8, 20, 0x0ff00000, simple), ++ IFLD(K7C, 7, 20, 0x07f00000, simple), ++ IFLD(K5C, 5, 20, 0x01f00000, simple), ++ IFLD(K3, 3, 20, 0x00700000, simple), ++ IFLD(RY_DW, 3, 17, 0x000e0000, simple), ++ IFLD(COND4E, 4, 8, 0x00000f00, simple), ++ IFLD(K8E, 8, 0, 0x000000ff, simple), ++ IFLD(BIT5C, 5, 20, 0x1e100000, bit5c), ++ IFLD(COND3, 3, 16, 0x00070000, simple), ++ IFLD(K10, 10, 16, 0x0ff30000, k10), ++ IFLD(POPM, 9, 19, 0x0ff80000, simple), ++ IFLD(K2, 2, 4, 0x00000030, simple), ++ IFLD(RD_E, 4, 0, 0x0000000f, simple), ++ IFLD(RD_DW, 3, 1, 0x0000000e, simple), ++ IFLD(X, 1, 5, 0x00000020, simple), ++ IFLD(Y, 1, 4, 0x00000010, simple), ++ IFLD(X2, 1, 13, 0x00002000, simple), ++ IFLD(Y2, 1, 12, 0x00001000, simple), ++ IFLD(K5E, 5, 0, 0x0000001f, simple), ++ IFLD(PART2, 2, 0, 0x00000003, simple), ++ IFLD(PART1, 1, 0, 0x00000001, simple), ++ IFLD(K16, 16, 0, 0x0000ffff, simple), ++ IFLD(CACHEOP, 5, 11, 0x0000f800, simple), ++ IFLD(K11, 11, 0, 0x000007ff, simple), ++ IFLD(K21, 21, 0, 0x1e10ffff, k21), ++ IFLD(CPOP, 7, 12, 0x060f1000, cpop), ++ IFLD(CPNO, 3, 13, 0x0000e000, simple), ++ IFLD(CRD_RI, 4, 8, 0x00000f00, simple), ++ IFLD(CRX, 4, 4, 0x000000f0, simple), ++ IFLD(CRY, 4, 0, 0x0000000f, simple), ++ IFLD(K7E, 7, 0, 0x0000007f, simple), ++ IFLD(CRD_DW, 3, 9, 0x00000e00, simple), ++ IFLD(PART1_K12, 1, 12, 0x00001000, simple), ++ IFLD(PART2_K12, 2, 12, 0x00003000, simple), ++ IFLD(K12, 12, 0, 0x00000fff, simple), ++ IFLD(S5, 5, 5, 0x000003e0, simple), ++ IFLD(K5E2, 5, 4, 0x000001f0, simple), ++ IFLD(K4, 4, 20, 0x00f00000, simple), ++ IFLD(COND4E2, 4, 4, 0x000000f0, simple), ++ IFLD(K8E2, 8, 4, 0x00000ff0, simple), ++ IFLD(K6, 6, 20, 0x03f00000, simple), ++ IFLD(MEM15, 15, 0, 0x00007fff, simple), ++ IFLD(MEMB5, 5, 15, 0x000f8000, simple), ++ IFLD(W, 1, 25, 0x02000000, simple), ++ /* Coprocessor Multiple High/Low */ ++ IFLD(CM_HL, 1, 8, 0x00000100, simple), ++ IFLD(K12CP, 12 ,0, 0x0000f0ff, k12cp), ++ IFLD(K9E, 9 ,0, 0x000001ff, simple), ++ IFLD (FP_RX, 4, 4, 0x000000F0, simple), ++ IFLD (FP_RY, 4, 0, 0x0000000F, simple), ++ IFLD (FP_RD, 4, 8, 0x00000F00, simple), ++ IFLD (FP_RA, 4, 16, 0x000F0000, simple) ++ }; ++#undef IFLD ++ ++ ++struct avr32_opcode avr32_opc_table[] = ++ { ++ { ++ AVR32_OPC_ABS, 2, 0x5c400000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ABS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_ACALL, 2, 0xd0000000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_ACALL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_ACR, 2, 0x5c000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ACR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ADC, 4, 0xe0000040, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADC], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ADD1, 2, 0x00000000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ADD1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_ADD2, 4, 0xe0000000, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADD2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_ADDABS, 4, 0xe0000e40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADDABS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ADDHH_W, 4, 0xe0000e00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADDHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_AND1, 2, 0x00600000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_AND1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_AND2, 4, 0xe1e00000, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_AND2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_AND3, 4, 0xe1e00200, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_AND3], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDH, 4, 0xe4100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDH_COH, 4, 0xe6100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDH_COH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDL, 4, 0xe0100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDL], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDL_COH, 4, 0xe2100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDL_COH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDN, 2, 0x00800000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDN], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_ASR1, 4, 0xe0000840, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_ASR1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ASR3, 4, 0xe0001400, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_ASR3], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_ASR2, 2, 0xa1400000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ASR2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_BLD, 4, 0xedb00000, 0xfff0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_BLD], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_BREQ1, 2, 0xc0000000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREQ1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRNE1, 2, 0xc0010000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRNE1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCC1, 2, 0xc0020000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRCC1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCS1, 2, 0xc0030000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRCS1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRGE1, 2, 0xc0040000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRGE1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLT1, 2, 0xc0050000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLT1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRMI1, 2, 0xc0060000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRMI1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRPL1, 2, 0xc0070000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRPL1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BREQ2, 4, 0xe0800000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREQ2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRNE2, 4, 0xe0810000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRNE2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCC2, 4, 0xe0820000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRHS2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCS2, 4, 0xe0830000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLO2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRGE2, 4, 0xe0840000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRGE2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLT2, 4, 0xe0850000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLT2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRMI2, 4, 0xe0860000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRMI2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRPL2, 4, 0xe0870000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRPL2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLS, 4, 0xe0880000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLS], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRGT, 4, 0xe0890000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRGT], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLE, 4, 0xe08a0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLE], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRHI, 4, 0xe08b0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRHI], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRVS, 4, 0xe08c0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRVS], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRVC, 4, 0xe08d0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRVC], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRQS, 4, 0xe08e0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRQS], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRAL, 4, 0xe08f0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRAL], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BREAKPOINT, 2, 0xd6730000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREAKPOINT], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_BREV, 2, 0x5c900000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREV], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_BST, 4, 0xefb00000, 0xfff0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_BST], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_CACHE, 4, 0xf4100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CACHE], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K11], ++ &avr32_ifield_table[AVR32_IFIELD_CACHEOP], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTS_B, 2, 0x5c600000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTS_B], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTS_H, 2, 0x5c800000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTS_H], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTU_B, 2, 0x5c500000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTU_B], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTU_H, 2, 0x5c700000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTU_H], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CBR, 2, 0xa1c00000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CBR], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_CLZ, 4, 0xe0001200, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CLZ], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_COM, 2, 0x5cd00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_COM], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_COP, 4, 0xe1a00000, 0xf9f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_COP], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_CRX], ++ &avr32_ifield_table[AVR32_IFIELD_CRY], ++ &avr32_ifield_table[AVR32_IFIELD_CPOP], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_B, 4, 0xe0001800, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_B], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_H, 4, 0xe0001900, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_H], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_W1, 2, 0x00300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_W1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_W2, 2, 0x58000000, 0xfc000000, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_W2], ++ BFD_RELOC_AVR32_6S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K6], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_W3, 4, 0xe0400000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_W3], ++ BFD_RELOC_AVR32_21S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_CPC1, 4, 0xe0001300, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CPC1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CPC2, 2, 0x5c200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CPC2], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CSRF, 2, 0xd4030000, 0xfe0f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_CSRF], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_CSRFCZ, 2, 0xd0030000, 0xfe0f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_CSRFCZ], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_DIVS, 4, 0xe0000c00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_DIVS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_DIVU, 4, 0xe0000d00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_DIVU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_EOR1, 2, 0x00500000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_EOR1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_EOR2, 4, 0xe1e02000, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_EOR2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ } ++ }, ++ { ++ AVR32_OPC_EOR3, 4, 0xe1e02200, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_EOR3], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ } ++ }, ++ { ++ AVR32_OPC_EORL, 4, 0xec100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_EORL], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_EORH, 4, 0xee100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_EORH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_FRS, 2, 0xd7430000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_FRS], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_ICALL, 2, 0x5d100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ICALL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_INCJOSP, 2, 0xd6830000, 0xff8f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_INCJOSP], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D1, 2, 0xa1010000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D2, 2, 0xa1100000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D3, 2, 0xa1000000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D3], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D5, 4, 0xe0000200, 0xe1f0ffc1, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D4, 4, 0xe0e00000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SB2, 4, 0xe0000600, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SB2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SB1, 4, 0xe1200000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SB1], ++ BFD_RELOC_AVR32_16S, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB1, 2, 0x01300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB2, 2, 0x01700000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB5, 4, 0xe0000700, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB3, 2, 0x01800000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB3], ++ BFD_RELOC_AVR32_3U, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB4, 4, 0xe1300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH1, 2, 0x01100000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH2, 2, 0x01500000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH5, 4, 0xe0000400, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH3, 2, 0x80000000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH3], ++ BFD_RELOC_AVR32_4UH, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH4, 4, 0xe1000000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH1, 2, 0x01200000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH2, 2, 0x01600000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH5, 4, 0xe0000500, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH3, 2, 0x80800000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH3], ++ BFD_RELOC_AVR32_4UH, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH4, 4, 0xe1100000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W1, 2, 0x01000000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W2, 2, 0x01400000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W5, 4, 0xe0000300, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W6, 4, 0xe0000f80, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W6], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W3, 2, 0x60000000, 0xe0000000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W3], ++ BFD_RELOC_AVR32_7UW, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W4, 4, 0xe0f00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_D1, 4, 0xe9a01000, 0xfff01100, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_D1], ++ BFD_RELOC_AVR32_10UW, 4, 3, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_D2, 4, 0xefa00050, 0xfff011ff, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_D2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_D3, 4, 0xefa01040, 0xfff011c0, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_D3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_W1, 4, 0xe9a00000, 0xfff01000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_W1], ++ BFD_RELOC_AVR32_10UW, 4, 3, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_W2, 4, 0xefa00040, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_W2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_W3, 4, 0xefa01000, 0xfff010c0, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_W3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC0_D, 4, 0xf3a00000, 0xfff00100, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC0_D], ++ BFD_RELOC_AVR32_14UW, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC0_W, 4, 0xf1a00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC0_W], ++ BFD_RELOC_AVR32_14UW, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_D, 4, 0xeda00400, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_D_PU, 4, 0xeda01400, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_D_PU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_W, 4, 0xeda00000, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_W_PU, 4, 0xeda01000, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_W_PU], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_LDDPC, 2, 0x48000000, 0xf8000000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDDPC], ++ BFD_RELOC_AVR32_9UW_PCREL, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K7C], ++ }, ++ }, ++ { ++ AVR32_OPC_LDDPC_EXT, 4, 0xfef00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDDPC_EXT], ++ BFD_RELOC_AVR32_16B_PCREL, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDDSP, 2, 0x40000000, 0xf8000000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDDSP], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K7C], ++ }, ++ }, ++ { ++ AVR32_OPC_LDINS_B, 4, 0xe1d04000, 0xe1f0c000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDINS_B], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_PART2_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDINS_H, 4, 0xe1d00000, 0xe1f0e000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDINS_H], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_PART1_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDM, 4, 0xe1c00000, 0xfdf00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDM], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_W], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDMTS, 4, 0xe5c00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDMTS], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDMTS_PU, 4, 0xe7c00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDMTS_PU], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDSWP_SH, 4, 0xe1d02000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDSWP_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDSWP_UH, 4, 0xe1d03000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDSWP_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDSWP_W, 4, 0xe1d08000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDSWP_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LSL1, 4, 0xe0000940, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSL1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LSL3, 4, 0xe0001500, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSL3], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_LSL2, 2, 0xa1600000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LSL2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_LSR1, 4, 0xe0000a40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSR1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LSR3, 4, 0xe0001600, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSR3], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_LSR2, 2, 0xa1800000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LSR2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_MAC, 4, 0xe0000340, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MAC], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MACHH_D, 4, 0xe0000580, 0xe1f0ffc1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACHH_D], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MACHH_W, 4, 0xe0000480, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MACHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MACS_D, 4, 0xe0000540, 0xe1f0fff1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACS_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MACSATHH_W, 4, 0xe0000680, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MACSATHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MACUD, 4, 0xe0000740, 0xe1f0fff1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACUD], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MACWH_D, 4, 0xe0000c80, 0xe1f0ffe1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACWH_D], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MAX, 4, 0xe0000c40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MAX], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MCALL, 4, 0xf0100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MCALL], ++ BFD_RELOC_AVR32_18W_PCREL, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_MFDR, 4, 0xe5b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MFDR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MFSR, 4, 0xe1b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MFSR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MIN, 4, 0xe0000d40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MIN], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MOV3, 2, 0x00900000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOV3], ++ BFD_RELOC_NONE, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOV1, 2, 0x30000000, 0xf0000000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOV1], ++ BFD_RELOC_AVR32_8S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_MOV2, 4, 0xe0600000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOV2], ++ BFD_RELOC_AVR32_21S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVEQ1, 4, 0xe0001700, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVEQ1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVNE1, 4, 0xe0001710, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVNE1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCC1, 4, 0xe0001720, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCS1, 4, 0xe0001730, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLO1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGE1, 4, 0xe0001740, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGE1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLT1, 4, 0xe0001750, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLT1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVMI1, 4, 0xe0001760, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVMI1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVPL1, 4, 0xe0001770, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVPL1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLS1, 4, 0xe0001780, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGT1, 4, 0xe0001790, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGT1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLE1, 4, 0xe00017a0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLE1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVHI1, 4, 0xe00017b0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHI1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVS1, 4, 0xe00017c0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVC1, 4, 0xe00017d0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVC1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVQS1, 4, 0xe00017e0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVQS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVAL1, 4, 0xe00017f0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVAL1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVEQ2, 4, 0xf9b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVEQ2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVNE2, 4, 0xf9b00100, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVNE2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCC2, 4, 0xf9b00200, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCS2, 4, 0xf9b00300, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLO2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGE2, 4, 0xf9b00400, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGE2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLT2, 4, 0xf9b00500, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLT2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVMI2, 4, 0xf9b00600, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVMI2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVPL2, 4, 0xf9b00700, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVPL2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLS2, 4, 0xf9b00800, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGT2, 4, 0xf9b00900, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGT2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLE2, 4, 0xf9b00a00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLE2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVHI2, 4, 0xf9b00b00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHI2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVS2, 4, 0xf9b00c00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVC2, 4, 0xf9b00d00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVC2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVQS2, 4, 0xf9b00e00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVQS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVAL2, 4, 0xf9b00f00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVAL2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MTDR, 4, 0xe7b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MTDR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MTSR, 4, 0xe3b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MTSR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MUL1, 2, 0xa1300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MUL1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MUL2, 4, 0xe0000240, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MUL2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MUL3, 4, 0xe0001000, 0xe1f0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MUL3], ++ BFD_RELOC_AVR32_8S_EXT, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MULHH_W, 4, 0xe0000780, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULNHH_W, 4, 0xe0000180, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULNHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULNWH_D, 4, 0xe0000280, 0xe1f0ffe1, ++ &avr32_syntax_table[AVR32_SYNTAX_MULNWH_D], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSD, 4, 0xe0000440, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSD], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATHH_H, 4, 0xe0000880, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATHH_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATHH_W, 4, 0xe0000980, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATRNDHH_H, 4, 0xe0000a80, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATRNDHH_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATRNDWH_W, 4, 0xe0000b80, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATRNDWH_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATWH_W, 4, 0xe0000e80, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATWH_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULU_D, 4, 0xe0000640, 0xe1f0fff1, ++ &avr32_syntax_table[AVR32_SYNTAX_MULU_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MULWH_D, 4, 0xe0000d80, 0xe1f0ffe1, ++ &avr32_syntax_table[AVR32_SYNTAX_MULWH_D], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MUSFR, 2, 0x5d300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MUSFR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_MUSTR, 2, 0x5d200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MUSTR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_MVCR_D, 4, 0xefa00010, 0xfff111ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVCR_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_MVCR_W, 4, 0xefa00000, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVCR_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_MVRC_D, 4, 0xefa00030, 0xfff111ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVRC_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_MVRC_W, 4, 0xefa00020, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVRC_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_NEG, 2, 0x5c300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_NEG], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_NOP, 2, 0xd7030000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_NOP], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_OR1, 2, 0x00400000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_OR1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_OR2, 4, 0xe1e01000, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_OR2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_OR3, 4, 0xe1e01200, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_OR3], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_ORH, 4, 0xea100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ORH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ORL, 4, 0xe8100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ORL], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_PABS_SB, 4, 0xe00023e0, 0xfff0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PABS_SB], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PABS_SH, 4, 0xe00023f0, 0xfff0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PABS_SH], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PACKSH_SB, 4, 0xe00024d0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PACKSH_SB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PACKSH_UB, 4, 0xe00024c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PACKSH_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PACKW_SH, 4, 0xe0002470, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PACKW_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADD_B, 4, 0xe0002300, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADD_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADD_H, 4, 0xe0002000, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADD_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDH_SH, 4, 0xe00020c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDH_UB, 4, 0xe0002360, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDH_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_SB, 4, 0xe0002320, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_SB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_SH, 4, 0xe0002040, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_UB, 4, 0xe0002340, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_UH, 4, 0xe0002080, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUB_H, 4, 0xe0002100, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUB_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUBH_SH, 4, 0xe0002280, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUBH_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUBS_SH, 4, 0xe0002180, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUBS_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUBS_UH, 4, 0xe0002200, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUBS_UH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDX_H, 4, 0xe0002020, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDX_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDXH_SH, 4, 0xe00020e0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDXH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDXS_SH, 4, 0xe0002060, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDXS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDXS_UH, 4, 0xe00020a0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDXS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PASR_B, 4, 0xe0002410, 0xe1f8fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PASR_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_COND3], ++ }, ++ }, ++ { ++ AVR32_OPC_PASR_H, 4, 0xe0002440, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PASR_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PAVG_SH, 4, 0xe00023d0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PAVG_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PAVG_UB, 4, 0xe00023c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PAVG_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSL_B, 4, 0xe0002420, 0xe1f8fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSL_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_COND3], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSL_H, 4, 0xe0002450, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSL_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSR_B, 4, 0xe0002430, 0xe1f8fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSR_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_COND3], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSR_H, 4, 0xe0002460, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSR_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMAX_SH, 4, 0xe0002390, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMAX_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMAX_UB, 4, 0xe0002380, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMAX_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMIN_SH, 4, 0xe00023b0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMIN_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMIN_UB, 4, 0xe00023a0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMIN_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_POPJC, 2, 0xd7130000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_POPJC], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_POPM, 2, 0xd0020000, 0xf0070000, ++ &avr32_syntax_table[AVR32_SYNTAX_POPM], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_POPM], ++ }, ++ }, ++ { ++ AVR32_OPC_POPM_E, 4, 0xe3cd0000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_POPM_E], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_PREF, 4, 0xf2100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_PREF], ++ BFD_RELOC_AVR32_16S, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_PSAD, 4, 0xe0002400, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSAD], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUB_B, 4, 0xe0002310, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUB_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUB_H, 4, 0xe0002010, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADD_H, 4, 0xe0002140, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADD_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADDH_SH, 4, 0xe00022c0, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADDH_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADDS_SH, 4, 0xe00021c0, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADDS_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADDS_UH, 4, 0xe0002240, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADDS_UH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBH_SH, 4, 0xe00020d0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBH_UB, 4, 0xe0002370, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBH_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_SB, 4, 0xe0002330, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_SB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_SH, 4, 0xe0002050, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_UB, 4, 0xe0002350, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_UH, 4, 0xe0002090, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBX_H, 4, 0xe0002030, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBX_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBXH_SH, 4, 0xe00020f0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBXH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBXS_SH, 4, 0xe0002070, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBXS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBXS_UH, 4, 0xe00020b0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBXS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PUNPCKSB_H, 4, 0xe00024a0, 0xe1ffffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_PUNPCKSB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PUNPCKUB_H, 4, 0xe0002480, 0xe1ffffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_PUNPCKUB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PUSHJC, 2, 0xd7230000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_PUSHJC], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_PUSHM, 2, 0xd0010000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_PUSHM], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_PUSHM_E, 4, 0xebcd0000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_PUSHM_E], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_RCALL1, 2, 0xc00c0000, 0xf00c0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RCALL1], ++ BFD_RELOC_AVR32_11H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K10], ++ }, ++ }, ++ { ++ AVR32_OPC_RCALL2, 4, 0xe0a00000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RCALL2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_RETEQ, 2, 0x5e000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETEQ], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETNE, 2, 0x5e100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETNE], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETCC, 2, 0x5e200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETHS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETCS, 2, 0x5e300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLO], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETGE, 2, 0x5e400000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETGE], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETLT, 2, 0x5e500000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLT], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETMI, 2, 0x5e600000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETMI], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETPL, 2, 0x5e700000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETPL], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETLS, 2, 0x5e800000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETGT, 2, 0x5e900000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETGT], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETLE, 2, 0x5ea00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLE], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETHI, 2, 0x5eb00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETHI], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETVS, 2, 0x5ec00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETVS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETVC, 2, 0x5ed00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETVC], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETQS, 2, 0x5ee00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETQS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETAL, 2, 0x5ef00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETAL], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETD, 2, 0xd6230000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETD], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETE, 2, 0xd6030000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETE], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETJ, 2, 0xd6330000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETJ], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETS, 2, 0xd6130000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETS], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RJMP, 2, 0xc0080000, 0xf00c0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RJMP], ++ BFD_RELOC_AVR32_11H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K10], ++ }, ++ }, ++ { ++ AVR32_OPC_ROL, 2, 0x5cf00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ROL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_ROR, 2, 0x5d000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ROR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_RSUB1, 2, 0x00200000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RSUB1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_RSUB2, 4, 0xe0001100, 0xe1f0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_RSUB2], ++ BFD_RELOC_AVR32_8S_EXT, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SATADD_H, 4, 0xe00002c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATADD_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATADD_W, 4, 0xe00000c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATADD_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATRNDS, 4, 0xf3b00000, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATRNDS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SATRNDU, 4, 0xf3b00400, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATRNDU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SATS, 4, 0xf1b00000, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SATSUB_H, 4, 0xe00003c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATSUB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATSUB_W1, 4, 0xe00001c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATSUB_W1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATSUB_W2, 4, 0xe0d00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SATSUB_W2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_SATU, 4, 0xf1b00400, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SBC, 4, 0xe0000140, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SBC], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SBR, 2, 0xa1a00000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SBR], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_SCALL, 2, 0xd7330000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SCALL], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_SCR, 2, 0x5c100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SCR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SLEEP, 4, 0xe9b00000, 0xffffff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SLEEP], ++ BFD_RELOC_AVR32_8S_EXT, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SREQ, 2, 0x5f000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SREQ], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRNE, 2, 0x5f100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRNE], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRCC, 2, 0x5f200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRHS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRCS, 2, 0x5f300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLO], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRGE, 2, 0x5f400000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRGE], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRLT, 2, 0x5f500000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLT], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRMI, 2, 0x5f600000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRMI], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRPL, 2, 0x5f700000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRPL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRLS, 2, 0x5f800000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRGT, 2, 0x5f900000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRGT], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRLE, 2, 0x5fa00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLE], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRHI, 2, 0x5fb00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRHI], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRVS, 2, 0x5fc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRVS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRVC, 2, 0x5fd00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRVC], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRQS, 2, 0x5fe00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRQS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRAL, 2, 0x5ff00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRAL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SSRF, 2, 0xd2030000, 0xfe0f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SSRF], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B1, 2, 0x00c00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B2, 2, 0x00f00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B5, 4, 0xe0000b00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B3, 2, 0xa0800000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B3], ++ BFD_RELOC_AVR32_3U, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B4, 4, 0xe1600000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D1, 2, 0xa1200000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D2, 2, 0xa1210000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D3, 2, 0xa1110000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D3], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D5, 4, 0xe0000800, 0xe1f0ffc1, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D4, 4, 0xe0e10000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H1, 2, 0x00b00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H2, 2, 0x00e00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H5, 4, 0xe0000a00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H3, 2, 0xa0000000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H3], ++ BFD_RELOC_AVR32_4UH, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H4, 4, 0xe1500000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W1, 2, 0x00a00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W2, 2, 0x00d00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W5, 4, 0xe0000900, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W3, 2, 0x81000000, 0xe1000000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W3], ++ BFD_RELOC_AVR32_6UW, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K4], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W4, 4, 0xe1400000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_D1, 4, 0xeba01000, 0xfff01100, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_D1], ++ BFD_RELOC_AVR32_10UW, 4, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_D2, 4, 0xefa00070, 0xfff011f0, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_D2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_D3, 4, 0xefa010c0, 0xfff011c0, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_D3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_W1, 4, 0xeba00000, 0xfff01000, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_W1], ++ BFD_RELOC_AVR32_10UW, 4, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_W2, 4, 0xefa00060, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_W2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_W3, 4, 0xefa01080, 0xfff010c0, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_W3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STC0_D, 4, 0xf7a00000, 0xfff00100, ++ &avr32_syntax_table[AVR32_SYNTAX_STC0_D], ++ BFD_RELOC_AVR32_14UW, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC0_W, 4, 0xf5a00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STC0_W], ++ BFD_RELOC_AVR32_14UW, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_D, 4, 0xeda00500, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_D_PU, 4, 0xeda01500, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_D_PU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_W, 4, 0xeda00200, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_W_PU, 4, 0xeda01200, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_W_PU], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_STCOND, 4, 0xe1700000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STCOND], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STDSP, 2, 0x50000000, 0xf8000000, ++ &avr32_syntax_table[AVR32_SYNTAX_STDSP], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K7C], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STHH_W2, 4, 0xe1e08000, 0xe1f0c0c0, ++ &avr32_syntax_table[AVR32_SYNTAX_STHH_W2], ++ BFD_RELOC_UNUSED, 7, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X2], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y2], ++ }, ++ }, ++ { ++ AVR32_OPC_STHH_W1, 4, 0xe1e0c000, 0xe1f0c000, ++ &avr32_syntax_table[AVR32_SYNTAX_STHH_W1], ++ BFD_RELOC_AVR32_STHH_W, 6, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K8E2], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X2], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y2], ++ }, ++ }, ++ { ++ AVR32_OPC_STM, 4, 0xe9c00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STM], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STM_PU, 4, 0xebc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STM_PU], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STMTS, 4, 0xedc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STMTS], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STMTS_PU, 4, 0xefc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STMTS_PU], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STSWP_H, 4, 0xe1d09000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_STSWP_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STSWP_W, 4, 0xe1d0a000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_STSWP_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB1, 2, 0x00100000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB2, 4, 0xe0000100, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB5, 4, 0xe0c00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB5], ++ BFD_RELOC_AVR32_SUB5, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB3_SP, 2, 0x200d0000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB3_SP], ++ BFD_RELOC_AVR32_10SW, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB3, 2, 0x20000000, 0xf0000000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB3], ++ BFD_RELOC_AVR32_8S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB4, 4, 0xe0200000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB4], ++ BFD_RELOC_AVR32_21S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBEQ, 4, 0xf7b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBEQ], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBNE, 4, 0xf7b00100, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBNE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBCC, 4, 0xf7b00200, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBHS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBCS, 4, 0xf7b00300, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLO], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBGE, 4, 0xf7b00400, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBGE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBLT, 4, 0xf7b00500, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBMI, 4, 0xf7b00600, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBMI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBPL, 4, 0xf7b00700, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBPL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBLS, 4, 0xf7b00800, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBGT, 4, 0xf7b00900, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBGT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBLE, 4, 0xf7b00a00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBHI, 4, 0xf7b00b00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBHI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBVS, 4, 0xf7b00c00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBVS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBVC, 4, 0xf7b00d00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBVC], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBQS, 4, 0xf7b00e00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBQS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBAL, 4, 0xf7b00f00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBAL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFEQ, 4, 0xf5b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFEQ], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFNE, 4, 0xf5b00100, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFNE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFCC, 4, 0xf5b00200, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFHS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFCS, 4, 0xf5b00300, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLO], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFGE, 4, 0xf5b00400, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFGE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFLT, 4, 0xf5b00500, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFMI, 4, 0xf5b00600, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFMI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFPL, 4, 0xf5b00700, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFPL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFLS, 4, 0xf5b00800, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFGT, 4, 0xf5b00900, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFGT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFLE, 4, 0xf5b00a00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFHI, 4, 0xf5b00b00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFHI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFVS, 4, 0xf5b00c00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFVS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFVC, 4, 0xf5b00d00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFVC], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFQS, 4, 0xf5b00e00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFQS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFAL, 4, 0xf5b00f00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFAL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBHH_W, 4, 0xe0000f00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_SWAP_B, 2, 0x5cb00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SWAP_B], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_SWAP_BH, 2, 0x5cc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SWAP_BH], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_SWAP_H, 2, 0x5ca00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SWAP_H], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_SYNC, 4, 0xebb00000, 0xffffff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SYNC], ++ BFD_RELOC_AVR32_8S_EXT, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ } ++ }, ++ { ++ AVR32_OPC_TLBR, 2, 0xd6430000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_TLBR], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_TLBS, 2, 0xd6530000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_TLBS], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_TLBW, 2, 0xd6630000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_TLBW], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_TNBZ, 2, 0x5ce00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_TNBZ], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_TST, 2, 0x00700000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_TST], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_XCHG, 4, 0xe0000b40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_XCHG], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MEMC, 4, 0xf6100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MEMC], ++ BFD_RELOC_AVR32_15S, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_MEM15], ++ &avr32_ifield_table[AVR32_IFIELD_MEMB5], ++ }, ++ }, ++ { ++ AVR32_OPC_MEMS, 4, 0xf8100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MEMS], ++ BFD_RELOC_AVR32_15S, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_MEM15], ++ &avr32_ifield_table[AVR32_IFIELD_MEMB5], ++ }, ++ }, ++ { ++ AVR32_OPC_MEMT, 4, 0xfa100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MEMT], ++ BFD_RELOC_AVR32_15S, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_MEM15], ++ &avr32_ifield_table[AVR32_IFIELD_MEMB5], ++ }, ++ }, ++ { ++ AVR32_OPC_BFEXTS, 4, 0xe1d0b000, 0xe1f0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_BFEXTS], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_BFEXTU, 4, 0xe1d0c000, 0xe1f0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_BFEXTU], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_BFINS, 4, 0xe1d0d000, 0xe1f0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_BFINS], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++#define AVR32_OPCODE_RSUBCOND(cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_RSUB ## cond_name , 4, \ ++ 0xfbb00000 | (cond_field << 8), 0xfff0ff00, \ ++ &avr32_syntax_table[AVR32_SYNTAX_RSUB ## cond_name ], \ ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ &avr32_ifield_table[AVR32_IFIELD_K8E], \ ++ }, \ ++ }, ++ ++ AVR32_OPCODE_RSUBCOND (EQ, 0) ++ AVR32_OPCODE_RSUBCOND (NE, 1) ++ AVR32_OPCODE_RSUBCOND (CC, 2) ++ AVR32_OPCODE_RSUBCOND (CS, 3) ++ AVR32_OPCODE_RSUBCOND (GE, 4) ++ AVR32_OPCODE_RSUBCOND (LT, 5) ++ AVR32_OPCODE_RSUBCOND (MI, 6) ++ AVR32_OPCODE_RSUBCOND (PL, 7) ++ AVR32_OPCODE_RSUBCOND (LS, 8) ++ AVR32_OPCODE_RSUBCOND (GT, 9) ++ AVR32_OPCODE_RSUBCOND (LE, 10) ++ AVR32_OPCODE_RSUBCOND (HI, 11) ++ AVR32_OPCODE_RSUBCOND (VS, 12) ++ AVR32_OPCODE_RSUBCOND (VC, 13) ++ AVR32_OPCODE_RSUBCOND (QS, 14) ++ AVR32_OPCODE_RSUBCOND (AL, 15) ++ ++#define AVR32_OPCODE_OP3_COND(op_name, op_field, cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_ ## op_name ## cond_name , 4, \ ++ 0xe1d0e000 | (cond_field << 8) | (op_field << 4), 0xe1f0fff0, \ ++ &avr32_syntax_table[AVR32_SYNTAX_ ## op_name ## cond_name ], \ ++ BFD_RELOC_UNUSED, 3, -1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], \ ++ &avr32_ifield_table[AVR32_IFIELD_RX], \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ }, \ ++ }, ++ ++ AVR32_OPCODE_OP3_COND (ADD, 0, EQ, 0) ++ AVR32_OPCODE_OP3_COND (ADD, 0, NE, 1) ++ AVR32_OPCODE_OP3_COND (ADD, 0, CC, 2) ++ AVR32_OPCODE_OP3_COND (ADD, 0, CS, 3) ++ AVR32_OPCODE_OP3_COND (ADD, 0, GE, 4) ++ AVR32_OPCODE_OP3_COND (ADD, 0, LT, 5) ++ AVR32_OPCODE_OP3_COND (ADD, 0, MI, 6) ++ AVR32_OPCODE_OP3_COND (ADD, 0, PL, 7) ++ AVR32_OPCODE_OP3_COND (ADD, 0, LS, 8) ++ AVR32_OPCODE_OP3_COND (ADD, 0, GT, 9) ++ AVR32_OPCODE_OP3_COND (ADD, 0, LE, 10) ++ AVR32_OPCODE_OP3_COND (ADD, 0, HI, 11) ++ AVR32_OPCODE_OP3_COND (ADD, 0, VS, 12) ++ AVR32_OPCODE_OP3_COND (ADD, 0, VC, 13) ++ AVR32_OPCODE_OP3_COND (ADD, 0, QS, 14) ++ AVR32_OPCODE_OP3_COND (ADD, 0, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (SUB2, 1, EQ, 0) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, NE, 1) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, CC, 2) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, CS, 3) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, GE, 4) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, LT, 5) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, MI, 6) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, PL, 7) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, LS, 8) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, GT, 9) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, LE, 10) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, HI, 11) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, VS, 12) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, VC, 13) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, QS, 14) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (AND, 2, EQ, 0) ++ AVR32_OPCODE_OP3_COND (AND, 2, NE, 1) ++ AVR32_OPCODE_OP3_COND (AND, 2, CC, 2) ++ AVR32_OPCODE_OP3_COND (AND, 2, CS, 3) ++ AVR32_OPCODE_OP3_COND (AND, 2, GE, 4) ++ AVR32_OPCODE_OP3_COND (AND, 2, LT, 5) ++ AVR32_OPCODE_OP3_COND (AND, 2, MI, 6) ++ AVR32_OPCODE_OP3_COND (AND, 2, PL, 7) ++ AVR32_OPCODE_OP3_COND (AND, 2, LS, 8) ++ AVR32_OPCODE_OP3_COND (AND, 2, GT, 9) ++ AVR32_OPCODE_OP3_COND (AND, 2, LE, 10) ++ AVR32_OPCODE_OP3_COND (AND, 2, HI, 11) ++ AVR32_OPCODE_OP3_COND (AND, 2, VS, 12) ++ AVR32_OPCODE_OP3_COND (AND, 2, VC, 13) ++ AVR32_OPCODE_OP3_COND (AND, 2, QS, 14) ++ AVR32_OPCODE_OP3_COND (AND, 2, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (OR, 3, EQ, 0) ++ AVR32_OPCODE_OP3_COND (OR, 3, NE, 1) ++ AVR32_OPCODE_OP3_COND (OR, 3, CC, 2) ++ AVR32_OPCODE_OP3_COND (OR, 3, CS, 3) ++ AVR32_OPCODE_OP3_COND (OR, 3, GE, 4) ++ AVR32_OPCODE_OP3_COND (OR, 3, LT, 5) ++ AVR32_OPCODE_OP3_COND (OR, 3, MI, 6) ++ AVR32_OPCODE_OP3_COND (OR, 3, PL, 7) ++ AVR32_OPCODE_OP3_COND (OR, 3, LS, 8) ++ AVR32_OPCODE_OP3_COND (OR, 3, GT, 9) ++ AVR32_OPCODE_OP3_COND (OR, 3, LE, 10) ++ AVR32_OPCODE_OP3_COND (OR, 3, HI, 11) ++ AVR32_OPCODE_OP3_COND (OR, 3, VS, 12) ++ AVR32_OPCODE_OP3_COND (OR, 3, VC, 13) ++ AVR32_OPCODE_OP3_COND (OR, 3, QS, 14) ++ AVR32_OPCODE_OP3_COND (OR, 3, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (EOR, 4, EQ, 0) ++ AVR32_OPCODE_OP3_COND (EOR, 4, NE, 1) ++ AVR32_OPCODE_OP3_COND (EOR, 4, CC, 2) ++ AVR32_OPCODE_OP3_COND (EOR, 4, CS, 3) ++ AVR32_OPCODE_OP3_COND (EOR, 4, GE, 4) ++ AVR32_OPCODE_OP3_COND (EOR, 4, LT, 5) ++ AVR32_OPCODE_OP3_COND (EOR, 4, MI, 6) ++ AVR32_OPCODE_OP3_COND (EOR, 4, PL, 7) ++ AVR32_OPCODE_OP3_COND (EOR, 4, LS, 8) ++ AVR32_OPCODE_OP3_COND (EOR, 4, GT, 9) ++ AVR32_OPCODE_OP3_COND (EOR, 4, LE, 10) ++ AVR32_OPCODE_OP3_COND (EOR, 4, HI, 11) ++ AVR32_OPCODE_OP3_COND (EOR, 4, VS, 12) ++ AVR32_OPCODE_OP3_COND (EOR, 4, VC, 13) ++ AVR32_OPCODE_OP3_COND (EOR, 4, QS, 14) ++ AVR32_OPCODE_OP3_COND (EOR, 4, AL, 15) ++ ++#define AVR32_OPCODE_LD_COND(op_name, op_field, cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_ ## op_name ## cond_name , 4, \ ++ 0xe1f00000 | (cond_field << 12) | (op_field << 9), 0xe1f0fe00, \ ++ &avr32_syntax_table[AVR32_SYNTAX_ ## op_name ## cond_name ], \ ++ BFD_RELOC_UNUSED, 3, -1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ &avr32_ifield_table[AVR32_IFIELD_RX], \ ++ &avr32_ifield_table[AVR32_IFIELD_K9E], \ ++ }, \ ++ }, ++ ++#define AVR32_OPCODE_ST_COND(op_name, op_field, cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_ ## op_name ## cond_name , 4, \ ++ 0xe1f00000 | (cond_field << 12) | (op_field << 9), 0xe1f0fe00, \ ++ &avr32_syntax_table[AVR32_SYNTAX_ ## op_name ## cond_name ], \ ++ BFD_RELOC_UNUSED, 3, -1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RX], \ ++ &avr32_ifield_table[AVR32_IFIELD_K9E], \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ }, \ ++ }, ++ ++ AVR32_OPCODE_LD_COND (LD_W, 0, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_W, 0, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_W, 0, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_W, 0, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_W, 0, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_W, 0, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_W, 0, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_W, 0, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_W, 0, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_W, 0, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_W, 0, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_W, 0, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_W, 0, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_W, 0, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_W, 0, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_W, 0, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_SH, 1, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_UH, 2, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_SB, 3, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_UB, 4, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, AL, 15) ++ ++ AVR32_OPCODE_ST_COND (ST_W, 5, EQ, 0) ++ AVR32_OPCODE_ST_COND (ST_W, 5, NE, 1) ++ AVR32_OPCODE_ST_COND (ST_W, 5, CC, 2) ++ AVR32_OPCODE_ST_COND (ST_W, 5, CS, 3) ++ AVR32_OPCODE_ST_COND (ST_W, 5, GE, 4) ++ AVR32_OPCODE_ST_COND (ST_W, 5, LT, 5) ++ AVR32_OPCODE_ST_COND (ST_W, 5, MI, 6) ++ AVR32_OPCODE_ST_COND (ST_W, 5, PL, 7) ++ AVR32_OPCODE_ST_COND (ST_W, 5, LS, 8) ++ AVR32_OPCODE_ST_COND (ST_W, 5, GT, 9) ++ AVR32_OPCODE_ST_COND (ST_W, 5, LE, 10) ++ AVR32_OPCODE_ST_COND (ST_W, 5, HI, 11) ++ AVR32_OPCODE_ST_COND (ST_W, 5, VS, 12) ++ AVR32_OPCODE_ST_COND (ST_W, 5, VC, 13) ++ AVR32_OPCODE_ST_COND (ST_W, 5, QS, 14) ++ AVR32_OPCODE_ST_COND (ST_W, 5, AL, 15) ++ ++ AVR32_OPCODE_ST_COND (ST_H, 6, EQ, 0) ++ AVR32_OPCODE_ST_COND (ST_H, 6, NE, 1) ++ AVR32_OPCODE_ST_COND (ST_H, 6, CC, 2) ++ AVR32_OPCODE_ST_COND (ST_H, 6, CS, 3) ++ AVR32_OPCODE_ST_COND (ST_H, 6, GE, 4) ++ AVR32_OPCODE_ST_COND (ST_H, 6, LT, 5) ++ AVR32_OPCODE_ST_COND (ST_H, 6, MI, 6) ++ AVR32_OPCODE_ST_COND (ST_H, 6, PL, 7) ++ AVR32_OPCODE_ST_COND (ST_H, 6, LS, 8) ++ AVR32_OPCODE_ST_COND (ST_H, 6, GT, 9) ++ AVR32_OPCODE_ST_COND (ST_H, 6, LE, 10) ++ AVR32_OPCODE_ST_COND (ST_H, 6, HI, 11) ++ AVR32_OPCODE_ST_COND (ST_H, 6, VS, 12) ++ AVR32_OPCODE_ST_COND (ST_H, 6, VC, 13) ++ AVR32_OPCODE_ST_COND (ST_H, 6, QS, 14) ++ AVR32_OPCODE_ST_COND (ST_H, 6, AL, 15) ++ ++ AVR32_OPCODE_ST_COND (ST_B, 7, EQ, 0) ++ AVR32_OPCODE_ST_COND (ST_B, 7, NE, 1) ++ AVR32_OPCODE_ST_COND (ST_B, 7, CC, 2) ++ AVR32_OPCODE_ST_COND (ST_B, 7, CS, 3) ++ AVR32_OPCODE_ST_COND (ST_B, 7, GE, 4) ++ AVR32_OPCODE_ST_COND (ST_B, 7, LT, 5) ++ AVR32_OPCODE_ST_COND (ST_B, 7, MI, 6) ++ AVR32_OPCODE_ST_COND (ST_B, 7, PL, 7) ++ AVR32_OPCODE_ST_COND (ST_B, 7, LS, 8) ++ AVR32_OPCODE_ST_COND (ST_B, 7, GT, 9) ++ AVR32_OPCODE_ST_COND (ST_B, 7, LE, 10) ++ AVR32_OPCODE_ST_COND (ST_B, 7, HI, 11) ++ AVR32_OPCODE_ST_COND (ST_B, 7, VS, 12) ++ AVR32_OPCODE_ST_COND (ST_B, 7, VC, 13) ++ AVR32_OPCODE_ST_COND (ST_B, 7, QS, 14) ++ AVR32_OPCODE_ST_COND (ST_B, 7, AL, 15) ++ ++ { ++ AVR32_OPC_MOVH, 4, 0xfc100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_SSCALL, 2, 0xd7530000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SSCALL], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETSS, 2, 0xd7630000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETSS], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ ++ { ++ AVR32_OPC_FMAC_S, 4, 0xE1A00000, 0xFFF0F000, ++ &avr32_syntax_table[AVR32_SYNTAX_FMAC_S], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RA], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FNMAC_S, 4, 0xE1A01000, 0xFFF0F000, ++ &avr32_syntax_table[AVR32_SYNTAX_FNMAC_S], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RA], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FMSC_S, 4, 0xE3A00000, 0xFFF0F000, ++ &avr32_syntax_table[AVR32_SYNTAX_FMSC_S], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RA], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FNMSC_S, 4, 0xE3A01000, 0xFFF0F000, ++ &avr32_syntax_table[AVR32_SYNTAX_FNMSC_S], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RA], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FMUL_S, 4, 0xE5A20000, 0xFFFFF000, ++ &avr32_syntax_table[AVR32_SYNTAX_FMUL_S], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FNMUL_S, 4, 0xE5A30000, 0xFFFFF000, ++ &avr32_syntax_table[AVR32_SYNTAX_FNMUL_S], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FADD_S, 4, 0xE5A00000, 0xFFFFF000, ++ &avr32_syntax_table[AVR32_SYNTAX_FADD_S], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FSUB_S, 4, 0xE5A10000, 0xFFFFF000, ++ &avr32_syntax_table[AVR32_SYNTAX_FSUB_S], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCASTRS_SW, 4, 0xE5AB0000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FCASTRS_SW], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCASTRS_UW, 4, 0xE5A90000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FCASTRS_UW], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCASTSW_S, 4, 0xE5A60000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FCASTSW_S], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCASTUW_S, 4, 0xE5A40000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FCASTUW_S], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCMP_S, 4, 0xE5AC0000, 0xFFFFFF00, ++ &avr32_syntax_table[AVR32_SYNTAX_FCMP_S], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCHK_S, 4, 0xE5AD0000, 0xFFFFFFF0, ++ &avr32_syntax_table[AVR32_SYNTAX_FCHK_S], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FRCPA_S, 4, 0xE5AE0000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FRCPA_S], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FRSQRTA_S, 4, 0xE5AF0000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FRSQRTA_S], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ } ++ ++}; ++ ++ ++const struct avr32_alias avr32_alias_table[] = ++ { ++ { ++ AVR32_ALIAS_PICOSVMAC0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0c }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMAC1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0d }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMAC2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0e }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMAC3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0f }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x08 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x09 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0a }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0b }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x04 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x05 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x06 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x07 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x00 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x01 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x02 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x03 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_D1, ++ &avr32_opc_table[AVR32_OPC_LDC_D1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_D2, ++ &avr32_opc_table[AVR32_OPC_LDC_D2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_D3, ++ &avr32_opc_table[AVR32_OPC_LDC_D3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_W1, ++ &avr32_opc_table[AVR32_OPC_LDC_W1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_W2, ++ &avr32_opc_table[AVR32_OPC_LDC_W2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_W3, ++ &avr32_opc_table[AVR32_OPC_LDC_W3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_D, ++ &avr32_opc_table[AVR32_OPC_LDCM_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_D_PU, ++ &avr32_opc_table[AVR32_OPC_LDCM_D_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_W, ++ &avr32_opc_table[AVR32_OPC_LDCM_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_W_PU, ++ &avr32_opc_table[AVR32_OPC_LDCM_W_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_D1, ++ &avr32_opc_table[AVR32_OPC_MVCR_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_D2, ++ &avr32_opc_table[AVR32_OPC_MVRC_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_W1, ++ &avr32_opc_table[AVR32_OPC_MVCR_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_W2, ++ &avr32_opc_table[AVR32_OPC_MVRC_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_D1, ++ &avr32_opc_table[AVR32_OPC_STC_D1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_D2, ++ &avr32_opc_table[AVR32_OPC_STC_D2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_D3, ++ &avr32_opc_table[AVR32_OPC_STC_D3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_W1, ++ &avr32_opc_table[AVR32_OPC_STC_W1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_W2, ++ &avr32_opc_table[AVR32_OPC_STC_W2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_W3, ++ &avr32_opc_table[AVR32_OPC_STC_W3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_D, ++ &avr32_opc_table[AVR32_OPC_STCM_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_D_PU, ++ &avr32_opc_table[AVR32_OPC_STCM_D_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_W, ++ &avr32_opc_table[AVR32_OPC_STCM_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_W_PU, ++ &avr32_opc_table[AVR32_OPC_STCM_W_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ }; ++ ++ ++#define SYNTAX_NORMAL0(id, mne, opc, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 0, { } \ ++ } ++#define SYNTAX_NORMAL1(id, mne, opc, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMALM1(id, mne, opc, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, -1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMAL2(id, mne, opc, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMALM2(id, mne, opc, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, -2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMAL3(id, mne, opc, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++#define SYNTAX_NORMALM3(id, mne, opc, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, -3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++#define SYNTAX_NORMAL4(id, mne, opc, op0, op1, op2, op3, arch)\ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 4, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, AVR32_OPERAND_##op3, \ ++ } \ ++ } ++#define SYNTAX_NORMAL5(id, mne, opc, op0, op1, op2, op3, op4, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 5, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, AVR32_OPERAND_##op3, \ ++ AVR32_OPERAND_##op4, \ ++ } \ ++ } ++ ++#define SYNTAX_NORMAL_C1(id, mne, opc, nxt, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], 1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_CM1(id, mne, opc, nxt, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], -1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_C2(id, mne, opc, nxt, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], 2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_CM2(id, mne, opc, nxt, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], -2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_C3(id, mne, opc, nxt, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], 3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_CM3(id, mne, opc, nxt, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], -3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++ ++ ++const struct avr32_syntax avr32_syntax_table[] = ++ { ++ SYNTAX_NORMAL1(ABS, ABS, ABS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(ACALL, ACALL, ACALL, UNSIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL1(ACR, ACR, ACR, INTREG,AVR32_V1), ++ SYNTAX_NORMAL3(ADC, ADC, ADC, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ADD1, ADD, ADD1, ADD2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(ADD2, ADD, ADD2, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(ADDABS, ADDABS, ADDABS, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(ADDHH_W, ADDHH_W, ADDHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL_C2(AND1, AND, AND1, AND2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(AND2, AND, AND2, AND3, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(AND3, AND, AND3, INTREG, INTREG, INTREG_LSR, AVR32_V1), ++ SYNTAX_NORMAL_C2(ANDH, ANDH, ANDH, ANDH_COH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(ANDH_COH, ANDH, ANDH_COH, INTREG, UNSIGNED_CONST, COH, AVR32_V1), ++ SYNTAX_NORMAL_C2(ANDL, ANDL, ANDL, ANDL_COH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(ANDL_COH, ANDL, ANDL_COH, INTREG, UNSIGNED_CONST, COH, AVR32_V1), ++ SYNTAX_NORMAL2(ANDN, ANDN, ANDN, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(ASR1, ASR, ASR1, ASR3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(ASR3, ASR, ASR3, ASR2, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(ASR2, ASR, ASR2, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL4(BFEXTS, BFEXTS, BFEXTS, INTREG, INTREG, UNSIGNED_NUMBER, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL4(BFEXTU, BFEXTU, BFEXTU, INTREG, INTREG, UNSIGNED_NUMBER, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL4(BFINS, BFINS, BFINS, INTREG, INTREG, UNSIGNED_NUMBER, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(BLD, BLD, BLD, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL_C1(BREQ1, BREQ, BREQ1, BREQ2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRNE1, BRNE, BRNE1, BRNE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRCC1, BRCC, BRCC1, BRCC2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRCS1, BRCS, BRCS1, BRCS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRGE1, BRGE, BRGE1, BRGE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRLT1, BRLT, BRLT1, BRLT2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRMI1, BRMI, BRMI1, BRMI2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRPL1, BRPL, BRPL1, BRPL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRHS1, BRHS, BRCC1, BRHS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRLO1, BRLO, BRCS1, BRLO2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BREQ2, BREQ, BREQ2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRNE2, BRNE, BRNE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRCC2, BRCC, BRCC2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRCS2, BRCS, BRCS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRGE2, BRGE, BRGE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLT2, BRLT, BRLT2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRMI2, BRMI, BRMI2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRPL2, BRPL, BRPL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLS, BRLS, BRLS, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRGT, BRGT, BRGT, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLE, BRLE, BRLE, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRHI, BRHI, BRHI, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRVS, BRVS, BRVS, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRVC, BRVC, BRVC, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRQS, BRQS, BRQS, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRAL, BRAL, BRAL, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRHS2, BRHS, BRCC2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLO2, BRLO, BRCS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL0(BREAKPOINT, BREAKPOINT, BREAKPOINT, AVR32_V1), ++ SYNTAX_NORMAL1(BREV, BREV, BREV, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(BST, BST, BST, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(CACHE, CACHE, CACHE, INTREG_SDISP, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL1(CASTS_B, CASTS_B, CASTS_B, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CASTS_H, CASTS_H, CASTS_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CASTU_B, CASTU_B, CASTU_B, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CASTU_H, CASTU_H, CASTU_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(CBR, CBR, CBR, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(CLZ, CLZ, CLZ, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(COM, COM, COM, INTREG, AVR32_V1), ++ SYNTAX_NORMAL5(COP, COP, COP, CPNO, CPREG, CPREG, CPREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(CP_B, CP_B, CP_B, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(CP_H, CP_H, CP_H, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(CP_W1, CP_W, CP_W1, CP_W2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(CP_W2, CP_W, CP_W2, CP_W3, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(CP_W3, CP_W, CP_W3, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(CPC1, CPC, CPC1, CPC2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CPC2, CPC, CPC2, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CSRF, CSRF, CSRF, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL1(CSRFCZ, CSRFCZ, CSRFCZ, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL3(DIVS, DIVS, DIVS, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(DIVU, DIVU, DIVU, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(EOR1, EOR, EOR1, EOR2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(EOR2, EOR, EOR2, EOR3, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(EOR3, EOR, EOR3, INTREG, INTREG, INTREG_LSR, AVR32_V1), ++ SYNTAX_NORMAL2(EORL, EORL, EORL, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(EORH, EORH, EORH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL0(FRS, FRS, FRS, AVR32_V1), ++ SYNTAX_NORMAL0(SSCALL, SSCALL, SSCALL, AVR32_V3), ++ SYNTAX_NORMAL0(RETSS, RETSS, RETSS, AVR32_V3), ++ SYNTAX_NORMAL1(ICALL, ICALL, ICALL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(INCJOSP, INCJOSP, INCJOSP, JOSPINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D1, LD_D, LD_D1, LD_D2, DWREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D2, LD_D, LD_D2, LD_D3, DWREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D3, LD_D, LD_D3, LD_D5, DWREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D5, LD_D, LD_D5, LD_D4, DWREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL2(LD_D4, LD_D, LD_D4, DWREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SB2, LD_SB, LD_SB2, LD_SB1, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL2(LD_SB1, LD_SB, LD_SB1, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB1, LD_UB, LD_UB1, LD_UB2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB2, LD_UB, LD_UB2, LD_UB5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB5, LD_UB, LD_UB5, LD_UB3, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB3, LD_UB, LD_UB3, LD_UB4, INTREG, INTREG_UDISP, AVR32_V1), ++ SYNTAX_NORMAL2(LD_UB4, LD_UB, LD_UB4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH1, LD_SH, LD_SH1, LD_SH2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH2, LD_SH, LD_SH2, LD_SH5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH5, LD_SH, LD_SH5, LD_SH3, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH3, LD_SH, LD_SH3, LD_SH4, INTREG, INTREG_UDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LD_SH4, LD_SH, LD_SH4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH1, LD_UH, LD_UH1, LD_UH2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH2, LD_UH, LD_UH2, LD_UH5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH5, LD_UH, LD_UH5, LD_UH3, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH3, LD_UH, LD_UH3, LD_UH4, INTREG, INTREG_UDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LD_UH4, LD_UH, LD_UH4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W1, LD_W, LD_W1, LD_W2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W2, LD_W, LD_W2, LD_W5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W5, LD_W, LD_W5, LD_W6, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W6, LD_W, LD_W6, LD_W3, INTREG, INTREG_XINDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W3, LD_W, LD_W3, LD_W4, INTREG, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LD_W4, LD_W, LD_W4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL3(LDC_D1, LDC_D, LDC_D1, CPNO, CPREG_D, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_D2, LDC_D, LDC_D2, LDC_D1, CPNO, CPREG_D, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_D3, LDC_D, LDC_D3, LDC_D2, CPNO, CPREG_D, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL3(LDC_W1, LDC_W, LDC_W1, CPNO, CPREG, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_W2, LDC_W, LDC_W2, LDC_W1, CPNO, CPREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_W3, LDC_W, LDC_W3, LDC_W2, CPNO, CPREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL2(LDC0_D, LDC0_D, LDC0_D, CPREG_D, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LDC0_W, LDC0_W, LDC0_W, CPREG, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_CM3(LDCM_D, LDCM_D, LDCM_D, LDCM_D_PU, CPNO, INTREG, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMALM3(LDCM_D_PU, LDCM_D, LDCM_D_PU, CPNO, INTREG_POSTINC, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMAL_CM3(LDCM_W, LDCM_W, LDCM_W, LDCM_W_PU, CPNO, INTREG, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMALM3(LDCM_W_PU, LDCM_W, LDCM_W_PU, CPNO, INTREG_POSTINC, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMAL2(LDDPC, LDDPC, LDDPC, INTREG, PC_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LDDPC_EXT, LDDPC, LDDPC_EXT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(LDDSP, LDDSP, LDDSP, INTREG, SP_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LDINS_B, LDINS_B, LDINS_B, INTREG_BSEL, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL2(LDINS_H, LDINS_H, LDINS_H, INTREG_HSEL, INTREG_SDISP_H, AVR32_V1), ++ SYNTAX_NORMALM1(LDM, LDM, LDM, REGLIST_LDM, AVR32_V1), ++ SYNTAX_NORMAL_CM2(LDMTS, LDMTS, LDMTS, LDMTS_PU, INTREG, REGLIST16, AVR32_V1), ++ SYNTAX_NORMALM2(LDMTS_PU, LDMTS, LDMTS_PU, INTREG_POSTINC, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL2(LDSWP_SH, LDSWP_SH, LDSWP_SH, INTREG, INTREG_SDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LDSWP_UH, LDSWP_UH, LDSWP_UH, INTREG, INTREG_SDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LDSWP_W, LDSWP_W, LDSWP_W, INTREG, INTREG_SDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSL1, LSL, LSL1, LSL3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSL3, LSL, LSL3, LSL2, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(LSL2, LSL, LSL2, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSR1, LSR, LSR1, LSR3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSR3, LSR, LSR3, LSR2, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(LSR2, LSR, LSR2, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL3(MAC, MAC, MAC, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MACHH_D, MACHH_D, MACHH_D, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MACHH_W, MACHH_W, MACHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MACS_D, MACS_D, MACS_D, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MACSATHH_W, MACSATHH_W, MACSATHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MACUD, MACU_D, MACUD, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MACWH_D, MACWH_D, MACWH_D, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MAX, MAX, MAX, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(MCALL, MCALL, MCALL, MCALL, AVR32_V1), ++ SYNTAX_NORMAL2(MFDR, MFDR, MFDR, INTREG, UNSIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL2(MFSR, MFSR, MFSR, INTREG, UNSIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL3(MIN, MIN, MIN, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOV3, MOV, MOV3, MOV1, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOV1, MOV, MOV1, MOV2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOV2, MOV, MOV2,INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVEQ1, MOVEQ, MOVEQ1, MOVEQ2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVNE1, MOVNE, MOVNE1, MOVNE2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVCC1, MOVCC, MOVCC1, MOVCC2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVCS1, MOVCS, MOVCS1, MOVCS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVGE1, MOVGE, MOVGE1, MOVGE2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLT1, MOVLT, MOVLT1, MOVLT2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVMI1, MOVMI, MOVMI1, MOVMI2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVPL1, MOVPL, MOVPL1, MOVPL2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLS1, MOVLS, MOVLS1, MOVLS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVGT1, MOVGT, MOVGT1, MOVGT2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLE1, MOVLE, MOVLE1, MOVLE2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVHI1, MOVHI, MOVHI1, MOVHI2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVVS1, MOVVS, MOVVS1, MOVVS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVVC1, MOVVC, MOVVC1, MOVVC2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVQS1, MOVQS, MOVQS1, MOVQS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVAL1, MOVAL, MOVAL1, MOVAL2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVHS1, MOVHS, MOVCC1, MOVHS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLO1, MOVLO, MOVCS1, MOVLO2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(MOVEQ2, MOVEQ, MOVEQ2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVNE2, MOVNE, MOVNE2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVCC2, MOVCC, MOVCC2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVCS2, MOVCS, MOVCS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVGE2, MOVGE, MOVGE2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLT2, MOVLT, MOVLT2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVMI2, MOVMI, MOVMI2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVPL2, MOVPL, MOVPL2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLS2, MOVLS, MOVLS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVGT2, MOVGT, MOVGT2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLE2, MOVLE, MOVLE2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVHI2, MOVHI, MOVHI2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVVS2, MOVVS, MOVVS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVVC2, MOVVC, MOVVC2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVQS2, MOVQS, MOVQS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVAL2, MOVAL, MOVAL2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVHS2, MOVHS, MOVCC2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLO2, MOVLO, MOVCS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MTDR, MTDR, MTDR, UNSIGNED_CONST_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(MTSR, MTSR, MTSR, UNSIGNED_CONST_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MUL1, MUL, MUL1, MUL2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(MUL2, MUL, MUL2, MUL3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MUL3, MUL, MUL3, INTREG, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(MULHH_W, MULHH_W, MULHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULNHH_W, MULNHH_W, MULNHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULNWH_D, MULNWH_D, MULNWH_D, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSD, MULS_D, MULSD, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MULSATHH_H, MULSATHH_H, MULSATHH_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATHH_W, MULSATHH_W, MULSATHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATRNDHH_H, MULSATRNDHH_H, MULSATRNDHH_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATRNDWH_W, MULSATRNDWH_W, MULSATRNDWH_W, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATWH_W, MULSATWH_W, MULSATWH_W, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULU_D, MULU_D, MULU_D, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MULWH_D, MULWH_D, MULWH_D, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL1(MUSFR, MUSFR, MUSFR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(MUSTR, MUSTR, MUSTR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MVCR_D, MVCR_D, MVCR_D, CPNO, DWREG, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL3(MVCR_W, MVCR_W, MVCR_W, CPNO, INTREG, CPREG, AVR32_V1), ++ SYNTAX_NORMAL3(MVRC_D, MVRC_D, MVRC_D, CPNO, CPREG_D, DWREG, AVR32_V1), ++ SYNTAX_NORMAL3(MVRC_W, MVRC_W, MVRC_W, CPNO, CPREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(NEG, NEG, NEG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL0(NOP, NOP, NOP, AVR32_V1), ++ SYNTAX_NORMAL_C2(OR1, OR, OR1, OR2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(OR2, OR, OR2, OR3, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(OR3, OR, OR3, INTREG, INTREG, INTREG_LSR, AVR32_V1), ++ SYNTAX_NORMAL2(ORH, ORH, ORH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(ORL, ORL, ORL, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(PABS_SB, PABS_SB, PABS_SB, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL2(PABS_SH, PABS_SH, PABS_SH, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PACKSH_SB, PACKSH_SB, PACKSH_SB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PACKSH_UB, PACKSH_UB, PACKSH_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PACKW_SH, PACKW_SH, PACKW_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADD_B, PADD_B, PADD_B, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADD_H, PADD_H, PADD_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDH_SH, PADDH_SH, PADDH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDH_UB, PADDH_UB, PADDH_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_SB, PADDS_SB, PADDS_SB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_SH, PADDS_SH, PADDS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_UB, PADDS_UB, PADDS_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_UH, PADDS_UH, PADDS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUB_H, PADDSUB_H, PADDSUB_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUBH_SH, PADDSUBH_SH, PADDSUBH_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUBS_SH, PADDSUBS_SH, PADDSUBS_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUBS_UH, PADDSUBS_UH, PADDSUBS_UH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDX_H, PADDX_H, PADDX_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDXH_SH, PADDXH_SH, PADDXH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDXS_SH, PADDXS_SH, PADDXS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDXS_UH, PADDXS_UH, PADDXS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PASR_B, PASR_B, PASR_B, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PASR_H, PASR_H, PASR_H, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PAVG_SH, PAVG_SH, PAVG_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PAVG_UB, PAVG_UB, PAVG_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSL_B, PLSL_B, PLSL_B, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSL_H, PLSL_H, PLSL_H, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSR_B, PLSR_B, PLSR_B, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSR_H, PLSR_H, PLSR_H, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMAX_SH, PMAX_SH, PMAX_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMAX_UB, PMAX_UB, PMAX_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMIN_SH, PMIN_SH, PMIN_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMIN_UB, PMIN_UB, PMIN_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL0(POPJC, POPJC, POPJC, AVR32_V1), ++ SYNTAX_NORMAL_CM1(POPM, POPM, POPM, POPM_E, REGLIST9, AVR32_V1), ++ SYNTAX_NORMALM1(POPM_E, POPM, POPM_E, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL1(PREF, PREF, PREF, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL3(PSAD, PSAD, PSAD, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUB_B, PSUB_B, PSUB_B, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUB_H, PSUB_H, PSUB_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADD_H, PSUBADD_H, PSUBADD_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADDH_SH, PSUBADDH_SH, PSUBADDH_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADDS_SH, PSUBADDS_SH, PSUBADDS_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADDS_UH, PSUBADDS_UH, PSUBADDS_UH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBH_SH, PSUBH_SH, PSUBH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBH_UB, PSUBH_UB, PSUBH_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_SB, PSUBS_SB, PSUBS_SB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_SH, PSUBS_SH, PSUBS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_UB, PSUBS_UB, PSUBS_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_UH, PSUBS_UH, PSUBS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBX_H, PSUBX_H, PSUBX_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBXH_SH, PSUBXH_SH, PSUBXH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBXS_SH, PSUBXS_SH, PSUBXS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBXS_UH, PSUBXS_UH, PSUBXS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL2(PUNPCKSB_H, PUNPCKSB_H, PUNPCKSB_H, INTREG, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL2(PUNPCKUB_H, PUNPCKUB_H, PUNPCKUB_H, INTREG, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL0(PUSHJC, PUSHJC, PUSHJC, AVR32_V1), ++ SYNTAX_NORMAL_CM1(PUSHM, PUSHM, PUSHM, PUSHM_E, REGLIST8, AVR32_V1), ++ SYNTAX_NORMALM1(PUSHM_E, PUSHM, PUSHM_E, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL_C1(RCALL1, RCALL, RCALL1, RCALL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(RCALL2, RCALL, RCALL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(RETEQ, RETEQ, RETEQ, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETNE, RETNE, RETNE, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETCC, RETCC, RETCC, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETCS, RETCS, RETCS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETGE, RETGE, RETGE, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLT, RETLT, RETLT, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETMI, RETMI, RETMI, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETPL, RETPL, RETPL, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLS, RETLS, RETLS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETGT, RETGT, RETGT, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLE, RETLE, RETLE, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETHI, RETHI, RETHI, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETVS, RETVS, RETVS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETVC, RETVC, RETVC, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETQS, RETQS, RETQS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETAL, RETAL, RETAL, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETHS, RETHS, RETCC, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLO, RETLO, RETCS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL0(RETD, RETD, RETD, AVR32_V1), ++ SYNTAX_NORMAL0(RETE, RETE, RETE, AVR32_V1), ++ SYNTAX_NORMAL0(RETJ, RETJ, RETJ, AVR32_V1), ++ SYNTAX_NORMAL0(RETS, RETS, RETS, AVR32_V1), ++ SYNTAX_NORMAL1(RJMP, RJMP, RJMP, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(ROL, ROL, ROL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(ROR, ROR, ROR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(RSUB1, RSUB, RSUB1, RSUB2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(RSUB2, RSUB, RSUB2, INTREG, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(SATADD_H, SATADD_H, SATADD_H, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL3(SATADD_W, SATADD_W, SATADD_W, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL2(SATRNDS, SATRNDS, SATRNDS, INTREG_LSR, UNSIGNED_NUMBER, AVR32_DSP), ++ SYNTAX_NORMAL2(SATRNDU, SATRNDU, SATRNDU, INTREG_LSR, UNSIGNED_NUMBER, AVR32_DSP), ++ SYNTAX_NORMAL2(SATS, SATS, SATS, INTREG_LSR, UNSIGNED_NUMBER, AVR32_DSP), ++ SYNTAX_NORMAL3(SATSUB_H, SATSUB_H, SATSUB_H, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL_C3(SATSUB_W1, SATSUB_W, SATSUB_W1, SATSUB_W2, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL3(SATSUB_W2, SATSUB_W, SATSUB_W2, INTREG, INTREG, SIGNED_CONST, AVR32_DSP), ++ SYNTAX_NORMAL2(SATU, SATU, SATU, INTREG_LSR, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL3(SBC, SBC, SBC, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(SBR, SBR, SBR, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL0(SCALL, SCALL, SCALL, AVR32_V1), ++ SYNTAX_NORMAL1(SCR, SCR, SCR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SLEEP, SLEEP, SLEEP, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL1(SREQ, SREQ, SREQ, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRNE, SRNE, SRNE, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRCC, SRCC, SRCC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRCS, SRCS, SRCS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRGE, SRGE, SRGE, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLT, SRLT, SRLT, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRMI, SRMI, SRMI, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRPL, SRPL, SRPL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLS, SRLS, SRLS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRGT, SRGT, SRGT, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLE, SRLE, SRLE, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRHI, SRHI, SRHI, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRVS, SRVS, SRVS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRVC, SRVC, SRVC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRQS, SRQS, SRQS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRAL, SRAL, SRAL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRHS, SRHS, SRCC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLO, SRLO, SRCS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SSRF, SSRF, SSRF, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B1, ST_B, ST_B1, ST_B2, INTREG_POSTINC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B2, ST_B, ST_B2, ST_B5, INTREG_PREDEC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B5, ST_B, ST_B5, ST_B3, INTREG_INDEX, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B3, ST_B, ST_B3, ST_B4, INTREG_UDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_B4, ST_B, ST_B4, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D1, ST_D, ST_D1, ST_D2, INTREG_POSTINC, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D2, ST_D, ST_D2, ST_D3, INTREG_PREDEC, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D3, ST_D, ST_D3, ST_D5, INTREG, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D5, ST_D, ST_D5, ST_D4, INTREG_INDEX, DWREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_D4, ST_D, ST_D4, INTREG_SDISP, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H1, ST_H, ST_H1, ST_H2, INTREG_POSTINC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H2, ST_H, ST_H2, ST_H5, INTREG_PREDEC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H5, ST_H, ST_H5, ST_H3, INTREG_INDEX, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H3, ST_H, ST_H3, ST_H4, INTREG_UDISP_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_H4, ST_H, ST_H4, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W1, ST_W, ST_W1, ST_W2, INTREG_POSTINC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W2, ST_W, ST_W2, ST_W5, INTREG_PREDEC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W5, ST_W, ST_W5, ST_W3, INTREG_INDEX, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W3, ST_W, ST_W3, ST_W4, INTREG_UDISP_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_W4, ST_W, ST_W4, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(STC_D1, STC_D, STC_D1, CPNO, INTREG_UDISP_W, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_D2, STC_D, STC_D2, STC_D1, CPNO, INTREG_POSTINC, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_D3, STC_D, STC_D3, STC_D2, CPNO, INTREG_INDEX, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL3(STC_W1, STC_W, STC_W1, CPNO, INTREG_UDISP_W, CPREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_W2, STC_W, STC_W2, STC_W1, CPNO, INTREG_POSTINC, CPREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_W3, STC_W, STC_W3, STC_W2, CPNO, INTREG_INDEX, CPREG, AVR32_V1), ++ SYNTAX_NORMAL2(STC0_D, STC0_D, STC0_D, INTREG_UDISP_W, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL2(STC0_W, STC0_W, STC0_W, INTREG_UDISP_W, CPREG, AVR32_V1), ++ SYNTAX_NORMAL_CM3(STCM_D, STCM_D, STCM_D, STCM_D_PU, CPNO, INTREG, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMALM3(STCM_D_PU, STCM_D, STCM_D_PU, CPNO, INTREG_PREDEC, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMAL_CM3(STCM_W, STCM_W, STCM_W, STCM_W_PU, CPNO, INTREG, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMALM3(STCM_W_PU, STCM_W, STCM_W_PU, CPNO, INTREG_PREDEC, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMAL2(STCOND, STCOND, STCOND, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(STDSP, STDSP, STDSP, SP_UDISP_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(STHH_W2, STHH_W, STHH_W2, STHH_W1, INTREG_INDEX, INTREG_HSEL, INTREG_HSEL, AVR32_V1), ++ SYNTAX_NORMAL3(STHH_W1, STHH_W, STHH_W1, INTREG_UDISP_W, INTREG_HSEL, INTREG_HSEL, AVR32_V1), ++ SYNTAX_NORMAL_CM2(STM, STM, STM, STM_PU, INTREG, REGLIST16, AVR32_V1), ++ SYNTAX_NORMALM2(STM_PU, STM, STM_PU, INTREG_PREDEC, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL_CM2(STMTS, STMTS, STMTS, STMTS_PU, INTREG, REGLIST16, AVR32_V1), ++ SYNTAX_NORMALM2(STMTS_PU, STMTS, STMTS_PU, INTREG_PREDEC, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL2(STSWP_H, STSWP_H, STSWP_H, INTREG_SDISP_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(STSWP_W, STSWP_W, STSWP_W, INTREG_SDISP_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUB1, SUB, SUB1, SUB2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(SUB2, SUB, SUB2, SUB5, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL_C3(SUB5, SUB, SUB5, SUB3_SP, INTREG, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUB3_SP, SUB, SUB3_SP, SUB3, SP, SIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUB3, SUB, SUB3, SUB4, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUB4, SUB, SUB4, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBEQ, SUBEQ, SUBEQ, SUB2EQ, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBNE, SUBNE, SUBNE, SUB2NE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBCC, SUBCC, SUBCC, SUB2CC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBCS, SUBCS, SUBCS, SUB2CS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBGE, SUBGE, SUBGE, SUB2GE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLT, SUBLT, SUBLT, SUB2LT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBMI, SUBMI, SUBMI, SUB2MI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBPL, SUBPL, SUBPL, SUB2PL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLS, SUBLS, SUBLS, SUB2LS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBGT, SUBGT, SUBGT, SUB2GT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLE, SUBLE, SUBLE, SUB2LE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBHI, SUBHI, SUBHI, SUB2HI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBVS, SUBVS, SUBVS, SUB2VS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBVC, SUBVC, SUBVC, SUB2VC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBQS, SUBQS, SUBQS, SUB2QS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBAL, SUBAL, SUBAL, SUB2AL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBHS, SUBHS, SUBCC, SUB2CC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLO, SUBLO, SUBCS, SUB2CS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFEQ, SUBFEQ, SUBFEQ, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFNE, SUBFNE, SUBFNE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFCC, SUBFCC, SUBFCC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFCS, SUBFCS, SUBFCS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFGE, SUBFGE, SUBFGE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLT, SUBFLT, SUBFLT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFMI, SUBFMI, SUBFMI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFPL, SUBFPL, SUBFPL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLS, SUBFLS, SUBFLS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFGT, SUBFGT, SUBFGT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLE, SUBFLE, SUBFLE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFHI, SUBFHI, SUBFHI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFVS, SUBFVS, SUBFVS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFVC, SUBFVC, SUBFVC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFQS, SUBFQS, SUBFQS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFAL, SUBFAL, SUBFAL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFHS, SUBFHS, SUBFCC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLO, SUBFLO, SUBFCS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(SUBHH_W, SUBHH_W, SUBHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL1(SWAP_B, SWAP_B, SWAP_B, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SWAP_BH, SWAP_BH, SWAP_BH, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SWAP_H, SWAP_H, SWAP_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SYNC, SYNC, SYNC, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL0(TLBR, TLBR, TLBR, AVR32_V1), ++ SYNTAX_NORMAL0(TLBS, TLBS, TLBS, AVR32_V1), ++ SYNTAX_NORMAL0(TLBW, TLBW, TLBW, AVR32_V1), ++ SYNTAX_NORMAL1(TNBZ, TNBZ, TNBZ, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(TST, TST, TST, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(XCHG, XCHG, XCHG, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(MEMC, MEMC, MEMC, SIGNED_CONST_W, UNSIGNED_NUMBER, AVR32_RMW), ++ SYNTAX_NORMAL2(MEMS, MEMS, MEMS, SIGNED_CONST_W, UNSIGNED_NUMBER, AVR32_RMW), ++ SYNTAX_NORMAL2(MEMT, MEMT, MEMT, SIGNED_CONST_W, UNSIGNED_NUMBER, AVR32_RMW), ++ SYNTAX_NORMAL4 (FMAC_S, FMAC_S, FMAC_S, INTREG, INTREG, INTREG, INTREG, ++ AVR32_V3FP), ++ SYNTAX_NORMAL4 (FNMAC_S, FNMAC_S, FNMAC_S, INTREG, INTREG, INTREG, INTREG, ++ AVR32_V3FP), ++ SYNTAX_NORMAL4 (FMSC_S, FMSC_S, FMSC_S, INTREG, INTREG, INTREG, INTREG, ++ AVR32_V3FP), ++ SYNTAX_NORMAL4 (FNMSC_S, FNMSC_S, FNMSC_S, INTREG, INTREG, INTREG, INTREG, ++ AVR32_V3FP), ++ SYNTAX_NORMAL3 (FMUL_S, FMUL_S, FMUL_S, INTREG, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL3 (FNMUL_S, FNMUL_S, FNMUL_S, INTREG, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL3 (FADD_S, FADD_S, FADD_S, INTREG, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL3 (FSUB_S, FSUB_S, FSUB_S, INTREG, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FCASTRS_SW, FCASTRS_SW, FCASTRS_SW, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FCASTRS_UW, FCASTRS_UW, FCASTRS_UW, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FCASTSW_S, FCASTSW_S, FCASTSW_S, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FCASTUW_S, FCASTUW_S, FCASTUW_S, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FCMP_S, FCMP_S, FCMP_S, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL1 (FCHK_S, FCHK_S, FCHK_S, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FRCPA_S, FRCPA_S, FRCPA_S, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FRSQRTA_S, FRSQRTA_S, FRSQRTA_S, INTREG, INTREG, AVR32_V3FP), ++ { ++ AVR32_SYNTAX_LDA_W, ++ AVR32_V1, NULL, AVR32_PARSER_LDA, ++ { NULL }, NULL, ++ 2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_SIGNED_CONST, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_CALL, ++ AVR32_V1, NULL, AVR32_PARSER_CALL, ++ { NULL }, NULL, ++ 1, ++ { ++ AVR32_OPERAND_JMPLABEL, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMAC1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMAC2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMAC3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMUL1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMUL2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMUL3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMAC1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMAC2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMAC3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMUL1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMUL2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMUL3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_D2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_D2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_D3], 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_INTREG_PREDEC, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_D3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_D3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_D1], 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_INTREG_INDEX, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_D1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_D1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_INTREG_UDISP_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_W2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_W2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_W3], 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG_PREDEC, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_W3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_W3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_W1], 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG_INDEX, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_W1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_W1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG_UDISP_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_D, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_D] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLDM_D_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_D_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_D_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_W, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_W] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLDM_W_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_W_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_W_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_D1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_D1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOMV_D2], 2, ++ { ++ AVR32_OPERAND_DWREG, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_D2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_D2] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_DWREG, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_W1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_W1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOMV_W2], 2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_W2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_W2] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_D2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_D2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_D3], 2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_D3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_D3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_D1], 2, ++ { ++ AVR32_OPERAND_INTREG_INDEX, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_D1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_D1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_INTREG_UDISP_W, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_W2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_W2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_W3], 2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_W3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_W3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_W1], 2, ++ { ++ AVR32_OPERAND_INTREG_INDEX, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_W1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_W1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_INTREG_UDISP_W, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_D, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_D] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSTM_D_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_D_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_D_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_PREDEC, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_W, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_W] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSTM_W_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_W_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_W_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_PREDEC, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ SYNTAX_NORMAL2(RSUBEQ, RSUBEQ, RSUBEQ, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(RSUBNE, RSUBNE, RSUBNE, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBCC, RSUBCC, RSUBCC, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBCS, RSUBCS, RSUBCS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBGE, RSUBGE, RSUBGE, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLT, RSUBLT, RSUBLT, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBMI, RSUBMI, RSUBMI, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBPL, RSUBPL, RSUBPL, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLS, RSUBLS, RSUBLS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBGT, RSUBGT, RSUBGT, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLE, RSUBLE, RSUBLE, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBHI, RSUBHI, RSUBHI, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBVS, RSUBVS, RSUBVS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBVC, RSUBVC, RSUBVC, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBQS, RSUBQS, RSUBQS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBAL, RSUBAL, RSUBAL, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBHS, RSUBHS, RSUBCC, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLO, RSUBLO, RSUBCS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL3(ADDEQ, ADDEQ, ADDEQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDNE, ADDNE, ADDNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDCC, ADDCC, ADDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDCS, ADDCS, ADDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDGE, ADDGE, ADDGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLT, ADDLT, ADDLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDMI, ADDMI, ADDMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDPL, ADDPL, ADDPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLS, ADDLS, ADDLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDGT, ADDGT, ADDGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLE, ADDLE, ADDLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDHI, ADDHI, ADDHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDVS, ADDVS, ADDVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDVC, ADDVC, ADDVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDQS, ADDQS, ADDQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDAL, ADDAL, ADDAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDHS, ADDHS, ADDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLO, ADDLO, ADDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2EQ, SUBEQ, SUB2EQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2NE, SUBNE, SUB2NE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2CC, SUBCC, SUB2CC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2CS, SUBCS, SUB2CS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2GE, SUBGE, SUB2GE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LT, SUBLT, SUB2LT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2MI, SUBMI, SUB2MI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2PL, SUBPL, SUB2PL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LS, SUBLS, SUB2LS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2GT, SUBGT, SUB2GT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LE, SUBLE, SUB2LE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2HI, SUBHI, SUB2HI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2VS, SUBVS, SUB2VS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2VC, SUBVC, SUB2VC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2QS, SUBQS, SUB2QS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2AL, SUBAL, SUB2AL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2HS, SUBHS, SUB2CC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LO, SUBLO, SUB2CS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDEQ, ANDEQ, ANDEQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDNE, ANDNE, ANDNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDCC, ANDCC, ANDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDCS, ANDCS, ANDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDGE, ANDGE, ANDGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLT, ANDLT, ANDLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDMI, ANDMI, ANDMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDPL, ANDPL, ANDPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLS, ANDLS, ANDLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDGT, ANDGT, ANDGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLE, ANDLE, ANDLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDHI, ANDHI, ANDHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDVS, ANDVS, ANDVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDVC, ANDVC, ANDVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDQS, ANDQS, ANDQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDAL, ANDAL, ANDAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDHS, ANDHS, ANDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLO, ANDLO, ANDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(OREQ, OREQ, OREQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORNE, ORNE, ORNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORCC, ORCC, ORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORCS, ORCS, ORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORGE, ORGE, ORGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLT, ORLT, ORLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORMI, ORMI, ORMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORPL, ORPL, ORPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLS, ORLS, ORLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORGT, ORGT, ORGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLE, ORLE, ORLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORHI, ORHI, ORHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORVS, ORVS, ORVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORVC, ORVC, ORVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORQS, ORQS, ORQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORAL, ORAL, ORAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORHS, ORHS, ORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLO, ORLO, ORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EOREQ, EOREQ, EOREQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORNE, EORNE, EORNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORCC, EORCC, EORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORCS, EORCS, EORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORGE, EORGE, EORGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLT, EORLT, EORLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORMI, EORMI, EORMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORPL, EORPL, EORPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLS, EORLS, EORLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORGT, EORGT, EORGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLE, EORLE, EORLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORHI, EORHI, EORHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORVS, EORVS, EORVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORVC, EORVC, EORVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORQS, EORQS, EORQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORAL, EORAL, EORAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORHS, EORHS, EORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLO, EORLO, EORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WEQ, LD_WEQ, LD_WEQ, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WNE, LD_WNE, LD_WNE, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WCC, LD_WCC, LD_WCC, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WCS, LD_WCS, LD_WCS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WGE, LD_WGE, LD_WGE, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLT, LD_WLT, LD_WLT, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WMI, LD_WMI, LD_WMI, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WPL, LD_WPL, LD_WPL, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLS, LD_WLS, LD_WLS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WGT, LD_WGT, LD_WGT, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLE, LD_WLE, LD_WLE, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WHI, LD_WHI, LD_WHI, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WVS, LD_WVS, LD_WVS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WVC, LD_WVC, LD_WVC, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WQS, LD_WQS, LD_WQS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WAL, LD_WAL, LD_WAL, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WHS, LD_WHS, LD_WCC, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLO, LD_WLO, LD_WCS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHEQ, LD_SHEQ, LD_SHEQ, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHNE, LD_SHNE, LD_SHNE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHCC, LD_SHCC, LD_SHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHCS, LD_SHCS, LD_SHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHGE, LD_SHGE, LD_SHGE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLT, LD_SHLT, LD_SHLT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHMI, LD_SHMI, LD_SHMI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHPL, LD_SHPL, LD_SHPL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLS, LD_SHLS, LD_SHLS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHGT, LD_SHGT, LD_SHGT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLE, LD_SHLE, LD_SHLE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHHI, LD_SHHI, LD_SHHI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHVS, LD_SHVS, LD_SHVS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHVC, LD_SHVC, LD_SHVC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHQS, LD_SHQS, LD_SHQS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHAL, LD_SHAL, LD_SHAL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHHS, LD_SHHS, LD_SHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLO, LD_SHLO, LD_SHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHEQ, LD_UHEQ, LD_UHEQ, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHNE, LD_UHNE, LD_UHNE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHCC, LD_UHCC, LD_UHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHCS, LD_UHCS, LD_UHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHGE, LD_UHGE, LD_UHGE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLT, LD_UHLT, LD_UHLT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHMI, LD_UHMI, LD_UHMI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHPL, LD_UHPL, LD_UHPL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLS, LD_UHLS, LD_UHLS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHGT, LD_UHGT, LD_UHGT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLE, LD_UHLE, LD_UHLE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHHI, LD_UHHI, LD_UHHI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHVS, LD_UHVS, LD_UHVS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHVC, LD_UHVC, LD_UHVC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHQS, LD_UHQS, LD_UHQS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHAL, LD_UHAL, LD_UHAL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHHS, LD_UHHS, LD_UHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLO, LD_UHLO, LD_UHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBEQ, LD_SBEQ, LD_SBEQ, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBNE, LD_SBNE, LD_SBNE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBCC, LD_SBCC, LD_SBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBCS, LD_SBCS, LD_SBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBGE, LD_SBGE, LD_SBGE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLT, LD_SBLT, LD_SBLT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBMI, LD_SBMI, LD_SBMI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBPL, LD_SBPL, LD_SBPL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLS, LD_SBLS, LD_SBLS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBGT, LD_SBGT, LD_SBGT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLE, LD_SBLE, LD_SBLE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBHI, LD_SBHI, LD_SBHI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBVS, LD_SBVS, LD_SBVS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBVC, LD_SBVC, LD_SBVC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBQS, LD_SBQS, LD_SBQS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBAL, LD_SBAL, LD_SBAL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBHS, LD_SBHS, LD_SBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLO, LD_SBLO, LD_SBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBEQ, LD_UBEQ, LD_UBEQ, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBNE, LD_UBNE, LD_UBNE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBCC, LD_UBCC, LD_UBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBCS, LD_UBCS, LD_UBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBGE, LD_UBGE, LD_UBGE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLT, LD_UBLT, LD_UBLT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBMI, LD_UBMI, LD_UBMI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBPL, LD_UBPL, LD_UBPL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLS, LD_UBLS, LD_UBLS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBGT, LD_UBGT, LD_UBGT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLE, LD_UBLE, LD_UBLE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBHI, LD_UBHI, LD_UBHI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBVS, LD_UBVS, LD_UBVS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBVC, LD_UBVC, LD_UBVC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBQS, LD_UBQS, LD_UBQS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBAL, LD_UBAL, LD_UBAL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBHS, LD_UBHS, LD_UBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLO, LD_UBLO, LD_UBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WEQ, ST_WEQ, ST_WEQ, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WNE, ST_WNE, ST_WNE, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WCC, ST_WCC, ST_WCC, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WCS, ST_WCS, ST_WCS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WGE, ST_WGE, ST_WGE, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLT, ST_WLT, ST_WLT, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WMI, ST_WMI, ST_WMI, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WPL, ST_WPL, ST_WPL, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLS, ST_WLS, ST_WLS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WGT, ST_WGT, ST_WGT, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLE, ST_WLE, ST_WLE, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WHI, ST_WHI, ST_WHI, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WVS, ST_WVS, ST_WVS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WVC, ST_WVC, ST_WVC, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WQS, ST_WQS, ST_WQS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WAL, ST_WAL, ST_WAL, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WHS, ST_WHS, ST_WCC, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLO, ST_WLO, ST_WCS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HEQ, ST_HEQ, ST_HEQ, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HNE, ST_HNE, ST_HNE, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HCC, ST_HCC, ST_HCC, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HCS, ST_HCS, ST_HCS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HGE, ST_HGE, ST_HGE, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLT, ST_HLT, ST_HLT, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HMI, ST_HMI, ST_HMI, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HPL, ST_HPL, ST_HPL, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLS, ST_HLS, ST_HLS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HGT, ST_HGT, ST_HGT, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLE, ST_HLE, ST_HLE, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HHI, ST_HHI, ST_HHI, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HVS, ST_HVS, ST_HVS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HVC, ST_HVC, ST_HVC, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HQS, ST_HQS, ST_HQS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HAL, ST_HAL, ST_HAL, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HHS, ST_HHS, ST_HCC, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLO, ST_HLO, ST_HCS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BEQ, ST_BEQ, ST_BEQ, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BNE, ST_BNE, ST_BNE, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BCC, ST_BCC, ST_BCC, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BCS, ST_BCS, ST_BCS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BGE, ST_BGE, ST_BGE, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLT, ST_BLT, ST_BLT, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BMI, ST_BMI, ST_BMI, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BPL, ST_BPL, ST_BPL, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLS, ST_BLS, ST_BLS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BGT, ST_BGT, ST_BGT, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLE, ST_BLE, ST_BLE, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BHI, ST_BHI, ST_BHI, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BVS, ST_BVS, ST_BVS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BVC, ST_BVC, ST_BVC, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BQS, ST_BQS, ST_BQS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BAL, ST_BAL, ST_BAL, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BHS, ST_BHS, ST_BCC, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLO, ST_BLO, ST_BCS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(MOVH, MOVH, MOVH, INTREG, UNSIGNED_CONST, AVR32_V2), ++ ++ }; ++ ++#define NORMAL_MNEMONIC(name, syntax, str) \ ++ { \ ++ AVR32_MNEMONIC_##name, str, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##syntax], \ ++ } ++#define FP_MNEMONIC(name, syntax, str) \ ++ NORMAL_MNEMONIC(name##_S, syntax##_S, str ".s"), \ ++ NORMAL_MNEMONIC(name##_D, syntax##_D, str ".d") ++ ++const struct avr32_mnemonic avr32_mnemonic_table[] = ++ { ++ NORMAL_MNEMONIC(ABS, ABS, "abs"), ++ NORMAL_MNEMONIC(ACALL, ACALL, "acall"), ++ NORMAL_MNEMONIC(ACR, ACR, "acr"), ++ NORMAL_MNEMONIC(ADC, ADC, "adc"), ++ NORMAL_MNEMONIC(ADD, ADD1, "add"), ++ NORMAL_MNEMONIC(ADDABS, ADDABS, "addabs"), ++ NORMAL_MNEMONIC(ADDHH_W, ADDHH_W, "addhh.w"), ++ NORMAL_MNEMONIC(AND, AND1, "and"), ++ NORMAL_MNEMONIC(ANDH, ANDH, "andh"), ++ NORMAL_MNEMONIC(ANDL, ANDL, "andl"), ++ NORMAL_MNEMONIC(ANDN, ANDN, "andn"), ++ NORMAL_MNEMONIC(ASR, ASR1, "asr"), ++ NORMAL_MNEMONIC(BFEXTS, BFEXTS, "bfexts"), ++ NORMAL_MNEMONIC(BFEXTU, BFEXTU, "bfextu"), ++ NORMAL_MNEMONIC(BFINS, BFINS, "bfins"), ++ NORMAL_MNEMONIC(BLD, BLD, "bld"), ++ NORMAL_MNEMONIC(BREQ, BREQ1, "breq"), ++ NORMAL_MNEMONIC(BRNE, BRNE1, "brne"), ++ NORMAL_MNEMONIC(BRCC, BRCC1, "brcc"), ++ NORMAL_MNEMONIC(BRCS, BRCS1, "brcs"), ++ NORMAL_MNEMONIC(BRGE, BRGE1, "brge"), ++ NORMAL_MNEMONIC(BRLT, BRLT1, "brlt"), ++ NORMAL_MNEMONIC(BRMI, BRMI1, "brmi"), ++ NORMAL_MNEMONIC(BRPL, BRPL1, "brpl"), ++ NORMAL_MNEMONIC(BRHS, BRHS1, "brhs"), ++ NORMAL_MNEMONIC(BRLO, BRLO1, "brlo"), ++ NORMAL_MNEMONIC(BRLS, BRLS, "brls"), ++ NORMAL_MNEMONIC(BRGT, BRGT, "brgt"), ++ NORMAL_MNEMONIC(BRLE, BRLE, "brle"), ++ NORMAL_MNEMONIC(BRHI, BRHI, "brhi"), ++ NORMAL_MNEMONIC(BRVS, BRVS, "brvs"), ++ NORMAL_MNEMONIC(BRVC, BRVC, "brvc"), ++ NORMAL_MNEMONIC(BRQS, BRQS, "brqs"), ++ NORMAL_MNEMONIC(BRAL, BRAL, "bral"), ++ NORMAL_MNEMONIC(BREAKPOINT, BREAKPOINT, "breakpoint"), ++ NORMAL_MNEMONIC(BREV, BREV, "brev"), ++ NORMAL_MNEMONIC(BST, BST, "bst"), ++ NORMAL_MNEMONIC(CACHE, CACHE, "cache"), ++ NORMAL_MNEMONIC(CASTS_B, CASTS_B, "casts.b"), ++ NORMAL_MNEMONIC(CASTS_H, CASTS_H, "casts.h"), ++ NORMAL_MNEMONIC(CASTU_B, CASTU_B, "castu.b"), ++ NORMAL_MNEMONIC(CASTU_H, CASTU_H, "castu.h"), ++ NORMAL_MNEMONIC(CBR, CBR, "cbr"), ++ NORMAL_MNEMONIC(CLZ, CLZ, "clz"), ++ NORMAL_MNEMONIC(COM, COM, "com"), ++ NORMAL_MNEMONIC(COP, COP, "cop"), ++ NORMAL_MNEMONIC(CP_B, CP_B, "cp.b"), ++ NORMAL_MNEMONIC(CP_H, CP_H, "cp.h"), ++ NORMAL_MNEMONIC(CP_W, CP_W1, "cp.w"), ++ NORMAL_MNEMONIC(CP, CP_W1, "cp"), ++ NORMAL_MNEMONIC(CPC, CPC1, "cpc"), ++ NORMAL_MNEMONIC(CSRF, CSRF, "csrf"), ++ NORMAL_MNEMONIC(CSRFCZ, CSRFCZ, "csrfcz"), ++ NORMAL_MNEMONIC(DIVS, DIVS, "divs"), ++ NORMAL_MNEMONIC(DIVU, DIVU, "divu"), ++ NORMAL_MNEMONIC(EOR, EOR1, "eor"), ++ NORMAL_MNEMONIC(EORL, EORL, "eorl"), ++ NORMAL_MNEMONIC(EORH, EORH, "eorh"), ++ NORMAL_MNEMONIC(FRS, FRS, "frs"), ++ NORMAL_MNEMONIC(SSCALL, SSCALL, "sscall"), ++ NORMAL_MNEMONIC(RETSS, RETSS, "retss"), ++ NORMAL_MNEMONIC(ICALL, ICALL, "icall"), ++ NORMAL_MNEMONIC(INCJOSP, INCJOSP, "incjosp"), ++ NORMAL_MNEMONIC(LD_D, LD_D1, "ld.d"), ++ NORMAL_MNEMONIC(LD_SB, LD_SB2, "ld.sb"), ++ NORMAL_MNEMONIC(LD_UB, LD_UB1, "ld.ub"), ++ NORMAL_MNEMONIC(LD_SH, LD_SH1, "ld.sh"), ++ NORMAL_MNEMONIC(LD_UH, LD_UH1, "ld.uh"), ++ NORMAL_MNEMONIC(LD_W, LD_W1, "ld.w"), ++ NORMAL_MNEMONIC(LDC_D, LDC_D3, "ldc.d"), ++ NORMAL_MNEMONIC(LDC_W, LDC_W3, "ldc.w"), ++ NORMAL_MNEMONIC(LDC0_D, LDC0_D, "ldc0.d"), ++ NORMAL_MNEMONIC(LDC0_W, LDC0_W, "ldc0.w"), ++ NORMAL_MNEMONIC(LDCM_D, LDCM_D, "ldcm.d"), ++ NORMAL_MNEMONIC(LDCM_W, LDCM_W, "ldcm.w"), ++ NORMAL_MNEMONIC(LDDPC, LDDPC, "lddpc"), ++ NORMAL_MNEMONIC(LDDSP, LDDSP, "lddsp"), ++ NORMAL_MNEMONIC(LDINS_B, LDINS_B, "ldins.b"), ++ NORMAL_MNEMONIC(LDINS_H, LDINS_H, "ldins.h"), ++ NORMAL_MNEMONIC(LDM, LDM, "ldm"), ++ NORMAL_MNEMONIC(LDMTS, LDMTS, "ldmts"), ++ NORMAL_MNEMONIC(LDSWP_SH, LDSWP_SH, "ldswp.sh"), ++ NORMAL_MNEMONIC(LDSWP_UH, LDSWP_UH, "ldswp.uh"), ++ NORMAL_MNEMONIC(LDSWP_W, LDSWP_W, "ldswp.w"), ++ NORMAL_MNEMONIC(LSL, LSL1, "lsl"), ++ NORMAL_MNEMONIC(LSR, LSR1, "lsr"), ++ NORMAL_MNEMONIC(MAC, MAC, "mac"), ++ NORMAL_MNEMONIC(MACHH_D, MACHH_D, "machh.d"), ++ NORMAL_MNEMONIC(MACHH_W, MACHH_W, "machh.w"), ++ NORMAL_MNEMONIC(MACS_D, MACS_D, "macs.d"), ++ NORMAL_MNEMONIC(MACSATHH_W, MACSATHH_W, "macsathh.w"), ++ NORMAL_MNEMONIC(MACU_D, MACUD, "macu.d"), ++ NORMAL_MNEMONIC(MACWH_D, MACWH_D, "macwh.d"), ++ NORMAL_MNEMONIC(MAX, MAX, "max"), ++ NORMAL_MNEMONIC(MCALL, MCALL, "mcall"), ++ NORMAL_MNEMONIC(MFDR, MFDR, "mfdr"), ++ NORMAL_MNEMONIC(MFSR, MFSR, "mfsr"), ++ NORMAL_MNEMONIC(MIN, MIN, "min"), ++ NORMAL_MNEMONIC(MOV, MOV3, "mov"), ++ NORMAL_MNEMONIC(MOVEQ, MOVEQ1, "moveq"), ++ NORMAL_MNEMONIC(MOVNE, MOVNE1, "movne"), ++ NORMAL_MNEMONIC(MOVCC, MOVCC1, "movcc"), ++ NORMAL_MNEMONIC(MOVCS, MOVCS1, "movcs"), ++ NORMAL_MNEMONIC(MOVGE, MOVGE1, "movge"), ++ NORMAL_MNEMONIC(MOVLT, MOVLT1, "movlt"), ++ NORMAL_MNEMONIC(MOVMI, MOVMI1, "movmi"), ++ NORMAL_MNEMONIC(MOVPL, MOVPL1, "movpl"), ++ NORMAL_MNEMONIC(MOVLS, MOVLS1, "movls"), ++ NORMAL_MNEMONIC(MOVGT, MOVGT1, "movgt"), ++ NORMAL_MNEMONIC(MOVLE, MOVLE1, "movle"), ++ NORMAL_MNEMONIC(MOVHI, MOVHI1, "movhi"), ++ NORMAL_MNEMONIC(MOVVS, MOVVS1, "movvs"), ++ NORMAL_MNEMONIC(MOVVC, MOVVC1, "movvc"), ++ NORMAL_MNEMONIC(MOVQS, MOVQS1, "movqs"), ++ NORMAL_MNEMONIC(MOVAL, MOVAL1, "moval"), ++ NORMAL_MNEMONIC(MOVHS, MOVHS1, "movhs"), ++ NORMAL_MNEMONIC(MOVLO, MOVLO1, "movlo"), ++ NORMAL_MNEMONIC(MTDR, MTDR, "mtdr"), ++ NORMAL_MNEMONIC(MTSR, MTSR, "mtsr"), ++ NORMAL_MNEMONIC(MUL, MUL1, "mul"), ++ NORMAL_MNEMONIC(MULHH_W, MULHH_W, "mulhh.w"), ++ NORMAL_MNEMONIC(MULNHH_W, MULNHH_W, "mulnhh.w"), ++ NORMAL_MNEMONIC(MULNWH_D, MULNWH_D, "mulnwh.d"), ++ NORMAL_MNEMONIC(MULS_D, MULSD, "muls.d"), ++ NORMAL_MNEMONIC(MULSATHH_H, MULSATHH_H, "mulsathh.h"), ++ NORMAL_MNEMONIC(MULSATHH_W, MULSATHH_W, "mulsathh.w"), ++ NORMAL_MNEMONIC(MULSATRNDHH_H, MULSATRNDHH_H, "mulsatrndhh.h"), ++ NORMAL_MNEMONIC(MULSATRNDWH_W, MULSATRNDWH_W, "mulsatrndwh.w"), ++ NORMAL_MNEMONIC(MULSATWH_W, MULSATWH_W, "mulsatwh.w"), ++ NORMAL_MNEMONIC(MULU_D, MULU_D, "mulu.d"), ++ NORMAL_MNEMONIC(MULWH_D, MULWH_D, "mulwh.d"), ++ NORMAL_MNEMONIC(MUSFR, MUSFR, "musfr"), ++ NORMAL_MNEMONIC(MUSTR, MUSTR, "mustr"), ++ NORMAL_MNEMONIC(MVCR_D, MVCR_D, "mvcr.d"), ++ NORMAL_MNEMONIC(MVCR_W, MVCR_W, "mvcr.w"), ++ NORMAL_MNEMONIC(MVRC_D, MVRC_D, "mvrc.d"), ++ NORMAL_MNEMONIC(MVRC_W, MVRC_W, "mvrc.w"), ++ NORMAL_MNEMONIC(NEG, NEG, "neg"), ++ NORMAL_MNEMONIC(NOP, NOP, "nop"), ++ NORMAL_MNEMONIC(OR, OR1, "or"), ++ NORMAL_MNEMONIC(ORH, ORH, "orh"), ++ NORMAL_MNEMONIC(ORL, ORL, "orl"), ++ NORMAL_MNEMONIC(PABS_SB, PABS_SB, "pabs.sb"), ++ NORMAL_MNEMONIC(PABS_SH, PABS_SH, "pabs.sh"), ++ NORMAL_MNEMONIC(PACKSH_SB, PACKSH_SB, "packsh.sb"), ++ NORMAL_MNEMONIC(PACKSH_UB, PACKSH_UB, "packsh.ub"), ++ NORMAL_MNEMONIC(PACKW_SH, PACKW_SH, "packw.sh"), ++ NORMAL_MNEMONIC(PADD_B, PADD_B, "padd.b"), ++ NORMAL_MNEMONIC(PADD_H, PADD_H, "padd.h"), ++ NORMAL_MNEMONIC(PADDH_SH, PADDH_SH, "paddh.sh"), ++ NORMAL_MNEMONIC(PADDH_UB, PADDH_UB, "paddh.ub"), ++ NORMAL_MNEMONIC(PADDS_SB, PADDS_SB, "padds.sb"), ++ NORMAL_MNEMONIC(PADDS_SH, PADDS_SH, "padds.sh"), ++ NORMAL_MNEMONIC(PADDS_UB, PADDS_UB, "padds.ub"), ++ NORMAL_MNEMONIC(PADDS_UH, PADDS_UH, "padds.uh"), ++ NORMAL_MNEMONIC(PADDSUB_H, PADDSUB_H, "paddsub.h"), ++ NORMAL_MNEMONIC(PADDSUBH_SH, PADDSUBH_SH, "paddsubh.sh"), ++ NORMAL_MNEMONIC(PADDSUBS_SH, PADDSUBS_SH, "paddsubs.sh"), ++ NORMAL_MNEMONIC(PADDSUBS_UH, PADDSUBS_UH, "paddsubs.uh"), ++ NORMAL_MNEMONIC(PADDX_H, PADDX_H, "paddx.h"), ++ NORMAL_MNEMONIC(PADDXH_SH, PADDXH_SH, "paddxh.sh"), ++ NORMAL_MNEMONIC(PADDXS_SH, PADDXS_SH, "paddxs.sh"), ++ NORMAL_MNEMONIC(PADDXS_UH, PADDXS_UH, "paddxs.uh"), ++ NORMAL_MNEMONIC(PASR_B, PASR_B, "pasr.b"), ++ NORMAL_MNEMONIC(PASR_H, PASR_H, "pasr.h"), ++ NORMAL_MNEMONIC(PAVG_SH, PAVG_SH, "pavg.sh"), ++ NORMAL_MNEMONIC(PAVG_UB, PAVG_UB, "pavg.ub"), ++ NORMAL_MNEMONIC(PLSL_B, PLSL_B, "plsl.b"), ++ NORMAL_MNEMONIC(PLSL_H, PLSL_H, "plsl.h"), ++ NORMAL_MNEMONIC(PLSR_B, PLSR_B, "plsr.b"), ++ NORMAL_MNEMONIC(PLSR_H, PLSR_H, "plsr.h"), ++ NORMAL_MNEMONIC(PMAX_SH, PMAX_SH, "pmax.sh"), ++ NORMAL_MNEMONIC(PMAX_UB, PMAX_UB, "pmax.ub"), ++ NORMAL_MNEMONIC(PMIN_SH, PMIN_SH, "pmin.sh"), ++ NORMAL_MNEMONIC(PMIN_UB, PMIN_UB, "pmin.ub"), ++ NORMAL_MNEMONIC(POPJC, POPJC, "popjc"), ++ NORMAL_MNEMONIC(POPM, POPM, "popm"), ++ NORMAL_MNEMONIC(PREF, PREF, "pref"), ++ NORMAL_MNEMONIC(PSAD, PSAD, "psad"), ++ NORMAL_MNEMONIC(PSUB_B, PSUB_B, "psub.b"), ++ NORMAL_MNEMONIC(PSUB_H, PSUB_H, "psub.h"), ++ NORMAL_MNEMONIC(PSUBADD_H, PSUBADD_H, "psubadd.h"), ++ NORMAL_MNEMONIC(PSUBADDH_SH, PSUBADDH_SH, "psubaddh.sh"), ++ NORMAL_MNEMONIC(PSUBADDS_SH, PSUBADDS_SH, "psubadds.sh"), ++ NORMAL_MNEMONIC(PSUBADDS_UH, PSUBADDS_UH, "psubadds.uh"), ++ NORMAL_MNEMONIC(PSUBH_SH, PSUBH_SH, "psubh.sh"), ++ NORMAL_MNEMONIC(PSUBH_UB, PSUBH_UB, "psubh.ub"), ++ NORMAL_MNEMONIC(PSUBS_SB, PSUBS_SB, "psubs.sb"), ++ NORMAL_MNEMONIC(PSUBS_SH, PSUBS_SH, "psubs.sh"), ++ NORMAL_MNEMONIC(PSUBS_UB, PSUBS_UB, "psubs.ub"), ++ NORMAL_MNEMONIC(PSUBS_UH, PSUBS_UH, "psubs.uh"), ++ NORMAL_MNEMONIC(PSUBX_H, PSUBX_H, "psubx.h"), ++ NORMAL_MNEMONIC(PSUBXH_SH, PSUBXH_SH, "psubxh.sh"), ++ NORMAL_MNEMONIC(PSUBXS_SH, PSUBXS_SH, "psubxs.sh"), ++ NORMAL_MNEMONIC(PSUBXS_UH, PSUBXS_UH, "psubxs.uh"), ++ NORMAL_MNEMONIC(PUNPCKSB_H, PUNPCKSB_H, "punpcksb.h"), ++ NORMAL_MNEMONIC(PUNPCKUB_H, PUNPCKUB_H, "punpckub.h"), ++ NORMAL_MNEMONIC(PUSHJC, PUSHJC, "pushjc"), ++ NORMAL_MNEMONIC(PUSHM, PUSHM, "pushm"), ++ NORMAL_MNEMONIC(RCALL, RCALL1, "rcall"), ++ NORMAL_MNEMONIC(RETEQ, RETEQ, "reteq"), ++ NORMAL_MNEMONIC(RETNE, RETNE, "retne"), ++ NORMAL_MNEMONIC(RETCC, RETCC, "retcc"), ++ NORMAL_MNEMONIC(RETCS, RETCS, "retcs"), ++ NORMAL_MNEMONIC(RETGE, RETGE, "retge"), ++ NORMAL_MNEMONIC(RETLT, RETLT, "retlt"), ++ NORMAL_MNEMONIC(RETMI, RETMI, "retmi"), ++ NORMAL_MNEMONIC(RETPL, RETPL, "retpl"), ++ NORMAL_MNEMONIC(RETLS, RETLS, "retls"), ++ NORMAL_MNEMONIC(RETGT, RETGT, "retgt"), ++ NORMAL_MNEMONIC(RETLE, RETLE, "retle"), ++ NORMAL_MNEMONIC(RETHI, RETHI, "rethi"), ++ NORMAL_MNEMONIC(RETVS, RETVS, "retvs"), ++ NORMAL_MNEMONIC(RETVC, RETVC, "retvc"), ++ NORMAL_MNEMONIC(RETQS, RETQS, "retqs"), ++ NORMAL_MNEMONIC(RETAL, RETAL, "retal"), ++ NORMAL_MNEMONIC(RETHS, RETHS, "reths"), ++ NORMAL_MNEMONIC(RETLO, RETLO, "retlo"), ++ NORMAL_MNEMONIC(RET, RETAL, "ret"), ++ NORMAL_MNEMONIC(RETD, RETD, "retd"), ++ NORMAL_MNEMONIC(RETE, RETE, "rete"), ++ NORMAL_MNEMONIC(RETJ, RETJ, "retj"), ++ NORMAL_MNEMONIC(RETS, RETS, "rets"), ++ NORMAL_MNEMONIC(RJMP, RJMP, "rjmp"), ++ NORMAL_MNEMONIC(ROL, ROL, "rol"), ++ NORMAL_MNEMONIC(ROR, ROR, "ror"), ++ NORMAL_MNEMONIC(RSUB, RSUB1, "rsub"), ++ NORMAL_MNEMONIC(SATADD_H, SATADD_H, "satadd.h"), ++ NORMAL_MNEMONIC(SATADD_W, SATADD_W, "satadd.w"), ++ NORMAL_MNEMONIC(SATRNDS, SATRNDS, "satrnds"), ++ NORMAL_MNEMONIC(SATRNDU, SATRNDU, "satrndu"), ++ NORMAL_MNEMONIC(SATS, SATS, "sats"), ++ NORMAL_MNEMONIC(SATSUB_H, SATSUB_H, "satsub.h"), ++ NORMAL_MNEMONIC(SATSUB_W, SATSUB_W1, "satsub.w"), ++ NORMAL_MNEMONIC(SATU, SATU, "satu"), ++ NORMAL_MNEMONIC(SBC, SBC, "sbc"), ++ NORMAL_MNEMONIC(SBR, SBR, "sbr"), ++ NORMAL_MNEMONIC(SCALL, SCALL, "scall"), ++ NORMAL_MNEMONIC(SCR, SCR, "scr"), ++ NORMAL_MNEMONIC(SLEEP, SLEEP, "sleep"), ++ NORMAL_MNEMONIC(SREQ, SREQ, "sreq"), ++ NORMAL_MNEMONIC(SRNE, SRNE, "srne"), ++ NORMAL_MNEMONIC(SRCC, SRCC, "srcc"), ++ NORMAL_MNEMONIC(SRCS, SRCS, "srcs"), ++ NORMAL_MNEMONIC(SRGE, SRGE, "srge"), ++ NORMAL_MNEMONIC(SRLT, SRLT, "srlt"), ++ NORMAL_MNEMONIC(SRMI, SRMI, "srmi"), ++ NORMAL_MNEMONIC(SRPL, SRPL, "srpl"), ++ NORMAL_MNEMONIC(SRLS, SRLS, "srls"), ++ NORMAL_MNEMONIC(SRGT, SRGT, "srgt"), ++ NORMAL_MNEMONIC(SRLE, SRLE, "srle"), ++ NORMAL_MNEMONIC(SRHI, SRHI, "srhi"), ++ NORMAL_MNEMONIC(SRVS, SRVS, "srvs"), ++ NORMAL_MNEMONIC(SRVC, SRVC, "srvc"), ++ NORMAL_MNEMONIC(SRQS, SRQS, "srqs"), ++ NORMAL_MNEMONIC(SRAL, SRAL, "sral"), ++ NORMAL_MNEMONIC(SRHS, SRHS, "srhs"), ++ NORMAL_MNEMONIC(SRLO, SRLO, "srlo"), ++ NORMAL_MNEMONIC(SSRF, SSRF, "ssrf"), ++ NORMAL_MNEMONIC(ST_B, ST_B1, "st.b"), ++ NORMAL_MNEMONIC(ST_D, ST_D1, "st.d"), ++ NORMAL_MNEMONIC(ST_H, ST_H1, "st.h"), ++ NORMAL_MNEMONIC(ST_W, ST_W1, "st.w"), ++ NORMAL_MNEMONIC(STC_D, STC_D3, "stc.d"), ++ NORMAL_MNEMONIC(STC_W, STC_W3, "stc.w"), ++ NORMAL_MNEMONIC(STC0_D, STC0_D, "stc0.d"), ++ NORMAL_MNEMONIC(STC0_W, STC0_W, "stc0.w"), ++ NORMAL_MNEMONIC(STCM_D, STCM_D, "stcm.d"), ++ NORMAL_MNEMONIC(STCM_W, STCM_W, "stcm.w"), ++ NORMAL_MNEMONIC(STCOND, STCOND, "stcond"), ++ NORMAL_MNEMONIC(STDSP, STDSP, "stdsp"), ++ NORMAL_MNEMONIC(STHH_W, STHH_W2, "sthh.w"), ++ NORMAL_MNEMONIC(STM, STM, "stm"), ++ NORMAL_MNEMONIC(STMTS, STMTS, "stmts"), ++ NORMAL_MNEMONIC(STSWP_H, STSWP_H, "stswp.h"), ++ NORMAL_MNEMONIC(STSWP_W, STSWP_W, "stswp.w"), ++ NORMAL_MNEMONIC(SUB, SUB1, "sub"), ++ NORMAL_MNEMONIC(SUBEQ, SUBEQ, "subeq"), ++ NORMAL_MNEMONIC(SUBNE, SUBNE, "subne"), ++ NORMAL_MNEMONIC(SUBCC, SUBCC, "subcc"), ++ NORMAL_MNEMONIC(SUBCS, SUBCS, "subcs"), ++ NORMAL_MNEMONIC(SUBGE, SUBGE, "subge"), ++ NORMAL_MNEMONIC(SUBLT, SUBLT, "sublt"), ++ NORMAL_MNEMONIC(SUBMI, SUBMI, "submi"), ++ NORMAL_MNEMONIC(SUBPL, SUBPL, "subpl"), ++ NORMAL_MNEMONIC(SUBLS, SUBLS, "subls"), ++ NORMAL_MNEMONIC(SUBGT, SUBGT, "subgt"), ++ NORMAL_MNEMONIC(SUBLE, SUBLE, "suble"), ++ NORMAL_MNEMONIC(SUBHI, SUBHI, "subhi"), ++ NORMAL_MNEMONIC(SUBVS, SUBVS, "subvs"), ++ NORMAL_MNEMONIC(SUBVC, SUBVC, "subvc"), ++ NORMAL_MNEMONIC(SUBQS, SUBQS, "subqs"), ++ NORMAL_MNEMONIC(SUBAL, SUBAL, "subal"), ++ NORMAL_MNEMONIC(SUBHS, SUBHS, "subhs"), ++ NORMAL_MNEMONIC(SUBLO, SUBLO, "sublo"), ++ NORMAL_MNEMONIC(SUBFEQ, SUBFEQ, "subfeq"), ++ NORMAL_MNEMONIC(SUBFNE, SUBFNE, "subfne"), ++ NORMAL_MNEMONIC(SUBFCC, SUBFCC, "subfcc"), ++ NORMAL_MNEMONIC(SUBFCS, SUBFCS, "subfcs"), ++ NORMAL_MNEMONIC(SUBFGE, SUBFGE, "subfge"), ++ NORMAL_MNEMONIC(SUBFLT, SUBFLT, "subflt"), ++ NORMAL_MNEMONIC(SUBFMI, SUBFMI, "subfmi"), ++ NORMAL_MNEMONIC(SUBFPL, SUBFPL, "subfpl"), ++ NORMAL_MNEMONIC(SUBFLS, SUBFLS, "subfls"), ++ NORMAL_MNEMONIC(SUBFGT, SUBFGT, "subfgt"), ++ NORMAL_MNEMONIC(SUBFLE, SUBFLE, "subfle"), ++ NORMAL_MNEMONIC(SUBFHI, SUBFHI, "subfhi"), ++ NORMAL_MNEMONIC(SUBFVS, SUBFVS, "subfvs"), ++ NORMAL_MNEMONIC(SUBFVC, SUBFVC, "subfvc"), ++ NORMAL_MNEMONIC(SUBFQS, SUBFQS, "subfqs"), ++ NORMAL_MNEMONIC(SUBFAL, SUBFAL, "subfal"), ++ NORMAL_MNEMONIC(SUBFHS, SUBFHS, "subfhs"), ++ NORMAL_MNEMONIC(SUBFLO, SUBFLO, "subflo"), ++ NORMAL_MNEMONIC(SUBHH_W, SUBHH_W, "subhh.w"), ++ NORMAL_MNEMONIC(SWAP_B, SWAP_B, "swap.b"), ++ NORMAL_MNEMONIC(SWAP_BH, SWAP_BH, "swap.bh"), ++ NORMAL_MNEMONIC(SWAP_H, SWAP_H, "swap.h"), ++ NORMAL_MNEMONIC(SYNC, SYNC, "sync"), ++ NORMAL_MNEMONIC(TLBR, TLBR, "tlbr"), ++ NORMAL_MNEMONIC(TLBS, TLBS, "tlbs"), ++ NORMAL_MNEMONIC(TLBW, TLBW, "tlbw"), ++ NORMAL_MNEMONIC(TNBZ, TNBZ, "tnbz"), ++ NORMAL_MNEMONIC(TST, TST, "tst"), ++ NORMAL_MNEMONIC(XCHG, XCHG, "xchg"), ++ NORMAL_MNEMONIC(MEMC, MEMC, "memc"), ++ NORMAL_MNEMONIC(MEMS, MEMS, "mems"), ++ NORMAL_MNEMONIC(MEMT, MEMT, "memt"), ++ NORMAL_MNEMONIC (FMAC_S, FMAC_S, "fmac.s"), ++ NORMAL_MNEMONIC (FNMAC_S, FNMAC_S, "fnmac.s"), ++ NORMAL_MNEMONIC (FMSC_S, FMSC_S, "fmsc.s"), ++ NORMAL_MNEMONIC (FNMSC_S, FNMSC_S, "fnmsc.s"), ++ NORMAL_MNEMONIC (FMUL_S, FMUL_S, "fmul.s"), ++ NORMAL_MNEMONIC (FNMUL_S, FNMUL_S, "fnmul.s"), ++ NORMAL_MNEMONIC (FADD_S, FADD_S, "fadd.s"), ++ NORMAL_MNEMONIC (FSUB_S, FSUB_S, "fsub.s"), ++ NORMAL_MNEMONIC (FCASTRS_SW, FCASTRS_SW, "fcastrs.sw"), ++ NORMAL_MNEMONIC (FCASTRS_UW, FCASTRS_UW, "fcastrs.uw"), ++ NORMAL_MNEMONIC (FCASTSW_S, FCASTSW_S, "fcastsw.s"), ++ NORMAL_MNEMONIC (FCASTUW_S, FCASTUW_S, "fcastuw.s"), ++ NORMAL_MNEMONIC (FCMP_S, FCMP_S, "fcmp.s"), ++ NORMAL_MNEMONIC (FCHK_S, FCHK_S, "fchk.s"), ++ NORMAL_MNEMONIC (FRCPA_S, FRCPA_S, "frcpa.s"), ++ NORMAL_MNEMONIC (FRSQRTA_S, FRSQRTA_S, "frsqrta.s"), ++ NORMAL_MNEMONIC(LDA_W, LDA_W, "lda.w"), ++ NORMAL_MNEMONIC(CALL, CALL, "call"), ++ NORMAL_MNEMONIC(PICOSVMAC, PICOSVMAC0, "picosvmac"), ++ NORMAL_MNEMONIC(PICOSVMUL, PICOSVMUL0, "picosvmul"), ++ NORMAL_MNEMONIC(PICOVMAC, PICOVMAC0, "picovmac"), ++ NORMAL_MNEMONIC(PICOVMUL, PICOVMUL0, "picovmul"), ++ NORMAL_MNEMONIC(PICOLD_D, PICOLD_D2, "picold.d"), ++ NORMAL_MNEMONIC(PICOLD_W, PICOLD_W2, "picold.w"), ++ NORMAL_MNEMONIC(PICOLDM_D, PICOLDM_D, "picoldm.d"), ++ NORMAL_MNEMONIC(PICOLDM_W, PICOLDM_W, "picoldm.w"), ++ NORMAL_MNEMONIC(PICOMV_D, PICOMV_D1, "picomv.d"), ++ NORMAL_MNEMONIC(PICOMV_W, PICOMV_W1, "picomv.w"), ++ NORMAL_MNEMONIC(PICOST_D, PICOST_D2, "picost.d"), ++ NORMAL_MNEMONIC(PICOST_W, PICOST_W2, "picost.w"), ++ NORMAL_MNEMONIC(PICOSTM_D, PICOSTM_D, "picostm.d"), ++ NORMAL_MNEMONIC(PICOSTM_W, PICOSTM_W, "picostm.w"), ++ NORMAL_MNEMONIC(RSUBEQ, RSUBEQ, "rsubeq"), ++ NORMAL_MNEMONIC(RSUBNE, RSUBNE, "rsubne"), ++ NORMAL_MNEMONIC(RSUBCC, RSUBCC, "rsubcc"), ++ NORMAL_MNEMONIC(RSUBCS, RSUBCS, "rsubcs"), ++ NORMAL_MNEMONIC(RSUBGE, RSUBGE, "rsubge"), ++ NORMAL_MNEMONIC(RSUBLT, RSUBLT, "rsublt"), ++ NORMAL_MNEMONIC(RSUBMI, RSUBMI, "rsubmi"), ++ NORMAL_MNEMONIC(RSUBPL, RSUBPL, "rsubpl"), ++ NORMAL_MNEMONIC(RSUBLS, RSUBLS, "rsubls"), ++ NORMAL_MNEMONIC(RSUBGT, RSUBGT, "rsubgt"), ++ NORMAL_MNEMONIC(RSUBLE, RSUBLE, "rsuble"), ++ NORMAL_MNEMONIC(RSUBHI, RSUBHI, "rsubhi"), ++ NORMAL_MNEMONIC(RSUBVS, RSUBVS, "rsubvs"), ++ NORMAL_MNEMONIC(RSUBVC, RSUBVC, "rsubvc"), ++ NORMAL_MNEMONIC(RSUBQS, RSUBQS, "rsubqs"), ++ NORMAL_MNEMONIC(RSUBAL, RSUBAL, "rsubal"), ++ NORMAL_MNEMONIC(RSUBHS, RSUBHS, "rsubhs"), ++ NORMAL_MNEMONIC(RSUBLO, RSUBLO, "rsublo"), ++ NORMAL_MNEMONIC(ADDEQ, ADDEQ, "addeq"), ++ NORMAL_MNEMONIC(ADDNE, ADDNE, "addne"), ++ NORMAL_MNEMONIC(ADDCC, ADDCC, "addcc"), ++ NORMAL_MNEMONIC(ADDCS, ADDCS, "addcs"), ++ NORMAL_MNEMONIC(ADDGE, ADDGE, "addge"), ++ NORMAL_MNEMONIC(ADDLT, ADDLT, "addlt"), ++ NORMAL_MNEMONIC(ADDMI, ADDMI, "addmi"), ++ NORMAL_MNEMONIC(ADDPL, ADDPL, "addpl"), ++ NORMAL_MNEMONIC(ADDLS, ADDLS, "addls"), ++ NORMAL_MNEMONIC(ADDGT, ADDGT, "addgt"), ++ NORMAL_MNEMONIC(ADDLE, ADDLE, "addle"), ++ NORMAL_MNEMONIC(ADDHI, ADDHI, "addhi"), ++ NORMAL_MNEMONIC(ADDVS, ADDVS, "addvs"), ++ NORMAL_MNEMONIC(ADDVC, ADDVC, "addvc"), ++ NORMAL_MNEMONIC(ADDQS, ADDQS, "addqs"), ++ NORMAL_MNEMONIC(ADDAL, ADDAL, "addal"), ++ NORMAL_MNEMONIC(ADDHS, ADDHS, "addhs"), ++ NORMAL_MNEMONIC(ADDLO, ADDLO, "addlo"), ++ NORMAL_MNEMONIC(ANDEQ, ANDEQ, "andeq"), ++ NORMAL_MNEMONIC(ANDNE, ANDNE, "andne"), ++ NORMAL_MNEMONIC(ANDCC, ANDCC, "andcc"), ++ NORMAL_MNEMONIC(ANDCS, ANDCS, "andcs"), ++ NORMAL_MNEMONIC(ANDGE, ANDGE, "andge"), ++ NORMAL_MNEMONIC(ANDLT, ANDLT, "andlt"), ++ NORMAL_MNEMONIC(ANDMI, ANDMI, "andmi"), ++ NORMAL_MNEMONIC(ANDPL, ANDPL, "andpl"), ++ NORMAL_MNEMONIC(ANDLS, ANDLS, "andls"), ++ NORMAL_MNEMONIC(ANDGT, ANDGT, "andgt"), ++ NORMAL_MNEMONIC(ANDLE, ANDLE, "andle"), ++ NORMAL_MNEMONIC(ANDHI, ANDHI, "andhi"), ++ NORMAL_MNEMONIC(ANDVS, ANDVS, "andvs"), ++ NORMAL_MNEMONIC(ANDVC, ANDVC, "andvc"), ++ NORMAL_MNEMONIC(ANDQS, ANDQS, "andqs"), ++ NORMAL_MNEMONIC(ANDAL, ANDAL, "andal"), ++ NORMAL_MNEMONIC(ANDHS, ANDHS, "andhs"), ++ NORMAL_MNEMONIC(ANDLO, ANDLO, "andlo"), ++ NORMAL_MNEMONIC(OREQ, OREQ, "oreq"), ++ NORMAL_MNEMONIC(ORNE, ORNE, "orne"), ++ NORMAL_MNEMONIC(ORCC, ORCC, "orcc"), ++ NORMAL_MNEMONIC(ORCS, ORCS, "orcs"), ++ NORMAL_MNEMONIC(ORGE, ORGE, "orge"), ++ NORMAL_MNEMONIC(ORLT, ORLT, "orlt"), ++ NORMAL_MNEMONIC(ORMI, ORMI, "ormi"), ++ NORMAL_MNEMONIC(ORPL, ORPL, "orpl"), ++ NORMAL_MNEMONIC(ORLS, ORLS, "orls"), ++ NORMAL_MNEMONIC(ORGT, ORGT, "orgt"), ++ NORMAL_MNEMONIC(ORLE, ORLE, "orle"), ++ NORMAL_MNEMONIC(ORHI, ORHI, "orhi"), ++ NORMAL_MNEMONIC(ORVS, ORVS, "orvs"), ++ NORMAL_MNEMONIC(ORVC, ORVC, "orvc"), ++ NORMAL_MNEMONIC(ORQS, ORQS, "orqs"), ++ NORMAL_MNEMONIC(ORAL, ORAL, "oral"), ++ NORMAL_MNEMONIC(ORHS, ORHS, "orhs"), ++ NORMAL_MNEMONIC(ORLO, ORLO, "orlo"), ++ NORMAL_MNEMONIC(EOREQ, EOREQ, "eoreq"), ++ NORMAL_MNEMONIC(EORNE, EORNE, "eorne"), ++ NORMAL_MNEMONIC(EORCC, EORCC, "eorcc"), ++ NORMAL_MNEMONIC(EORCS, EORCS, "eorcs"), ++ NORMAL_MNEMONIC(EORGE, EORGE, "eorge"), ++ NORMAL_MNEMONIC(EORLT, EORLT, "eorlt"), ++ NORMAL_MNEMONIC(EORMI, EORMI, "eormi"), ++ NORMAL_MNEMONIC(EORPL, EORPL, "eorpl"), ++ NORMAL_MNEMONIC(EORLS, EORLS, "eorls"), ++ NORMAL_MNEMONIC(EORGT, EORGT, "eorgt"), ++ NORMAL_MNEMONIC(EORLE, EORLE, "eorle"), ++ NORMAL_MNEMONIC(EORHI, EORHI, "eorhi"), ++ NORMAL_MNEMONIC(EORVS, EORVS, "eorvs"), ++ NORMAL_MNEMONIC(EORVC, EORVC, "eorvc"), ++ NORMAL_MNEMONIC(EORQS, EORQS, "eorqs"), ++ NORMAL_MNEMONIC(EORAL, EORAL, "eoral"), ++ NORMAL_MNEMONIC(EORHS, EORHS, "eorhs"), ++ NORMAL_MNEMONIC(EORLO, EORLO, "eorlo"), ++ NORMAL_MNEMONIC(LD_WEQ, LD_WEQ, "ld.weq"), ++ NORMAL_MNEMONIC(LD_WNE, LD_WNE, "ld.wne"), ++ NORMAL_MNEMONIC(LD_WCC, LD_WCC, "ld.wcc"), ++ NORMAL_MNEMONIC(LD_WCS, LD_WCS, "ld.wcs"), ++ NORMAL_MNEMONIC(LD_WGE, LD_WGE, "ld.wge"), ++ NORMAL_MNEMONIC(LD_WLT, LD_WLT, "ld.wlt"), ++ NORMAL_MNEMONIC(LD_WMI, LD_WMI, "ld.wmi"), ++ NORMAL_MNEMONIC(LD_WPL, LD_WPL, "ld.wpl"), ++ NORMAL_MNEMONIC(LD_WLS, LD_WLS, "ld.wls"), ++ NORMAL_MNEMONIC(LD_WGT, LD_WGT, "ld.wgt"), ++ NORMAL_MNEMONIC(LD_WLE, LD_WLE, "ld.wle"), ++ NORMAL_MNEMONIC(LD_WHI, LD_WHI, "ld.whi"), ++ NORMAL_MNEMONIC(LD_WVS, LD_WVS, "ld.wvs"), ++ NORMAL_MNEMONIC(LD_WVC, LD_WVC, "ld.wvc"), ++ NORMAL_MNEMONIC(LD_WQS, LD_WQS, "ld.wqs"), ++ NORMAL_MNEMONIC(LD_WAL, LD_WAL, "ld.wal"), ++ NORMAL_MNEMONIC(LD_WHS, LD_WHS, "ld.whs"), ++ NORMAL_MNEMONIC(LD_WLO, LD_WLO, "ld.wlo"), ++ NORMAL_MNEMONIC(LD_SHEQ, LD_SHEQ, "ld.sheq"), ++ NORMAL_MNEMONIC(LD_SHNE, LD_SHNE, "ld.shne"), ++ NORMAL_MNEMONIC(LD_SHCC, LD_SHCC, "ld.shcc"), ++ NORMAL_MNEMONIC(LD_SHCS, LD_SHCS, "ld.shcs"), ++ NORMAL_MNEMONIC(LD_SHGE, LD_SHGE, "ld.shge"), ++ NORMAL_MNEMONIC(LD_SHLT, LD_SHLT, "ld.shlt"), ++ NORMAL_MNEMONIC(LD_SHMI, LD_SHMI, "ld.shmi"), ++ NORMAL_MNEMONIC(LD_SHPL, LD_SHPL, "ld.shpl"), ++ NORMAL_MNEMONIC(LD_SHLS, LD_SHLS, "ld.shls"), ++ NORMAL_MNEMONIC(LD_SHGT, LD_SHGT, "ld.shgt"), ++ NORMAL_MNEMONIC(LD_SHLE, LD_SHLE, "ld.shle"), ++ NORMAL_MNEMONIC(LD_SHHI, LD_SHHI, "ld.shhi"), ++ NORMAL_MNEMONIC(LD_SHVS, LD_SHVS, "ld.shvs"), ++ NORMAL_MNEMONIC(LD_SHVC, LD_SHVC, "ld.shvc"), ++ NORMAL_MNEMONIC(LD_SHQS, LD_SHQS, "ld.shqs"), ++ NORMAL_MNEMONIC(LD_SHAL, LD_SHAL, "ld.shal"), ++ NORMAL_MNEMONIC(LD_SHHS, LD_SHHS, "ld.shhs"), ++ NORMAL_MNEMONIC(LD_SHLO, LD_SHLO, "ld.shlo"), ++ NORMAL_MNEMONIC(LD_UHEQ, LD_UHEQ, "ld.uheq"), ++ NORMAL_MNEMONIC(LD_UHNE, LD_UHNE, "ld.uhne"), ++ NORMAL_MNEMONIC(LD_UHCC, LD_UHCC, "ld.uhcc"), ++ NORMAL_MNEMONIC(LD_UHCS, LD_UHCS, "ld.uhcs"), ++ NORMAL_MNEMONIC(LD_UHGE, LD_UHGE, "ld.uhge"), ++ NORMAL_MNEMONIC(LD_UHLT, LD_UHLT, "ld.uhlt"), ++ NORMAL_MNEMONIC(LD_UHMI, LD_UHMI, "ld.uhmi"), ++ NORMAL_MNEMONIC(LD_UHPL, LD_UHPL, "ld.uhpl"), ++ NORMAL_MNEMONIC(LD_UHLS, LD_UHLS, "ld.uhls"), ++ NORMAL_MNEMONIC(LD_UHGT, LD_UHGT, "ld.uhgt"), ++ NORMAL_MNEMONIC(LD_UHLE, LD_UHLE, "ld.uhle"), ++ NORMAL_MNEMONIC(LD_UHHI, LD_UHHI, "ld.uhhi"), ++ NORMAL_MNEMONIC(LD_UHVS, LD_UHVS, "ld.uhvs"), ++ NORMAL_MNEMONIC(LD_UHVC, LD_UHVC, "ld.uhvc"), ++ NORMAL_MNEMONIC(LD_UHQS, LD_UHQS, "ld.uhqs"), ++ NORMAL_MNEMONIC(LD_UHAL, LD_UHAL, "ld.uhal"), ++ NORMAL_MNEMONIC(LD_UHHS, LD_UHHS, "ld.uhhs"), ++ NORMAL_MNEMONIC(LD_UHLO, LD_UHLO, "ld.uhlo"), ++ NORMAL_MNEMONIC(LD_SBEQ, LD_SBEQ, "ld.sbeq"), ++ NORMAL_MNEMONIC(LD_SBNE, LD_SBNE, "ld.sbne"), ++ NORMAL_MNEMONIC(LD_SBCC, LD_SBCC, "ld.sbcc"), ++ NORMAL_MNEMONIC(LD_SBCS, LD_SBCS, "ld.sbcs"), ++ NORMAL_MNEMONIC(LD_SBGE, LD_SBGE, "ld.sbge"), ++ NORMAL_MNEMONIC(LD_SBLT, LD_SBLT, "ld.sblt"), ++ NORMAL_MNEMONIC(LD_SBMI, LD_SBMI, "ld.sbmi"), ++ NORMAL_MNEMONIC(LD_SBPL, LD_SBPL, "ld.sbpl"), ++ NORMAL_MNEMONIC(LD_SBLS, LD_SBLS, "ld.sbls"), ++ NORMAL_MNEMONIC(LD_SBGT, LD_SBGT, "ld.sbgt"), ++ NORMAL_MNEMONIC(LD_SBLE, LD_SBLE, "ld.sble"), ++ NORMAL_MNEMONIC(LD_SBHI, LD_SBHI, "ld.sbhi"), ++ NORMAL_MNEMONIC(LD_SBVS, LD_SBVS, "ld.sbvs"), ++ NORMAL_MNEMONIC(LD_SBVC, LD_SBVC, "ld.sbvc"), ++ NORMAL_MNEMONIC(LD_SBQS, LD_SBQS, "ld.sbqs"), ++ NORMAL_MNEMONIC(LD_SBAL, LD_SBAL, "ld.sbal"), ++ NORMAL_MNEMONIC(LD_SBHS, LD_SBHS, "ld.sbhs"), ++ NORMAL_MNEMONIC(LD_SBLO, LD_SBLO, "ld.sblo"), ++ NORMAL_MNEMONIC(LD_UBEQ, LD_UBEQ, "ld.ubeq"), ++ NORMAL_MNEMONIC(LD_UBNE, LD_UBNE, "ld.ubne"), ++ NORMAL_MNEMONIC(LD_UBCC, LD_UBCC, "ld.ubcc"), ++ NORMAL_MNEMONIC(LD_UBCS, LD_UBCS, "ld.ubcs"), ++ NORMAL_MNEMONIC(LD_UBGE, LD_UBGE, "ld.ubge"), ++ NORMAL_MNEMONIC(LD_UBLT, LD_UBLT, "ld.ublt"), ++ NORMAL_MNEMONIC(LD_UBMI, LD_UBMI, "ld.ubmi"), ++ NORMAL_MNEMONIC(LD_UBPL, LD_UBPL, "ld.ubpl"), ++ NORMAL_MNEMONIC(LD_UBLS, LD_UBLS, "ld.ubls"), ++ NORMAL_MNEMONIC(LD_UBGT, LD_UBGT, "ld.ubgt"), ++ NORMAL_MNEMONIC(LD_UBLE, LD_UBLE, "ld.uble"), ++ NORMAL_MNEMONIC(LD_UBHI, LD_UBHI, "ld.ubhi"), ++ NORMAL_MNEMONIC(LD_UBVS, LD_UBVS, "ld.ubvs"), ++ NORMAL_MNEMONIC(LD_UBVC, LD_UBVC, "ld.ubvc"), ++ NORMAL_MNEMONIC(LD_UBQS, LD_UBQS, "ld.ubqs"), ++ NORMAL_MNEMONIC(LD_UBAL, LD_UBAL, "ld.ubal"), ++ NORMAL_MNEMONIC(LD_UBHS, LD_UBHS, "ld.ubhs"), ++ NORMAL_MNEMONIC(LD_UBLO, LD_UBLO, "ld.ublo"), ++ NORMAL_MNEMONIC(ST_WEQ, ST_WEQ, "st.weq"), ++ NORMAL_MNEMONIC(ST_WNE, ST_WNE, "st.wne"), ++ NORMAL_MNEMONIC(ST_WCC, ST_WCC, "st.wcc"), ++ NORMAL_MNEMONIC(ST_WCS, ST_WCS, "st.wcs"), ++ NORMAL_MNEMONIC(ST_WGE, ST_WGE, "st.wge"), ++ NORMAL_MNEMONIC(ST_WLT, ST_WLT, "st.wlt"), ++ NORMAL_MNEMONIC(ST_WMI, ST_WMI, "st.wmi"), ++ NORMAL_MNEMONIC(ST_WPL, ST_WPL, "st.wpl"), ++ NORMAL_MNEMONIC(ST_WLS, ST_WLS, "st.wls"), ++ NORMAL_MNEMONIC(ST_WGT, ST_WGT, "st.wgt"), ++ NORMAL_MNEMONIC(ST_WLE, ST_WLE, "st.wle"), ++ NORMAL_MNEMONIC(ST_WHI, ST_WHI, "st.whi"), ++ NORMAL_MNEMONIC(ST_WVS, ST_WVS, "st.wvs"), ++ NORMAL_MNEMONIC(ST_WVC, ST_WVC, "st.wvc"), ++ NORMAL_MNEMONIC(ST_WQS, ST_WQS, "st.wqs"), ++ NORMAL_MNEMONIC(ST_WAL, ST_WAL, "st.wal"), ++ NORMAL_MNEMONIC(ST_WHS, ST_WHS, "st.whs"), ++ NORMAL_MNEMONIC(ST_WLO, ST_WLO, "st.wlo"), ++ NORMAL_MNEMONIC(ST_HEQ, ST_HEQ, "st.heq"), ++ NORMAL_MNEMONIC(ST_HNE, ST_HNE, "st.hne"), ++ NORMAL_MNEMONIC(ST_HCC, ST_HCC, "st.hcc"), ++ NORMAL_MNEMONIC(ST_HCS, ST_HCS, "st.hcs"), ++ NORMAL_MNEMONIC(ST_HGE, ST_HGE, "st.hge"), ++ NORMAL_MNEMONIC(ST_HLT, ST_HLT, "st.hlt"), ++ NORMAL_MNEMONIC(ST_HMI, ST_HMI, "st.hmi"), ++ NORMAL_MNEMONIC(ST_HPL, ST_HPL, "st.hpl"), ++ NORMAL_MNEMONIC(ST_HLS, ST_HLS, "st.hls"), ++ NORMAL_MNEMONIC(ST_HGT, ST_HGT, "st.hgt"), ++ NORMAL_MNEMONIC(ST_HLE, ST_HLE, "st.hle"), ++ NORMAL_MNEMONIC(ST_HHI, ST_HHI, "st.hhi"), ++ NORMAL_MNEMONIC(ST_HVS, ST_HVS, "st.hvs"), ++ NORMAL_MNEMONIC(ST_HVC, ST_HVC, "st.hvc"), ++ NORMAL_MNEMONIC(ST_HQS, ST_HQS, "st.hqs"), ++ NORMAL_MNEMONIC(ST_HAL, ST_HAL, "st.hal"), ++ NORMAL_MNEMONIC(ST_HHS, ST_HHS, "st.hhs"), ++ NORMAL_MNEMONIC(ST_HLO, ST_HLO, "st.hlo"), ++ NORMAL_MNEMONIC(ST_BEQ, ST_BEQ, "st.beq"), ++ NORMAL_MNEMONIC(ST_BNE, ST_BNE, "st.bne"), ++ NORMAL_MNEMONIC(ST_BCC, ST_BCC, "st.bcc"), ++ NORMAL_MNEMONIC(ST_BCS, ST_BCS, "st.bcs"), ++ NORMAL_MNEMONIC(ST_BGE, ST_BGE, "st.bge"), ++ NORMAL_MNEMONIC(ST_BLT, ST_BLT, "st.blt"), ++ NORMAL_MNEMONIC(ST_BMI, ST_BMI, "st.bmi"), ++ NORMAL_MNEMONIC(ST_BPL, ST_BPL, "st.bpl"), ++ NORMAL_MNEMONIC(ST_BLS, ST_BLS, "st.bls"), ++ NORMAL_MNEMONIC(ST_BGT, ST_BGT, "st.bgt"), ++ NORMAL_MNEMONIC(ST_BLE, ST_BLE, "st.ble"), ++ NORMAL_MNEMONIC(ST_BHI, ST_BHI, "st.bhi"), ++ NORMAL_MNEMONIC(ST_BVS, ST_BVS, "st.bvs"), ++ NORMAL_MNEMONIC(ST_BVC, ST_BVC, "st.bvc"), ++ NORMAL_MNEMONIC(ST_BQS, ST_BQS, "st.bqs"), ++ NORMAL_MNEMONIC(ST_BAL, ST_BAL, "st.bal"), ++ NORMAL_MNEMONIC(ST_BHS, ST_BHS, "st.bhs"), ++ NORMAL_MNEMONIC(ST_BLO, ST_BLO, "st.blo"), ++ NORMAL_MNEMONIC(MOVH, MOVH, "movh"), ++ ++ }; ++#undef NORMAL_MNEMONIC ++#undef ALIAS_MNEMONIC ++#undef FP_MNEMONIC +--- /dev/null ++++ b/opcodes/avr32-opc.h +@@ -0,0 +1,2341 @@ ++/* Opcode tables for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include "bfd.h" ++ ++#define AVR32_MAX_OPERANDS 8 ++#define AVR32_MAX_FIELDS 8 ++ ++#define AVR32_V1 (1 << 1) ++#define AVR32_SIMD (1 << 2) ++#define AVR32_DSP (1 << 3) ++#define AVR32_RMW (1 << 4) ++#define AVR32_V2 (1 << 5) ++#define AVR32_V3 (1 << 6) ++#define AVR32_V3FP (1 << 7) ++#define AVR32_PICO (1 << 17) ++ ++/* Registers we commonly refer to */ ++#define AVR32_REG_R12 12 ++#define AVR32_REG_SP 13 ++#define AVR32_REG_LR 14 ++#define AVR32_REG_PC 15 ++ ++struct avr32_ifield ++{ ++ int id; ++ unsigned short bitsize; ++ unsigned short shift; ++ unsigned long mask; ++ ++ /* If the value doesn't fit, it will be truncated with no warning */ ++ void (*insert)(const struct avr32_ifield *, void *, unsigned long); ++ void (*extract)(const struct avr32_ifield *, void *, unsigned long *); ++}; ++ ++struct avr32_opcode ++{ ++ int id; ++ int size; ++ unsigned long value; ++ unsigned long mask; ++ const struct avr32_syntax *syntax; ++ bfd_reloc_code_real_type reloc_type; ++ unsigned int nr_fields; ++ /* if relaxable, which field is variable, otherwise -1 */ ++ int var_field; ++ const struct avr32_ifield *fields[AVR32_MAX_FIELDS]; ++}; ++ ++struct avr32_alias ++{ ++ int id; ++ const struct avr32_opcode *opc; ++ struct { ++ int is_opindex; ++ unsigned long value; ++ } operand_map[AVR32_MAX_OPERANDS]; ++}; ++ ++struct avr32_syntax ++{ ++ int id; ++ unsigned long isa_flags; ++ const struct avr32_mnemonic *mnemonic; ++ int type; ++ union { ++ const struct avr32_opcode *opc; ++ const struct avr32_alias *alias; ++ } u; ++ const struct avr32_syntax *next; ++ /* negative means "vararg" */ ++ int nr_operands; ++ int operand[AVR32_MAX_OPERANDS]; ++}; ++ ++#if 0 ++#define AVR32_ALIAS_MAKE_CONST(val) ((val) | 0x80000000UL) ++#define AVR32_ALIAS_IS_CONST(mapval) (((mapval) & 0x80000000UL) != 0) ++#define AVR32_ALIAS_GET_CONST(mapval) ((mapval) & ~0x80000000UL) ++#endif ++ ++struct avr32_mnemonic ++{ ++ int id; ++ const char *name; ++ const struct avr32_syntax *syntax; ++}; ++ ++extern const struct avr32_ifield avr32_ifield_table[]; ++extern struct avr32_opcode avr32_opc_table[]; ++extern const struct avr32_syntax avr32_syntax_table[]; ++extern const struct avr32_alias avr32_alias_table[]; ++extern const struct avr32_mnemonic avr32_mnemonic_table[]; ++ ++extern void avr32_insert_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_bit5c(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_k10(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_k21(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_cpop(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_k12cp(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++ ++extern void avr32_extract_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_bit5c(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_k10(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_k21(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_cpop(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_k12cp(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++ ++enum avr32_operand_type ++{ ++ AVR32_OPERAND_INTREG, /* just a register */ ++ AVR32_OPERAND_INTREG_PREDEC, /* register with pre-decrement */ ++ AVR32_OPERAND_INTREG_POSTINC, /* register with post-increment */ ++ AVR32_OPERAND_INTREG_LSL, /* register with left shift */ ++ AVR32_OPERAND_INTREG_LSR, /* register with right shift */ ++ AVR32_OPERAND_INTREG_BSEL, /* register with byte selector */ ++ AVR32_OPERAND_INTREG_HSEL, /* register with halfword selector */ ++ AVR32_OPERAND_INTREG_SDISP, /* Rp[signed disp] */ ++ AVR32_OPERAND_INTREG_SDISP_H, /* Rp[signed hword-aligned disp] */ ++ AVR32_OPERAND_INTREG_SDISP_W, /* Rp[signed word-aligned disp] */ ++ AVR32_OPERAND_INTREG_UDISP, /* Rp[unsigned disp] */ ++ AVR32_OPERAND_INTREG_UDISP_H, /* Rp[unsigned hword-aligned disp] */ ++ AVR32_OPERAND_INTREG_UDISP_W, /* Rp[unsigned word-aligned disp] */ ++ AVR32_OPERAND_INTREG_INDEX, /* Rp[Ri << sa] */ ++ AVR32_OPERAND_INTREG_XINDEX, /* Rp[Ri:bytesel << 2] */ ++ AVR32_OPERAND_DWREG, /* Even-numbered register */ ++ AVR32_OPERAND_PC_UDISP_W, /* PC[unsigned word-aligned disp] or label */ ++ AVR32_OPERAND_SP, /* Just SP */ ++ AVR32_OPERAND_SP_UDISP_W, /* SP[unsigned word-aligned disp] */ ++ AVR32_OPERAND_CPNO, ++ AVR32_OPERAND_CPREG, ++ AVR32_OPERAND_CPREG_D, ++ AVR32_OPERAND_UNSIGNED_CONST, ++ AVR32_OPERAND_UNSIGNED_CONST_W, ++ AVR32_OPERAND_SIGNED_CONST, ++ AVR32_OPERAND_SIGNED_CONST_W, ++ AVR32_OPERAND_JMPLABEL, ++ AVR32_OPERAND_UNSIGNED_NUMBER, ++ AVR32_OPERAND_UNSIGNED_NUMBER_W, ++ AVR32_OPERAND_REGLIST8, ++ AVR32_OPERAND_REGLIST9, ++ AVR32_OPERAND_REGLIST16, ++ AVR32_OPERAND_REGLIST_LDM, ++ AVR32_OPERAND_REGLIST_CP8, ++ AVR32_OPERAND_REGLIST_CPD8, ++ AVR32_OPERAND_RETVAL, ++ AVR32_OPERAND_MCALL, ++ AVR32_OPERAND_JOSPINC, ++ AVR32_OPERAND_COH, ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND__END_ ++}; ++#define AVR32_OPERAND_UNKNOWN AVR32_OPERAND__END_ ++#define AVR32_NR_OPERANDS AVR32_OPERAND__END_ ++ ++enum avr32_ifield_type ++{ ++ AVR32_IFIELD_RX, ++ AVR32_IFIELD_RY, ++ AVR32_IFIELD_COND4C, ++ AVR32_IFIELD_K8C, ++ AVR32_IFIELD_K7C, ++ AVR32_IFIELD_K5C, ++ AVR32_IFIELD_K3, ++ AVR32_IFIELD_RY_DW, ++ AVR32_IFIELD_COND4E, ++ AVR32_IFIELD_K8E, ++ AVR32_IFIELD_BIT5C, ++ AVR32_IFIELD_COND3, ++ AVR32_IFIELD_K10, ++ AVR32_IFIELD_POPM, ++ AVR32_IFIELD_K2, ++ AVR32_IFIELD_RD_E, ++ AVR32_IFIELD_RD_DW, ++ AVR32_IFIELD_X, ++ AVR32_IFIELD_Y, ++ AVR32_IFIELD_X2, ++ AVR32_IFIELD_Y2, ++ AVR32_IFIELD_K5E, ++ AVR32_IFIELD_PART2, ++ AVR32_IFIELD_PART1, ++ AVR32_IFIELD_K16, ++ AVR32_IFIELD_CACHEOP, ++ AVR32_IFIELD_K11, ++ AVR32_IFIELD_K21, ++ AVR32_IFIELD_CPOP, ++ AVR32_IFIELD_CPNO, ++ AVR32_IFIELD_CRD_RI, ++ AVR32_IFIELD_CRX, ++ AVR32_IFIELD_CRY, ++ AVR32_IFIELD_K7E, ++ AVR32_IFIELD_CRD_DW, ++ AVR32_IFIELD_PART1_K12, ++ AVR32_IFIELD_PART2_K12, ++ AVR32_IFIELD_K12, ++ AVR32_IFIELD_S5, ++ AVR32_IFIELD_K5E2, ++ AVR32_IFIELD_K4, ++ AVR32_IFIELD_COND4E2, ++ AVR32_IFIELD_K8E2, ++ AVR32_IFIELD_K6, ++ AVR32_IFIELD_MEM15, ++ AVR32_IFIELD_MEMB5, ++ AVR32_IFIELD_W, ++ AVR32_IFIELD_CM_HL, ++ AVR32_IFIELD_K12CP, ++ AVR32_IFIELD_K9E, ++ AVR32_IFIELD_FP_RX, ++ AVR32_IFIELD_FP_RY, ++ AVR32_IFIELD_FP_RD, ++ AVR32_IFIELD_FP_RA, ++ AVR32_IFIELD__END_, ++}; ++#define AVR32_NR_IFIELDS AVR32_IFIELD__END_ ++ ++enum avr32_opc_type ++{ ++ AVR32_OPC_ABS, ++ AVR32_OPC_ACALL, ++ AVR32_OPC_ACR, ++ AVR32_OPC_ADC, ++ AVR32_OPC_ADD1, ++ AVR32_OPC_ADD2, ++ AVR32_OPC_ADDABS, ++ AVR32_OPC_ADDHH_W, ++ AVR32_OPC_AND1, ++ AVR32_OPC_AND2, ++ AVR32_OPC_AND3, ++ AVR32_OPC_ANDH, ++ AVR32_OPC_ANDH_COH, ++ AVR32_OPC_ANDL, ++ AVR32_OPC_ANDL_COH, ++ AVR32_OPC_ANDN, ++ AVR32_OPC_ASR1, ++ AVR32_OPC_ASR3, ++ AVR32_OPC_ASR2, ++ AVR32_OPC_BLD, ++ AVR32_OPC_BREQ1, ++ AVR32_OPC_BRNE1, ++ AVR32_OPC_BRCC1, ++ AVR32_OPC_BRCS1, ++ AVR32_OPC_BRGE1, ++ AVR32_OPC_BRLT1, ++ AVR32_OPC_BRMI1, ++ AVR32_OPC_BRPL1, ++ AVR32_OPC_BREQ2, ++ AVR32_OPC_BRNE2, ++ AVR32_OPC_BRCC2, ++ AVR32_OPC_BRCS2, ++ AVR32_OPC_BRGE2, ++ AVR32_OPC_BRLT2, ++ AVR32_OPC_BRMI2, ++ AVR32_OPC_BRPL2, ++ AVR32_OPC_BRLS, ++ AVR32_OPC_BRGT, ++ AVR32_OPC_BRLE, ++ AVR32_OPC_BRHI, ++ AVR32_OPC_BRVS, ++ AVR32_OPC_BRVC, ++ AVR32_OPC_BRQS, ++ AVR32_OPC_BRAL, ++ AVR32_OPC_BREAKPOINT, ++ AVR32_OPC_BREV, ++ AVR32_OPC_BST, ++ AVR32_OPC_CACHE, ++ AVR32_OPC_CASTS_B, ++ AVR32_OPC_CASTS_H, ++ AVR32_OPC_CASTU_B, ++ AVR32_OPC_CASTU_H, ++ AVR32_OPC_CBR, ++ AVR32_OPC_CLZ, ++ AVR32_OPC_COM, ++ AVR32_OPC_COP, ++ AVR32_OPC_CP_B, ++ AVR32_OPC_CP_H, ++ AVR32_OPC_CP_W1, ++ AVR32_OPC_CP_W2, ++ AVR32_OPC_CP_W3, ++ AVR32_OPC_CPC1, ++ AVR32_OPC_CPC2, ++ AVR32_OPC_CSRF, ++ AVR32_OPC_CSRFCZ, ++ AVR32_OPC_DIVS, ++ AVR32_OPC_DIVU, ++ AVR32_OPC_EOR1, ++ AVR32_OPC_EOR2, ++ AVR32_OPC_EOR3, ++ AVR32_OPC_EORL, ++ AVR32_OPC_EORH, ++ AVR32_OPC_FRS, ++ AVR32_OPC_ICALL, ++ AVR32_OPC_INCJOSP, ++ AVR32_OPC_LD_D1, ++ AVR32_OPC_LD_D2, ++ AVR32_OPC_LD_D3, ++ AVR32_OPC_LD_D5, ++ AVR32_OPC_LD_D4, ++ AVR32_OPC_LD_SB2, ++ AVR32_OPC_LD_SB1, ++ AVR32_OPC_LD_UB1, ++ AVR32_OPC_LD_UB2, ++ AVR32_OPC_LD_UB5, ++ AVR32_OPC_LD_UB3, ++ AVR32_OPC_LD_UB4, ++ AVR32_OPC_LD_SH1, ++ AVR32_OPC_LD_SH2, ++ AVR32_OPC_LD_SH5, ++ AVR32_OPC_LD_SH3, ++ AVR32_OPC_LD_SH4, ++ AVR32_OPC_LD_UH1, ++ AVR32_OPC_LD_UH2, ++ AVR32_OPC_LD_UH5, ++ AVR32_OPC_LD_UH3, ++ AVR32_OPC_LD_UH4, ++ AVR32_OPC_LD_W1, ++ AVR32_OPC_LD_W2, ++ AVR32_OPC_LD_W5, ++ AVR32_OPC_LD_W6, ++ AVR32_OPC_LD_W3, ++ AVR32_OPC_LD_W4, ++ AVR32_OPC_LDC_D1, ++ AVR32_OPC_LDC_D2, ++ AVR32_OPC_LDC_D3, ++ AVR32_OPC_LDC_W1, ++ AVR32_OPC_LDC_W2, ++ AVR32_OPC_LDC_W3, ++ AVR32_OPC_LDC0_D, ++ AVR32_OPC_LDC0_W, ++ AVR32_OPC_LDCM_D, ++ AVR32_OPC_LDCM_D_PU, ++ AVR32_OPC_LDCM_W, ++ AVR32_OPC_LDCM_W_PU, ++ AVR32_OPC_LDDPC, ++ AVR32_OPC_LDDPC_EXT, ++ AVR32_OPC_LDDSP, ++ AVR32_OPC_LDINS_B, ++ AVR32_OPC_LDINS_H, ++ AVR32_OPC_LDM, ++ AVR32_OPC_LDMTS, ++ AVR32_OPC_LDMTS_PU, ++ AVR32_OPC_LDSWP_SH, ++ AVR32_OPC_LDSWP_UH, ++ AVR32_OPC_LDSWP_W, ++ AVR32_OPC_LSL1, ++ AVR32_OPC_LSL3, ++ AVR32_OPC_LSL2, ++ AVR32_OPC_LSR1, ++ AVR32_OPC_LSR3, ++ AVR32_OPC_LSR2, ++ AVR32_OPC_MAC, ++ AVR32_OPC_MACHH_D, ++ AVR32_OPC_MACHH_W, ++ AVR32_OPC_MACS_D, ++ AVR32_OPC_MACSATHH_W, ++ AVR32_OPC_MACUD, ++ AVR32_OPC_MACWH_D, ++ AVR32_OPC_MAX, ++ AVR32_OPC_MCALL, ++ AVR32_OPC_MFDR, ++ AVR32_OPC_MFSR, ++ AVR32_OPC_MIN, ++ AVR32_OPC_MOV3, ++ AVR32_OPC_MOV1, ++ AVR32_OPC_MOV2, ++ AVR32_OPC_MOVEQ1, ++ AVR32_OPC_MOVNE1, ++ AVR32_OPC_MOVCC1, ++ AVR32_OPC_MOVCS1, ++ AVR32_OPC_MOVGE1, ++ AVR32_OPC_MOVLT1, ++ AVR32_OPC_MOVMI1, ++ AVR32_OPC_MOVPL1, ++ AVR32_OPC_MOVLS1, ++ AVR32_OPC_MOVGT1, ++ AVR32_OPC_MOVLE1, ++ AVR32_OPC_MOVHI1, ++ AVR32_OPC_MOVVS1, ++ AVR32_OPC_MOVVC1, ++ AVR32_OPC_MOVQS1, ++ AVR32_OPC_MOVAL1, ++ AVR32_OPC_MOVEQ2, ++ AVR32_OPC_MOVNE2, ++ AVR32_OPC_MOVCC2, ++ AVR32_OPC_MOVCS2, ++ AVR32_OPC_MOVGE2, ++ AVR32_OPC_MOVLT2, ++ AVR32_OPC_MOVMI2, ++ AVR32_OPC_MOVPL2, ++ AVR32_OPC_MOVLS2, ++ AVR32_OPC_MOVGT2, ++ AVR32_OPC_MOVLE2, ++ AVR32_OPC_MOVHI2, ++ AVR32_OPC_MOVVS2, ++ AVR32_OPC_MOVVC2, ++ AVR32_OPC_MOVQS2, ++ AVR32_OPC_MOVAL2, ++ AVR32_OPC_MTDR, ++ AVR32_OPC_MTSR, ++ AVR32_OPC_MUL1, ++ AVR32_OPC_MUL2, ++ AVR32_OPC_MUL3, ++ AVR32_OPC_MULHH_W, ++ AVR32_OPC_MULNHH_W, ++ AVR32_OPC_MULNWH_D, ++ AVR32_OPC_MULSD, ++ AVR32_OPC_MULSATHH_H, ++ AVR32_OPC_MULSATHH_W, ++ AVR32_OPC_MULSATRNDHH_H, ++ AVR32_OPC_MULSATRNDWH_W, ++ AVR32_OPC_MULSATWH_W, ++ AVR32_OPC_MULU_D, ++ AVR32_OPC_MULWH_D, ++ AVR32_OPC_MUSFR, ++ AVR32_OPC_MUSTR, ++ AVR32_OPC_MVCR_D, ++ AVR32_OPC_MVCR_W, ++ AVR32_OPC_MVRC_D, ++ AVR32_OPC_MVRC_W, ++ AVR32_OPC_NEG, ++ AVR32_OPC_NOP, ++ AVR32_OPC_OR1, ++ AVR32_OPC_OR2, ++ AVR32_OPC_OR3, ++ AVR32_OPC_ORH, ++ AVR32_OPC_ORL, ++ AVR32_OPC_PABS_SB, ++ AVR32_OPC_PABS_SH, ++ AVR32_OPC_PACKSH_SB, ++ AVR32_OPC_PACKSH_UB, ++ AVR32_OPC_PACKW_SH, ++ AVR32_OPC_PADD_B, ++ AVR32_OPC_PADD_H, ++ AVR32_OPC_PADDH_SH, ++ AVR32_OPC_PADDH_UB, ++ AVR32_OPC_PADDS_SB, ++ AVR32_OPC_PADDS_SH, ++ AVR32_OPC_PADDS_UB, ++ AVR32_OPC_PADDS_UH, ++ AVR32_OPC_PADDSUB_H, ++ AVR32_OPC_PADDSUBH_SH, ++ AVR32_OPC_PADDSUBS_SH, ++ AVR32_OPC_PADDSUBS_UH, ++ AVR32_OPC_PADDX_H, ++ AVR32_OPC_PADDXH_SH, ++ AVR32_OPC_PADDXS_SH, ++ AVR32_OPC_PADDXS_UH, ++ AVR32_OPC_PASR_B, ++ AVR32_OPC_PASR_H, ++ AVR32_OPC_PAVG_SH, ++ AVR32_OPC_PAVG_UB, ++ AVR32_OPC_PLSL_B, ++ AVR32_OPC_PLSL_H, ++ AVR32_OPC_PLSR_B, ++ AVR32_OPC_PLSR_H, ++ AVR32_OPC_PMAX_SH, ++ AVR32_OPC_PMAX_UB, ++ AVR32_OPC_PMIN_SH, ++ AVR32_OPC_PMIN_UB, ++ AVR32_OPC_POPJC, ++ AVR32_OPC_POPM, ++ AVR32_OPC_POPM_E, ++ AVR32_OPC_PREF, ++ AVR32_OPC_PSAD, ++ AVR32_OPC_PSUB_B, ++ AVR32_OPC_PSUB_H, ++ AVR32_OPC_PSUBADD_H, ++ AVR32_OPC_PSUBADDH_SH, ++ AVR32_OPC_PSUBADDS_SH, ++ AVR32_OPC_PSUBADDS_UH, ++ AVR32_OPC_PSUBH_SH, ++ AVR32_OPC_PSUBH_UB, ++ AVR32_OPC_PSUBS_SB, ++ AVR32_OPC_PSUBS_SH, ++ AVR32_OPC_PSUBS_UB, ++ AVR32_OPC_PSUBS_UH, ++ AVR32_OPC_PSUBX_H, ++ AVR32_OPC_PSUBXH_SH, ++ AVR32_OPC_PSUBXS_SH, ++ AVR32_OPC_PSUBXS_UH, ++ AVR32_OPC_PUNPCKSB_H, ++ AVR32_OPC_PUNPCKUB_H, ++ AVR32_OPC_PUSHJC, ++ AVR32_OPC_PUSHM, ++ AVR32_OPC_PUSHM_E, ++ AVR32_OPC_RCALL1, ++ AVR32_OPC_RCALL2, ++ AVR32_OPC_RETEQ, ++ AVR32_OPC_RETNE, ++ AVR32_OPC_RETCC, ++ AVR32_OPC_RETCS, ++ AVR32_OPC_RETGE, ++ AVR32_OPC_RETLT, ++ AVR32_OPC_RETMI, ++ AVR32_OPC_RETPL, ++ AVR32_OPC_RETLS, ++ AVR32_OPC_RETGT, ++ AVR32_OPC_RETLE, ++ AVR32_OPC_RETHI, ++ AVR32_OPC_RETVS, ++ AVR32_OPC_RETVC, ++ AVR32_OPC_RETQS, ++ AVR32_OPC_RETAL, ++ AVR32_OPC_RETD, ++ AVR32_OPC_RETE, ++ AVR32_OPC_RETJ, ++ AVR32_OPC_RETS, ++ AVR32_OPC_RJMP, ++ AVR32_OPC_ROL, ++ AVR32_OPC_ROR, ++ AVR32_OPC_RSUB1, ++ AVR32_OPC_RSUB2, ++ AVR32_OPC_SATADD_H, ++ AVR32_OPC_SATADD_W, ++ AVR32_OPC_SATRNDS, ++ AVR32_OPC_SATRNDU, ++ AVR32_OPC_SATS, ++ AVR32_OPC_SATSUB_H, ++ AVR32_OPC_SATSUB_W1, ++ AVR32_OPC_SATSUB_W2, ++ AVR32_OPC_SATU, ++ AVR32_OPC_SBC, ++ AVR32_OPC_SBR, ++ AVR32_OPC_SCALL, ++ AVR32_OPC_SCR, ++ AVR32_OPC_SLEEP, ++ AVR32_OPC_SREQ, ++ AVR32_OPC_SRNE, ++ AVR32_OPC_SRCC, ++ AVR32_OPC_SRCS, ++ AVR32_OPC_SRGE, ++ AVR32_OPC_SRLT, ++ AVR32_OPC_SRMI, ++ AVR32_OPC_SRPL, ++ AVR32_OPC_SRLS, ++ AVR32_OPC_SRGT, ++ AVR32_OPC_SRLE, ++ AVR32_OPC_SRHI, ++ AVR32_OPC_SRVS, ++ AVR32_OPC_SRVC, ++ AVR32_OPC_SRQS, ++ AVR32_OPC_SRAL, ++ AVR32_OPC_SSRF, ++ AVR32_OPC_ST_B1, ++ AVR32_OPC_ST_B2, ++ AVR32_OPC_ST_B5, ++ AVR32_OPC_ST_B3, ++ AVR32_OPC_ST_B4, ++ AVR32_OPC_ST_D1, ++ AVR32_OPC_ST_D2, ++ AVR32_OPC_ST_D3, ++ AVR32_OPC_ST_D5, ++ AVR32_OPC_ST_D4, ++ AVR32_OPC_ST_H1, ++ AVR32_OPC_ST_H2, ++ AVR32_OPC_ST_H5, ++ AVR32_OPC_ST_H3, ++ AVR32_OPC_ST_H4, ++ AVR32_OPC_ST_W1, ++ AVR32_OPC_ST_W2, ++ AVR32_OPC_ST_W5, ++ AVR32_OPC_ST_W3, ++ AVR32_OPC_ST_W4, ++ AVR32_OPC_STC_D1, ++ AVR32_OPC_STC_D2, ++ AVR32_OPC_STC_D3, ++ AVR32_OPC_STC_W1, ++ AVR32_OPC_STC_W2, ++ AVR32_OPC_STC_W3, ++ AVR32_OPC_STC0_D, ++ AVR32_OPC_STC0_W, ++ AVR32_OPC_STCM_D, ++ AVR32_OPC_STCM_D_PU, ++ AVR32_OPC_STCM_W, ++ AVR32_OPC_STCM_W_PU, ++ AVR32_OPC_STCOND, ++ AVR32_OPC_STDSP, ++ AVR32_OPC_STHH_W2, ++ AVR32_OPC_STHH_W1, ++ AVR32_OPC_STM, ++ AVR32_OPC_STM_PU, ++ AVR32_OPC_STMTS, ++ AVR32_OPC_STMTS_PU, ++ AVR32_OPC_STSWP_H, ++ AVR32_OPC_STSWP_W, ++ AVR32_OPC_SUB1, ++ AVR32_OPC_SUB2, ++ AVR32_OPC_SUB5, ++ AVR32_OPC_SUB3_SP, ++ AVR32_OPC_SUB3, ++ AVR32_OPC_SUB4, ++ AVR32_OPC_SUBEQ, ++ AVR32_OPC_SUBNE, ++ AVR32_OPC_SUBCC, ++ AVR32_OPC_SUBCS, ++ AVR32_OPC_SUBGE, ++ AVR32_OPC_SUBLT, ++ AVR32_OPC_SUBMI, ++ AVR32_OPC_SUBPL, ++ AVR32_OPC_SUBLS, ++ AVR32_OPC_SUBGT, ++ AVR32_OPC_SUBLE, ++ AVR32_OPC_SUBHI, ++ AVR32_OPC_SUBVS, ++ AVR32_OPC_SUBVC, ++ AVR32_OPC_SUBQS, ++ AVR32_OPC_SUBAL, ++ AVR32_OPC_SUBFEQ, ++ AVR32_OPC_SUBFNE, ++ AVR32_OPC_SUBFCC, ++ AVR32_OPC_SUBFCS, ++ AVR32_OPC_SUBFGE, ++ AVR32_OPC_SUBFLT, ++ AVR32_OPC_SUBFMI, ++ AVR32_OPC_SUBFPL, ++ AVR32_OPC_SUBFLS, ++ AVR32_OPC_SUBFGT, ++ AVR32_OPC_SUBFLE, ++ AVR32_OPC_SUBFHI, ++ AVR32_OPC_SUBFVS, ++ AVR32_OPC_SUBFVC, ++ AVR32_OPC_SUBFQS, ++ AVR32_OPC_SUBFAL, ++ AVR32_OPC_SUBHH_W, ++ AVR32_OPC_SWAP_B, ++ AVR32_OPC_SWAP_BH, ++ AVR32_OPC_SWAP_H, ++ AVR32_OPC_SYNC, ++ AVR32_OPC_TLBR, ++ AVR32_OPC_TLBS, ++ AVR32_OPC_TLBW, ++ AVR32_OPC_TNBZ, ++ AVR32_OPC_TST, ++ AVR32_OPC_XCHG, ++ AVR32_OPC_MEMC, ++ AVR32_OPC_MEMS, ++ AVR32_OPC_MEMT, ++ AVR32_OPC_BFEXTS, ++ AVR32_OPC_BFEXTU, ++ AVR32_OPC_BFINS, ++ AVR32_OPC_RSUBEQ, ++ AVR32_OPC_RSUBNE, ++ AVR32_OPC_RSUBCC, ++ AVR32_OPC_RSUBCS, ++ AVR32_OPC_RSUBGE, ++ AVR32_OPC_RSUBLT, ++ AVR32_OPC_RSUBMI, ++ AVR32_OPC_RSUBPL, ++ AVR32_OPC_RSUBLS, ++ AVR32_OPC_RSUBGT, ++ AVR32_OPC_RSUBLE, ++ AVR32_OPC_RSUBHI, ++ AVR32_OPC_RSUBVS, ++ AVR32_OPC_RSUBVC, ++ AVR32_OPC_RSUBQS, ++ AVR32_OPC_RSUBAL, ++ AVR32_OPC_ADDEQ, ++ AVR32_OPC_ADDNE, ++ AVR32_OPC_ADDCC, ++ AVR32_OPC_ADDCS, ++ AVR32_OPC_ADDGE, ++ AVR32_OPC_ADDLT, ++ AVR32_OPC_ADDMI, ++ AVR32_OPC_ADDPL, ++ AVR32_OPC_ADDLS, ++ AVR32_OPC_ADDGT, ++ AVR32_OPC_ADDLE, ++ AVR32_OPC_ADDHI, ++ AVR32_OPC_ADDVS, ++ AVR32_OPC_ADDVC, ++ AVR32_OPC_ADDQS, ++ AVR32_OPC_ADDAL, ++ AVR32_OPC_SUB2EQ, ++ AVR32_OPC_SUB2NE, ++ AVR32_OPC_SUB2CC, ++ AVR32_OPC_SUB2CS, ++ AVR32_OPC_SUB2GE, ++ AVR32_OPC_SUB2LT, ++ AVR32_OPC_SUB2MI, ++ AVR32_OPC_SUB2PL, ++ AVR32_OPC_SUB2LS, ++ AVR32_OPC_SUB2GT, ++ AVR32_OPC_SUB2LE, ++ AVR32_OPC_SUB2HI, ++ AVR32_OPC_SUB2VS, ++ AVR32_OPC_SUB2VC, ++ AVR32_OPC_SUB2QS, ++ AVR32_OPC_SUB2AL, ++ AVR32_OPC_ANDEQ, ++ AVR32_OPC_ANDNE, ++ AVR32_OPC_ANDCC, ++ AVR32_OPC_ANDCS, ++ AVR32_OPC_ANDGE, ++ AVR32_OPC_ANDLT, ++ AVR32_OPC_ANDMI, ++ AVR32_OPC_ANDPL, ++ AVR32_OPC_ANDLS, ++ AVR32_OPC_ANDGT, ++ AVR32_OPC_ANDLE, ++ AVR32_OPC_ANDHI, ++ AVR32_OPC_ANDVS, ++ AVR32_OPC_ANDVC, ++ AVR32_OPC_ANDQS, ++ AVR32_OPC_ANDAL, ++ AVR32_OPC_OREQ, ++ AVR32_OPC_ORNE, ++ AVR32_OPC_ORCC, ++ AVR32_OPC_ORCS, ++ AVR32_OPC_ORGE, ++ AVR32_OPC_ORLT, ++ AVR32_OPC_ORMI, ++ AVR32_OPC_ORPL, ++ AVR32_OPC_ORLS, ++ AVR32_OPC_ORGT, ++ AVR32_OPC_ORLE, ++ AVR32_OPC_ORHI, ++ AVR32_OPC_ORVS, ++ AVR32_OPC_ORVC, ++ AVR32_OPC_ORQS, ++ AVR32_OPC_ORAL, ++ AVR32_OPC_EOREQ, ++ AVR32_OPC_EORNE, ++ AVR32_OPC_EORCC, ++ AVR32_OPC_EORCS, ++ AVR32_OPC_EORGE, ++ AVR32_OPC_EORLT, ++ AVR32_OPC_EORMI, ++ AVR32_OPC_EORPL, ++ AVR32_OPC_EORLS, ++ AVR32_OPC_EORGT, ++ AVR32_OPC_EORLE, ++ AVR32_OPC_EORHI, ++ AVR32_OPC_EORVS, ++ AVR32_OPC_EORVC, ++ AVR32_OPC_EORQS, ++ AVR32_OPC_EORAL, ++ AVR32_OPC_LD_WEQ, ++ AVR32_OPC_LD_WNE, ++ AVR32_OPC_LD_WCC, ++ AVR32_OPC_LD_WCS, ++ AVR32_OPC_LD_WGE, ++ AVR32_OPC_LD_WLT, ++ AVR32_OPC_LD_WMI, ++ AVR32_OPC_LD_WPL, ++ AVR32_OPC_LD_WLS, ++ AVR32_OPC_LD_WGT, ++ AVR32_OPC_LD_WLE, ++ AVR32_OPC_LD_WHI, ++ AVR32_OPC_LD_WVS, ++ AVR32_OPC_LD_WVC, ++ AVR32_OPC_LD_WQS, ++ AVR32_OPC_LD_WAL, ++ AVR32_OPC_LD_SHEQ, ++ AVR32_OPC_LD_SHNE, ++ AVR32_OPC_LD_SHCC, ++ AVR32_OPC_LD_SHCS, ++ AVR32_OPC_LD_SHGE, ++ AVR32_OPC_LD_SHLT, ++ AVR32_OPC_LD_SHMI, ++ AVR32_OPC_LD_SHPL, ++ AVR32_OPC_LD_SHLS, ++ AVR32_OPC_LD_SHGT, ++ AVR32_OPC_LD_SHLE, ++ AVR32_OPC_LD_SHHI, ++ AVR32_OPC_LD_SHVS, ++ AVR32_OPC_LD_SHVC, ++ AVR32_OPC_LD_SHQS, ++ AVR32_OPC_LD_SHAL, ++ AVR32_OPC_LD_UHEQ, ++ AVR32_OPC_LD_UHNE, ++ AVR32_OPC_LD_UHCC, ++ AVR32_OPC_LD_UHCS, ++ AVR32_OPC_LD_UHGE, ++ AVR32_OPC_LD_UHLT, ++ AVR32_OPC_LD_UHMI, ++ AVR32_OPC_LD_UHPL, ++ AVR32_OPC_LD_UHLS, ++ AVR32_OPC_LD_UHGT, ++ AVR32_OPC_LD_UHLE, ++ AVR32_OPC_LD_UHHI, ++ AVR32_OPC_LD_UHVS, ++ AVR32_OPC_LD_UHVC, ++ AVR32_OPC_LD_UHQS, ++ AVR32_OPC_LD_UHAL, ++ AVR32_OPC_LD_SBEQ, ++ AVR32_OPC_LD_SBNE, ++ AVR32_OPC_LD_SBCC, ++ AVR32_OPC_LD_SBCS, ++ AVR32_OPC_LD_SBGE, ++ AVR32_OPC_LD_SBLT, ++ AVR32_OPC_LD_SBMI, ++ AVR32_OPC_LD_SBPL, ++ AVR32_OPC_LD_SBLS, ++ AVR32_OPC_LD_SBGT, ++ AVR32_OPC_LD_SBLE, ++ AVR32_OPC_LD_SBHI, ++ AVR32_OPC_LD_SBVS, ++ AVR32_OPC_LD_SBVC, ++ AVR32_OPC_LD_SBQS, ++ AVR32_OPC_LD_SBAL, ++ AVR32_OPC_LD_UBEQ, ++ AVR32_OPC_LD_UBNE, ++ AVR32_OPC_LD_UBCC, ++ AVR32_OPC_LD_UBCS, ++ AVR32_OPC_LD_UBGE, ++ AVR32_OPC_LD_UBLT, ++ AVR32_OPC_LD_UBMI, ++ AVR32_OPC_LD_UBPL, ++ AVR32_OPC_LD_UBLS, ++ AVR32_OPC_LD_UBGT, ++ AVR32_OPC_LD_UBLE, ++ AVR32_OPC_LD_UBHI, ++ AVR32_OPC_LD_UBVS, ++ AVR32_OPC_LD_UBVC, ++ AVR32_OPC_LD_UBQS, ++ AVR32_OPC_LD_UBAL, ++ AVR32_OPC_ST_WEQ, ++ AVR32_OPC_ST_WNE, ++ AVR32_OPC_ST_WCC, ++ AVR32_OPC_ST_WCS, ++ AVR32_OPC_ST_WGE, ++ AVR32_OPC_ST_WLT, ++ AVR32_OPC_ST_WMI, ++ AVR32_OPC_ST_WPL, ++ AVR32_OPC_ST_WLS, ++ AVR32_OPC_ST_WGT, ++ AVR32_OPC_ST_WLE, ++ AVR32_OPC_ST_WHI, ++ AVR32_OPC_ST_WVS, ++ AVR32_OPC_ST_WVC, ++ AVR32_OPC_ST_WQS, ++ AVR32_OPC_ST_WAL, ++ AVR32_OPC_ST_HEQ, ++ AVR32_OPC_ST_HNE, ++ AVR32_OPC_ST_HCC, ++ AVR32_OPC_ST_HCS, ++ AVR32_OPC_ST_HGE, ++ AVR32_OPC_ST_HLT, ++ AVR32_OPC_ST_HMI, ++ AVR32_OPC_ST_HPL, ++ AVR32_OPC_ST_HLS, ++ AVR32_OPC_ST_HGT, ++ AVR32_OPC_ST_HLE, ++ AVR32_OPC_ST_HHI, ++ AVR32_OPC_ST_HVS, ++ AVR32_OPC_ST_HVC, ++ AVR32_OPC_ST_HQS, ++ AVR32_OPC_ST_HAL, ++ AVR32_OPC_ST_BEQ, ++ AVR32_OPC_ST_BNE, ++ AVR32_OPC_ST_BCC, ++ AVR32_OPC_ST_BCS, ++ AVR32_OPC_ST_BGE, ++ AVR32_OPC_ST_BLT, ++ AVR32_OPC_ST_BMI, ++ AVR32_OPC_ST_BPL, ++ AVR32_OPC_ST_BLS, ++ AVR32_OPC_ST_BGT, ++ AVR32_OPC_ST_BLE, ++ AVR32_OPC_ST_BHI, ++ AVR32_OPC_ST_BVS, ++ AVR32_OPC_ST_BVC, ++ AVR32_OPC_ST_BQS, ++ AVR32_OPC_ST_BAL, ++ AVR32_OPC_MOVH, ++ AVR32_OPC_SSCALL, ++ AVR32_OPC_RETSS, ++ AVR32_OPC_FMAC_S, ++ AVR32_OPC_FNMAC_S, ++ AVR32_OPC_FMSC_S, ++ AVR32_OPC_FNMSC_S, ++ AVR32_OPC_FMUL_S, ++ AVR32_OPC_FNMUL_S, ++ AVR32_OPC_FADD_S, ++ AVR32_OPC_FSUB_S, ++ AVR32_OPC_FCASTRS_SW, ++ AVR32_OPC_FCASTRS_UW, ++ AVR32_OPC_FCASTSW_S, ++ AVR32_OPC_FCASTUW_S, ++ AVR32_OPC_FCMP_S, ++ AVR32_OPC_FCHK_S, ++ AVR32_OPC_FRCPA_S, ++ AVR32_OPC_FRSQRTA_S, ++ AVR32_OPC__END_ ++}; ++#define AVR32_NR_OPCODES AVR32_OPC__END_ ++ ++enum avr32_syntax_type ++{ ++ AVR32_SYNTAX_ABS, ++ AVR32_SYNTAX_ACALL, ++ AVR32_SYNTAX_ACR, ++ AVR32_SYNTAX_ADC, ++ AVR32_SYNTAX_ADD1, ++ AVR32_SYNTAX_ADD2, ++ AVR32_SYNTAX_ADDABS, ++ AVR32_SYNTAX_ADDHH_W, ++ AVR32_SYNTAX_AND1, ++ AVR32_SYNTAX_AND2, ++ AVR32_SYNTAX_AND3, ++ AVR32_SYNTAX_ANDH, ++ AVR32_SYNTAX_ANDH_COH, ++ AVR32_SYNTAX_ANDL, ++ AVR32_SYNTAX_ANDL_COH, ++ AVR32_SYNTAX_ANDN, ++ AVR32_SYNTAX_ASR1, ++ AVR32_SYNTAX_ASR3, ++ AVR32_SYNTAX_ASR2, ++ AVR32_SYNTAX_BFEXTS, ++ AVR32_SYNTAX_BFEXTU, ++ AVR32_SYNTAX_BFINS, ++ AVR32_SYNTAX_BLD, ++ AVR32_SYNTAX_BREQ1, ++ AVR32_SYNTAX_BRNE1, ++ AVR32_SYNTAX_BRCC1, ++ AVR32_SYNTAX_BRCS1, ++ AVR32_SYNTAX_BRGE1, ++ AVR32_SYNTAX_BRLT1, ++ AVR32_SYNTAX_BRMI1, ++ AVR32_SYNTAX_BRPL1, ++ AVR32_SYNTAX_BRHS1, ++ AVR32_SYNTAX_BRLO1, ++ AVR32_SYNTAX_BREQ2, ++ AVR32_SYNTAX_BRNE2, ++ AVR32_SYNTAX_BRCC2, ++ AVR32_SYNTAX_BRCS2, ++ AVR32_SYNTAX_BRGE2, ++ AVR32_SYNTAX_BRLT2, ++ AVR32_SYNTAX_BRMI2, ++ AVR32_SYNTAX_BRPL2, ++ AVR32_SYNTAX_BRLS, ++ AVR32_SYNTAX_BRGT, ++ AVR32_SYNTAX_BRLE, ++ AVR32_SYNTAX_BRHI, ++ AVR32_SYNTAX_BRVS, ++ AVR32_SYNTAX_BRVC, ++ AVR32_SYNTAX_BRQS, ++ AVR32_SYNTAX_BRAL, ++ AVR32_SYNTAX_BRHS2, ++ AVR32_SYNTAX_BRLO2, ++ AVR32_SYNTAX_BREAKPOINT, ++ AVR32_SYNTAX_BREV, ++ AVR32_SYNTAX_BST, ++ AVR32_SYNTAX_CACHE, ++ AVR32_SYNTAX_CASTS_B, ++ AVR32_SYNTAX_CASTS_H, ++ AVR32_SYNTAX_CASTU_B, ++ AVR32_SYNTAX_CASTU_H, ++ AVR32_SYNTAX_CBR, ++ AVR32_SYNTAX_CLZ, ++ AVR32_SYNTAX_COM, ++ AVR32_SYNTAX_COP, ++ AVR32_SYNTAX_CP_B, ++ AVR32_SYNTAX_CP_H, ++ AVR32_SYNTAX_CP_W1, ++ AVR32_SYNTAX_CP_W2, ++ AVR32_SYNTAX_CP_W3, ++ AVR32_SYNTAX_CPC1, ++ AVR32_SYNTAX_CPC2, ++ AVR32_SYNTAX_CSRF, ++ AVR32_SYNTAX_CSRFCZ, ++ AVR32_SYNTAX_DIVS, ++ AVR32_SYNTAX_DIVU, ++ AVR32_SYNTAX_EOR1, ++ AVR32_SYNTAX_EOR2, ++ AVR32_SYNTAX_EOR3, ++ AVR32_SYNTAX_EORL, ++ AVR32_SYNTAX_EORH, ++ AVR32_SYNTAX_FRS, ++ AVR32_SYNTAX_SSCALL, ++ AVR32_SYNTAX_RETSS, ++ AVR32_SYNTAX_ICALL, ++ AVR32_SYNTAX_INCJOSP, ++ AVR32_SYNTAX_LD_D1, ++ AVR32_SYNTAX_LD_D2, ++ AVR32_SYNTAX_LD_D3, ++ AVR32_SYNTAX_LD_D5, ++ AVR32_SYNTAX_LD_D4, ++ AVR32_SYNTAX_LD_SB2, ++ AVR32_SYNTAX_LD_SB1, ++ AVR32_SYNTAX_LD_UB1, ++ AVR32_SYNTAX_LD_UB2, ++ AVR32_SYNTAX_LD_UB5, ++ AVR32_SYNTAX_LD_UB3, ++ AVR32_SYNTAX_LD_UB4, ++ AVR32_SYNTAX_LD_SH1, ++ AVR32_SYNTAX_LD_SH2, ++ AVR32_SYNTAX_LD_SH5, ++ AVR32_SYNTAX_LD_SH3, ++ AVR32_SYNTAX_LD_SH4, ++ AVR32_SYNTAX_LD_UH1, ++ AVR32_SYNTAX_LD_UH2, ++ AVR32_SYNTAX_LD_UH5, ++ AVR32_SYNTAX_LD_UH3, ++ AVR32_SYNTAX_LD_UH4, ++ AVR32_SYNTAX_LD_W1, ++ AVR32_SYNTAX_LD_W2, ++ AVR32_SYNTAX_LD_W5, ++ AVR32_SYNTAX_LD_W6, ++ AVR32_SYNTAX_LD_W3, ++ AVR32_SYNTAX_LD_W4, ++ AVR32_SYNTAX_LDC_D1, ++ AVR32_SYNTAX_LDC_D2, ++ AVR32_SYNTAX_LDC_D3, ++ AVR32_SYNTAX_LDC_W1, ++ AVR32_SYNTAX_LDC_W2, ++ AVR32_SYNTAX_LDC_W3, ++ AVR32_SYNTAX_LDC0_D, ++ AVR32_SYNTAX_LDC0_W, ++ AVR32_SYNTAX_LDCM_D, ++ AVR32_SYNTAX_LDCM_D_PU, ++ AVR32_SYNTAX_LDCM_W, ++ AVR32_SYNTAX_LDCM_W_PU, ++ AVR32_SYNTAX_LDDPC, ++ AVR32_SYNTAX_LDDPC_EXT, ++ AVR32_SYNTAX_LDDSP, ++ AVR32_SYNTAX_LDINS_B, ++ AVR32_SYNTAX_LDINS_H, ++ AVR32_SYNTAX_LDM, ++ AVR32_SYNTAX_LDMTS, ++ AVR32_SYNTAX_LDMTS_PU, ++ AVR32_SYNTAX_LDSWP_SH, ++ AVR32_SYNTAX_LDSWP_UH, ++ AVR32_SYNTAX_LDSWP_W, ++ AVR32_SYNTAX_LSL1, ++ AVR32_SYNTAX_LSL3, ++ AVR32_SYNTAX_LSL2, ++ AVR32_SYNTAX_LSR1, ++ AVR32_SYNTAX_LSR3, ++ AVR32_SYNTAX_LSR2, ++ AVR32_SYNTAX_MAC, ++ AVR32_SYNTAX_MACHH_D, ++ AVR32_SYNTAX_MACHH_W, ++ AVR32_SYNTAX_MACS_D, ++ AVR32_SYNTAX_MACSATHH_W, ++ AVR32_SYNTAX_MACUD, ++ AVR32_SYNTAX_MACWH_D, ++ AVR32_SYNTAX_MAX, ++ AVR32_SYNTAX_MCALL, ++ AVR32_SYNTAX_MFDR, ++ AVR32_SYNTAX_MFSR, ++ AVR32_SYNTAX_MIN, ++ AVR32_SYNTAX_MOV3, ++ AVR32_SYNTAX_MOV1, ++ AVR32_SYNTAX_MOV2, ++ AVR32_SYNTAX_MOVEQ1, ++ AVR32_SYNTAX_MOVNE1, ++ AVR32_SYNTAX_MOVCC1, ++ AVR32_SYNTAX_MOVCS1, ++ AVR32_SYNTAX_MOVGE1, ++ AVR32_SYNTAX_MOVLT1, ++ AVR32_SYNTAX_MOVMI1, ++ AVR32_SYNTAX_MOVPL1, ++ AVR32_SYNTAX_MOVLS1, ++ AVR32_SYNTAX_MOVGT1, ++ AVR32_SYNTAX_MOVLE1, ++ AVR32_SYNTAX_MOVHI1, ++ AVR32_SYNTAX_MOVVS1, ++ AVR32_SYNTAX_MOVVC1, ++ AVR32_SYNTAX_MOVQS1, ++ AVR32_SYNTAX_MOVAL1, ++ AVR32_SYNTAX_MOVHS1, ++ AVR32_SYNTAX_MOVLO1, ++ AVR32_SYNTAX_MOVEQ2, ++ AVR32_SYNTAX_MOVNE2, ++ AVR32_SYNTAX_MOVCC2, ++ AVR32_SYNTAX_MOVCS2, ++ AVR32_SYNTAX_MOVGE2, ++ AVR32_SYNTAX_MOVLT2, ++ AVR32_SYNTAX_MOVMI2, ++ AVR32_SYNTAX_MOVPL2, ++ AVR32_SYNTAX_MOVLS2, ++ AVR32_SYNTAX_MOVGT2, ++ AVR32_SYNTAX_MOVLE2, ++ AVR32_SYNTAX_MOVHI2, ++ AVR32_SYNTAX_MOVVS2, ++ AVR32_SYNTAX_MOVVC2, ++ AVR32_SYNTAX_MOVQS2, ++ AVR32_SYNTAX_MOVAL2, ++ AVR32_SYNTAX_MOVHS2, ++ AVR32_SYNTAX_MOVLO2, ++ AVR32_SYNTAX_MTDR, ++ AVR32_SYNTAX_MTSR, ++ AVR32_SYNTAX_MUL1, ++ AVR32_SYNTAX_MUL2, ++ AVR32_SYNTAX_MUL3, ++ AVR32_SYNTAX_MULHH_W, ++ AVR32_SYNTAX_MULNHH_W, ++ AVR32_SYNTAX_MULNWH_D, ++ AVR32_SYNTAX_MULSD, ++ AVR32_SYNTAX_MULSATHH_H, ++ AVR32_SYNTAX_MULSATHH_W, ++ AVR32_SYNTAX_MULSATRNDHH_H, ++ AVR32_SYNTAX_MULSATRNDWH_W, ++ AVR32_SYNTAX_MULSATWH_W, ++ AVR32_SYNTAX_MULU_D, ++ AVR32_SYNTAX_MULWH_D, ++ AVR32_SYNTAX_MUSFR, ++ AVR32_SYNTAX_MUSTR, ++ AVR32_SYNTAX_MVCR_D, ++ AVR32_SYNTAX_MVCR_W, ++ AVR32_SYNTAX_MVRC_D, ++ AVR32_SYNTAX_MVRC_W, ++ AVR32_SYNTAX_NEG, ++ AVR32_SYNTAX_NOP, ++ AVR32_SYNTAX_OR1, ++ AVR32_SYNTAX_OR2, ++ AVR32_SYNTAX_OR3, ++ AVR32_SYNTAX_ORH, ++ AVR32_SYNTAX_ORL, ++ AVR32_SYNTAX_PABS_SB, ++ AVR32_SYNTAX_PABS_SH, ++ AVR32_SYNTAX_PACKSH_SB, ++ AVR32_SYNTAX_PACKSH_UB, ++ AVR32_SYNTAX_PACKW_SH, ++ AVR32_SYNTAX_PADD_B, ++ AVR32_SYNTAX_PADD_H, ++ AVR32_SYNTAX_PADDH_SH, ++ AVR32_SYNTAX_PADDH_UB, ++ AVR32_SYNTAX_PADDS_SB, ++ AVR32_SYNTAX_PADDS_SH, ++ AVR32_SYNTAX_PADDS_UB, ++ AVR32_SYNTAX_PADDS_UH, ++ AVR32_SYNTAX_PADDSUB_H, ++ AVR32_SYNTAX_PADDSUBH_SH, ++ AVR32_SYNTAX_PADDSUBS_SH, ++ AVR32_SYNTAX_PADDSUBS_UH, ++ AVR32_SYNTAX_PADDX_H, ++ AVR32_SYNTAX_PADDXH_SH, ++ AVR32_SYNTAX_PADDXS_SH, ++ AVR32_SYNTAX_PADDXS_UH, ++ AVR32_SYNTAX_PASR_B, ++ AVR32_SYNTAX_PASR_H, ++ AVR32_SYNTAX_PAVG_SH, ++ AVR32_SYNTAX_PAVG_UB, ++ AVR32_SYNTAX_PLSL_B, ++ AVR32_SYNTAX_PLSL_H, ++ AVR32_SYNTAX_PLSR_B, ++ AVR32_SYNTAX_PLSR_H, ++ AVR32_SYNTAX_PMAX_SH, ++ AVR32_SYNTAX_PMAX_UB, ++ AVR32_SYNTAX_PMIN_SH, ++ AVR32_SYNTAX_PMIN_UB, ++ AVR32_SYNTAX_POPJC, ++ AVR32_SYNTAX_POPM, ++ AVR32_SYNTAX_POPM_E, ++ AVR32_SYNTAX_PREF, ++ AVR32_SYNTAX_PSAD, ++ AVR32_SYNTAX_PSUB_B, ++ AVR32_SYNTAX_PSUB_H, ++ AVR32_SYNTAX_PSUBADD_H, ++ AVR32_SYNTAX_PSUBADDH_SH, ++ AVR32_SYNTAX_PSUBADDS_SH, ++ AVR32_SYNTAX_PSUBADDS_UH, ++ AVR32_SYNTAX_PSUBH_SH, ++ AVR32_SYNTAX_PSUBH_UB, ++ AVR32_SYNTAX_PSUBS_SB, ++ AVR32_SYNTAX_PSUBS_SH, ++ AVR32_SYNTAX_PSUBS_UB, ++ AVR32_SYNTAX_PSUBS_UH, ++ AVR32_SYNTAX_PSUBX_H, ++ AVR32_SYNTAX_PSUBXH_SH, ++ AVR32_SYNTAX_PSUBXS_SH, ++ AVR32_SYNTAX_PSUBXS_UH, ++ AVR32_SYNTAX_PUNPCKSB_H, ++ AVR32_SYNTAX_PUNPCKUB_H, ++ AVR32_SYNTAX_PUSHJC, ++ AVR32_SYNTAX_PUSHM, ++ AVR32_SYNTAX_PUSHM_E, ++ AVR32_SYNTAX_RCALL1, ++ AVR32_SYNTAX_RCALL2, ++ AVR32_SYNTAX_RETEQ, ++ AVR32_SYNTAX_RETNE, ++ AVR32_SYNTAX_RETCC, ++ AVR32_SYNTAX_RETCS, ++ AVR32_SYNTAX_RETGE, ++ AVR32_SYNTAX_RETLT, ++ AVR32_SYNTAX_RETMI, ++ AVR32_SYNTAX_RETPL, ++ AVR32_SYNTAX_RETLS, ++ AVR32_SYNTAX_RETGT, ++ AVR32_SYNTAX_RETLE, ++ AVR32_SYNTAX_RETHI, ++ AVR32_SYNTAX_RETVS, ++ AVR32_SYNTAX_RETVC, ++ AVR32_SYNTAX_RETQS, ++ AVR32_SYNTAX_RETAL, ++ AVR32_SYNTAX_RETHS, ++ AVR32_SYNTAX_RETLO, ++ AVR32_SYNTAX_RETD, ++ AVR32_SYNTAX_RETE, ++ AVR32_SYNTAX_RETJ, ++ AVR32_SYNTAX_RETS, ++ AVR32_SYNTAX_RJMP, ++ AVR32_SYNTAX_ROL, ++ AVR32_SYNTAX_ROR, ++ AVR32_SYNTAX_RSUB1, ++ AVR32_SYNTAX_RSUB2, ++ AVR32_SYNTAX_SATADD_H, ++ AVR32_SYNTAX_SATADD_W, ++ AVR32_SYNTAX_SATRNDS, ++ AVR32_SYNTAX_SATRNDU, ++ AVR32_SYNTAX_SATS, ++ AVR32_SYNTAX_SATSUB_H, ++ AVR32_SYNTAX_SATSUB_W1, ++ AVR32_SYNTAX_SATSUB_W2, ++ AVR32_SYNTAX_SATU, ++ AVR32_SYNTAX_SBC, ++ AVR32_SYNTAX_SBR, ++ AVR32_SYNTAX_SCALL, ++ AVR32_SYNTAX_SCR, ++ AVR32_SYNTAX_SLEEP, ++ AVR32_SYNTAX_SREQ, ++ AVR32_SYNTAX_SRNE, ++ AVR32_SYNTAX_SRCC, ++ AVR32_SYNTAX_SRCS, ++ AVR32_SYNTAX_SRGE, ++ AVR32_SYNTAX_SRLT, ++ AVR32_SYNTAX_SRMI, ++ AVR32_SYNTAX_SRPL, ++ AVR32_SYNTAX_SRLS, ++ AVR32_SYNTAX_SRGT, ++ AVR32_SYNTAX_SRLE, ++ AVR32_SYNTAX_SRHI, ++ AVR32_SYNTAX_SRVS, ++ AVR32_SYNTAX_SRVC, ++ AVR32_SYNTAX_SRQS, ++ AVR32_SYNTAX_SRAL, ++ AVR32_SYNTAX_SRHS, ++ AVR32_SYNTAX_SRLO, ++ AVR32_SYNTAX_SSRF, ++ AVR32_SYNTAX_ST_B1, ++ AVR32_SYNTAX_ST_B2, ++ AVR32_SYNTAX_ST_B5, ++ AVR32_SYNTAX_ST_B3, ++ AVR32_SYNTAX_ST_B4, ++ AVR32_SYNTAX_ST_D1, ++ AVR32_SYNTAX_ST_D2, ++ AVR32_SYNTAX_ST_D3, ++ AVR32_SYNTAX_ST_D5, ++ AVR32_SYNTAX_ST_D4, ++ AVR32_SYNTAX_ST_H1, ++ AVR32_SYNTAX_ST_H2, ++ AVR32_SYNTAX_ST_H5, ++ AVR32_SYNTAX_ST_H3, ++ AVR32_SYNTAX_ST_H4, ++ AVR32_SYNTAX_ST_W1, ++ AVR32_SYNTAX_ST_W2, ++ AVR32_SYNTAX_ST_W5, ++ AVR32_SYNTAX_ST_W3, ++ AVR32_SYNTAX_ST_W4, ++ AVR32_SYNTAX_STC_D1, ++ AVR32_SYNTAX_STC_D2, ++ AVR32_SYNTAX_STC_D3, ++ AVR32_SYNTAX_STC_W1, ++ AVR32_SYNTAX_STC_W2, ++ AVR32_SYNTAX_STC_W3, ++ AVR32_SYNTAX_STC0_D, ++ AVR32_SYNTAX_STC0_W, ++ AVR32_SYNTAX_STCM_D, ++ AVR32_SYNTAX_STCM_D_PU, ++ AVR32_SYNTAX_STCM_W, ++ AVR32_SYNTAX_STCM_W_PU, ++ AVR32_SYNTAX_STCOND, ++ AVR32_SYNTAX_STDSP, ++ AVR32_SYNTAX_STHH_W2, ++ AVR32_SYNTAX_STHH_W1, ++ AVR32_SYNTAX_STM, ++ AVR32_SYNTAX_STM_PU, ++ AVR32_SYNTAX_STMTS, ++ AVR32_SYNTAX_STMTS_PU, ++ AVR32_SYNTAX_STSWP_H, ++ AVR32_SYNTAX_STSWP_W, ++ AVR32_SYNTAX_SUB1, ++ AVR32_SYNTAX_SUB2, ++ AVR32_SYNTAX_SUB5, ++ AVR32_SYNTAX_SUB3_SP, ++ AVR32_SYNTAX_SUB3, ++ AVR32_SYNTAX_SUB4, ++ AVR32_SYNTAX_SUBEQ, ++ AVR32_SYNTAX_SUBNE, ++ AVR32_SYNTAX_SUBCC, ++ AVR32_SYNTAX_SUBCS, ++ AVR32_SYNTAX_SUBGE, ++ AVR32_SYNTAX_SUBLT, ++ AVR32_SYNTAX_SUBMI, ++ AVR32_SYNTAX_SUBPL, ++ AVR32_SYNTAX_SUBLS, ++ AVR32_SYNTAX_SUBGT, ++ AVR32_SYNTAX_SUBLE, ++ AVR32_SYNTAX_SUBHI, ++ AVR32_SYNTAX_SUBVS, ++ AVR32_SYNTAX_SUBVC, ++ AVR32_SYNTAX_SUBQS, ++ AVR32_SYNTAX_SUBAL, ++ AVR32_SYNTAX_SUBHS, ++ AVR32_SYNTAX_SUBLO, ++ AVR32_SYNTAX_SUBFEQ, ++ AVR32_SYNTAX_SUBFNE, ++ AVR32_SYNTAX_SUBFCC, ++ AVR32_SYNTAX_SUBFCS, ++ AVR32_SYNTAX_SUBFGE, ++ AVR32_SYNTAX_SUBFLT, ++ AVR32_SYNTAX_SUBFMI, ++ AVR32_SYNTAX_SUBFPL, ++ AVR32_SYNTAX_SUBFLS, ++ AVR32_SYNTAX_SUBFGT, ++ AVR32_SYNTAX_SUBFLE, ++ AVR32_SYNTAX_SUBFHI, ++ AVR32_SYNTAX_SUBFVS, ++ AVR32_SYNTAX_SUBFVC, ++ AVR32_SYNTAX_SUBFQS, ++ AVR32_SYNTAX_SUBFAL, ++ AVR32_SYNTAX_SUBFHS, ++ AVR32_SYNTAX_SUBFLO, ++ AVR32_SYNTAX_SUBHH_W, ++ AVR32_SYNTAX_SWAP_B, ++ AVR32_SYNTAX_SWAP_BH, ++ AVR32_SYNTAX_SWAP_H, ++ AVR32_SYNTAX_SYNC, ++ AVR32_SYNTAX_TLBR, ++ AVR32_SYNTAX_TLBS, ++ AVR32_SYNTAX_TLBW, ++ AVR32_SYNTAX_TNBZ, ++ AVR32_SYNTAX_TST, ++ AVR32_SYNTAX_XCHG, ++ AVR32_SYNTAX_MEMC, ++ AVR32_SYNTAX_MEMS, ++ AVR32_SYNTAX_MEMT, ++ AVR32_SYNTAX_FMAC_S, ++ AVR32_SYNTAX_FNMAC_S, ++ AVR32_SYNTAX_FMSC_S, ++ AVR32_SYNTAX_FNMSC_S, ++ AVR32_SYNTAX_FMUL_S, ++ AVR32_SYNTAX_FNMUL_S, ++ AVR32_SYNTAX_FADD_S, ++ AVR32_SYNTAX_FSUB_S, ++ AVR32_SYNTAX_FCASTRS_SW, ++ AVR32_SYNTAX_FCASTRS_UW, ++ AVR32_SYNTAX_FCASTSW_S, ++ AVR32_SYNTAX_FCASTUW_S, ++ AVR32_SYNTAX_FCMP_S, ++ AVR32_SYNTAX_FCHK_S, ++ AVR32_SYNTAX_FRCPA_S, ++ AVR32_SYNTAX_FRSQRTA_S, ++ AVR32_SYNTAX_LDA_W, ++ AVR32_SYNTAX_CALL, ++ AVR32_SYNTAX_PICOSVMAC0, ++ AVR32_SYNTAX_PICOSVMAC1, ++ AVR32_SYNTAX_PICOSVMAC2, ++ AVR32_SYNTAX_PICOSVMAC3, ++ AVR32_SYNTAX_PICOSVMUL0, ++ AVR32_SYNTAX_PICOSVMUL1, ++ AVR32_SYNTAX_PICOSVMUL2, ++ AVR32_SYNTAX_PICOSVMUL3, ++ AVR32_SYNTAX_PICOVMAC0, ++ AVR32_SYNTAX_PICOVMAC1, ++ AVR32_SYNTAX_PICOVMAC2, ++ AVR32_SYNTAX_PICOVMAC3, ++ AVR32_SYNTAX_PICOVMUL0, ++ AVR32_SYNTAX_PICOVMUL1, ++ AVR32_SYNTAX_PICOVMUL2, ++ AVR32_SYNTAX_PICOVMUL3, ++ AVR32_SYNTAX_PICOLD_D2, ++ AVR32_SYNTAX_PICOLD_D3, ++ AVR32_SYNTAX_PICOLD_D1, ++ AVR32_SYNTAX_PICOLD_W2, ++ AVR32_SYNTAX_PICOLD_W3, ++ AVR32_SYNTAX_PICOLD_W1, ++ AVR32_SYNTAX_PICOLDM_D, ++ AVR32_SYNTAX_PICOLDM_D_PU, ++ AVR32_SYNTAX_PICOLDM_W, ++ AVR32_SYNTAX_PICOLDM_W_PU, ++ AVR32_SYNTAX_PICOMV_D1, ++ AVR32_SYNTAX_PICOMV_D2, ++ AVR32_SYNTAX_PICOMV_W1, ++ AVR32_SYNTAX_PICOMV_W2, ++ AVR32_SYNTAX_PICOST_D2, ++ AVR32_SYNTAX_PICOST_D3, ++ AVR32_SYNTAX_PICOST_D1, ++ AVR32_SYNTAX_PICOST_W2, ++ AVR32_SYNTAX_PICOST_W3, ++ AVR32_SYNTAX_PICOST_W1, ++ AVR32_SYNTAX_PICOSTM_D, ++ AVR32_SYNTAX_PICOSTM_D_PU, ++ AVR32_SYNTAX_PICOSTM_W, ++ AVR32_SYNTAX_PICOSTM_W_PU, ++ AVR32_SYNTAX_RSUBEQ, ++ AVR32_SYNTAX_RSUBNE, ++ AVR32_SYNTAX_RSUBCC, ++ AVR32_SYNTAX_RSUBCS, ++ AVR32_SYNTAX_RSUBGE, ++ AVR32_SYNTAX_RSUBLT, ++ AVR32_SYNTAX_RSUBMI, ++ AVR32_SYNTAX_RSUBPL, ++ AVR32_SYNTAX_RSUBLS, ++ AVR32_SYNTAX_RSUBGT, ++ AVR32_SYNTAX_RSUBLE, ++ AVR32_SYNTAX_RSUBHI, ++ AVR32_SYNTAX_RSUBVS, ++ AVR32_SYNTAX_RSUBVC, ++ AVR32_SYNTAX_RSUBQS, ++ AVR32_SYNTAX_RSUBAL, ++ AVR32_SYNTAX_RSUBHS, ++ AVR32_SYNTAX_RSUBLO, ++ AVR32_SYNTAX_ADDEQ, ++ AVR32_SYNTAX_ADDNE, ++ AVR32_SYNTAX_ADDCC, ++ AVR32_SYNTAX_ADDCS, ++ AVR32_SYNTAX_ADDGE, ++ AVR32_SYNTAX_ADDLT, ++ AVR32_SYNTAX_ADDMI, ++ AVR32_SYNTAX_ADDPL, ++ AVR32_SYNTAX_ADDLS, ++ AVR32_SYNTAX_ADDGT, ++ AVR32_SYNTAX_ADDLE, ++ AVR32_SYNTAX_ADDHI, ++ AVR32_SYNTAX_ADDVS, ++ AVR32_SYNTAX_ADDVC, ++ AVR32_SYNTAX_ADDQS, ++ AVR32_SYNTAX_ADDAL, ++ AVR32_SYNTAX_ADDHS, ++ AVR32_SYNTAX_ADDLO, ++ AVR32_SYNTAX_SUB2EQ, ++ AVR32_SYNTAX_SUB2NE, ++ AVR32_SYNTAX_SUB2CC, ++ AVR32_SYNTAX_SUB2CS, ++ AVR32_SYNTAX_SUB2GE, ++ AVR32_SYNTAX_SUB2LT, ++ AVR32_SYNTAX_SUB2MI, ++ AVR32_SYNTAX_SUB2PL, ++ AVR32_SYNTAX_SUB2LS, ++ AVR32_SYNTAX_SUB2GT, ++ AVR32_SYNTAX_SUB2LE, ++ AVR32_SYNTAX_SUB2HI, ++ AVR32_SYNTAX_SUB2VS, ++ AVR32_SYNTAX_SUB2VC, ++ AVR32_SYNTAX_SUB2QS, ++ AVR32_SYNTAX_SUB2AL, ++ AVR32_SYNTAX_SUB2HS, ++ AVR32_SYNTAX_SUB2LO, ++ AVR32_SYNTAX_ANDEQ, ++ AVR32_SYNTAX_ANDNE, ++ AVR32_SYNTAX_ANDCC, ++ AVR32_SYNTAX_ANDCS, ++ AVR32_SYNTAX_ANDGE, ++ AVR32_SYNTAX_ANDLT, ++ AVR32_SYNTAX_ANDMI, ++ AVR32_SYNTAX_ANDPL, ++ AVR32_SYNTAX_ANDLS, ++ AVR32_SYNTAX_ANDGT, ++ AVR32_SYNTAX_ANDLE, ++ AVR32_SYNTAX_ANDHI, ++ AVR32_SYNTAX_ANDVS, ++ AVR32_SYNTAX_ANDVC, ++ AVR32_SYNTAX_ANDQS, ++ AVR32_SYNTAX_ANDAL, ++ AVR32_SYNTAX_ANDHS, ++ AVR32_SYNTAX_ANDLO, ++ AVR32_SYNTAX_OREQ, ++ AVR32_SYNTAX_ORNE, ++ AVR32_SYNTAX_ORCC, ++ AVR32_SYNTAX_ORCS, ++ AVR32_SYNTAX_ORGE, ++ AVR32_SYNTAX_ORLT, ++ AVR32_SYNTAX_ORMI, ++ AVR32_SYNTAX_ORPL, ++ AVR32_SYNTAX_ORLS, ++ AVR32_SYNTAX_ORGT, ++ AVR32_SYNTAX_ORLE, ++ AVR32_SYNTAX_ORHI, ++ AVR32_SYNTAX_ORVS, ++ AVR32_SYNTAX_ORVC, ++ AVR32_SYNTAX_ORQS, ++ AVR32_SYNTAX_ORAL, ++ AVR32_SYNTAX_ORHS, ++ AVR32_SYNTAX_ORLO, ++ AVR32_SYNTAX_EOREQ, ++ AVR32_SYNTAX_EORNE, ++ AVR32_SYNTAX_EORCC, ++ AVR32_SYNTAX_EORCS, ++ AVR32_SYNTAX_EORGE, ++ AVR32_SYNTAX_EORLT, ++ AVR32_SYNTAX_EORMI, ++ AVR32_SYNTAX_EORPL, ++ AVR32_SYNTAX_EORLS, ++ AVR32_SYNTAX_EORGT, ++ AVR32_SYNTAX_EORLE, ++ AVR32_SYNTAX_EORHI, ++ AVR32_SYNTAX_EORVS, ++ AVR32_SYNTAX_EORVC, ++ AVR32_SYNTAX_EORQS, ++ AVR32_SYNTAX_EORAL, ++ AVR32_SYNTAX_EORHS, ++ AVR32_SYNTAX_EORLO, ++ AVR32_SYNTAX_LD_WEQ, ++ AVR32_SYNTAX_LD_WNE, ++ AVR32_SYNTAX_LD_WCC, ++ AVR32_SYNTAX_LD_WCS, ++ AVR32_SYNTAX_LD_WGE, ++ AVR32_SYNTAX_LD_WLT, ++ AVR32_SYNTAX_LD_WMI, ++ AVR32_SYNTAX_LD_WPL, ++ AVR32_SYNTAX_LD_WLS, ++ AVR32_SYNTAX_LD_WGT, ++ AVR32_SYNTAX_LD_WLE, ++ AVR32_SYNTAX_LD_WHI, ++ AVR32_SYNTAX_LD_WVS, ++ AVR32_SYNTAX_LD_WVC, ++ AVR32_SYNTAX_LD_WQS, ++ AVR32_SYNTAX_LD_WAL, ++ AVR32_SYNTAX_LD_WHS, ++ AVR32_SYNTAX_LD_WLO, ++ AVR32_SYNTAX_LD_SHEQ, ++ AVR32_SYNTAX_LD_SHNE, ++ AVR32_SYNTAX_LD_SHCC, ++ AVR32_SYNTAX_LD_SHCS, ++ AVR32_SYNTAX_LD_SHGE, ++ AVR32_SYNTAX_LD_SHLT, ++ AVR32_SYNTAX_LD_SHMI, ++ AVR32_SYNTAX_LD_SHPL, ++ AVR32_SYNTAX_LD_SHLS, ++ AVR32_SYNTAX_LD_SHGT, ++ AVR32_SYNTAX_LD_SHLE, ++ AVR32_SYNTAX_LD_SHHI, ++ AVR32_SYNTAX_LD_SHVS, ++ AVR32_SYNTAX_LD_SHVC, ++ AVR32_SYNTAX_LD_SHQS, ++ AVR32_SYNTAX_LD_SHAL, ++ AVR32_SYNTAX_LD_SHHS, ++ AVR32_SYNTAX_LD_SHLO, ++ AVR32_SYNTAX_LD_UHEQ, ++ AVR32_SYNTAX_LD_UHNE, ++ AVR32_SYNTAX_LD_UHCC, ++ AVR32_SYNTAX_LD_UHCS, ++ AVR32_SYNTAX_LD_UHGE, ++ AVR32_SYNTAX_LD_UHLT, ++ AVR32_SYNTAX_LD_UHMI, ++ AVR32_SYNTAX_LD_UHPL, ++ AVR32_SYNTAX_LD_UHLS, ++ AVR32_SYNTAX_LD_UHGT, ++ AVR32_SYNTAX_LD_UHLE, ++ AVR32_SYNTAX_LD_UHHI, ++ AVR32_SYNTAX_LD_UHVS, ++ AVR32_SYNTAX_LD_UHVC, ++ AVR32_SYNTAX_LD_UHQS, ++ AVR32_SYNTAX_LD_UHAL, ++ AVR32_SYNTAX_LD_UHHS, ++ AVR32_SYNTAX_LD_UHLO, ++ AVR32_SYNTAX_LD_SBEQ, ++ AVR32_SYNTAX_LD_SBNE, ++ AVR32_SYNTAX_LD_SBCC, ++ AVR32_SYNTAX_LD_SBCS, ++ AVR32_SYNTAX_LD_SBGE, ++ AVR32_SYNTAX_LD_SBLT, ++ AVR32_SYNTAX_LD_SBMI, ++ AVR32_SYNTAX_LD_SBPL, ++ AVR32_SYNTAX_LD_SBLS, ++ AVR32_SYNTAX_LD_SBGT, ++ AVR32_SYNTAX_LD_SBLE, ++ AVR32_SYNTAX_LD_SBHI, ++ AVR32_SYNTAX_LD_SBVS, ++ AVR32_SYNTAX_LD_SBVC, ++ AVR32_SYNTAX_LD_SBQS, ++ AVR32_SYNTAX_LD_SBAL, ++ AVR32_SYNTAX_LD_SBHS, ++ AVR32_SYNTAX_LD_SBLO, ++ AVR32_SYNTAX_LD_UBEQ, ++ AVR32_SYNTAX_LD_UBNE, ++ AVR32_SYNTAX_LD_UBCC, ++ AVR32_SYNTAX_LD_UBCS, ++ AVR32_SYNTAX_LD_UBGE, ++ AVR32_SYNTAX_LD_UBLT, ++ AVR32_SYNTAX_LD_UBMI, ++ AVR32_SYNTAX_LD_UBPL, ++ AVR32_SYNTAX_LD_UBLS, ++ AVR32_SYNTAX_LD_UBGT, ++ AVR32_SYNTAX_LD_UBLE, ++ AVR32_SYNTAX_LD_UBHI, ++ AVR32_SYNTAX_LD_UBVS, ++ AVR32_SYNTAX_LD_UBVC, ++ AVR32_SYNTAX_LD_UBQS, ++ AVR32_SYNTAX_LD_UBAL, ++ AVR32_SYNTAX_LD_UBHS, ++ AVR32_SYNTAX_LD_UBLO, ++ AVR32_SYNTAX_ST_WEQ, ++ AVR32_SYNTAX_ST_WNE, ++ AVR32_SYNTAX_ST_WCC, ++ AVR32_SYNTAX_ST_WCS, ++ AVR32_SYNTAX_ST_WGE, ++ AVR32_SYNTAX_ST_WLT, ++ AVR32_SYNTAX_ST_WMI, ++ AVR32_SYNTAX_ST_WPL, ++ AVR32_SYNTAX_ST_WLS, ++ AVR32_SYNTAX_ST_WGT, ++ AVR32_SYNTAX_ST_WLE, ++ AVR32_SYNTAX_ST_WHI, ++ AVR32_SYNTAX_ST_WVS, ++ AVR32_SYNTAX_ST_WVC, ++ AVR32_SYNTAX_ST_WQS, ++ AVR32_SYNTAX_ST_WAL, ++ AVR32_SYNTAX_ST_WHS, ++ AVR32_SYNTAX_ST_WLO, ++ AVR32_SYNTAX_ST_HEQ, ++ AVR32_SYNTAX_ST_HNE, ++ AVR32_SYNTAX_ST_HCC, ++ AVR32_SYNTAX_ST_HCS, ++ AVR32_SYNTAX_ST_HGE, ++ AVR32_SYNTAX_ST_HLT, ++ AVR32_SYNTAX_ST_HMI, ++ AVR32_SYNTAX_ST_HPL, ++ AVR32_SYNTAX_ST_HLS, ++ AVR32_SYNTAX_ST_HGT, ++ AVR32_SYNTAX_ST_HLE, ++ AVR32_SYNTAX_ST_HHI, ++ AVR32_SYNTAX_ST_HVS, ++ AVR32_SYNTAX_ST_HVC, ++ AVR32_SYNTAX_ST_HQS, ++ AVR32_SYNTAX_ST_HAL, ++ AVR32_SYNTAX_ST_HHS, ++ AVR32_SYNTAX_ST_HLO, ++ AVR32_SYNTAX_ST_BEQ, ++ AVR32_SYNTAX_ST_BNE, ++ AVR32_SYNTAX_ST_BCC, ++ AVR32_SYNTAX_ST_BCS, ++ AVR32_SYNTAX_ST_BGE, ++ AVR32_SYNTAX_ST_BLT, ++ AVR32_SYNTAX_ST_BMI, ++ AVR32_SYNTAX_ST_BPL, ++ AVR32_SYNTAX_ST_BLS, ++ AVR32_SYNTAX_ST_BGT, ++ AVR32_SYNTAX_ST_BLE, ++ AVR32_SYNTAX_ST_BHI, ++ AVR32_SYNTAX_ST_BVS, ++ AVR32_SYNTAX_ST_BVC, ++ AVR32_SYNTAX_ST_BQS, ++ AVR32_SYNTAX_ST_BAL, ++ AVR32_SYNTAX_ST_BHS, ++ AVR32_SYNTAX_ST_BLO, ++ AVR32_SYNTAX_MOVH, ++ AVR32_SYNTAX__END_ ++}; ++#define AVR32_NR_SYNTAX AVR32_SYNTAX__END_ ++ ++enum avr32_alias_type ++ { ++ AVR32_ALIAS_PICOSVMAC0, ++ AVR32_ALIAS_PICOSVMAC1, ++ AVR32_ALIAS_PICOSVMAC2, ++ AVR32_ALIAS_PICOSVMAC3, ++ AVR32_ALIAS_PICOSVMUL0, ++ AVR32_ALIAS_PICOSVMUL1, ++ AVR32_ALIAS_PICOSVMUL2, ++ AVR32_ALIAS_PICOSVMUL3, ++ AVR32_ALIAS_PICOVMAC0, ++ AVR32_ALIAS_PICOVMAC1, ++ AVR32_ALIAS_PICOVMAC2, ++ AVR32_ALIAS_PICOVMAC3, ++ AVR32_ALIAS_PICOVMUL0, ++ AVR32_ALIAS_PICOVMUL1, ++ AVR32_ALIAS_PICOVMUL2, ++ AVR32_ALIAS_PICOVMUL3, ++ AVR32_ALIAS_PICOLD_D1, ++ AVR32_ALIAS_PICOLD_D2, ++ AVR32_ALIAS_PICOLD_D3, ++ AVR32_ALIAS_PICOLD_W1, ++ AVR32_ALIAS_PICOLD_W2, ++ AVR32_ALIAS_PICOLD_W3, ++ AVR32_ALIAS_PICOLDM_D, ++ AVR32_ALIAS_PICOLDM_D_PU, ++ AVR32_ALIAS_PICOLDM_W, ++ AVR32_ALIAS_PICOLDM_W_PU, ++ AVR32_ALIAS_PICOMV_D1, ++ AVR32_ALIAS_PICOMV_D2, ++ AVR32_ALIAS_PICOMV_W1, ++ AVR32_ALIAS_PICOMV_W2, ++ AVR32_ALIAS_PICOST_D1, ++ AVR32_ALIAS_PICOST_D2, ++ AVR32_ALIAS_PICOST_D3, ++ AVR32_ALIAS_PICOST_W1, ++ AVR32_ALIAS_PICOST_W2, ++ AVR32_ALIAS_PICOST_W3, ++ AVR32_ALIAS_PICOSTM_D, ++ AVR32_ALIAS_PICOSTM_D_PU, ++ AVR32_ALIAS_PICOSTM_W, ++ AVR32_ALIAS_PICOSTM_W_PU, ++ AVR32_ALIAS__END_ ++ }; ++#define AVR32_NR_ALIAS AVR32_ALIAS__END_ ++ ++enum avr32_mnemonic_type ++{ ++ AVR32_MNEMONIC_ABS, ++ AVR32_MNEMONIC_ACALL, ++ AVR32_MNEMONIC_ACR, ++ AVR32_MNEMONIC_ADC, ++ AVR32_MNEMONIC_ADD, ++ AVR32_MNEMONIC_ADDABS, ++ AVR32_MNEMONIC_ADDHH_W, ++ AVR32_MNEMONIC_AND, ++ AVR32_MNEMONIC_ANDH, ++ AVR32_MNEMONIC_ANDL, ++ AVR32_MNEMONIC_ANDN, ++ AVR32_MNEMONIC_ASR, ++ AVR32_MNEMONIC_BFEXTS, ++ AVR32_MNEMONIC_BFEXTU, ++ AVR32_MNEMONIC_BFINS, ++ AVR32_MNEMONIC_BLD, ++ AVR32_MNEMONIC_BREQ, ++ AVR32_MNEMONIC_BRNE, ++ AVR32_MNEMONIC_BRCC, ++ AVR32_MNEMONIC_BRCS, ++ AVR32_MNEMONIC_BRGE, ++ AVR32_MNEMONIC_BRLT, ++ AVR32_MNEMONIC_BRMI, ++ AVR32_MNEMONIC_BRPL, ++ AVR32_MNEMONIC_BRHS, ++ AVR32_MNEMONIC_BRLO, ++ AVR32_MNEMONIC_BRLS, ++ AVR32_MNEMONIC_BRGT, ++ AVR32_MNEMONIC_BRLE, ++ AVR32_MNEMONIC_BRHI, ++ AVR32_MNEMONIC_BRVS, ++ AVR32_MNEMONIC_BRVC, ++ AVR32_MNEMONIC_BRQS, ++ AVR32_MNEMONIC_BRAL, ++ AVR32_MNEMONIC_BREAKPOINT, ++ AVR32_MNEMONIC_BREV, ++ AVR32_MNEMONIC_BST, ++ AVR32_MNEMONIC_CACHE, ++ AVR32_MNEMONIC_CASTS_B, ++ AVR32_MNEMONIC_CASTS_H, ++ AVR32_MNEMONIC_CASTU_B, ++ AVR32_MNEMONIC_CASTU_H, ++ AVR32_MNEMONIC_CBR, ++ AVR32_MNEMONIC_CLZ, ++ AVR32_MNEMONIC_COM, ++ AVR32_MNEMONIC_COP, ++ AVR32_MNEMONIC_CP_B, ++ AVR32_MNEMONIC_CP_H, ++ AVR32_MNEMONIC_CP_W, ++ AVR32_MNEMONIC_CP, ++ AVR32_MNEMONIC_CPC, ++ AVR32_MNEMONIC_CSRF, ++ AVR32_MNEMONIC_CSRFCZ, ++ AVR32_MNEMONIC_DIVS, ++ AVR32_MNEMONIC_DIVU, ++ AVR32_MNEMONIC_EOR, ++ AVR32_MNEMONIC_EORL, ++ AVR32_MNEMONIC_EORH, ++ AVR32_MNEMONIC_FRS, ++ AVR32_MNEMONIC_SSCALL, ++ AVR32_MNEMONIC_RETSS, ++ AVR32_MNEMONIC_ICALL, ++ AVR32_MNEMONIC_INCJOSP, ++ AVR32_MNEMONIC_LD_D, ++ AVR32_MNEMONIC_LD_SB, ++ AVR32_MNEMONIC_LD_UB, ++ AVR32_MNEMONIC_LD_SH, ++ AVR32_MNEMONIC_LD_UH, ++ AVR32_MNEMONIC_LD_W, ++ AVR32_MNEMONIC_LDC_D, ++ AVR32_MNEMONIC_LDC_W, ++ AVR32_MNEMONIC_LDC0_D, ++ AVR32_MNEMONIC_LDC0_W, ++ AVR32_MNEMONIC_LDCM_D, ++ AVR32_MNEMONIC_LDCM_W, ++ AVR32_MNEMONIC_LDDPC, ++ AVR32_MNEMONIC_LDDSP, ++ AVR32_MNEMONIC_LDINS_B, ++ AVR32_MNEMONIC_LDINS_H, ++ AVR32_MNEMONIC_LDM, ++ AVR32_MNEMONIC_LDMTS, ++ AVR32_MNEMONIC_LDSWP_SH, ++ AVR32_MNEMONIC_LDSWP_UH, ++ AVR32_MNEMONIC_LDSWP_W, ++ AVR32_MNEMONIC_LSL, ++ AVR32_MNEMONIC_LSR, ++ AVR32_MNEMONIC_MAC, ++ AVR32_MNEMONIC_MACHH_D, ++ AVR32_MNEMONIC_MACHH_W, ++ AVR32_MNEMONIC_MACS_D, ++ AVR32_MNEMONIC_MACSATHH_W, ++ AVR32_MNEMONIC_MACU_D, ++ AVR32_MNEMONIC_MACWH_D, ++ AVR32_MNEMONIC_MAX, ++ AVR32_MNEMONIC_MCALL, ++ AVR32_MNEMONIC_MFDR, ++ AVR32_MNEMONIC_MFSR, ++ AVR32_MNEMONIC_MIN, ++ AVR32_MNEMONIC_MOV, ++ AVR32_MNEMONIC_MOVEQ, ++ AVR32_MNEMONIC_MOVNE, ++ AVR32_MNEMONIC_MOVCC, ++ AVR32_MNEMONIC_MOVCS, ++ AVR32_MNEMONIC_MOVGE, ++ AVR32_MNEMONIC_MOVLT, ++ AVR32_MNEMONIC_MOVMI, ++ AVR32_MNEMONIC_MOVPL, ++ AVR32_MNEMONIC_MOVLS, ++ AVR32_MNEMONIC_MOVGT, ++ AVR32_MNEMONIC_MOVLE, ++ AVR32_MNEMONIC_MOVHI, ++ AVR32_MNEMONIC_MOVVS, ++ AVR32_MNEMONIC_MOVVC, ++ AVR32_MNEMONIC_MOVQS, ++ AVR32_MNEMONIC_MOVAL, ++ AVR32_MNEMONIC_MOVHS, ++ AVR32_MNEMONIC_MOVLO, ++ AVR32_MNEMONIC_MTDR, ++ AVR32_MNEMONIC_MTSR, ++ AVR32_MNEMONIC_MUL, ++ AVR32_MNEMONIC_MULHH_W, ++ AVR32_MNEMONIC_MULNHH_W, ++ AVR32_MNEMONIC_MULNWH_D, ++ AVR32_MNEMONIC_MULS_D, ++ AVR32_MNEMONIC_MULSATHH_H, ++ AVR32_MNEMONIC_MULSATHH_W, ++ AVR32_MNEMONIC_MULSATRNDHH_H, ++ AVR32_MNEMONIC_MULSATRNDWH_W, ++ AVR32_MNEMONIC_MULSATWH_W, ++ AVR32_MNEMONIC_MULU_D, ++ AVR32_MNEMONIC_MULWH_D, ++ AVR32_MNEMONIC_MUSFR, ++ AVR32_MNEMONIC_MUSTR, ++ AVR32_MNEMONIC_MVCR_D, ++ AVR32_MNEMONIC_MVCR_W, ++ AVR32_MNEMONIC_MVRC_D, ++ AVR32_MNEMONIC_MVRC_W, ++ AVR32_MNEMONIC_NEG, ++ AVR32_MNEMONIC_NOP, ++ AVR32_MNEMONIC_OR, ++ AVR32_MNEMONIC_ORH, ++ AVR32_MNEMONIC_ORL, ++ AVR32_MNEMONIC_PABS_SB, ++ AVR32_MNEMONIC_PABS_SH, ++ AVR32_MNEMONIC_PACKSH_SB, ++ AVR32_MNEMONIC_PACKSH_UB, ++ AVR32_MNEMONIC_PACKW_SH, ++ AVR32_MNEMONIC_PADD_B, ++ AVR32_MNEMONIC_PADD_H, ++ AVR32_MNEMONIC_PADDH_SH, ++ AVR32_MNEMONIC_PADDH_UB, ++ AVR32_MNEMONIC_PADDS_SB, ++ AVR32_MNEMONIC_PADDS_SH, ++ AVR32_MNEMONIC_PADDS_UB, ++ AVR32_MNEMONIC_PADDS_UH, ++ AVR32_MNEMONIC_PADDSUB_H, ++ AVR32_MNEMONIC_PADDSUBH_SH, ++ AVR32_MNEMONIC_PADDSUBS_SH, ++ AVR32_MNEMONIC_PADDSUBS_UH, ++ AVR32_MNEMONIC_PADDX_H, ++ AVR32_MNEMONIC_PADDXH_SH, ++ AVR32_MNEMONIC_PADDXS_SH, ++ AVR32_MNEMONIC_PADDXS_UH, ++ AVR32_MNEMONIC_PASR_B, ++ AVR32_MNEMONIC_PASR_H, ++ AVR32_MNEMONIC_PAVG_SH, ++ AVR32_MNEMONIC_PAVG_UB, ++ AVR32_MNEMONIC_PLSL_B, ++ AVR32_MNEMONIC_PLSL_H, ++ AVR32_MNEMONIC_PLSR_B, ++ AVR32_MNEMONIC_PLSR_H, ++ AVR32_MNEMONIC_PMAX_SH, ++ AVR32_MNEMONIC_PMAX_UB, ++ AVR32_MNEMONIC_PMIN_SH, ++ AVR32_MNEMONIC_PMIN_UB, ++ AVR32_MNEMONIC_POPJC, ++ AVR32_MNEMONIC_POPM, ++ AVR32_MNEMONIC_PREF, ++ AVR32_MNEMONIC_PSAD, ++ AVR32_MNEMONIC_PSUB_B, ++ AVR32_MNEMONIC_PSUB_H, ++ AVR32_MNEMONIC_PSUBADD_H, ++ AVR32_MNEMONIC_PSUBADDH_SH, ++ AVR32_MNEMONIC_PSUBADDS_SH, ++ AVR32_MNEMONIC_PSUBADDS_UH, ++ AVR32_MNEMONIC_PSUBH_SH, ++ AVR32_MNEMONIC_PSUBH_UB, ++ AVR32_MNEMONIC_PSUBS_SB, ++ AVR32_MNEMONIC_PSUBS_SH, ++ AVR32_MNEMONIC_PSUBS_UB, ++ AVR32_MNEMONIC_PSUBS_UH, ++ AVR32_MNEMONIC_PSUBX_H, ++ AVR32_MNEMONIC_PSUBXH_SH, ++ AVR32_MNEMONIC_PSUBXS_SH, ++ AVR32_MNEMONIC_PSUBXS_UH, ++ AVR32_MNEMONIC_PUNPCKSB_H, ++ AVR32_MNEMONIC_PUNPCKUB_H, ++ AVR32_MNEMONIC_PUSHJC, ++ AVR32_MNEMONIC_PUSHM, ++ AVR32_MNEMONIC_RCALL, ++ AVR32_MNEMONIC_RETEQ, ++ AVR32_MNEMONIC_RETNE, ++ AVR32_MNEMONIC_RETCC, ++ AVR32_MNEMONIC_RETCS, ++ AVR32_MNEMONIC_RETGE, ++ AVR32_MNEMONIC_RETLT, ++ AVR32_MNEMONIC_RETMI, ++ AVR32_MNEMONIC_RETPL, ++ AVR32_MNEMONIC_RETLS, ++ AVR32_MNEMONIC_RETGT, ++ AVR32_MNEMONIC_RETLE, ++ AVR32_MNEMONIC_RETHI, ++ AVR32_MNEMONIC_RETVS, ++ AVR32_MNEMONIC_RETVC, ++ AVR32_MNEMONIC_RETQS, ++ AVR32_MNEMONIC_RETAL, ++ AVR32_MNEMONIC_RETHS, ++ AVR32_MNEMONIC_RETLO, ++ AVR32_MNEMONIC_RET, ++ AVR32_MNEMONIC_RETD, ++ AVR32_MNEMONIC_RETE, ++ AVR32_MNEMONIC_RETJ, ++ AVR32_MNEMONIC_RETS, ++ AVR32_MNEMONIC_RJMP, ++ AVR32_MNEMONIC_ROL, ++ AVR32_MNEMONIC_ROR, ++ AVR32_MNEMONIC_RSUB, ++ AVR32_MNEMONIC_SATADD_H, ++ AVR32_MNEMONIC_SATADD_W, ++ AVR32_MNEMONIC_SATRNDS, ++ AVR32_MNEMONIC_SATRNDU, ++ AVR32_MNEMONIC_SATS, ++ AVR32_MNEMONIC_SATSUB_H, ++ AVR32_MNEMONIC_SATSUB_W, ++ AVR32_MNEMONIC_SATU, ++ AVR32_MNEMONIC_SBC, ++ AVR32_MNEMONIC_SBR, ++ AVR32_MNEMONIC_SCALL, ++ AVR32_MNEMONIC_SCR, ++ AVR32_MNEMONIC_SLEEP, ++ AVR32_MNEMONIC_SREQ, ++ AVR32_MNEMONIC_SRNE, ++ AVR32_MNEMONIC_SRCC, ++ AVR32_MNEMONIC_SRCS, ++ AVR32_MNEMONIC_SRGE, ++ AVR32_MNEMONIC_SRLT, ++ AVR32_MNEMONIC_SRMI, ++ AVR32_MNEMONIC_SRPL, ++ AVR32_MNEMONIC_SRLS, ++ AVR32_MNEMONIC_SRGT, ++ AVR32_MNEMONIC_SRLE, ++ AVR32_MNEMONIC_SRHI, ++ AVR32_MNEMONIC_SRVS, ++ AVR32_MNEMONIC_SRVC, ++ AVR32_MNEMONIC_SRQS, ++ AVR32_MNEMONIC_SRAL, ++ AVR32_MNEMONIC_SRHS, ++ AVR32_MNEMONIC_SRLO, ++ AVR32_MNEMONIC_SSRF, ++ AVR32_MNEMONIC_ST_B, ++ AVR32_MNEMONIC_ST_D, ++ AVR32_MNEMONIC_ST_H, ++ AVR32_MNEMONIC_ST_W, ++ AVR32_MNEMONIC_STC_D, ++ AVR32_MNEMONIC_STC_W, ++ AVR32_MNEMONIC_STC0_D, ++ AVR32_MNEMONIC_STC0_W, ++ AVR32_MNEMONIC_STCM_D, ++ AVR32_MNEMONIC_STCM_W, ++ AVR32_MNEMONIC_STCOND, ++ AVR32_MNEMONIC_STDSP, ++ AVR32_MNEMONIC_STHH_W, ++ AVR32_MNEMONIC_STM, ++ AVR32_MNEMONIC_STMTS, ++ AVR32_MNEMONIC_STSWP_H, ++ AVR32_MNEMONIC_STSWP_W, ++ AVR32_MNEMONIC_SUB, ++ AVR32_MNEMONIC_SUBEQ, ++ AVR32_MNEMONIC_SUBNE, ++ AVR32_MNEMONIC_SUBCC, ++ AVR32_MNEMONIC_SUBCS, ++ AVR32_MNEMONIC_SUBGE, ++ AVR32_MNEMONIC_SUBLT, ++ AVR32_MNEMONIC_SUBMI, ++ AVR32_MNEMONIC_SUBPL, ++ AVR32_MNEMONIC_SUBLS, ++ AVR32_MNEMONIC_SUBGT, ++ AVR32_MNEMONIC_SUBLE, ++ AVR32_MNEMONIC_SUBHI, ++ AVR32_MNEMONIC_SUBVS, ++ AVR32_MNEMONIC_SUBVC, ++ AVR32_MNEMONIC_SUBQS, ++ AVR32_MNEMONIC_SUBAL, ++ AVR32_MNEMONIC_SUBHS, ++ AVR32_MNEMONIC_SUBLO, ++ AVR32_MNEMONIC_SUBFEQ, ++ AVR32_MNEMONIC_SUBFNE, ++ AVR32_MNEMONIC_SUBFCC, ++ AVR32_MNEMONIC_SUBFCS, ++ AVR32_MNEMONIC_SUBFGE, ++ AVR32_MNEMONIC_SUBFLT, ++ AVR32_MNEMONIC_SUBFMI, ++ AVR32_MNEMONIC_SUBFPL, ++ AVR32_MNEMONIC_SUBFLS, ++ AVR32_MNEMONIC_SUBFGT, ++ AVR32_MNEMONIC_SUBFLE, ++ AVR32_MNEMONIC_SUBFHI, ++ AVR32_MNEMONIC_SUBFVS, ++ AVR32_MNEMONIC_SUBFVC, ++ AVR32_MNEMONIC_SUBFQS, ++ AVR32_MNEMONIC_SUBFAL, ++ AVR32_MNEMONIC_SUBFHS, ++ AVR32_MNEMONIC_SUBFLO, ++ AVR32_MNEMONIC_SUBHH_W, ++ AVR32_MNEMONIC_SWAP_B, ++ AVR32_MNEMONIC_SWAP_BH, ++ AVR32_MNEMONIC_SWAP_H, ++ AVR32_MNEMONIC_SYNC, ++ AVR32_MNEMONIC_TLBR, ++ AVR32_MNEMONIC_TLBS, ++ AVR32_MNEMONIC_TLBW, ++ AVR32_MNEMONIC_TNBZ, ++ AVR32_MNEMONIC_TST, ++ AVR32_MNEMONIC_XCHG, ++ AVR32_MNEMONIC_MEMC, ++ AVR32_MNEMONIC_MEMS, ++ AVR32_MNEMONIC_MEMT, ++ AVR32_MNEMONIC_FMAC_S, ++ AVR32_MNEMONIC_FNMAC_S, ++ AVR32_MNEMONIC_FMSC_S, ++ AVR32_MNEMONIC_FNMSC_S, ++ AVR32_MNEMONIC_FMUL_S, ++ AVR32_MNEMONIC_FNMUL_S, ++ AVR32_MNEMONIC_FADD_S, ++ AVR32_MNEMONIC_FSUB_S, ++ AVR32_MNEMONIC_FCASTRS_SW, ++ AVR32_MNEMONIC_FCASTRS_UW, ++ AVR32_MNEMONIC_FCASTSW_S, ++ AVR32_MNEMONIC_FCASTUW_S, ++ AVR32_MNEMONIC_FCMP_S, ++ AVR32_MNEMONIC_FCHK_S, ++ AVR32_MNEMONIC_FRCPA_S, ++ AVR32_MNEMONIC_FRSQRTA_S, ++ /* AVR32_MNEMONIC_FLD_S, ++ AVR32_MNEMONIC_FLD_D, ++ AVR32_MNEMONIC_FST_S, ++ AVR32_MNEMONIC_FST_D, */ ++ AVR32_MNEMONIC_LDA_W, ++ AVR32_MNEMONIC_CALL, ++ AVR32_MNEMONIC_PICOSVMAC, ++ AVR32_MNEMONIC_PICOSVMUL, ++ AVR32_MNEMONIC_PICOVMAC, ++ AVR32_MNEMONIC_PICOVMUL, ++ AVR32_MNEMONIC_PICOLD_D, ++ AVR32_MNEMONIC_PICOLD_W, ++ AVR32_MNEMONIC_PICOLDM_D, ++ AVR32_MNEMONIC_PICOLDM_W, ++ AVR32_MNEMONIC_PICOMV_D, ++ AVR32_MNEMONIC_PICOMV_W, ++ AVR32_MNEMONIC_PICOST_D, ++ AVR32_MNEMONIC_PICOST_W, ++ AVR32_MNEMONIC_PICOSTM_D, ++ AVR32_MNEMONIC_PICOSTM_W, ++ AVR32_MNEMONIC_RSUBEQ, ++ AVR32_MNEMONIC_RSUBNE, ++ AVR32_MNEMONIC_RSUBCC, ++ AVR32_MNEMONIC_RSUBCS, ++ AVR32_MNEMONIC_RSUBGE, ++ AVR32_MNEMONIC_RSUBLT, ++ AVR32_MNEMONIC_RSUBMI, ++ AVR32_MNEMONIC_RSUBPL, ++ AVR32_MNEMONIC_RSUBLS, ++ AVR32_MNEMONIC_RSUBGT, ++ AVR32_MNEMONIC_RSUBLE, ++ AVR32_MNEMONIC_RSUBHI, ++ AVR32_MNEMONIC_RSUBVS, ++ AVR32_MNEMONIC_RSUBVC, ++ AVR32_MNEMONIC_RSUBQS, ++ AVR32_MNEMONIC_RSUBAL, ++ AVR32_MNEMONIC_RSUBHS, ++ AVR32_MNEMONIC_RSUBLO, ++ AVR32_MNEMONIC_ADDEQ, ++ AVR32_MNEMONIC_ADDNE, ++ AVR32_MNEMONIC_ADDCC, ++ AVR32_MNEMONIC_ADDCS, ++ AVR32_MNEMONIC_ADDGE, ++ AVR32_MNEMONIC_ADDLT, ++ AVR32_MNEMONIC_ADDMI, ++ AVR32_MNEMONIC_ADDPL, ++ AVR32_MNEMONIC_ADDLS, ++ AVR32_MNEMONIC_ADDGT, ++ AVR32_MNEMONIC_ADDLE, ++ AVR32_MNEMONIC_ADDHI, ++ AVR32_MNEMONIC_ADDVS, ++ AVR32_MNEMONIC_ADDVC, ++ AVR32_MNEMONIC_ADDQS, ++ AVR32_MNEMONIC_ADDAL, ++ AVR32_MNEMONIC_ADDHS, ++ AVR32_MNEMONIC_ADDLO, ++ AVR32_MNEMONIC_ANDEQ, ++ AVR32_MNEMONIC_ANDNE, ++ AVR32_MNEMONIC_ANDCC, ++ AVR32_MNEMONIC_ANDCS, ++ AVR32_MNEMONIC_ANDGE, ++ AVR32_MNEMONIC_ANDLT, ++ AVR32_MNEMONIC_ANDMI, ++ AVR32_MNEMONIC_ANDPL, ++ AVR32_MNEMONIC_ANDLS, ++ AVR32_MNEMONIC_ANDGT, ++ AVR32_MNEMONIC_ANDLE, ++ AVR32_MNEMONIC_ANDHI, ++ AVR32_MNEMONIC_ANDVS, ++ AVR32_MNEMONIC_ANDVC, ++ AVR32_MNEMONIC_ANDQS, ++ AVR32_MNEMONIC_ANDAL, ++ AVR32_MNEMONIC_ANDHS, ++ AVR32_MNEMONIC_ANDLO, ++ AVR32_MNEMONIC_OREQ, ++ AVR32_MNEMONIC_ORNE, ++ AVR32_MNEMONIC_ORCC, ++ AVR32_MNEMONIC_ORCS, ++ AVR32_MNEMONIC_ORGE, ++ AVR32_MNEMONIC_ORLT, ++ AVR32_MNEMONIC_ORMI, ++ AVR32_MNEMONIC_ORPL, ++ AVR32_MNEMONIC_ORLS, ++ AVR32_MNEMONIC_ORGT, ++ AVR32_MNEMONIC_ORLE, ++ AVR32_MNEMONIC_ORHI, ++ AVR32_MNEMONIC_ORVS, ++ AVR32_MNEMONIC_ORVC, ++ AVR32_MNEMONIC_ORQS, ++ AVR32_MNEMONIC_ORAL, ++ AVR32_MNEMONIC_ORHS, ++ AVR32_MNEMONIC_ORLO, ++ AVR32_MNEMONIC_EOREQ, ++ AVR32_MNEMONIC_EORNE, ++ AVR32_MNEMONIC_EORCC, ++ AVR32_MNEMONIC_EORCS, ++ AVR32_MNEMONIC_EORGE, ++ AVR32_MNEMONIC_EORLT, ++ AVR32_MNEMONIC_EORMI, ++ AVR32_MNEMONIC_EORPL, ++ AVR32_MNEMONIC_EORLS, ++ AVR32_MNEMONIC_EORGT, ++ AVR32_MNEMONIC_EORLE, ++ AVR32_MNEMONIC_EORHI, ++ AVR32_MNEMONIC_EORVS, ++ AVR32_MNEMONIC_EORVC, ++ AVR32_MNEMONIC_EORQS, ++ AVR32_MNEMONIC_EORAL, ++ AVR32_MNEMONIC_EORHS, ++ AVR32_MNEMONIC_EORLO, ++ AVR32_MNEMONIC_LD_WEQ, ++ AVR32_MNEMONIC_LD_WNE, ++ AVR32_MNEMONIC_LD_WCC, ++ AVR32_MNEMONIC_LD_WCS, ++ AVR32_MNEMONIC_LD_WGE, ++ AVR32_MNEMONIC_LD_WLT, ++ AVR32_MNEMONIC_LD_WMI, ++ AVR32_MNEMONIC_LD_WPL, ++ AVR32_MNEMONIC_LD_WLS, ++ AVR32_MNEMONIC_LD_WGT, ++ AVR32_MNEMONIC_LD_WLE, ++ AVR32_MNEMONIC_LD_WHI, ++ AVR32_MNEMONIC_LD_WVS, ++ AVR32_MNEMONIC_LD_WVC, ++ AVR32_MNEMONIC_LD_WQS, ++ AVR32_MNEMONIC_LD_WAL, ++ AVR32_MNEMONIC_LD_WHS, ++ AVR32_MNEMONIC_LD_WLO, ++ AVR32_MNEMONIC_LD_SHEQ, ++ AVR32_MNEMONIC_LD_SHNE, ++ AVR32_MNEMONIC_LD_SHCC, ++ AVR32_MNEMONIC_LD_SHCS, ++ AVR32_MNEMONIC_LD_SHGE, ++ AVR32_MNEMONIC_LD_SHLT, ++ AVR32_MNEMONIC_LD_SHMI, ++ AVR32_MNEMONIC_LD_SHPL, ++ AVR32_MNEMONIC_LD_SHLS, ++ AVR32_MNEMONIC_LD_SHGT, ++ AVR32_MNEMONIC_LD_SHLE, ++ AVR32_MNEMONIC_LD_SHHI, ++ AVR32_MNEMONIC_LD_SHVS, ++ AVR32_MNEMONIC_LD_SHVC, ++ AVR32_MNEMONIC_LD_SHQS, ++ AVR32_MNEMONIC_LD_SHAL, ++ AVR32_MNEMONIC_LD_SHHS, ++ AVR32_MNEMONIC_LD_SHLO, ++ AVR32_MNEMONIC_LD_UHEQ, ++ AVR32_MNEMONIC_LD_UHNE, ++ AVR32_MNEMONIC_LD_UHCC, ++ AVR32_MNEMONIC_LD_UHCS, ++ AVR32_MNEMONIC_LD_UHGE, ++ AVR32_MNEMONIC_LD_UHLT, ++ AVR32_MNEMONIC_LD_UHMI, ++ AVR32_MNEMONIC_LD_UHPL, ++ AVR32_MNEMONIC_LD_UHLS, ++ AVR32_MNEMONIC_LD_UHGT, ++ AVR32_MNEMONIC_LD_UHLE, ++ AVR32_MNEMONIC_LD_UHHI, ++ AVR32_MNEMONIC_LD_UHVS, ++ AVR32_MNEMONIC_LD_UHVC, ++ AVR32_MNEMONIC_LD_UHQS, ++ AVR32_MNEMONIC_LD_UHAL, ++ AVR32_MNEMONIC_LD_UHHS, ++ AVR32_MNEMONIC_LD_UHLO, ++ AVR32_MNEMONIC_LD_SBEQ, ++ AVR32_MNEMONIC_LD_SBNE, ++ AVR32_MNEMONIC_LD_SBCC, ++ AVR32_MNEMONIC_LD_SBCS, ++ AVR32_MNEMONIC_LD_SBGE, ++ AVR32_MNEMONIC_LD_SBLT, ++ AVR32_MNEMONIC_LD_SBMI, ++ AVR32_MNEMONIC_LD_SBPL, ++ AVR32_MNEMONIC_LD_SBLS, ++ AVR32_MNEMONIC_LD_SBGT, ++ AVR32_MNEMONIC_LD_SBLE, ++ AVR32_MNEMONIC_LD_SBHI, ++ AVR32_MNEMONIC_LD_SBVS, ++ AVR32_MNEMONIC_LD_SBVC, ++ AVR32_MNEMONIC_LD_SBQS, ++ AVR32_MNEMONIC_LD_SBAL, ++ AVR32_MNEMONIC_LD_SBHS, ++ AVR32_MNEMONIC_LD_SBLO, ++ AVR32_MNEMONIC_LD_UBEQ, ++ AVR32_MNEMONIC_LD_UBNE, ++ AVR32_MNEMONIC_LD_UBCC, ++ AVR32_MNEMONIC_LD_UBCS, ++ AVR32_MNEMONIC_LD_UBGE, ++ AVR32_MNEMONIC_LD_UBLT, ++ AVR32_MNEMONIC_LD_UBMI, ++ AVR32_MNEMONIC_LD_UBPL, ++ AVR32_MNEMONIC_LD_UBLS, ++ AVR32_MNEMONIC_LD_UBGT, ++ AVR32_MNEMONIC_LD_UBLE, ++ AVR32_MNEMONIC_LD_UBHI, ++ AVR32_MNEMONIC_LD_UBVS, ++ AVR32_MNEMONIC_LD_UBVC, ++ AVR32_MNEMONIC_LD_UBQS, ++ AVR32_MNEMONIC_LD_UBAL, ++ AVR32_MNEMONIC_LD_UBHS, ++ AVR32_MNEMONIC_LD_UBLO, ++ AVR32_MNEMONIC_ST_WEQ, ++ AVR32_MNEMONIC_ST_WNE, ++ AVR32_MNEMONIC_ST_WCC, ++ AVR32_MNEMONIC_ST_WCS, ++ AVR32_MNEMONIC_ST_WGE, ++ AVR32_MNEMONIC_ST_WLT, ++ AVR32_MNEMONIC_ST_WMI, ++ AVR32_MNEMONIC_ST_WPL, ++ AVR32_MNEMONIC_ST_WLS, ++ AVR32_MNEMONIC_ST_WGT, ++ AVR32_MNEMONIC_ST_WLE, ++ AVR32_MNEMONIC_ST_WHI, ++ AVR32_MNEMONIC_ST_WVS, ++ AVR32_MNEMONIC_ST_WVC, ++ AVR32_MNEMONIC_ST_WQS, ++ AVR32_MNEMONIC_ST_WAL, ++ AVR32_MNEMONIC_ST_WHS, ++ AVR32_MNEMONIC_ST_WLO, ++ AVR32_MNEMONIC_ST_HEQ, ++ AVR32_MNEMONIC_ST_HNE, ++ AVR32_MNEMONIC_ST_HCC, ++ AVR32_MNEMONIC_ST_HCS, ++ AVR32_MNEMONIC_ST_HGE, ++ AVR32_MNEMONIC_ST_HLT, ++ AVR32_MNEMONIC_ST_HMI, ++ AVR32_MNEMONIC_ST_HPL, ++ AVR32_MNEMONIC_ST_HLS, ++ AVR32_MNEMONIC_ST_HGT, ++ AVR32_MNEMONIC_ST_HLE, ++ AVR32_MNEMONIC_ST_HHI, ++ AVR32_MNEMONIC_ST_HVS, ++ AVR32_MNEMONIC_ST_HVC, ++ AVR32_MNEMONIC_ST_HQS, ++ AVR32_MNEMONIC_ST_HAL, ++ AVR32_MNEMONIC_ST_HHS, ++ AVR32_MNEMONIC_ST_HLO, ++ AVR32_MNEMONIC_ST_BEQ, ++ AVR32_MNEMONIC_ST_BNE, ++ AVR32_MNEMONIC_ST_BCC, ++ AVR32_MNEMONIC_ST_BCS, ++ AVR32_MNEMONIC_ST_BGE, ++ AVR32_MNEMONIC_ST_BLT, ++ AVR32_MNEMONIC_ST_BMI, ++ AVR32_MNEMONIC_ST_BPL, ++ AVR32_MNEMONIC_ST_BLS, ++ AVR32_MNEMONIC_ST_BGT, ++ AVR32_MNEMONIC_ST_BLE, ++ AVR32_MNEMONIC_ST_BHI, ++ AVR32_MNEMONIC_ST_BVS, ++ AVR32_MNEMONIC_ST_BVC, ++ AVR32_MNEMONIC_ST_BQS, ++ AVR32_MNEMONIC_ST_BAL, ++ AVR32_MNEMONIC_ST_BHS, ++ AVR32_MNEMONIC_ST_BLO, ++ AVR32_MNEMONIC_MOVH, ++ AVR32_MNEMONIC__END_ ++}; ++#define AVR32_NR_MNEMONICS AVR32_MNEMONIC__END_ ++ ++enum avr32_syntax_parser ++ { ++ AVR32_PARSER_NORMAL, ++ AVR32_PARSER_ALIAS, ++ AVR32_PARSER_LDA, ++ AVR32_PARSER_CALL, ++ AVR32_PARSER__END_ ++ }; ++#define AVR32_NR_PARSERS AVR32_PARSER__END_ +--- a/opcodes/configure ++++ b/opcodes/configure +@@ -12417,6 +12417,7 @@ if test x${all_targets} = xfalse ; then + bfd_arc_arch) ta="$ta arc-dis.lo arc-opc.lo arc-ext.lo" ;; + bfd_arm_arch) ta="$ta arm-dis.lo" ;; + bfd_avr_arch) ta="$ta avr-dis.lo" ;; ++ bfd_avr32_arch) ta="$ta avr32-asm.lo avr32-dis.lo avr32-opc.lo" ;; + bfd_bfin_arch) ta="$ta bfin-dis.lo" ;; + bfd_cr16_arch) ta="$ta cr16-dis.lo cr16-opc.lo" ;; + bfd_cris_arch) ta="$ta cris-dis.lo cris-opc.lo cgen-bitset.lo" ;; +--- a/opcodes/configure.in ++++ b/opcodes/configure.in +@@ -223,6 +223,7 @@ if test x${all_targets} = xfalse ; then + bfd_arc_arch) ta="$ta arc-dis.lo arc-opc.lo arc-ext.lo" ;; + bfd_arm_arch) ta="$ta arm-dis.lo" ;; + bfd_avr_arch) ta="$ta avr-dis.lo" ;; ++ bfd_avr32_arch) ta="$ta avr32-asm.lo avr32-dis.lo avr32-opc.lo" ;; + bfd_bfin_arch) ta="$ta bfin-dis.lo" ;; + bfd_cr16_arch) ta="$ta cr16-dis.lo cr16-opc.lo" ;; + bfd_cris_arch) ta="$ta cris-dis.lo cris-opc.lo cgen-bitset.lo" ;; +@@ -285,7 +286,7 @@ if test x${all_targets} = xfalse ; then + ta="$ta sh64-dis.lo sh64-opc.lo" + archdefs="$archdefs -DINCLUDE_SHMEDIA" + break;; +- esac; ++ esac + done + ta="$ta sh-dis.lo cgen-bitset.lo" ;; + bfd_sparc_arch) ta="$ta sparc-dis.lo sparc-opc.lo" ;; +--- a/opcodes/disassemble.c ++++ b/opcodes/disassemble.c +@@ -27,6 +27,7 @@ + #define ARCH_arc + #define ARCH_arm + #define ARCH_avr ++#define ARCH_avr32 + #define ARCH_bfin + #define ARCH_cr16 + #define ARCH_cris +@@ -130,6 +131,11 @@ disassembler (abfd) + disassemble = print_insn_avr; + break; + #endif ++#ifdef ARCH_avr32 ++ case bfd_arch_avr32: ++ disassemble = print_insn_avr32; ++ break; ++#endif + #ifdef ARCH_bfin + case bfd_arch_bfin: + disassemble = print_insn_bfin; +@@ -489,6 +495,9 @@ disassembler_usage (stream) + #ifdef ARCH_i386 + print_i386_disassembler_options (stream); + #endif ++#ifdef ARCH_avr32 ++ print_avr32_disassembler_options (stream); ++#endif + #ifdef ARCH_s390 + print_s390_disassembler_options (stream); + #endif +--- a/bfd/elf32-avr32.c ++++ b/bfd/elf32-avr32.c +@@ -352,7 +352,8 @@ struct elf_avr32_link_hash_table + unsigned int relax_pass; + }; + #define avr32_elf_hash_table(p) \ +- ((struct elf_avr32_link_hash_table *)((p)->hash)) ++ (elf_hash_table_id ((struct elf_link_hash_table *) ((p)->hash)) \ ++ == AVR32_ELF_DATA ? ((struct elf_avr32_link_hash_table *) ((p)->hash)) : NULL) + + static struct bfd_hash_entry * + avr32_elf_link_hash_newfunc(struct bfd_hash_entry *entry, +@@ -414,7 +415,8 @@ avr32_elf_link_hash_table_create(bfd *ab + + if (! _bfd_elf_link_hash_table_init(&ret->root, abfd, + avr32_elf_link_hash_newfunc, +- sizeof (struct elf_avr32_link_hash_entry))) ++ sizeof (struct elf_avr32_link_hash_entry), ++ AVR32_ELF_DATA)) + { + free(ret); + return NULL; +@@ -497,6 +499,9 @@ avr32_elf_create_got_section (bfd *dynob + htab = avr32_elf_hash_table(info); + flags = bed->dynamic_sec_flags; + ++ if (htab == NULL) ++ return FALSE; ++ + if (htab->sgot) + return TRUE; + +@@ -534,6 +539,9 @@ avr32_elf_create_dynamic_sections (bfd * + htab = avr32_elf_hash_table(info); + flags = bed->dynamic_sec_flags; + ++ if (htab == NULL) ++ return FALSE; ++ + if (!avr32_elf_create_got_section (dynobj, info)) + return FALSE; + +@@ -574,6 +582,9 @@ avr32_check_relocs (bfd *abfd, struct bf + symtab_hdr = &elf_tdata(abfd)->symtab_hdr; + sym_hashes = elf_sym_hashes(abfd); + htab = avr32_elf_hash_table(info); ++ if (htab == NULL) ++ return FALSE; ++ + local_got_ents = elf_local_got_ents(abfd); + sgot = htab->sgot; + +@@ -756,6 +767,9 @@ avr32_elf_adjust_dynamic_symbol(struct b + havr = (struct elf_avr32_link_hash_entry *)h; + dynobj = elf_hash_table(info)->dynobj; + ++ if (htab == NULL) ++ return FALSE; ++ + /* Make sure we know what is going on here. */ + BFD_ASSERT (dynobj != NULL + && (h->u.weakdef != NULL +@@ -1066,6 +1080,9 @@ allocate_dynrelocs(struct elf_link_hash_ + htab = avr32_elf_hash_table(info); + havr = (struct elf_avr32_link_hash_entry *)h; + ++ if (htab == NULL) ++ return FALSE; ++ + got = h->got.glist; + + /* If got is NULL, the symbol is never referenced through the GOT */ +@@ -1117,6 +1134,9 @@ avr32_elf_size_dynamic_sections (bfd *ou + pr_debug("(4) size dynamic sections\n"); + + htab = avr32_elf_hash_table(info); ++ if (htab == NULL) ++ return FALSE; ++ + dynobj = htab->root.dynobj; + BFD_ASSERT(dynobj != NULL); + +@@ -3260,6 +3280,9 @@ avr32_elf_relocate_section(bfd *output_b + return TRUE; + + htab = avr32_elf_hash_table(info); ++ if (htab == NULL) ++ return FALSE; ++ + symtab_hdr = &elf_tdata(input_bfd)->symtab_hdr; + sym_hashes = elf_sym_hashes(input_bfd); + local_got_ents = elf_local_got_ents(input_bfd); +@@ -3582,6 +3605,9 @@ avr32_elf_finish_dynamic_symbol(bfd *out + pr_debug("(7) finish dynamic symbol: %s\n", h->root.root.string); + + htab = avr32_elf_hash_table(info); ++ if (htab == NULL) ++ return FALSE; ++ + got = h->got.glist; + + if (got && got->refcount > 0) +@@ -3648,6 +3674,9 @@ avr32_elf_finish_dynamic_sections(bfd *o + pr_debug("(8) finish dynamic sections\n"); + + htab = avr32_elf_hash_table(info); ++ if (htab == NULL) ++ return FALSE; ++ + sgot = htab->sgot; + sdyn = bfd_get_section_by_name(htab->root.dynobj, ".dynamic"); + diff --git a/toolchain/binutils/patches/2.21/110-arm-eabi-conf.patch b/toolchain/binutils/patches/2.21/110-arm-eabi-conf.patch new file mode 100644 index 000000000..7a3dc8da9 --- /dev/null +++ b/toolchain/binutils/patches/2.21/110-arm-eabi-conf.patch @@ -0,0 +1,22 @@ +--- a/configure ++++ b/configure +@@ -3180,7 +3180,7 @@ case "${target}" in + noconfigdirs="$noconfigdirs target-libffi target-qthreads" + libgloss_dir=arm + ;; +- arm*-*-linux-gnueabi) ++ arm*-*-linux-*gnueabi) + noconfigdirs="$noconfigdirs target-qthreads" + case ${with_newlib} in + no) noconfigdirs="$noconfigdirs target-newlib target-libgloss" +--- a/configure.ac ++++ b/configure.ac +@@ -652,7 +652,7 @@ case "${target}" in + noconfigdirs="$noconfigdirs target-libffi target-qthreads" + libgloss_dir=arm + ;; +- arm*-*-linux-gnueabi) ++ arm*-*-linux-*gnueabi) + noconfigdirs="$noconfigdirs target-qthreads" + case ${with_newlib} in + no) noconfigdirs="$noconfigdirs target-newlib target-libgloss" diff --git a/toolchain/binutils/patches/2.21/111-pr7093.elf32-arm.c.patch b/toolchain/binutils/patches/2.21/111-pr7093.elf32-arm.c.patch new file mode 100644 index 000000000..7d6cb7ba7 --- /dev/null +++ b/toolchain/binutils/patches/2.21/111-pr7093.elf32-arm.c.patch @@ -0,0 +1,13 @@ +--- a/bfd/elf32-arm.c ++++ b/bfd/elf32-arm.c +@@ -5631,6 +5631,10 @@ bfd_elf32_arm_init_maps (bfd *abfd) + if (! is_arm_elf (abfd)) + return; + ++ /* PR 7093: Make sure that we are dealing with an arm elf binary. */ ++ if (! is_arm_elf (abfd)) ++ return; ++ + if ((abfd->flags & DYNAMIC) != 0) + return; + diff --git a/toolchain/binutils/patches/2.21/112-arm-uclibc-gas-needs-libm.patch b/toolchain/binutils/patches/2.21/112-arm-uclibc-gas-needs-libm.patch new file mode 100644 index 000000000..636639221 --- /dev/null +++ b/toolchain/binutils/patches/2.21/112-arm-uclibc-gas-needs-libm.patch @@ -0,0 +1,35 @@ +Source: Khem Raj +Disposition: submit upstream. + +Description: + +We do not need to have the libtool patch anymore for binutils after +libtool has been updated upstream it include support for it. However +for building gas natively on uclibc systems we have to link it with +-lm so that it picks up missing symbols. + +/local/build_area/BUILD/arm_v5t_le_uclibc/binutils-2.17.50/objdir/libiberty/pic/libiberty.a(floatformat.o): In function `floatformat_from_double': +floatformat.c:(.text+0x1ec): undefined reference to `frexp' +floatformat.c:(.text+0x2f8): undefined reference to `ldexp' +/local/build_area/BUILD/arm_v5t_le_uclibc/binutils-2.17.50/objdir/libiberty/pic/libiberty.a(floatformat.o): In function `floatformat_to_double': +floatformat.c:(.text+0x38a): undefined reference to `ldexp' +floatformat.c:(.text+0x3d2): undefined reference to `ldexp' +floatformat.c:(.text+0x43e): undefined reference to `ldexp' floatformat.c:(.text+0x4e2): undefined reference to `ldexp' +collect2: ld returned 1 exit status +make[4]: *** [as-new] Error 1 + +--- a/gas/configure.tgt ++++ b/gas/configure.tgt +@@ -431,6 +431,12 @@ case ${generic_target} in + *-*-netware) fmt=elf em=netware ;; + esac + ++case ${generic_target} in ++ arm-*-*uclibc*) ++ need_libm=yes ++ ;; ++esac ++ + case ${cpu_type} in + alpha | arm | i386 | ia64 | microblaze | mips | ns32k | pdp11 | ppc | sparc | z80 | z8k) + bfd_gas=yes diff --git a/toolchain/binutils/patches/2.21/120-sh-conf.patch b/toolchain/binutils/patches/2.21/120-sh-conf.patch new file mode 100644 index 000000000..caef550d8 --- /dev/null +++ b/toolchain/binutils/patches/2.21/120-sh-conf.patch @@ -0,0 +1,40 @@ +--- a/configure ++++ b/configure +@@ -3148,7 +3148,7 @@ case "${target}" in + am33_2.0-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; +- sh-*-linux*) ++ sh*-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; + sh*-*-pe|mips*-*-pe|*arm-wince-pe) +@@ -3487,7 +3487,7 @@ case "${target}" in + romp-*-*) + noconfigdirs="$noconfigdirs bfd binutils ld gas opcodes target-libgloss ${libgcj}" + ;; +- sh-*-* | sh64-*-*) ++ sh*-*-* | sh64-*-*) + case "${host}" in + i[3456789]86-*-vsta) ;; # don't add gprof back in + i[3456789]86-*-go32*) ;; # don't add gprof back in +--- a/configure.ac ++++ b/configure.ac +@@ -620,7 +620,7 @@ case "${target}" in + am33_2.0-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; +- sh-*-linux*) ++ sh*-*-linux*) + noconfigdirs="$noconfigdirs ${libgcj} target-newlib target-libgloss" + ;; + sh*-*-pe|mips*-*-pe|*arm-wince-pe) +@@ -959,7 +959,7 @@ case "${target}" in + romp-*-*) + noconfigdirs="$noconfigdirs bfd binutils ld gas opcodes target-libgloss ${libgcj}" + ;; +- sh-*-* | sh64-*-*) ++ sh*-*-* | sh64-*-*) + case "${host}" in + i[[3456789]]86-*-vsta) ;; # don't add gprof back in + i[[3456789]]86-*-go32*) ;; # don't add gprof back in diff --git a/toolchain/binutils/patches/2.21/200-mips_non_pic.patch b/toolchain/binutils/patches/2.21/200-mips_non_pic.patch new file mode 100644 index 000000000..298f3cbfd --- /dev/null +++ b/toolchain/binutils/patches/2.21/200-mips_non_pic.patch @@ -0,0 +1,209 @@ +--- a/bfd/elf32-mips.c ++++ b/bfd/elf32-mips.c +@@ -1663,6 +1663,15 @@ static const struct ecoff_debug_swap mip + #define elf_backend_plt_readonly 1 + #define elf_backend_plt_sym_val _bfd_mips_elf_plt_sym_val + ++/* Most MIPS ELF files do not contain a traditional PLT; only VxWorks ++ and non-PIC dynamic executables do. These settings only affect ++ _bfd_elf_create_dynamic_sections, which is only called when we ++ do want a traditional PLT. */ ++#undef elf_backend_want_plt_sym ++#define elf_backend_want_plt_sym 1 ++#undef elf_backend_plt_readonly ++#define elf_backend_plt_readonly 1 ++ + #define elf_backend_discard_info _bfd_mips_elf_discard_info + #define elf_backend_ignore_discarded_relocs \ + _bfd_mips_elf_ignore_discarded_relocs +@@ -1686,6 +1695,8 @@ static const struct ecoff_debug_swap mip + #define bfd_elf32_bfd_print_private_bfd_data \ + _bfd_mips_elf_print_private_bfd_data + ++#define elf_backend_plt_sym_val _bfd_mips_elf_plt_sym_val ++ + /* Support for SGI-ish mips targets. */ + #define TARGET_LITTLE_SYM bfd_elf32_littlemips_vec + #define TARGET_LITTLE_NAME "elf32-littlemips" +@@ -1789,6 +1800,7 @@ mips_vxworks_final_write_processing (bfd + #undef elf_backend_additional_program_headers + #undef elf_backend_modify_segment_map + #undef elf_backend_symbol_processing ++#undef elf_backend_plt_sym_val + /* NOTE: elf_backend_rela_normal is not defined for MIPS. */ + + #include "elf32-target.h" +--- a/bfd/elfxx-mips.c ++++ b/bfd/elfxx-mips.c +@@ -713,6 +713,11 @@ static bfd *reldyn_sorting_bfd; + /* Nonzero if ABFD is using NewABI conventions. */ + #define NEWABI_P(abfd) (ABI_N32_P (abfd) || ABI_64_P (abfd)) + ++/* Nonzero if ABFD is a non-PIC object. */ ++#define NON_PIC_P(abfd) \ ++ (((elf_elfheader (abfd)->e_flags & EF_MIPS_PIC) == 0) \ ++ && ((elf_elfheader (abfd)->e_flags & EF_MIPS_CPIC) == EF_MIPS_CPIC)) ++ + /* The IRIX compatibility level we are striving for. */ + #define IRIX_COMPAT(abfd) \ + (get_elf_backend_data (abfd)->elf_backend_mips_irix_compat (abfd)) +@@ -725,6 +730,9 @@ static bfd *reldyn_sorting_bfd; + #define MIPS_ELF_OPTIONS_SECTION_NAME(abfd) \ + (NEWABI_P (abfd) ? ".MIPS.options" : ".options") + ++/* The name of the section holding non-PIC to PIC call stubs. */ ++#define NON_PIC_TO_PIC_STUB_SECTION_NAME ".MIPS.pic_stubs" ++ + /* True if NAME is the recognized name of any SHT_MIPS_OPTIONS section. + Some IRIX system files do not use MIPS_ELF_OPTIONS_SECTION_NAME. */ + #define MIPS_ELF_OPTIONS_SECTION_NAME_P(NAME) \ +@@ -7686,7 +7694,9 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + + /* We need a stub, not a plt entry for the undefined + function. But we record it as if it needs plt. See +- _bfd_elf_adjust_dynamic_symbol. */ ++ _bfd_elf_adjust_dynamic_symbol. Note that these relocations ++ are always used for PIC calls, even when using the new ++ non-PIC ABI. */ + h->needs_plt = 1; + h->type = STT_FUNC; + } +@@ -7793,6 +7803,8 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + case R_MIPS_32: + case R_MIPS_REL32: + case R_MIPS_64: ++ if (h != NULL) ++ h->non_got_ref = TRUE; + /* In VxWorks executables, references to external symbols + are handled using copy relocs or PLT stubs, so there's + no need to add a .rela.dyn entry for this relocation. */ +@@ -7848,11 +7860,21 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + case R_MIPS_GPREL16: + case R_MIPS_LITERAL: + case R_MIPS_GPREL32: ++ if (h != NULL ++ && (r_type == R_MIPS_GPREL16 || r_type == R_MIPS_GPREL32)) ++ h->non_got_ref = TRUE; ++ + if (SGI_COMPAT (abfd)) + mips_elf_hash_table (info)->compact_rel_size += + sizeof (Elf32_External_crinfo); + break; + ++ case R_MIPS_HI16: ++ case R_MIPS_LO16: ++ if (h != NULL && strcmp (h->root.root.string, "_gp_disp") != 0) ++ h->non_got_ref = TRUE; ++ break; ++ + /* This relocation describes the C++ object vtable hierarchy. + Reconstruct it for later use during GC. */ + case R_MIPS_GNU_VTINHERIT: +@@ -7875,20 +7897,20 @@ _bfd_mips_elf_check_relocs (bfd *abfd, s + + /* We must not create a stub for a symbol that has relocations + related to taking the function's address. This doesn't apply to +- VxWorks, where CALL relocs refer to a .got.plt entry instead of +- a normal .got entry. */ ++ VxWorks or the non-PIC ABI, where CALL relocs refer to a ++ .got.plt entry instead of a normal .got entry. */ + if (!htab->is_vxworks && h != NULL) + switch (r_type) + { +- default: +- ((struct mips_elf_link_hash_entry *) h)->no_fn_stub = TRUE; +- break; + case R_MIPS16_CALL16: + case R_MIPS_CALL16: + case R_MIPS_CALL_HI16: + case R_MIPS_CALL_LO16: + case R_MIPS_JALR: + break; ++ default: ++ ((struct mips_elf_link_hash_entry *) h)->no_fn_stub = TRUE; ++ break; + } + + /* See if this reloc would need to refer to a MIPS16 hard-float stub, +@@ -12601,7 +12623,9 @@ _bfd_mips_elf_merge_private_bfd_data (bf + break; + } + } +- if (null_input_bfd) ++ /* Dynamic objects normally have no sections, and do not reach ++ here - but they might if used as DYNOBJ. */ ++ if (null_input_bfd || (ibfd->flags & DYNAMIC) != 0) + return TRUE; + + ok = TRUE; +--- a/bfd/elfxx-mips.h ++++ b/bfd/elfxx-mips.h +@@ -64,6 +64,9 @@ extern bfd_boolean _bfd_mips_elf_finish_ + extern bfd_boolean _bfd_mips_vxworks_finish_dynamic_symbol + (bfd *, struct bfd_link_info *, struct elf_link_hash_entry *, + Elf_Internal_Sym *); ++extern bfd_boolean _bfd_mips_nonpic_finish_dynamic_symbol ++ (bfd *, struct bfd_link_info *, struct elf_link_hash_entry *, ++ Elf_Internal_Sym *); + extern bfd_boolean _bfd_mips_elf_finish_dynamic_sections + (bfd *, struct bfd_link_info *); + extern void _bfd_mips_elf_final_write_processing +@@ -158,6 +161,15 @@ gprel16_reloc_p (unsigned int r_type) + return r_type == R_MIPS_GPREL16 || r_type == R_MIPS16_GPREL; + } + ++extern bfd_vma _bfd_mips_elf_plt_sym_val ++ (bfd_vma, const asection *, const arelent *); ++extern void _bfd_mips_elf_begin_write_processing ++ (bfd *abfd, struct bfd_link_info *link_info); ++extern bfd_boolean bfd_mips_elf_maybe_create_non_pic_to_pic_stubs_section ++ (struct bfd_link_info *); ++extern void _bfd_mips_post_process_headers ++ (bfd *abfd, struct bfd_link_info *link_info); ++ + #define elf_backend_common_definition _bfd_mips_elf_common_definition + #define elf_backend_name_local_section_symbols \ + _bfd_mips_elf_name_local_section_symbols +--- a/gas/config/tc-mips.c ++++ b/gas/config/tc-mips.c +@@ -1900,6 +1900,12 @@ md_begin (void) + as_bad (_("-G may not be used in position-independent code")); + g_switch_value = 0; + } ++ else if (mips_abicalls) ++ { ++ if (g_switch_seen && g_switch_value != 0) ++ as_bad (_("-G may not be used with abicalls")); ++ g_switch_value = 0; ++ } + + if (! bfd_set_arch_mach (stdoutput, bfd_arch_mips, file_mips_arch)) + as_warn (_("Could not set architecture and machine")); +@@ -11270,6 +11276,7 @@ enum options + OPTION_PDR, + OPTION_NO_PDR, + OPTION_MVXWORKS_PIC, ++ OPTION_NON_PIC_ABICALLS, + #endif /* OBJ_ELF */ + OPTION_END_OF_ENUM + }; +@@ -11377,6 +11384,7 @@ struct option md_longopts[] = + {"mpdr", no_argument, NULL, OPTION_PDR}, + {"mno-pdr", no_argument, NULL, OPTION_NO_PDR}, + {"mvxworks-pic", no_argument, NULL, OPTION_MVXWORKS_PIC}, ++ {"mnon-pic-abicalls", no_argument, NULL, OPTION_NON_PIC_ABICALLS}, + #endif /* OBJ_ELF */ + + {NULL, no_argument, NULL, 0} +@@ -11825,6 +11833,11 @@ md_parse_option (int c, char *arg) + case OPTION_MVXWORKS_PIC: + mips_pic = VXWORKS_PIC; + break; ++ ++ case OPTION_NON_PIC_ABICALLS: ++ mips_pic = NO_PIC; ++ mips_abicalls = TRUE; ++ break; + #endif /* OBJ_ELF */ + + default: diff --git a/toolchain/binutils/patches/2.21/300-001_ld_makefile_patch.patch b/toolchain/binutils/patches/2.21/300-001_ld_makefile_patch.patch new file mode 100644 index 000000000..275987269 --- /dev/null +++ b/toolchain/binutils/patches/2.21/300-001_ld_makefile_patch.patch @@ -0,0 +1,22 @@ +--- a/ld/Makefile.am ++++ b/ld/Makefile.am +@@ -37,7 +37,7 @@ endif + # We put the scripts in the directory $(scriptdir)/ldscripts. + # We can't put the scripts in $(datadir) because the SEARCH_DIR + # directives need to be different for native and cross linkers. +-scriptdir = $(tooldir)/lib ++scriptdir = $(libdir) + + EMUL = @EMUL@ + EMULATION_OFILES = @EMULATION_OFILES@ +--- a/ld/Makefile.in ++++ b/ld/Makefile.in +@@ -360,7 +360,7 @@ AM_CFLAGS = $(WARN_CFLAGS) + # We put the scripts in the directory $(scriptdir)/ldscripts. + # We can't put the scripts in $(datadir) because the SEARCH_DIR + # directives need to be different for native and cross linkers. +-scriptdir = $(tooldir)/lib ++scriptdir = $(libdir) + BASEDIR = $(srcdir)/.. + BFDDIR = $(BASEDIR)/bfd + INCDIR = $(BASEDIR)/include diff --git a/toolchain/binutils/patches/2.21/300-012_check_ldrunpath_length.patch b/toolchain/binutils/patches/2.21/300-012_check_ldrunpath_length.patch new file mode 100644 index 000000000..3746f0307 --- /dev/null +++ b/toolchain/binutils/patches/2.21/300-012_check_ldrunpath_length.patch @@ -0,0 +1,20 @@ +--- a/ld/emultempl/elf32.em ++++ b/ld/emultempl/elf32.em +@@ -1270,6 +1270,8 @@ fragment <link_next) + if (bfd_get_flavour (abfd) == bfd_target_elf_flavour) diff --git a/toolchain/binutils/patches/2.21/700-avr32.patch b/toolchain/binutils/patches/2.21/700-avr32.patch new file mode 100644 index 000000000..b33a3b267 --- /dev/null +++ b/toolchain/binutils/patches/2.21/700-avr32.patch @@ -0,0 +1,30879 @@ +--- a/bfd/archures.c ++++ b/bfd/archures.c +@@ -373,6 +373,12 @@ DESCRIPTION + .#define bfd_mach_avr5 5 + .#define bfd_mach_avr51 51 + .#define bfd_mach_avr6 6 ++. bfd_arch_avr32, {* Atmel AVR32 *} ++.#define bfd_mach_avr32_ap 7000 ++.#define bfd_mach_avr32_uc 3000 ++.#define bfd_mach_avr32_ucr1 3001 ++.#define bfd_mach_avr32_ucr2 3002 ++.#define bfd_mach_avr32_ucr3 3003 + . bfd_arch_bfin, {* ADI Blackfin *} + .#define bfd_mach_bfin 1 + . bfd_arch_cr16, {* National Semiconductor CompactRISC (ie CR16). *} +@@ -469,6 +475,7 @@ extern const bfd_arch_info_type bfd_alph + extern const bfd_arch_info_type bfd_arc_arch; + extern const bfd_arch_info_type bfd_arm_arch; + extern const bfd_arch_info_type bfd_avr_arch; ++extern const bfd_arch_info_type bfd_avr32_arch; + extern const bfd_arch_info_type bfd_bfin_arch; + extern const bfd_arch_info_type bfd_cr16_arch; + extern const bfd_arch_info_type bfd_cr16c_arch; +@@ -546,6 +553,7 @@ static const bfd_arch_info_type * const + &bfd_arc_arch, + &bfd_arm_arch, + &bfd_avr_arch, ++ &bfd_avr32_arch, + &bfd_bfin_arch, + &bfd_cr16_arch, + &bfd_cr16c_arch, +--- a/bfd/bfd-in2.h ++++ b/bfd/bfd-in2.h +@@ -2053,6 +2053,12 @@ enum bfd_architecture + #define bfd_mach_avr5 5 + #define bfd_mach_avr51 51 + #define bfd_mach_avr6 6 ++ bfd_arch_avr32, /* Atmel AVR32 */ ++#define bfd_mach_avr32_ap 7000 ++#define bfd_mach_avr32_uc 3000 ++#define bfd_mach_avr32_ucr1 3001 ++#define bfd_mach_avr32_ucr2 3002 ++#define bfd_mach_avr32_ucr3 3003 + bfd_arch_bfin, /* ADI Blackfin */ + #define bfd_mach_bfin 1 + bfd_arch_cr16, /* National Semiconductor CompactRISC (ie CR16). */ +@@ -3989,6 +3995,88 @@ instructions */ + BFD_RELOC_RX_ABS16UL, + BFD_RELOC_RX_RELAX, + ++/* Difference between two labels: L2 - L1. The value of L1 is encoded ++as sym + addend, while the initial difference after assembly is ++inserted into the object file by the assembler. */ ++ BFD_RELOC_AVR32_DIFF32, ++ BFD_RELOC_AVR32_DIFF16, ++ BFD_RELOC_AVR32_DIFF8, ++ ++/* Reference to a symbol through the Global Offset Table. The linker ++will allocate an entry for symbol in the GOT and insert the offset ++of this entry as the relocation value. */ ++ BFD_RELOC_AVR32_GOT32, ++ BFD_RELOC_AVR32_GOT16, ++ BFD_RELOC_AVR32_GOT8, ++ ++/* Normal (non-pc-relative) code relocations. Alignment and signedness ++is indicated by the suffixes. S means signed, U means unsigned. W ++means word-aligned, H means halfword-aligned, neither means ++byte-aligned (no alignment.) SUB5 is the same relocation as 16S. */ ++ BFD_RELOC_AVR32_21S, ++ BFD_RELOC_AVR32_16U, ++ BFD_RELOC_AVR32_16S, ++ BFD_RELOC_AVR32_SUB5, ++ BFD_RELOC_AVR32_8S_EXT, ++ BFD_RELOC_AVR32_8S, ++ BFD_RELOC_AVR32_15S, ++ ++/* PC-relative relocations are signed if neither 'U' nor 'S' is ++specified. However, we explicitly tack on a 'B' to indicate no ++alignment, to avoid confusion with data relocs. All of these resolve ++to sym + addend - offset, except the one with 'N' (negated) suffix. ++This particular one resolves to offset - sym - addend. */ ++ BFD_RELOC_AVR32_22H_PCREL, ++ BFD_RELOC_AVR32_18W_PCREL, ++ BFD_RELOC_AVR32_16B_PCREL, ++ BFD_RELOC_AVR32_16N_PCREL, ++ BFD_RELOC_AVR32_14UW_PCREL, ++ BFD_RELOC_AVR32_11H_PCREL, ++ BFD_RELOC_AVR32_10UW_PCREL, ++ BFD_RELOC_AVR32_9H_PCREL, ++ BFD_RELOC_AVR32_9UW_PCREL, ++ ++/* Subtract the link-time address of the GOT from (symbol + addend) ++and insert the result. */ ++ BFD_RELOC_AVR32_GOTPC, ++ ++/* Reference to a symbol through the GOT. The linker will allocate an ++entry for symbol in the GOT and insert the offset of this entry as ++the relocation value. addend must be zero. As usual, 'S' means ++signed, 'W' means word-aligned, etc. */ ++ BFD_RELOC_AVR32_GOTCALL, ++ BFD_RELOC_AVR32_LDA_GOT, ++ BFD_RELOC_AVR32_GOT21S, ++ BFD_RELOC_AVR32_GOT18SW, ++ BFD_RELOC_AVR32_GOT16S, ++ ++/* 32-bit constant pool entry. I don't think 8- and 16-bit entries make ++a whole lot of sense. */ ++ BFD_RELOC_AVR32_32_CPENT, ++ ++/* Constant pool references. Some of these relocations are signed, ++others are unsigned. It doesn't really matter, since the constant ++pool always comes after the code that references it. */ ++ BFD_RELOC_AVR32_CPCALL, ++ BFD_RELOC_AVR32_16_CP, ++ BFD_RELOC_AVR32_9W_CP, ++ ++/* sym must be the absolute symbol. The addend specifies the alignment ++order, e.g. if addend is 2, the linker must add padding so that the ++next address is aligned to a 4-byte boundary. */ ++ BFD_RELOC_AVR32_ALIGN, ++ ++/* Code relocations that will never make it to the output file. */ ++ BFD_RELOC_AVR32_14UW, ++ BFD_RELOC_AVR32_10UW, ++ BFD_RELOC_AVR32_10SW, ++ BFD_RELOC_AVR32_STHH_W, ++ BFD_RELOC_AVR32_7UW, ++ BFD_RELOC_AVR32_6S, ++ BFD_RELOC_AVR32_6UW, ++ BFD_RELOC_AVR32_4UH, ++ BFD_RELOC_AVR32_3U, ++ + /* Direct 12 bit. */ + BFD_RELOC_390_12, + +--- a/bfd/config.bfd ++++ b/bfd/config.bfd +@@ -346,6 +346,10 @@ case "${targ}" in + targ_underscore=yes + ;; + ++ avr32-*-*) ++ targ_defvec=bfd_elf32_avr32_vec ++ ;; ++ + c30-*-*aout* | tic30-*-*aout*) + targ_defvec=tic30_aout_vec + ;; +--- a/bfd/configure ++++ b/bfd/configure +@@ -15040,6 +15040,7 @@ do + bfd_pei_ia64_vec) tb="$tb pei-ia64.lo pepigen.lo cofflink.lo"; target_size=64 ;; + bfd_elf32_am33lin_vec) tb="$tb elf32-am33lin.lo elf32.lo $elf" ;; + bfd_elf32_avr_vec) tb="$tb elf32-avr.lo elf32.lo $elf" ;; ++ bfd_elf32_avr32_vec) tb="$tb elf32-avr32.lo elf32.lo $elf" ;; + bfd_elf32_bfin_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_bfinfdpic_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_big_generic_vec) tb="$tb elf32-gen.lo elf32.lo $elf" ;; +--- a/bfd/configure.in ++++ b/bfd/configure.in +@@ -675,6 +675,7 @@ do + bfd_pei_ia64_vec) tb="$tb pei-ia64.lo pepigen.lo cofflink.lo"; target_size=64 ;; + bfd_elf32_am33lin_vec) tb="$tb elf32-am33lin.lo elf32.lo $elf" ;; + bfd_elf32_avr_vec) tb="$tb elf32-avr.lo elf32.lo $elf" ;; ++ bfd_elf32_avr32_vec) tb="$tb elf32-avr32.lo elf32.lo $elf" ;; + bfd_elf32_bfin_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_bfinfdpic_vec) tb="$tb elf32-bfin.lo elf32.lo $elf" ;; + bfd_elf32_big_generic_vec) tb="$tb elf32-gen.lo elf32.lo $elf" ;; +--- /dev/null ++++ b/bfd/cpu-avr32.c +@@ -0,0 +1,52 @@ ++/* BFD library support routines for AVR32. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2 of the License, or ++ (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, ++ but WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ GNU General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ ++ ++#include "bfd.h" ++#include "sysdep.h" ++#include "libbfd.h" ++ ++#define N(machine, print, default, next) \ ++ { \ ++ 32, /* 32 bits in a word */ \ ++ 32, /* 32 bits in an address */ \ ++ 8, /* 8 bits in a byte */ \ ++ bfd_arch_avr32, /* architecture */ \ ++ machine, /* machine */ \ ++ "avr32", /* arch name */ \ ++ print, /* printable name */ \ ++ 1, /* section align power */ \ ++ default, /* the default machine? */ \ ++ bfd_default_compatible, \ ++ bfd_default_scan, \ ++ next, \ ++ } ++ ++static const bfd_arch_info_type cpu_info[] = ++{ ++ N(bfd_mach_avr32_ap, "avr32:ap", FALSE, &cpu_info[1]), ++ N(bfd_mach_avr32_uc, "avr32:uc", FALSE, &cpu_info[2]), ++ N(bfd_mach_avr32_ucr1, "avr32:ucr1", FALSE, &cpu_info[3]), ++ N(bfd_mach_avr32_ucr2, "avr32:ucr2", FALSE, &cpu_info[4]), ++ N(bfd_mach_avr32_ucr3, "avr32:ucr3", FALSE, NULL), ++}; ++ ++const bfd_arch_info_type bfd_avr32_arch = ++ N(bfd_mach_avr32_ap, "avr32", TRUE, &cpu_info[0]); +--- /dev/null ++++ b/bfd/elf32-avr32.c +@@ -0,0 +1,3915 @@ ++/* AVR32-specific support for 32-bit ELF. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2 of the License, or ++ (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, ++ but WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ GNU General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ ++ ++#include "bfd.h" ++#include "sysdep.h" ++#include "bfdlink.h" ++#include "libbfd.h" ++#include "elf-bfd.h" ++#include "elf/avr32.h" ++#include "elf32-avr32.h" ++ ++#define xDEBUG ++#define xRELAX_DEBUG ++ ++#ifdef DEBUG ++# define pr_debug(fmt, args...) fprintf(stderr, fmt, ##args) ++#else ++# define pr_debug(fmt, args...) do { } while (0) ++#endif ++ ++#ifdef RELAX_DEBUG ++# define RDBG(fmt, args...) fprintf(stderr, fmt, ##args) ++#else ++# define RDBG(fmt, args...) do { } while (0) ++#endif ++ ++/* When things go wrong, we want it to blow up, damnit! */ ++#undef BFD_ASSERT ++#undef abort ++#define BFD_ASSERT(expr) \ ++ do \ ++ { \ ++ if (!(expr)) \ ++ { \ ++ bfd_assert(__FILE__, __LINE__); \ ++ abort(); \ ++ } \ ++ } \ ++ while (0) ++ ++/* The name of the dynamic interpreter. This is put in the .interp section. */ ++#define ELF_DYNAMIC_INTERPRETER "/lib/ld.so.1" ++ ++#define AVR32_GOT_HEADER_SIZE 8 ++#define AVR32_FUNCTION_STUB_SIZE 8 ++ ++#define ELF_R_INFO(x, y) ELF32_R_INFO(x, y) ++#define ELF_R_TYPE(x) ELF32_R_TYPE(x) ++#define ELF_R_SYM(x) ELF32_R_SYM(x) ++ ++#define NOP_OPCODE 0xd703 ++ ++ ++/* Mapping between BFD relocations and ELF relocations */ ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_type_lookup(bfd *abfd, bfd_reloc_code_real_type code); ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_name_lookup(bfd *abfd, const char *r_name); ++ ++static void ++avr32_info_to_howto (bfd *abfd, arelent *cache_ptr, Elf_Internal_Rela *dst); ++ ++/* Generic HOWTO */ ++#define GENH(name, align, size, bitsize, pcrel, bitpos, complain, mask) \ ++ HOWTO(name, align, size, bitsize, pcrel, bitpos, \ ++ complain_overflow_##complain, bfd_elf_generic_reloc, #name, \ ++ FALSE, 0, mask, pcrel) ++ ++static reloc_howto_type elf_avr32_howto_table[] = { ++ /* NAME ALN SZ BSZ PCREL BP COMPLAIN MASK */ ++ GENH(R_AVR32_NONE, 0, 0, 0, FALSE, 0, dont, 0x00000000), ++ ++ GENH(R_AVR32_32, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_16, 0, 1, 16, FALSE, 0, bitfield, 0x0000ffff), ++ GENH(R_AVR32_8, 0, 0, 8, FALSE, 0, bitfield, 0x000000ff), ++ GENH(R_AVR32_32_PCREL, 0, 2, 32, TRUE, 0, signed, 0xffffffff), ++ GENH(R_AVR32_16_PCREL, 0, 1, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_8_PCREL, 0, 0, 8, TRUE, 0, signed, 0x000000ff), ++ ++ /* Difference between two symbol (sym2 - sym1). The reloc encodes ++ the value of sym1. The field contains the difference before any ++ relaxing is done. */ ++ GENH(R_AVR32_DIFF32, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_DIFF16, 0, 1, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_DIFF8, 0, 0, 8, FALSE, 0, signed, 0x000000ff), ++ ++ GENH(R_AVR32_GOT32, 0, 2, 32, FALSE, 0, signed, 0xffffffff), ++ GENH(R_AVR32_GOT16, 0, 1, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_GOT8, 0, 0, 8, FALSE, 0, signed, 0x000000ff), ++ ++ GENH(R_AVR32_21S, 0, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_16U, 0, 2, 16, FALSE, 0, unsigned, 0x0000ffff), ++ GENH(R_AVR32_16S, 0, 2, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_8S, 0, 1, 8, FALSE, 4, signed, 0x00000ff0), ++ GENH(R_AVR32_8S_EXT, 0, 2, 8, FALSE, 0, signed, 0x000000ff), ++ ++ GENH(R_AVR32_22H_PCREL, 1, 2, 21, TRUE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_18W_PCREL, 2, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_16B_PCREL, 0, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_16N_PCREL, 0, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_14UW_PCREL, 2, 2, 12, TRUE, 0, unsigned, 0x0000f0ff), ++ GENH(R_AVR32_11H_PCREL, 1, 1, 10, TRUE, 4, signed, 0x00000ff3), ++ GENH(R_AVR32_10UW_PCREL, 2, 2, 8, TRUE, 0, unsigned, 0x000000ff), ++ GENH(R_AVR32_9H_PCREL, 1, 1, 8, TRUE, 4, signed, 0x00000ff0), ++ GENH(R_AVR32_9UW_PCREL, 2, 1, 7, TRUE, 4, unsigned, 0x000007f0), ++ ++ GENH(R_AVR32_HI16, 16, 2, 16, FALSE, 0, dont, 0x0000ffff), ++ GENH(R_AVR32_LO16, 0, 2, 16, FALSE, 0, dont, 0x0000ffff), ++ ++ GENH(R_AVR32_GOTPC, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_GOTCALL, 2, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_LDA_GOT, 2, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_GOT21S, 0, 2, 21, FALSE, 0, signed, 0x1e10ffff), ++ GENH(R_AVR32_GOT18SW, 2, 2, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_GOT16S, 0, 2, 16, FALSE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_GOT7UW, 2, 1, 5, FALSE, 4, unsigned, 0x000001f0), ++ ++ GENH(R_AVR32_32_CPENT, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_CPCALL, 2, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_16_CP, 0, 2, 16, TRUE, 0, signed, 0x0000ffff), ++ GENH(R_AVR32_9W_CP, 2, 1, 7, TRUE, 4, unsigned, 0x000007f0), ++ ++ GENH(R_AVR32_RELATIVE, 0, 2, 32, FALSE, 0, signed, 0xffffffff), ++ GENH(R_AVR32_GLOB_DAT, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ GENH(R_AVR32_JMP_SLOT, 0, 2, 32, FALSE, 0, dont, 0xffffffff), ++ ++ GENH(R_AVR32_ALIGN, 0, 1, 0, FALSE, 0, unsigned, 0x00000000), ++ ++ GENH(R_AVR32_15S, 2, 2, 15, FALSE, 0, signed, 0x00007fff), ++}; ++ ++struct elf_reloc_map ++{ ++ bfd_reloc_code_real_type bfd_reloc_val; ++ unsigned char elf_reloc_val; ++}; ++ ++static const struct elf_reloc_map avr32_reloc_map[] = ++{ ++ { BFD_RELOC_NONE, R_AVR32_NONE }, ++ ++ { BFD_RELOC_32, R_AVR32_32 }, ++ { BFD_RELOC_16, R_AVR32_16 }, ++ { BFD_RELOC_8, R_AVR32_8 }, ++ { BFD_RELOC_32_PCREL, R_AVR32_32_PCREL }, ++ { BFD_RELOC_16_PCREL, R_AVR32_16_PCREL }, ++ { BFD_RELOC_8_PCREL, R_AVR32_8_PCREL }, ++ { BFD_RELOC_AVR32_DIFF32, R_AVR32_DIFF32 }, ++ { BFD_RELOC_AVR32_DIFF16, R_AVR32_DIFF16 }, ++ { BFD_RELOC_AVR32_DIFF8, R_AVR32_DIFF8 }, ++ { BFD_RELOC_AVR32_GOT32, R_AVR32_GOT32 }, ++ { BFD_RELOC_AVR32_GOT16, R_AVR32_GOT16 }, ++ { BFD_RELOC_AVR32_GOT8, R_AVR32_GOT8 }, ++ ++ { BFD_RELOC_AVR32_21S, R_AVR32_21S }, ++ { BFD_RELOC_AVR32_16U, R_AVR32_16U }, ++ { BFD_RELOC_AVR32_16S, R_AVR32_16S }, ++ { BFD_RELOC_AVR32_SUB5, R_AVR32_16S }, ++ { BFD_RELOC_AVR32_8S_EXT, R_AVR32_8S_EXT }, ++ { BFD_RELOC_AVR32_8S, R_AVR32_8S }, ++ ++ { BFD_RELOC_AVR32_22H_PCREL, R_AVR32_22H_PCREL }, ++ { BFD_RELOC_AVR32_18W_PCREL, R_AVR32_18W_PCREL }, ++ { BFD_RELOC_AVR32_16B_PCREL, R_AVR32_16B_PCREL }, ++ { BFD_RELOC_AVR32_16N_PCREL, R_AVR32_16N_PCREL }, ++ { BFD_RELOC_AVR32_11H_PCREL, R_AVR32_11H_PCREL }, ++ { BFD_RELOC_AVR32_10UW_PCREL, R_AVR32_10UW_PCREL }, ++ { BFD_RELOC_AVR32_9H_PCREL, R_AVR32_9H_PCREL }, ++ { BFD_RELOC_AVR32_9UW_PCREL, R_AVR32_9UW_PCREL }, ++ ++ { BFD_RELOC_HI16, R_AVR32_HI16 }, ++ { BFD_RELOC_LO16, R_AVR32_LO16 }, ++ ++ { BFD_RELOC_AVR32_GOTPC, R_AVR32_GOTPC }, ++ { BFD_RELOC_AVR32_GOTCALL, R_AVR32_GOTCALL }, ++ { BFD_RELOC_AVR32_LDA_GOT, R_AVR32_LDA_GOT }, ++ { BFD_RELOC_AVR32_GOT21S, R_AVR32_GOT21S }, ++ { BFD_RELOC_AVR32_GOT18SW, R_AVR32_GOT18SW }, ++ { BFD_RELOC_AVR32_GOT16S, R_AVR32_GOT16S }, ++ /* GOT7UW should never be generated by the assembler */ ++ ++ { BFD_RELOC_AVR32_32_CPENT, R_AVR32_32_CPENT }, ++ { BFD_RELOC_AVR32_CPCALL, R_AVR32_CPCALL }, ++ { BFD_RELOC_AVR32_16_CP, R_AVR32_16_CP }, ++ { BFD_RELOC_AVR32_9W_CP, R_AVR32_9W_CP }, ++ ++ { BFD_RELOC_AVR32_ALIGN, R_AVR32_ALIGN }, ++ ++ { BFD_RELOC_AVR32_15S, R_AVR32_15S }, ++}; ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_type_lookup (bfd *abfd ATTRIBUTE_UNUSED, ++ bfd_reloc_code_real_type code) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < sizeof(avr32_reloc_map) / sizeof(struct elf_reloc_map); i++) ++ { ++ if (avr32_reloc_map[i].bfd_reloc_val == code) ++ return &elf_avr32_howto_table[avr32_reloc_map[i].elf_reloc_val]; ++ } ++ ++ return NULL; ++} ++ ++static reloc_howto_type * ++bfd_elf32_bfd_reloc_name_lookup (bfd *abfd ATTRIBUTE_UNUSED, ++ const char *r_name) ++{ ++ unsigned int i; ++ ++ for (i = 0; ++ i < sizeof (elf_avr32_howto_table) / sizeof (elf_avr32_howto_table[0]); ++ i++) ++ if (elf_avr32_howto_table[i].name != NULL ++ && strcasecmp (elf_avr32_howto_table[i].name, r_name) == 0) ++ return &elf_avr32_howto_table[i]; ++ ++ return NULL; ++} ++ ++/* Set the howto pointer for an AVR32 ELF reloc. */ ++static void ++avr32_info_to_howto (bfd *abfd ATTRIBUTE_UNUSED, ++ arelent *cache_ptr, ++ Elf_Internal_Rela *dst) ++{ ++ unsigned int r_type; ++ ++ r_type = ELF32_R_TYPE (dst->r_info); ++ BFD_ASSERT (r_type < (unsigned int) R_AVR32_max); ++ cache_ptr->howto = &elf_avr32_howto_table[r_type]; ++} ++ ++ ++/* AVR32 ELF linker hash table and associated hash entries. */ ++ ++static struct bfd_hash_entry * ++avr32_elf_link_hash_newfunc(struct bfd_hash_entry *entry, ++ struct bfd_hash_table *table, ++ const char *string); ++static void ++avr32_elf_copy_indirect_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *dir, ++ struct elf_link_hash_entry *ind); ++static struct bfd_link_hash_table * ++avr32_elf_link_hash_table_create(bfd *abfd); ++ ++/* ++ Try to limit memory usage to something reasonable when sorting the ++ GOT. If just a couple of entries end up getting more references ++ than this, it won't affect performance at all, but if there are many ++ of them, we could end up with the wrong symbols being assigned the ++ first GOT entries. ++*/ ++#define MAX_NR_GOT_HOLES 2048 ++ ++/* ++ AVR32 GOT entry. We need to keep track of refcounts and offsets ++ simultaneously, since we need the offsets during relaxation, and we ++ also want to be able to drop GOT entries during relaxation. In ++ addition to this, we want to keep the list of GOT entries sorted so ++ that we can keep the most-used entries at the lowest offsets. ++*/ ++struct got_entry ++{ ++ struct got_entry *next; ++ struct got_entry **pprev; ++ int refcount; ++ bfd_signed_vma offset; ++}; ++ ++struct elf_avr32_link_hash_entry ++{ ++ struct elf_link_hash_entry root; ++ ++ /* Number of runtime relocations against this symbol. */ ++ unsigned int possibly_dynamic_relocs; ++ ++ /* If there are anything but R_AVR32_GOT18 relocations against this ++ symbol, it means that someone may be taking the address of the ++ function, and we should therefore not create a stub. */ ++ bfd_boolean no_fn_stub; ++ ++ /* If there is a R_AVR32_32 relocation in a read-only section ++ against this symbol, we could be in trouble. If we're linking a ++ shared library or this symbol is defined in one, it means we must ++ emit a run-time reloc for it and that's not allowed in read-only ++ sections. */ ++ asection *readonly_reloc_sec; ++ bfd_vma readonly_reloc_offset; ++ ++ /* Record which frag (if any) contains the symbol. This is used ++ during relaxation in order to avoid having to update all symbols ++ whenever we move something. For local symbols, this information ++ is in the local_sym_frag member of struct elf_obj_tdata. */ ++ struct fragment *sym_frag; ++}; ++#define avr32_elf_hash_entry(ent) ((struct elf_avr32_link_hash_entry *)(ent)) ++ ++struct elf_avr32_link_hash_table ++{ ++ struct elf_link_hash_table root; ++ ++ /* Shortcuts to get to dynamic linker sections. */ ++ asection *sgot; ++ asection *srelgot; ++ asection *sstub; ++ ++ /* We use a variation of Pigeonhole Sort to sort the GOT. After the ++ initial refcounts have been determined, we initialize ++ nr_got_holes to the highest refcount ever seen and allocate an ++ array of nr_got_holes entries for got_hole. Each GOT entry is ++ then stored in this array at the index given by its refcount. ++ ++ When a GOT entry has its refcount decremented during relaxation, ++ it is moved to a lower index in the got_hole array. ++ */ ++ struct got_entry **got_hole; ++ int nr_got_holes; ++ ++ /* Dynamic relocations to local symbols. Only used when linking a ++ shared library and -Bsymbolic is not given. */ ++ unsigned int local_dynamic_relocs; ++ ++ bfd_boolean relocations_analyzed; ++ bfd_boolean symbols_adjusted; ++ bfd_boolean repeat_pass; ++ bfd_boolean direct_data_refs; ++ unsigned int relax_iteration; ++ unsigned int relax_pass; ++}; ++#define avr32_elf_hash_table(p) \ ++ ((struct elf_avr32_link_hash_table *)((p)->hash)) ++ ++static struct bfd_hash_entry * ++avr32_elf_link_hash_newfunc(struct bfd_hash_entry *entry, ++ struct bfd_hash_table *table, ++ const char *string) ++{ ++ struct elf_avr32_link_hash_entry *ret = avr32_elf_hash_entry(entry); ++ ++ /* Allocate the structure if it hasn't already been allocated by a ++ subclass */ ++ if (ret == NULL) ++ ret = (struct elf_avr32_link_hash_entry *) ++ bfd_hash_allocate(table, sizeof(struct elf_avr32_link_hash_entry)); ++ ++ if (ret == NULL) ++ return NULL; ++ ++ memset(ret, 0, sizeof(struct elf_avr32_link_hash_entry)); ++ ++ /* Give the superclass a chance */ ++ ret = (struct elf_avr32_link_hash_entry *) ++ _bfd_elf_link_hash_newfunc((struct bfd_hash_entry *)ret, table, string); ++ ++ return (struct bfd_hash_entry *)ret; ++} ++ ++/* Copy data from an indirect symbol to its direct symbol, hiding the ++ old indirect symbol. Process additional relocation information. ++ Also called for weakdefs, in which case we just let ++ _bfd_elf_link_hash_copy_indirect copy the flags for us. */ ++ ++static void ++avr32_elf_copy_indirect_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *dir, ++ struct elf_link_hash_entry *ind) ++{ ++ struct elf_avr32_link_hash_entry *edir, *eind; ++ ++ _bfd_elf_link_hash_copy_indirect (info, dir, ind); ++ ++ if (ind->root.type != bfd_link_hash_indirect) ++ return; ++ ++ edir = (struct elf_avr32_link_hash_entry *)dir; ++ eind = (struct elf_avr32_link_hash_entry *)ind; ++ ++ edir->possibly_dynamic_relocs += eind->possibly_dynamic_relocs; ++ edir->no_fn_stub = edir->no_fn_stub || eind->no_fn_stub; ++} ++ ++static struct bfd_link_hash_table * ++avr32_elf_link_hash_table_create(bfd *abfd) ++{ ++ struct elf_avr32_link_hash_table *ret; ++ ++ ret = bfd_zmalloc(sizeof(*ret)); ++ if (ret == NULL) ++ return NULL; ++ ++ if (! _bfd_elf_link_hash_table_init(&ret->root, abfd, ++ avr32_elf_link_hash_newfunc, ++ sizeof (struct elf_avr32_link_hash_entry))) ++ { ++ free(ret); ++ return NULL; ++ } ++ ++ /* Prevent the BFD core from creating bogus got_entry pointers */ ++ ret->root.init_got_refcount.glist = NULL; ++ ret->root.init_plt_refcount.glist = NULL; ++ ret->root.init_got_offset.glist = NULL; ++ ret->root.init_plt_offset.glist = NULL; ++ ++ return &ret->root.root; ++} ++ ++ ++/* Initial analysis and creation of dynamic sections and symbols */ ++ ++static asection * ++create_dynamic_section(bfd *dynobj, const char *name, flagword flags, ++ unsigned int align_power); ++static struct elf_link_hash_entry * ++create_dynamic_symbol(bfd *dynobj, struct bfd_link_info *info, ++ const char *name, asection *sec, ++ bfd_vma offset); ++static bfd_boolean ++avr32_elf_create_got_section (bfd *dynobj, struct bfd_link_info *info); ++static bfd_boolean ++avr32_elf_create_dynamic_sections (bfd *dynobj, struct bfd_link_info *info); ++static bfd_boolean ++avr32_check_relocs (bfd *abfd, struct bfd_link_info *info, asection *sec, ++ const Elf_Internal_Rela *relocs); ++static bfd_boolean ++avr32_elf_adjust_dynamic_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *h); ++ ++static asection * ++create_dynamic_section(bfd *dynobj, const char *name, flagword flags, ++ unsigned int align_power) ++{ ++ asection *sec; ++ ++ sec = bfd_make_section(dynobj, name); ++ if (!sec ++ || !bfd_set_section_flags(dynobj, sec, flags) ++ || !bfd_set_section_alignment(dynobj, sec, align_power)) ++ return NULL; ++ ++ return sec; ++} ++ ++static struct elf_link_hash_entry * ++create_dynamic_symbol(bfd *dynobj, struct bfd_link_info *info, ++ const char *name, asection *sec, ++ bfd_vma offset) ++{ ++ struct bfd_link_hash_entry *bh = NULL; ++ struct elf_link_hash_entry *h; ++ const struct elf_backend_data *bed = get_elf_backend_data (dynobj); ++ ++ if (!(_bfd_generic_link_add_one_symbol ++ (info, dynobj, name, BSF_GLOBAL, sec, offset, NULL, FALSE, ++ bed->collect, &bh))) ++ return NULL; ++ ++ h = (struct elf_link_hash_entry *)bh; ++ h->def_regular = 1; ++ h->type = STT_OBJECT; ++ h->other = STV_HIDDEN; ++ ++ return h; ++} ++ ++static bfd_boolean ++avr32_elf_create_got_section (bfd *dynobj, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ flagword flags; ++ const struct elf_backend_data *bed = get_elf_backend_data (dynobj); ++ ++ htab = avr32_elf_hash_table(info); ++ flags = bed->dynamic_sec_flags; ++ ++ if (htab->sgot) ++ return TRUE; ++ ++ htab->sgot = create_dynamic_section(dynobj, ".got", flags, 2); ++ if (!htab->srelgot) ++ htab->srelgot = create_dynamic_section(dynobj, ".rela.got", ++ flags | SEC_READONLY, 2); ++ ++ if (!htab->sgot || !htab->srelgot) ++ return FALSE; ++ ++ htab->root.hgot = create_dynamic_symbol(dynobj, info, "_GLOBAL_OFFSET_TABLE_", ++ htab->sgot, 0); ++ if (!htab->root.hgot) ++ return FALSE; ++ ++ /* Make room for the GOT header */ ++ htab->sgot->size += bed->got_header_size; ++ ++ return TRUE; ++} ++ ++/* (1) Create all dynamic (i.e. linker generated) sections that we may ++ need during the link */ ++ ++static bfd_boolean ++avr32_elf_create_dynamic_sections (bfd *dynobj, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ flagword flags; ++ const struct elf_backend_data *bed = get_elf_backend_data (dynobj); ++ ++ pr_debug("(1) create dynamic sections\n"); ++ ++ htab = avr32_elf_hash_table(info); ++ flags = bed->dynamic_sec_flags; ++ ++ if (!avr32_elf_create_got_section (dynobj, info)) ++ return FALSE; ++ ++ if (!htab->sstub) ++ htab->sstub = create_dynamic_section(dynobj, ".stub", ++ flags | SEC_READONLY | SEC_CODE, 2); ++ ++ if (!htab->sstub) ++ return FALSE; ++ ++ return TRUE; ++} ++ ++/* (2) Go through all the relocs and count any potential GOT- or ++ PLT-references to each symbol */ ++ ++static bfd_boolean ++avr32_check_relocs (bfd *abfd, struct bfd_link_info *info, asection *sec, ++ const Elf_Internal_Rela *relocs) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ struct elf_avr32_link_hash_table *htab; ++ struct elf_link_hash_entry **sym_hashes; ++ const Elf_Internal_Rela *rel, *rel_end; ++ struct got_entry **local_got_ents; ++ struct got_entry *got; ++ const struct elf_backend_data *bed = get_elf_backend_data (abfd); ++ asection *sgot; ++ bfd *dynobj; ++ ++ pr_debug("(2) check relocs for %s:<%s> (size 0x%lx)\n", ++ abfd->filename, sec->name, sec->size); ++ ++ if (info->relocatable) ++ return TRUE; ++ ++ dynobj = elf_hash_table(info)->dynobj; ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ sym_hashes = elf_sym_hashes(abfd); ++ htab = avr32_elf_hash_table(info); ++ local_got_ents = elf_local_got_ents(abfd); ++ sgot = htab->sgot; ++ ++ rel_end = relocs + sec->reloc_count; ++ for (rel = relocs; rel < rel_end; rel++) ++ { ++ unsigned long r_symndx, r_type; ++ struct elf_avr32_link_hash_entry *h; ++ ++ r_symndx = ELF32_R_SYM(rel->r_info); ++ r_type = ELF32_R_TYPE(rel->r_info); ++ ++ /* Local symbols use local_got_ents, while others store the same ++ information in the hash entry */ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ pr_debug(" (2a) processing local symbol %lu\n", r_symndx); ++ h = NULL; ++ } ++ else ++ { ++ h = (struct elf_avr32_link_hash_entry *) ++ sym_hashes[r_symndx - symtab_hdr->sh_info]; ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_avr32_link_hash_entry *)h->root.root.u.i.link; ++ pr_debug(" (2a) processing symbol %s\n", h->root.root.root.string); ++ } ++ ++ /* Some relocs require special sections to be created. */ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ if (rel->r_addend) ++ { ++ if (info->callbacks->reloc_dangerous ++ (info, _("Non-zero addend on GOT-relative relocation"), ++ abfd, sec, rel->r_offset) == FALSE) ++ return FALSE; ++ } ++ /* fall through */ ++ case R_AVR32_GOTPC: ++ if (dynobj == NULL) ++ elf_hash_table(info)->dynobj = dynobj = abfd; ++ if (sgot == NULL && !avr32_elf_create_got_section(dynobj, info)) ++ return FALSE; ++ break; ++ case R_AVR32_32: ++ /* We may need to create .rela.dyn later on. */ ++ if (dynobj == NULL ++ && (info->shared || h != NULL) ++ && (sec->flags & SEC_ALLOC)) ++ elf_hash_table(info)->dynobj = dynobj = abfd; ++ break; ++ } ++ ++ if (h != NULL && r_type != R_AVR32_GOT18SW) ++ h->no_fn_stub = TRUE; ++ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ if (h != NULL) ++ { ++ got = h->root.got.glist; ++ if (!got) ++ { ++ got = bfd_zalloc(abfd, sizeof(struct got_entry)); ++ if (!got) ++ return FALSE; ++ h->root.got.glist = got; ++ } ++ } ++ else ++ { ++ if (!local_got_ents) ++ { ++ bfd_size_type size; ++ bfd_size_type i; ++ struct got_entry *tmp_entry; ++ ++ size = symtab_hdr->sh_info; ++ size *= sizeof(struct got_entry *) + sizeof(struct got_entry); ++ local_got_ents = bfd_zalloc(abfd, size); ++ if (!local_got_ents) ++ return FALSE; ++ ++ elf_local_got_ents(abfd) = local_got_ents; ++ ++ tmp_entry = (struct got_entry *)(local_got_ents ++ + symtab_hdr->sh_info); ++ for (i = 0; i < symtab_hdr->sh_info; i++) ++ local_got_ents[i] = &tmp_entry[i]; ++ } ++ ++ got = local_got_ents[r_symndx]; ++ } ++ ++ got->refcount++; ++ if (got->refcount > htab->nr_got_holes) ++ htab->nr_got_holes = got->refcount; ++ break; ++ ++ case R_AVR32_32: ++ if ((info->shared || h != NULL) ++ && (sec->flags & SEC_ALLOC)) ++ { ++ if (htab->srelgot == NULL) ++ { ++ htab->srelgot = create_dynamic_section(dynobj, ".rela.got", ++ bed->dynamic_sec_flags ++ | SEC_READONLY, 2); ++ if (htab->srelgot == NULL) ++ return FALSE; ++ } ++ ++ if (sec->flags & SEC_READONLY ++ && !h->readonly_reloc_sec) ++ { ++ h->readonly_reloc_sec = sec; ++ h->readonly_reloc_offset = rel->r_offset; ++ } ++ ++ if (h != NULL) ++ { ++ pr_debug("Non-GOT reference to symbol %s\n", ++ h->root.root.root.string); ++ h->possibly_dynamic_relocs++; ++ } ++ else ++ { ++ pr_debug("Non-GOT reference to local symbol %lu\n", ++ r_symndx); ++ htab->local_dynamic_relocs++; ++ } ++ } ++ ++ break; ++ ++ /* TODO: GNU_VTINHERIT and GNU_VTENTRY */ ++ } ++ } ++ ++ return TRUE; ++} ++ ++/* (3) Adjust a symbol defined by a dynamic object and referenced by a ++ regular object. The current definition is in some section of the ++ dynamic object, but we're not including those sections. We have to ++ change the definition to something the rest of the link can ++ understand. */ ++ ++static bfd_boolean ++avr32_elf_adjust_dynamic_symbol(struct bfd_link_info *info, ++ struct elf_link_hash_entry *h) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct elf_avr32_link_hash_entry *havr; ++ bfd *dynobj; ++ ++ pr_debug("(3) adjust dynamic symbol %s\n", h->root.root.string); ++ ++ htab = avr32_elf_hash_table(info); ++ havr = (struct elf_avr32_link_hash_entry *)h; ++ dynobj = elf_hash_table(info)->dynobj; ++ ++ /* Make sure we know what is going on here. */ ++ BFD_ASSERT (dynobj != NULL ++ && (h->u.weakdef != NULL ++ || (h->def_dynamic ++ && h->ref_regular ++ && !h->def_regular))); ++ ++ /* We don't want dynamic relocations in read-only sections. */ ++ if (havr->readonly_reloc_sec) ++ { ++ if (info->callbacks->reloc_dangerous ++ (info, _("dynamic relocation in read-only section"), ++ havr->readonly_reloc_sec->owner, havr->readonly_reloc_sec, ++ havr->readonly_reloc_offset) == FALSE) ++ return FALSE; ++ } ++ ++ /* If this is a function, create a stub if possible and set the ++ symbol to the stub location. */ ++ if (0 && !havr->no_fn_stub) ++ { ++ if (!h->def_regular) ++ { ++ asection *s = htab->sstub; ++ ++ BFD_ASSERT(s != NULL); ++ ++ h->root.u.def.section = s; ++ h->root.u.def.value = s->size; ++ h->plt.offset = s->size; ++ s->size += AVR32_FUNCTION_STUB_SIZE; ++ ++ return TRUE; ++ } ++ } ++ else if (h->type == STT_FUNC) ++ { ++ /* This will set the entry for this symbol in the GOT to 0, and ++ the dynamic linker will take care of this. */ ++ h->root.u.def.value = 0; ++ return TRUE; ++ } ++ ++ /* If this is a weak symbol, and there is a real definition, the ++ processor independent code will have arranged for us to see the ++ real definition first, and we can just use the same value. */ ++ if (h->u.weakdef != NULL) ++ { ++ BFD_ASSERT(h->u.weakdef->root.type == bfd_link_hash_defined ++ || h->u.weakdef->root.type == bfd_link_hash_defweak); ++ h->root.u.def.section = h->u.weakdef->root.u.def.section; ++ h->root.u.def.value = h->u.weakdef->root.u.def.value; ++ return TRUE; ++ } ++ ++ /* This is a reference to a symbol defined by a dynamic object which ++ is not a function. */ ++ ++ return TRUE; ++} ++ ++ ++/* Garbage-collection of unused sections */ ++ ++static asection * ++avr32_elf_gc_mark_hook(asection *sec, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED, ++ Elf_Internal_Rela *rel, ++ struct elf_link_hash_entry *h, ++ Elf_Internal_Sym *sym) ++{ ++ if (h) ++ { ++ switch (ELF32_R_TYPE(rel->r_info)) ++ { ++ /* TODO: VTINHERIT/VTENTRY */ ++ default: ++ switch (h->root.type) ++ { ++ case bfd_link_hash_defined: ++ case bfd_link_hash_defweak: ++ return h->root.u.def.section; ++ ++ case bfd_link_hash_common: ++ return h->root.u.c.p->section; ++ ++ default: ++ break; ++ } ++ } ++ } ++ else ++ return bfd_section_from_elf_index(sec->owner, sym->st_shndx); ++ ++ return NULL; ++} ++ ++/* Update the GOT entry reference counts for the section being removed. */ ++static bfd_boolean ++avr32_elf_gc_sweep_hook(bfd *abfd, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED, ++ asection *sec, ++ const Elf_Internal_Rela *relocs) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ struct elf_avr32_link_hash_entry **sym_hashes; ++ struct got_entry **local_got_ents; ++ const Elf_Internal_Rela *rel, *relend; ++ ++ if (!(sec->flags & SEC_ALLOC)) ++ return TRUE; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ sym_hashes = (struct elf_avr32_link_hash_entry **)elf_sym_hashes(abfd); ++ local_got_ents = elf_local_got_ents(abfd); ++ ++ relend = relocs + sec->reloc_count; ++ for (rel = relocs; rel < relend; rel++) ++ { ++ unsigned long r_symndx; ++ unsigned int r_type; ++ struct elf_avr32_link_hash_entry *h = NULL; ++ ++ r_symndx = ELF32_R_SYM(rel->r_info); ++ if (r_symndx >= symtab_hdr->sh_info) ++ { ++ h = sym_hashes[r_symndx - symtab_hdr->sh_info]; ++ while (h->root.root.type == bfd_link_hash_indirect ++ || h->root.root.type == bfd_link_hash_warning) ++ h = (struct elf_avr32_link_hash_entry *)h->root.root.u.i.link; ++ } ++ ++ r_type = ELF32_R_TYPE(rel->r_info); ++ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ if (h) ++ h->root.got.glist->refcount--; ++ else ++ local_got_ents[r_symndx]->refcount--; ++ break; ++ ++ case R_AVR32_32: ++ if (info->shared || h) ++ { ++ if (h) ++ h->possibly_dynamic_relocs--; ++ else ++ avr32_elf_hash_table(info)->local_dynamic_relocs--; ++ } ++ ++ default: ++ break; ++ } ++ } ++ ++ return TRUE; ++} ++ ++/* Sizing and refcounting of dynamic sections */ ++ ++static void ++insert_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got); ++static void ++unref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got); ++static void ++ref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got); ++static bfd_boolean ++assign_got_offsets(struct elf_avr32_link_hash_table *htab); ++static bfd_boolean ++allocate_dynrelocs(struct elf_link_hash_entry *h, void *_info); ++static bfd_boolean ++avr32_elf_size_dynamic_sections (bfd *output_bfd, ++ struct bfd_link_info *info); ++ ++static void ++insert_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got) ++{ ++ /* Any entries with got_refcount > htab->nr_got_holes end up in the ++ * last pigeonhole without any sorting. We expect the number of such ++ * entries to be small, so it is very unlikely to affect ++ * performance. */ ++ int entry = got->refcount; ++ ++ if (entry > htab->nr_got_holes) ++ entry = htab->nr_got_holes; ++ ++ got->pprev = &htab->got_hole[entry]; ++ got->next = htab->got_hole[entry]; ++ ++ if (got->next) ++ got->next->pprev = &got->next; ++ ++ htab->got_hole[entry] = got; ++} ++ ++/* Decrement the refcount of a GOT entry and update its position in ++ the pigeonhole array. */ ++static void ++unref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got) ++{ ++ BFD_ASSERT(got->refcount > 0); ++ ++ if (got->next) ++ got->next->pprev = got->pprev; ++ ++ *(got->pprev) = got->next; ++ got->refcount--; ++ insert_got_entry(htab, got); ++} ++ ++static void ++ref_got_entry(struct elf_avr32_link_hash_table *htab, struct got_entry *got) ++{ ++ if (got->next) ++ got->next->pprev = got->pprev; ++ ++ *(got->pprev) = got->next; ++ got->refcount++; ++ insert_got_entry(htab, got); ++ ++ BFD_ASSERT(got->refcount > 0); ++} ++ ++/* Assign offsets to all GOT entries we intend to keep. The entries ++ that are referenced most often are placed at low offsets so that we ++ can use compact instructions as much as possible. ++ ++ Returns TRUE if any offsets or the total size of the GOT changed. */ ++ ++static bfd_boolean ++assign_got_offsets(struct elf_avr32_link_hash_table *htab) ++{ ++ struct got_entry *got; ++ bfd_size_type got_size = 0; ++ bfd_boolean changed = FALSE; ++ bfd_signed_vma offset; ++ int i; ++ ++ /* The GOT header provides the address of the DYNAMIC segment, so ++ we need that even if the GOT is otherwise empty. */ ++ if (htab->root.dynamic_sections_created) ++ got_size = AVR32_GOT_HEADER_SIZE; ++ ++ for (i = htab->nr_got_holes; i > 0; i--) ++ { ++ got = htab->got_hole[i]; ++ while (got) ++ { ++ if (got->refcount > 0) ++ { ++ offset = got_size; ++ if (got->offset != offset) ++ { ++ RDBG("GOT offset changed: %ld -> %ld\n", ++ got->offset, offset); ++ changed = TRUE; ++ } ++ got->offset = offset; ++ got_size += 4; ++ } ++ got = got->next; ++ } ++ } ++ ++ if (htab->sgot->size != got_size) ++ { ++ RDBG("GOT size changed: %lu -> %lu\n", htab->sgot->size, ++ got_size); ++ changed = TRUE; ++ } ++ htab->sgot->size = got_size; ++ ++ RDBG("assign_got_offsets: total size %lu (%s)\n", ++ got_size, changed ? "changed" : "no change"); ++ ++ return changed; ++} ++ ++static bfd_boolean ++allocate_dynrelocs(struct elf_link_hash_entry *h, void *_info) ++{ ++ struct bfd_link_info *info = _info; ++ struct elf_avr32_link_hash_table *htab; ++ struct elf_avr32_link_hash_entry *havr; ++ struct got_entry *got; ++ ++ pr_debug(" (4b) allocate_dynrelocs: %s\n", h->root.root.string); ++ ++ if (h->root.type == bfd_link_hash_indirect) ++ return TRUE; ++ ++ if (h->root.type == bfd_link_hash_warning) ++ /* When warning symbols are created, they **replace** the "real" ++ entry in the hash table, thus we never get to see the real ++ symbol in a hash traversal. So look at it now. */ ++ h = (struct elf_link_hash_entry *) h->root.u.i.link; ++ ++ htab = avr32_elf_hash_table(info); ++ havr = (struct elf_avr32_link_hash_entry *)h; ++ ++ got = h->got.glist; ++ ++ /* If got is NULL, the symbol is never referenced through the GOT */ ++ if (got && got->refcount > 0) ++ { ++ insert_got_entry(htab, got); ++ ++ /* Shared libraries need relocs for all GOT entries unless the ++ symbol is forced local or -Bsymbolic is used. Others need ++ relocs for everything that is not guaranteed to be defined in ++ a regular object. */ ++ if ((info->shared ++ && !info->symbolic ++ && h->dynindx != -1) ++ || (htab->root.dynamic_sections_created ++ && h->def_dynamic ++ && !h->def_regular)) ++ htab->srelgot->size += sizeof(Elf32_External_Rela); ++ } ++ ++ if (havr->possibly_dynamic_relocs ++ && (info->shared ++ || (elf_hash_table(info)->dynamic_sections_created ++ && h->def_dynamic ++ && !h->def_regular))) ++ { ++ pr_debug("Allocating %d dynamic reloc against symbol %s...\n", ++ havr->possibly_dynamic_relocs, h->root.root.string); ++ htab->srelgot->size += (havr->possibly_dynamic_relocs ++ * sizeof(Elf32_External_Rela)); ++ } ++ ++ return TRUE; ++} ++ ++/* (4) Calculate the sizes of the linker-generated sections and ++ allocate memory for them. */ ++ ++static bfd_boolean ++avr32_elf_size_dynamic_sections (bfd *output_bfd, ++ struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ bfd *dynobj; ++ asection *s; ++ bfd *ibfd; ++ bfd_boolean relocs; ++ ++ pr_debug("(4) size dynamic sections\n"); ++ ++ htab = avr32_elf_hash_table(info); ++ dynobj = htab->root.dynobj; ++ BFD_ASSERT(dynobj != NULL); ++ ++ if (htab->root.dynamic_sections_created) ++ { ++ /* Initialize the contents of the .interp section to the name of ++ the dynamic loader */ ++ if (info->executable) ++ { ++ s = bfd_get_section_by_name(dynobj, ".interp"); ++ BFD_ASSERT(s != NULL); ++ s->size = sizeof(ELF_DYNAMIC_INTERPRETER); ++ s->contents = (unsigned char *)ELF_DYNAMIC_INTERPRETER; ++ } ++ } ++ ++ if (htab->nr_got_holes > 0) ++ { ++ /* Allocate holes for the pigeonhole sort algorithm */ ++ pr_debug("Highest GOT refcount: %d\n", htab->nr_got_holes); ++ ++ /* Limit the memory usage by clipping the number of pigeonholes ++ * at a predefined maximum. All entries with a higher refcount ++ * will end up in the last pigeonhole. */ ++ if (htab->nr_got_holes >= MAX_NR_GOT_HOLES) ++ { ++ htab->nr_got_holes = MAX_NR_GOT_HOLES - 1; ++ ++ pr_debug("Limiting maximum number of GOT pigeonholes to %u\n", ++ htab->nr_got_holes); ++ } ++ htab->got_hole = bfd_zalloc(output_bfd, ++ sizeof(struct got_entry *) ++ * (htab->nr_got_holes + 1)); ++ if (!htab->got_hole) ++ return FALSE; ++ ++ /* Set up .got offsets for local syms. */ ++ for (ibfd = info->input_bfds; ibfd != NULL; ibfd = ibfd->link_next) ++ { ++ struct got_entry **local_got; ++ struct got_entry **end_local_got; ++ Elf_Internal_Shdr *symtab_hdr; ++ bfd_size_type locsymcount; ++ ++ pr_debug(" (4a) processing file %s...\n", ibfd->filename); ++ ++ BFD_ASSERT(bfd_get_flavour(ibfd) == bfd_target_elf_flavour); ++ ++ local_got = elf_local_got_ents(ibfd); ++ if (!local_got) ++ continue; ++ ++ symtab_hdr = &elf_tdata(ibfd)->symtab_hdr; ++ locsymcount = symtab_hdr->sh_info; ++ end_local_got = local_got + locsymcount; ++ ++ for (; local_got < end_local_got; ++local_got) ++ insert_got_entry(htab, *local_got); ++ } ++ } ++ ++ /* Allocate global sym .got entries and space for global sym ++ dynamic relocs */ ++ elf_link_hash_traverse(&htab->root, allocate_dynrelocs, info); ++ ++ /* Now that we have sorted the GOT entries, we are ready to ++ assign offsets and determine the initial size of the GOT. */ ++ if (htab->sgot) ++ assign_got_offsets(htab); ++ ++ /* Allocate space for local sym dynamic relocs */ ++ BFD_ASSERT(htab->local_dynamic_relocs == 0 || info->shared); ++ if (htab->local_dynamic_relocs) ++ htab->srelgot->size += (htab->local_dynamic_relocs ++ * sizeof(Elf32_External_Rela)); ++ ++ /* We now have determined the sizes of the various dynamic ++ sections. Allocate memory for them. */ ++ relocs = FALSE; ++ for (s = dynobj->sections; s; s = s->next) ++ { ++ if ((s->flags & SEC_LINKER_CREATED) == 0) ++ continue; ++ ++ if (s == htab->sgot ++ || s == htab->sstub) ++ { ++ /* Strip this section if we don't need it */ ++ } ++ else if (strncmp (bfd_get_section_name(dynobj, s), ".rela", 5) == 0) ++ { ++ if (s->size != 0) ++ relocs = TRUE; ++ ++ s->reloc_count = 0; ++ } ++ else ++ { ++ /* It's not one of our sections */ ++ continue; ++ } ++ ++ if (s->size == 0) ++ { ++ /* Strip unneeded sections */ ++ pr_debug("Stripping section %s from output...\n", s->name); ++ /* deleted function in 2.17 ++ _bfd_strip_section_from_output(info, s); ++ */ ++ continue; ++ } ++ ++ s->contents = bfd_zalloc(dynobj, s->size); ++ if (s->contents == NULL) ++ return FALSE; ++ } ++ ++ if (htab->root.dynamic_sections_created) ++ { ++ /* Add some entries to the .dynamic section. We fill in the ++ values later, in sh_elf_finish_dynamic_sections, but we ++ must add the entries now so that we get the correct size for ++ the .dynamic section. The DT_DEBUG entry is filled in by the ++ dynamic linker and used by the debugger. */ ++#define add_dynamic_entry(TAG, VAL) _bfd_elf_add_dynamic_entry(info, TAG, VAL) ++ ++ if (!add_dynamic_entry(DT_PLTGOT, 0)) ++ return FALSE; ++ if (!add_dynamic_entry(DT_AVR32_GOTSZ, 0)) ++ return FALSE; ++ ++ if (info->executable) ++ { ++ if (!add_dynamic_entry(DT_DEBUG, 0)) ++ return FALSE; ++ } ++ if (relocs) ++ { ++ if (!add_dynamic_entry(DT_RELA, 0) ++ || !add_dynamic_entry(DT_RELASZ, 0) ++ || !add_dynamic_entry(DT_RELAENT, ++ sizeof(Elf32_External_Rela))) ++ return FALSE; ++ } ++ } ++#undef add_dynamic_entry ++ ++ return TRUE; ++} ++ ++ ++/* Access to internal relocations, section contents and symbols. ++ (stolen from the xtensa port) */ ++ ++static Elf_Internal_Rela * ++retrieve_internal_relocs (bfd *abfd, asection *sec, bfd_boolean keep_memory); ++static void ++pin_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs); ++static void ++release_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs); ++static bfd_byte * ++retrieve_contents (bfd *abfd, asection *sec, bfd_boolean keep_memory); ++/* ++static void ++pin_contents (asection *sec, bfd_byte *contents); ++*/ ++static void ++release_contents (asection *sec, bfd_byte *contents); ++static Elf_Internal_Sym * ++retrieve_local_syms (bfd *input_bfd, bfd_boolean keep_memory); ++/* ++static void ++pin_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf); ++*/ ++static void ++release_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf); ++ ++/* During relaxation, we need to modify relocations, section contents, ++ and symbol definitions, and we need to keep the original values from ++ being reloaded from the input files, i.e., we need to "pin" the ++ modified values in memory. We also want to continue to observe the ++ setting of the "keep-memory" flag. The following functions wrap the ++ standard BFD functions to take care of this for us. */ ++ ++static Elf_Internal_Rela * ++retrieve_internal_relocs (bfd *abfd, asection *sec, bfd_boolean keep_memory) ++{ ++ /* _bfd_elf_link_read_relocs knows about caching, so no need for us ++ to be clever here. */ ++ return _bfd_elf_link_read_relocs(abfd, sec, NULL, NULL, keep_memory); ++} ++ ++static void ++pin_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs) ++{ ++ elf_section_data (sec)->relocs = internal_relocs; ++} ++ ++static void ++release_internal_relocs (asection *sec, Elf_Internal_Rela *internal_relocs) ++{ ++ if (internal_relocs ++ && elf_section_data (sec)->relocs != internal_relocs) ++ free (internal_relocs); ++} ++ ++static bfd_byte * ++retrieve_contents (bfd *abfd, asection *sec, bfd_boolean keep_memory) ++{ ++ bfd_byte *contents; ++ bfd_size_type sec_size; ++ ++ sec_size = bfd_get_section_limit (abfd, sec); ++ contents = elf_section_data (sec)->this_hdr.contents; ++ ++ if (contents == NULL && sec_size != 0) ++ { ++ if (!bfd_malloc_and_get_section (abfd, sec, &contents)) ++ { ++ if (contents) ++ free (contents); ++ return NULL; ++ } ++ if (keep_memory) ++ elf_section_data (sec)->this_hdr.contents = contents; ++ } ++ return contents; ++} ++ ++/* ++static void ++pin_contents (asection *sec, bfd_byte *contents) ++{ ++ elf_section_data (sec)->this_hdr.contents = contents; ++} ++*/ ++static void ++release_contents (asection *sec, bfd_byte *contents) ++{ ++ if (contents && elf_section_data (sec)->this_hdr.contents != contents) ++ free (contents); ++} ++ ++static Elf_Internal_Sym * ++retrieve_local_syms (bfd *input_bfd, bfd_boolean keep_memory) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Sym *isymbuf; ++ size_t locsymcount; ++ ++ symtab_hdr = &elf_tdata (input_bfd)->symtab_hdr; ++ locsymcount = symtab_hdr->sh_info; ++ ++ isymbuf = (Elf_Internal_Sym *) symtab_hdr->contents; ++ if (isymbuf == NULL && locsymcount != 0) ++ { ++ isymbuf = bfd_elf_get_elf_syms (input_bfd, symtab_hdr, locsymcount, 0, ++ NULL, NULL, NULL); ++ if (isymbuf && keep_memory) ++ symtab_hdr->contents = (unsigned char *) isymbuf; ++ } ++ ++ return isymbuf; ++} ++ ++/* ++static void ++pin_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf) ++{ ++ elf_tdata (input_bfd)->symtab_hdr.contents = (unsigned char *)isymbuf; ++} ++ ++*/ ++static void ++release_local_syms (bfd *input_bfd, Elf_Internal_Sym *isymbuf) ++{ ++ if (isymbuf && (elf_tdata (input_bfd)->symtab_hdr.contents ++ != (unsigned char *)isymbuf)) ++ free (isymbuf); ++} ++ ++ /* Data structures used during relaxation. */ ++ ++enum relax_state_id { ++ RS_ERROR = -1, ++ RS_NONE = 0, ++ RS_ALIGN, ++ RS_CPENT, ++ RS_PIC_CALL, ++ RS_PIC_MCALL, ++ RS_PIC_RCALL2, ++ RS_PIC_RCALL1, ++ RS_PIC_LDA, ++ RS_PIC_LDW4, ++ RS_PIC_LDW3, ++ RS_PIC_SUB5, ++ RS_NOPIC_MCALL, ++ RS_NOPIC_RCALL2, ++ RS_NOPIC_RCALL1, ++ RS_NOPIC_LDW4, ++ RS_NOPIC_LDDPC, ++ RS_NOPIC_SUB5, ++ RS_NOPIC_MOV2, ++ RS_NOPIC_MOV1, ++ RS_RCALL2, ++ RS_RCALL1, ++ RS_BRC2, ++ RS_BRC1, ++ RS_BRAL, ++ RS_RJMP, ++ RS_MAX, ++}; ++ ++enum reference_type { ++ REF_ABSOLUTE, ++ REF_PCREL, ++ REF_CPOOL, ++ REF_GOT, ++}; ++ ++struct relax_state ++{ ++ const char *name; ++ enum relax_state_id id; ++ enum relax_state_id direct; ++ enum relax_state_id next; ++ enum relax_state_id prev; ++ ++ enum reference_type reftype; ++ ++ unsigned int r_type; ++ ++ bfd_vma opcode; ++ bfd_vma opcode_mask; ++ ++ bfd_signed_vma range_min; ++ bfd_signed_vma range_max; ++ ++ bfd_size_type size; ++}; ++ ++/* ++ * This is for relocs that ++ * a) has an addend or is of type R_AVR32_DIFF32, and ++ * b) references a different section than it's in, and ++ * c) references a section that is relaxable ++ * ++ * as well as relocs that references the constant pool, in which case ++ * the add_frag member points to the frag containing the constant pool ++ * entry. ++ * ++ * Such relocs must be fixed up whenever we delete any code. Sections ++ * that don't have any relocs with all of the above properties don't ++ * have any additional reloc data, but sections that do will have ++ * additional data for all its relocs. ++ */ ++struct avr32_reloc_data ++{ ++ struct fragment *add_frag; ++ struct fragment *sub_frag; ++}; ++ ++/* ++ * A 'fragment' is a relaxable entity, that is, code may be added or ++ * deleted at the end of a fragment. When this happens, all subsequent ++ * fragments in the list will have their offsets updated. ++ */ ++struct fragment ++{ ++ enum relax_state_id state; ++ enum relax_state_id initial_state; ++ ++ Elf_Internal_Rela *rela; ++ bfd_size_type size; ++ bfd_vma offset; ++ int size_adjust; ++ int offset_adjust; ++ bfd_boolean has_grown; ++ ++ /* Only used by constant pool entries. When this drops to zero, the ++ frag is discarded (i.e. size_adjust is set to -4.) */ ++ int refcount; ++}; ++ ++struct avr32_relax_data ++{ ++ unsigned int frag_count; ++ struct fragment *frag; ++ struct avr32_reloc_data *reloc_data; ++ ++ /* TRUE if this section has one or more relaxable relocations */ ++ bfd_boolean is_relaxable; ++ unsigned int iteration; ++}; ++ ++struct avr32_section_data ++{ ++ struct bfd_elf_section_data elf; ++ struct avr32_relax_data relax_data; ++}; ++ ++ /* Relax state definitions */ ++ ++#define PIC_MOV2_OPCODE 0xe0600000 ++#define PIC_MOV2_MASK 0xe1e00000 ++#define PIC_MOV2_RANGE_MIN (-1048576 * 4) ++#define PIC_MOV2_RANGE_MAX (1048575 * 4) ++#define PIC_MCALL_OPCODE 0xf0160000 ++#define PIC_MCALL_MASK 0xffff0000 ++#define PIC_MCALL_RANGE_MIN (-131072) ++#define PIC_MCALL_RANGE_MAX (131068) ++#define RCALL2_OPCODE 0xe0a00000 ++#define RCALL2_MASK 0xe1ef0000 ++#define RCALL2_RANGE_MIN (-2097152) ++#define RCALL2_RANGE_MAX (2097150) ++#define RCALL1_OPCODE 0xc00c0000 ++#define RCALL1_MASK 0xf00c0000 ++#define RCALL1_RANGE_MIN (-1024) ++#define RCALL1_RANGE_MAX (1022) ++#define PIC_LDW4_OPCODE 0xecf00000 ++#define PIC_LDW4_MASK 0xfff00000 ++#define PIC_LDW4_RANGE_MIN (-32768) ++#define PIC_LDW4_RANGE_MAX (32767) ++#define PIC_LDW3_OPCODE 0x6c000000 ++#define PIC_LDW3_MASK 0xfe000000 ++#define PIC_LDW3_RANGE_MIN (0) ++#define PIC_LDW3_RANGE_MAX (124) ++#define SUB5_PC_OPCODE 0xfec00000 ++#define SUB5_PC_MASK 0xfff00000 ++#define SUB5_PC_RANGE_MIN (-32768) ++#define SUB5_PC_RANGE_MAX (32767) ++#define NOPIC_MCALL_OPCODE 0xf01f0000 ++#define NOPIC_MCALL_MASK 0xffff0000 ++#define NOPIC_MCALL_RANGE_MIN PIC_MCALL_RANGE_MIN ++#define NOPIC_MCALL_RANGE_MAX PIC_MCALL_RANGE_MAX ++#define NOPIC_LDW4_OPCODE 0xfef00000 ++#define NOPIC_LDW4_MASK 0xfff00000 ++#define NOPIC_LDW4_RANGE_MIN PIC_LDW4_RANGE_MIN ++#define NOPIC_LDW4_RANGE_MAX PIC_LDW4_RANGE_MAX ++#define LDDPC_OPCODE 0x48000000 ++#define LDDPC_MASK 0xf8000000 ++#define LDDPC_RANGE_MIN 0 ++#define LDDPC_RANGE_MAX 508 ++ ++#define NOPIC_MOV2_OPCODE 0xe0600000 ++#define NOPIC_MOV2_MASK 0xe1e00000 ++#define NOPIC_MOV2_RANGE_MIN (-1048576) ++#define NOPIC_MOV2_RANGE_MAX (1048575) ++#define NOPIC_MOV1_OPCODE 0x30000000 ++#define NOPIC_MOV1_MASK 0xf0000000 ++#define NOPIC_MOV1_RANGE_MIN (-128) ++#define NOPIC_MOV1_RANGE_MAX (127) ++ ++/* Only brc2 variants with cond[3] == 0 is considered, since the ++ others are not relaxable. bral is a special case and is handled ++ separately. */ ++#define BRC2_OPCODE 0xe0800000 ++#define BRC2_MASK 0xe1e80000 ++#define BRC2_RANGE_MIN (-2097152) ++#define BRC2_RANGE_MAX (2097150) ++#define BRC1_OPCODE 0xc0000000 ++#define BRC1_MASK 0xf0080000 ++#define BRC1_RANGE_MIN (-256) ++#define BRC1_RANGE_MAX (254) ++#define BRAL_OPCODE 0xe08f0000 ++#define BRAL_MASK 0xe1ef0000 ++#define BRAL_RANGE_MIN BRC2_RANGE_MIN ++#define BRAL_RANGE_MAX BRC2_RANGE_MAX ++#define RJMP_OPCODE 0xc0080000 ++#define RJMP_MASK 0xf00c0000 ++#define RJMP_RANGE_MIN (-1024) ++#define RJMP_RANGE_MAX (1022) ++ ++/* Define a relax state using the GOT */ ++#define RG(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_GOT, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++/* Define a relax state using the Constant Pool */ ++#define RC(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_CPOOL, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++ ++/* Define a relax state using pc-relative direct reference */ ++#define RP(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_PCREL, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++ ++/* Define a relax state using non-pc-relative direct reference */ ++#define RD(id, dir, next, prev, r_type, opc, size) \ ++ { "RS_"#id, RS_##id, RS_##dir, RS_##next, RS_##prev, REF_ABSOLUTE, \ ++ R_AVR32_##r_type, opc##_OPCODE, opc##_MASK, \ ++ opc##_RANGE_MIN, opc##_RANGE_MAX, size } ++ ++/* Define a relax state that will be handled specially */ ++#define RS(id, r_type, size) \ ++ { "RS_"#id, RS_##id, RS_NONE, RS_NONE, RS_NONE, REF_ABSOLUTE, \ ++ R_AVR32_##r_type, 0, 0, 0, 0, size } ++ ++const struct relax_state relax_state[RS_MAX] = { ++ RS(NONE, NONE, 0), ++ RS(ALIGN, ALIGN, 0), ++ RS(CPENT, 32_CPENT, 4), ++ ++ RG(PIC_CALL, PIC_RCALL1, PIC_MCALL, NONE, GOTCALL, PIC_MOV2, 10), ++ RG(PIC_MCALL, PIC_RCALL1, NONE, PIC_CALL, GOT18SW, PIC_MCALL, 4), ++ RP(PIC_RCALL2, NONE, PIC_RCALL1, PIC_MCALL, 22H_PCREL, RCALL2, 4), ++ RP(PIC_RCALL1, NONE, NONE, PIC_RCALL2, 11H_PCREL, RCALL1, 2), ++ ++ RG(PIC_LDA, PIC_SUB5, PIC_LDW4, NONE, LDA_GOT, PIC_MOV2, 8), ++ RG(PIC_LDW4, PIC_SUB5, PIC_LDW3, PIC_LDA, GOT16S, PIC_LDW4, 4), ++ RG(PIC_LDW3, PIC_SUB5, NONE, PIC_LDW4, GOT7UW, PIC_LDW3, 2), ++ RP(PIC_SUB5, NONE, NONE, PIC_LDW3, 16N_PCREL, SUB5_PC, 4), ++ ++ RC(NOPIC_MCALL, NOPIC_RCALL1, NONE, NONE, CPCALL, NOPIC_MCALL, 4), ++ RP(NOPIC_RCALL2, NONE, NOPIC_RCALL1, NOPIC_MCALL, 22H_PCREL, RCALL2, 4), ++ RP(NOPIC_RCALL1, NONE, NONE, NOPIC_RCALL2, 11H_PCREL, RCALL1, 2), ++ ++ RC(NOPIC_LDW4, NOPIC_MOV1, NOPIC_LDDPC, NONE, 16_CP, NOPIC_LDW4, 4), ++ RC(NOPIC_LDDPC, NOPIC_MOV1, NONE, NOPIC_LDW4, 9W_CP, LDDPC, 2), ++ RP(NOPIC_SUB5, NOPIC_MOV1, NONE, NOPIC_LDDPC, 16N_PCREL, SUB5_PC, 4), ++ RD(NOPIC_MOV2, NONE, NOPIC_MOV1, NOPIC_SUB5, 21S, NOPIC_MOV2, 4), ++ RD(NOPIC_MOV1, NONE, NONE, NOPIC_MOV2, 8S, NOPIC_MOV1, 2), ++ ++ RP(RCALL2, NONE, RCALL1, NONE, 22H_PCREL, RCALL2, 4), ++ RP(RCALL1, NONE, NONE, RCALL2, 11H_PCREL, RCALL1, 2), ++ RP(BRC2, NONE, BRC1, NONE, 22H_PCREL, BRC2, 4), ++ RP(BRC1, NONE, NONE, BRC2, 9H_PCREL, BRC1, 2), ++ RP(BRAL, NONE, RJMP, NONE, 22H_PCREL, BRAL, 4), ++ RP(RJMP, NONE, NONE, BRAL, 11H_PCREL, RJMP, 2), ++}; ++ ++static bfd_boolean ++avr32_elf_new_section_hook(bfd *abfd, asection *sec) ++{ ++ struct avr32_section_data *sdata; ++ ++ sdata = bfd_zalloc(abfd, sizeof(struct avr32_section_data)); ++ if (!sdata) ++ return FALSE; ++ ++ sec->used_by_bfd = sdata; ++ return _bfd_elf_new_section_hook(abfd, sec); ++} ++ ++static struct avr32_relax_data * ++avr32_relax_data(asection *sec) ++{ ++ struct avr32_section_data *sdata; ++ ++ BFD_ASSERT(sec->used_by_bfd); ++ ++ sdata = (struct avr32_section_data *)elf_section_data(sec); ++ return &sdata->relax_data; ++} ++ ++ /* Link-time relaxation */ ++ ++static bfd_boolean ++avr32_elf_relax_section(bfd *abfd, asection *sec, ++ struct bfd_link_info *info, bfd_boolean *again); ++ ++enum relax_pass_id { ++ RELAX_PASS_SIZE_FRAGS, ++ RELAX_PASS_MOVE_DATA, ++}; ++ ++/* Stolen from the xtensa port */ ++static int ++internal_reloc_compare (const void *ap, const void *bp) ++{ ++ const Elf_Internal_Rela *a = (const Elf_Internal_Rela *) ap; ++ const Elf_Internal_Rela *b = (const Elf_Internal_Rela *) bp; ++ ++ if (a->r_offset != b->r_offset) ++ return (a->r_offset - b->r_offset); ++ ++ /* We don't need to sort on these criteria for correctness, ++ but enforcing a more strict ordering prevents unstable qsort ++ from behaving differently with different implementations. ++ Without the code below we get correct but different results ++ on Solaris 2.7 and 2.8. We would like to always produce the ++ same results no matter the host. */ ++ ++ if (a->r_info != b->r_info) ++ return (a->r_info - b->r_info); ++ ++ return (a->r_addend - b->r_addend); ++} ++ ++static enum relax_state_id ++get_pcrel22_relax_state(bfd *abfd, asection *sec, struct bfd_link_info *info, ++ const Elf_Internal_Rela *rela) ++{ ++ bfd_byte *contents; ++ bfd_vma insn; ++ enum relax_state_id rs = RS_NONE; ++ ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ return RS_ERROR; ++ ++ insn = bfd_get_32(abfd, contents + rela->r_offset); ++ if ((insn & RCALL2_MASK) == RCALL2_OPCODE) ++ rs = RS_RCALL2; ++ else if ((insn & BRAL_MASK) == BRAL_OPCODE) ++ /* Optimizing bral -> rjmp gets us into all kinds of ++ trouble with jump tables. Better not do it. */ ++ rs = RS_NONE; ++ else if ((insn & BRC2_MASK) == BRC2_OPCODE) ++ rs = RS_BRC2; ++ ++ release_contents(sec, contents); ++ ++ return rs; ++} ++ ++static enum relax_state_id ++get_initial_relax_state(bfd *abfd, asection *sec, struct bfd_link_info *info, ++ const Elf_Internal_Rela *rela) ++{ ++ switch (ELF_R_TYPE(rela->r_info)) ++ { ++ case R_AVR32_GOTCALL: ++ return RS_PIC_CALL; ++ case R_AVR32_GOT18SW: ++ return RS_PIC_MCALL; ++ case R_AVR32_LDA_GOT: ++ return RS_PIC_LDA; ++ case R_AVR32_GOT16S: ++ return RS_PIC_LDW4; ++ case R_AVR32_CPCALL: ++ return RS_NOPIC_MCALL; ++ case R_AVR32_16_CP: ++ return RS_NOPIC_LDW4; ++ case R_AVR32_9W_CP: ++ return RS_NOPIC_LDDPC; ++ case R_AVR32_ALIGN: ++ return RS_ALIGN; ++ case R_AVR32_32_CPENT: ++ return RS_CPENT; ++ case R_AVR32_22H_PCREL: ++ return get_pcrel22_relax_state(abfd, sec, info, rela); ++ case R_AVR32_9H_PCREL: ++ return RS_BRC1; ++ default: ++ return RS_NONE; ++ } ++} ++ ++static bfd_boolean ++reloc_is_cpool_ref(const Elf_Internal_Rela *rela) ++{ ++ switch (ELF_R_TYPE(rela->r_info)) ++ { ++ case R_AVR32_CPCALL: ++ case R_AVR32_16_CP: ++ case R_AVR32_9W_CP: ++ return TRUE; ++ default: ++ return FALSE; ++ } ++} ++ ++static struct fragment * ++new_frag(bfd *abfd ATTRIBUTE_UNUSED, asection *sec, ++ struct avr32_relax_data *rd, enum relax_state_id state, ++ Elf_Internal_Rela *rela) ++{ ++ struct fragment *frag; ++ bfd_size_type r_size; ++ bfd_vma r_offset; ++ unsigned int i = rd->frag_count; ++ ++ BFD_ASSERT(state >= RS_NONE && state < RS_MAX); ++ ++ rd->frag_count++; ++ frag = bfd_realloc(rd->frag, sizeof(struct fragment) * rd->frag_count); ++ if (!frag) ++ return NULL; ++ rd->frag = frag; ++ ++ frag += i; ++ memset(frag, 0, sizeof(struct fragment)); ++ ++ if (state == RS_ALIGN) ++ r_size = (((rela->r_offset + (1 << rela->r_addend) - 1) ++ & ~((1 << rela->r_addend) - 1)) - rela->r_offset); ++ else ++ r_size = relax_state[state].size; ++ ++ if (rela) ++ r_offset = rela->r_offset; ++ else ++ r_offset = sec->size; ++ ++ if (i == 0) ++ { ++ frag->offset = 0; ++ frag->size = r_offset + r_size; ++ } ++ else ++ { ++ frag->offset = rd->frag[i - 1].offset + rd->frag[i - 1].size; ++ frag->size = r_offset + r_size - frag->offset; ++ } ++ ++ if (state != RS_CPENT) ++ /* Make sure we don't discard this frag */ ++ frag->refcount = 1; ++ ++ frag->initial_state = frag->state = state; ++ frag->rela = rela; ++ ++ return frag; ++} ++ ++static struct fragment * ++find_frag(asection *sec, bfd_vma offset) ++{ ++ struct fragment *first, *last; ++ struct avr32_relax_data *rd = avr32_relax_data(sec); ++ ++ if (rd->frag_count == 0) ++ return NULL; ++ ++ first = &rd->frag[0]; ++ last = &rd->frag[rd->frag_count - 1]; ++ ++ /* This may be a reloc referencing the end of a section. The last ++ frag will never have a reloc associated with it, so its size will ++ never change, thus the offset adjustment of the last frag will ++ always be the same as the offset adjustment of the end of the ++ section. */ ++ if (offset == sec->size) ++ { ++ BFD_ASSERT(last->offset + last->size == sec->size); ++ BFD_ASSERT(!last->rela); ++ return last; ++ } ++ ++ while (first <= last) ++ { ++ struct fragment *mid; ++ ++ mid = (last - first) / 2 + first; ++ if ((mid->offset + mid->size) <= offset) ++ first = mid + 1; ++ else if (mid->offset > offset) ++ last = mid - 1; ++ else ++ return mid; ++ } ++ ++ return NULL; ++} ++ ++/* Look through all relocs in a section and determine if any relocs ++ may be affected by relaxation in other sections. If so, allocate ++ an array of additional relocation data which links the affected ++ relocations to the frag(s) where the relaxation may occur. ++ ++ This function also links cpool references to cpool entries and ++ increments the refcount of the latter when this happens. */ ++ ++static bfd_boolean ++allocate_reloc_data(bfd *abfd, asection *sec, Elf_Internal_Rela *relocs, ++ struct bfd_link_info *info) ++{ ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Sym *isymbuf = NULL; ++ struct avr32_relax_data *rd; ++ unsigned int i; ++ bfd_boolean ret = FALSE; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ rd = avr32_relax_data(sec); ++ ++ RDBG("%s<%s>: allocate_reloc_data\n", abfd->filename, sec->name); ++ ++ for (i = 0; i < sec->reloc_count; i++) ++ { ++ Elf_Internal_Rela *rel = &relocs[i]; ++ asection *sym_sec; ++ unsigned long r_symndx; ++ bfd_vma sym_value; ++ ++ if (!rel->r_addend && ELF_R_TYPE(rel->r_info) != R_AVR32_DIFF32 ++ && !reloc_is_cpool_ref(rel)) ++ continue; ++ ++ r_symndx = ELF_R_SYM(rel->r_info); ++ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ Elf_Internal_Sym *isym; ++ ++ if (!isymbuf) ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ return FALSE; ++ ++ isym = &isymbuf[r_symndx]; ++ sym_sec = bfd_section_from_elf_index(abfd, isym->st_shndx); ++ sym_value = isym->st_value; ++ } ++ else ++ { ++ struct elf_link_hash_entry *h; ++ ++ h = elf_sym_hashes(abfd)[r_symndx - symtab_hdr->sh_info]; ++ ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ if (h->root.type != bfd_link_hash_defined ++ && h->root.type != bfd_link_hash_defweak) ++ continue; ++ ++ sym_sec = h->root.u.def.section; ++ sym_value = h->root.u.def.value; ++ } ++ ++ if (sym_sec && avr32_relax_data(sym_sec)->is_relaxable) ++ { ++ bfd_size_type size; ++ struct fragment *frag; ++ ++ if (!rd->reloc_data) ++ { ++ size = sizeof(struct avr32_reloc_data) * sec->reloc_count; ++ rd->reloc_data = bfd_zalloc(abfd, size); ++ if (!rd->reloc_data) ++ goto out; ++ } ++ ++ RDBG("[%3d] 0x%04lx: target: 0x%lx + 0x%lx", ++ i, rel->r_offset, sym_value, rel->r_addend); ++ ++ frag = find_frag(sym_sec, sym_value + rel->r_addend); ++ BFD_ASSERT(frag); ++ rd->reloc_data[i].add_frag = frag; ++ ++ RDBG(" -> %s<%s>:%04lx\n", sym_sec->owner->filename, sym_sec->name, ++ frag->rela ? frag->rela->r_offset : sym_sec->size); ++ ++ if (reloc_is_cpool_ref(rel)) ++ { ++ BFD_ASSERT(ELF_R_TYPE(frag->rela->r_info) == R_AVR32_32_CPENT); ++ frag->refcount++; ++ } ++ ++ if (ELF_R_TYPE(rel->r_info) == R_AVR32_DIFF32) ++ { ++ bfd_byte *contents; ++ bfd_signed_vma diff; ++ ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ goto out; ++ ++ diff = bfd_get_signed_32(abfd, contents + rel->r_offset); ++ frag = find_frag(sym_sec, sym_value + rel->r_addend + diff); ++ BFD_ASSERT(frag); ++ rd->reloc_data[i].sub_frag = frag; ++ ++ release_contents(sec, contents); ++ } ++ } ++ } ++ ++ ret = TRUE; ++ ++ out: ++ release_local_syms(abfd, isymbuf); ++ return ret; ++} ++ ++static bfd_boolean ++global_sym_set_frag(struct elf_avr32_link_hash_entry *havr, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED) ++{ ++ struct fragment *frag; ++ asection *sec; ++ ++ if (havr->root.root.type != bfd_link_hash_defined ++ && havr->root.root.type != bfd_link_hash_defweak) ++ return TRUE; ++ ++ sec = havr->root.root.u.def.section; ++ if (bfd_is_const_section(sec) ++ || !avr32_relax_data(sec)->is_relaxable) ++ return TRUE; ++ ++ frag = find_frag(sec, havr->root.root.u.def.value); ++ if (!frag) ++ { ++ unsigned int i; ++ struct avr32_relax_data *rd = avr32_relax_data(sec); ++ ++ RDBG("In %s: No frag for %s <%s+%lu> (limit %lu)\n", ++ sec->owner->filename, havr->root.root.root.string, ++ sec->name, havr->root.root.u.def.value, sec->size); ++ for (i = 0; i < rd->frag_count; i++) ++ RDBG(" %8lu - %8lu\n", rd->frag[i].offset, ++ rd->frag[i].offset + rd->frag[i].size); ++ } ++ BFD_ASSERT(frag); ++ ++ havr->sym_frag = frag; ++ return TRUE; ++} ++ ++static bfd_boolean ++analyze_relocations(struct bfd_link_info *info) ++{ ++ bfd *abfd; ++ asection *sec; ++ ++ /* Divide all relaxable sections into fragments */ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ { ++ if (!(elf_elfheader(abfd)->e_flags & EF_AVR32_LINKRELAX)) ++ { ++ if (!(*info->callbacks->warning) ++ (info, _("input is not relaxable"), NULL, abfd, NULL, 0)) ++ return FALSE; ++ continue; ++ } ++ ++ for (sec = abfd->sections; sec; sec = sec->next) ++ { ++ struct avr32_relax_data *rd; ++ struct fragment *frag; ++ Elf_Internal_Rela *relocs; ++ unsigned int i; ++ bfd_boolean ret = TRUE; ++ ++ if (!(sec->flags & SEC_RELOC) || sec->reloc_count == 0) ++ continue; ++ ++ rd = avr32_relax_data(sec); ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ return FALSE; ++ ++ qsort(relocs, sec->reloc_count, sizeof(Elf_Internal_Rela), ++ internal_reloc_compare); ++ ++ for (i = 0; i < sec->reloc_count; i++) ++ { ++ enum relax_state_id state; ++ ++ ret = FALSE; ++ state = get_initial_relax_state(abfd, sec, info, &relocs[i]); ++ if (state == RS_ERROR) ++ break; ++ ++ if (state) ++ { ++ frag = new_frag(abfd, sec, rd, state, &relocs[i]); ++ if (!frag) ++ break; ++ ++ pin_internal_relocs(sec, relocs); ++ rd->is_relaxable = TRUE; ++ } ++ ++ ret = TRUE; ++ } ++ ++ release_internal_relocs(sec, relocs); ++ if (!ret) ++ return ret; ++ ++ if (rd->is_relaxable) ++ { ++ frag = new_frag(abfd, sec, rd, RS_NONE, NULL); ++ if (!frag) ++ return FALSE; ++ } ++ } ++ } ++ ++ /* Link each global symbol to the fragment where it's defined. */ ++ elf_link_hash_traverse(elf_hash_table(info), global_sym_set_frag, info); ++ ++ /* Do the same for local symbols. */ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ { ++ Elf_Internal_Sym *isymbuf, *isym; ++ struct fragment **local_sym_frag; ++ unsigned int i, sym_count; ++ ++ sym_count = elf_tdata(abfd)->symtab_hdr.sh_info; ++ if (sym_count == 0) ++ continue; ++ ++ local_sym_frag = bfd_zalloc(abfd, sym_count * sizeof(struct fragment *)); ++ if (!local_sym_frag) ++ return FALSE; ++ elf_tdata(abfd)->local_sym_frag = local_sym_frag; ++ ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ return FALSE; ++ ++ for (i = 0; i < sym_count; i++) ++ { ++ struct avr32_relax_data *rd; ++ struct fragment *frag; ++ asection *sec; ++ ++ isym = &isymbuf[i]; ++ ++ sec = bfd_section_from_elf_index(abfd, isym->st_shndx); ++ if (!sec) ++ continue; ++ ++ rd = avr32_relax_data(sec); ++ if (!rd->is_relaxable) ++ continue; ++ ++ frag = find_frag(sec, isym->st_value); ++ BFD_ASSERT(frag); ++ ++ local_sym_frag[i] = frag; ++ } ++ ++ release_local_syms(abfd, isymbuf); ++ } ++ ++ /* And again for relocs with addends and constant pool references */ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ for (sec = abfd->sections; sec; sec = sec->next) ++ { ++ Elf_Internal_Rela *relocs; ++ bfd_boolean ret; ++ ++ if (!(sec->flags & SEC_RELOC) || sec->reloc_count == 0) ++ continue; ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ return FALSE; ++ ++ ret = allocate_reloc_data(abfd, sec, relocs, info); ++ ++ release_internal_relocs(sec, relocs); ++ if (ret == FALSE) ++ return ret; ++ } ++ ++ return TRUE; ++} ++ ++static bfd_boolean ++rs_is_good_enough(const struct relax_state *rs, struct fragment *frag, ++ bfd_vma symval, bfd_vma addr, struct got_entry *got, ++ struct avr32_reloc_data *ind_data, ++ bfd_signed_vma offset_adjust) ++{ ++ bfd_signed_vma target = 0; ++ ++ switch (rs->reftype) ++ { ++ case REF_ABSOLUTE: ++ target = symval; ++ break; ++ case REF_PCREL: ++ target = symval - addr; ++ break; ++ case REF_CPOOL: ++ /* cpool frags are always in the same section and always after ++ all frags referring to it. So it's always correct to add in ++ offset_adjust here. */ ++ target = (ind_data->add_frag->offset + ind_data->add_frag->offset_adjust ++ + offset_adjust - frag->offset - frag->offset_adjust); ++ break; ++ case REF_GOT: ++ target = got->offset; ++ break; ++ default: ++ abort(); ++ } ++ ++ if (target >= rs->range_min && target <= rs->range_max) ++ return TRUE; ++ else ++ return FALSE; ++} ++ ++static bfd_boolean ++avr32_size_frags(bfd *abfd, asection *sec, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct avr32_relax_data *rd; ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Rela *relocs = NULL; ++ Elf_Internal_Sym *isymbuf = NULL; ++ struct got_entry **local_got_ents; ++ struct fragment **local_sym_frag; ++ bfd_boolean ret = FALSE; ++ bfd_signed_vma delta = 0; ++ unsigned int i; ++ ++ htab = avr32_elf_hash_table(info); ++ rd = avr32_relax_data(sec); ++ ++ if (sec == htab->sgot) ++ { ++ RDBG("Relaxing GOT section (vma: 0x%lx)\n", ++ sec->output_section->vma + sec->output_offset); ++ if (assign_got_offsets(htab)) ++ htab->repeat_pass = TRUE; ++ return TRUE; ++ } ++ ++ if (!rd->is_relaxable) ++ return TRUE; ++ ++ if (!sec->rawsize) ++ sec->rawsize = sec->size; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ goto out; ++ ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ goto out; ++ ++ local_got_ents = elf_local_got_ents(abfd); ++ local_sym_frag = elf_tdata(abfd)->local_sym_frag; ++ ++ RDBG("size_frags: %s<%s>\n vma: 0x%08lx, size: 0x%08lx\n", ++ abfd->filename, sec->name, ++ sec->output_section->vma + sec->output_offset, sec->size); ++ ++ for (i = 0; i < rd->frag_count; i++) ++ { ++ struct fragment *frag = &rd->frag[i]; ++ struct avr32_reloc_data *r_data = NULL, *ind_data = NULL; ++ const struct relax_state *state, *next_state; ++ struct fragment *target_frag = NULL; ++ asection *sym_sec = NULL; ++ Elf_Internal_Rela *rela; ++ struct got_entry *got; ++ bfd_vma symval, r_offset, addend, addr; ++ bfd_signed_vma size_adjust = 0, distance; ++ unsigned long r_symndx; ++ bfd_boolean defined = TRUE, dynamic = FALSE; ++ unsigned char sym_type; ++ ++ frag->offset_adjust += delta; ++ state = next_state = &relax_state[frag->state]; ++ rela = frag->rela; ++ ++ BFD_ASSERT(state->id == frag->state); ++ ++ RDBG(" 0x%04lx%c%d: %s [size %ld]", rela ? rela->r_offset : sec->rawsize, ++ (frag->offset_adjust < 0)?'-':'+', ++ abs(frag->offset_adjust), state->name, state->size); ++ ++ if (!rela) ++ { ++ RDBG(": no reloc, ignoring\n"); ++ continue; ++ } ++ ++ BFD_ASSERT((unsigned int)(rela - relocs) < sec->reloc_count); ++ BFD_ASSERT(state != RS_NONE); ++ ++ r_offset = rela->r_offset + frag->offset_adjust; ++ addr = sec->output_section->vma + sec->output_offset + r_offset; ++ ++ switch (frag->state) ++ { ++ case RS_ALIGN: ++ size_adjust = ((addr + (1 << rela->r_addend) - 1) ++ & ~((1 << rela->r_addend) - 1)); ++ size_adjust -= (sec->output_section->vma + sec->output_offset ++ + frag->offset + frag->offset_adjust ++ + frag->size + frag->size_adjust); ++ ++ RDBG(": adjusting size %lu -> %lu\n", frag->size + frag->size_adjust, ++ frag->size + frag->size_adjust + size_adjust); ++ break; ++ ++ case RS_CPENT: ++ if (frag->refcount == 0 && frag->size_adjust == 0) ++ { ++ RDBG(": discarding frag\n"); ++ size_adjust = -4; ++ } ++ else if (frag->refcount > 0 && frag->size_adjust < 0) ++ { ++ RDBG(": un-discarding frag\n"); ++ size_adjust = 4; ++ } ++ break; ++ ++ default: ++ if (rd->reloc_data) ++ r_data = &rd->reloc_data[frag->rela - relocs]; ++ ++ /* If this is a cpool reference, we want the symbol that the ++ cpool entry refers to, not the symbol for the cpool entry ++ itself, as we already know what frag it's in. */ ++ if (relax_state[frag->initial_state].reftype == REF_CPOOL) ++ { ++ Elf_Internal_Rela *irela = r_data->add_frag->rela; ++ ++ r_symndx = ELF_R_SYM(irela->r_info); ++ addend = irela->r_addend; ++ ++ /* The constant pool must be in the same section as the ++ reloc referring to it. */ ++ BFD_ASSERT((unsigned long)(irela - relocs) < sec->reloc_count); ++ ++ ind_data = r_data; ++ r_data = &rd->reloc_data[irela - relocs]; ++ } ++ else ++ { ++ r_symndx = ELF_R_SYM(rela->r_info); ++ addend = rela->r_addend; ++ } ++ ++ /* Get the value of the symbol referred to by the reloc. */ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ Elf_Internal_Sym *isym; ++ ++ isym = isymbuf + r_symndx; ++ symval = 0; ++ ++ RDBG(" local sym %lu: ", r_symndx); ++ ++ if (isym->st_shndx == SHN_UNDEF) ++ defined = FALSE; ++ else if (isym->st_shndx == SHN_ABS) ++ sym_sec = bfd_abs_section_ptr; ++ else if (isym->st_shndx == SHN_COMMON) ++ sym_sec = bfd_com_section_ptr; ++ else ++ sym_sec = bfd_section_from_elf_index(abfd, isym->st_shndx); ++ ++ symval = isym->st_value; ++ sym_type = ELF_ST_TYPE(isym->st_info); ++ target_frag = local_sym_frag[r_symndx]; ++ ++ if (local_got_ents) ++ got = local_got_ents[r_symndx]; ++ else ++ got = NULL; ++ } ++ else ++ { ++ /* Global symbol */ ++ unsigned long index; ++ struct elf_link_hash_entry *h; ++ struct elf_avr32_link_hash_entry *havr; ++ ++ index = r_symndx - symtab_hdr->sh_info; ++ h = elf_sym_hashes(abfd)[index]; ++ BFD_ASSERT(h != NULL); ++ ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ havr = (struct elf_avr32_link_hash_entry *)h; ++ got = h->got.glist; ++ ++ symval = 0; ++ ++ RDBG(" %s: ", h->root.root.string); ++ ++ if (h->root.type != bfd_link_hash_defined ++ && h->root.type != bfd_link_hash_defweak) ++ { ++ RDBG("(undef)"); ++ defined = FALSE; ++ } ++ else if ((info->shared && !info->symbolic && h->dynindx != -1) ++ || (htab->root.dynamic_sections_created ++ && h->def_dynamic && !h->def_regular)) ++ { ++ RDBG("(dynamic)"); ++ dynamic = TRUE; ++ sym_sec = h->root.u.def.section; ++ } ++ else ++ { ++ sym_sec = h->root.u.def.section; ++ symval = h->root.u.def.value; ++ target_frag = havr->sym_frag; ++ } ++ ++ sym_type = h->type; ++ } ++ ++ /* Thanks to elf32-ppc for this one. */ ++ if (sym_sec && sym_sec->sec_info_type == ELF_INFO_TYPE_MERGE) ++ { ++ /* At this stage in linking, no SEC_MERGE symbol has been ++ adjusted, so all references to such symbols need to be ++ passed through _bfd_merged_section_offset. (Later, in ++ relocate_section, all SEC_MERGE symbols *except* for ++ section symbols have been adjusted.) ++ ++ SEC_MERGE sections are not relaxed by us, as they ++ shouldn't contain any code. */ ++ ++ BFD_ASSERT(!target_frag && !(r_data && r_data->add_frag)); ++ ++ /* gas may reduce relocations against symbols in SEC_MERGE ++ sections to a relocation against the section symbol when ++ the original addend was zero. When the reloc is against ++ a section symbol we should include the addend in the ++ offset passed to _bfd_merged_section_offset, since the ++ location of interest is the original symbol. On the ++ other hand, an access to "sym+addend" where "sym" is not ++ a section symbol should not include the addend; Such an ++ access is presumed to be an offset from "sym"; The ++ location of interest is just "sym". */ ++ RDBG("\n MERGE: %s: 0x%lx+0x%lx+0x%lx -> ", ++ (sym_type == STT_SECTION)?"section":"not section", ++ sym_sec->output_section->vma + sym_sec->output_offset, ++ symval, addend); ++ ++ if (sym_type == STT_SECTION) ++ symval += addend; ++ ++ symval = (_bfd_merged_section_offset ++ (abfd, &sym_sec, ++ elf_section_data(sym_sec)->sec_info, symval)); ++ ++ if (sym_type != STT_SECTION) ++ symval += addend; ++ } ++ else ++ symval += addend; ++ ++ if (defined && !dynamic) ++ { ++ RDBG("0x%lx+0x%lx", ++ sym_sec->output_section->vma + sym_sec->output_offset, ++ symval); ++ symval += sym_sec->output_section->vma + sym_sec->output_offset; ++ } ++ ++ if (r_data && r_data->add_frag) ++ /* If the add_frag pointer is set, it means that this reloc ++ has an addend that may be affected by relaxation. */ ++ target_frag = r_data->add_frag; ++ ++ if (target_frag) ++ { ++ symval += target_frag->offset_adjust; ++ ++ /* If target_frag comes after this frag in the same ++ section, we should assume that it will be moved by ++ the same amount we are. */ ++ if ((target_frag - rd->frag) < (int)rd->frag_count ++ && target_frag > frag) ++ symval += delta; ++ } ++ ++ distance = symval - addr; ++ ++ /* First, try to make a direct reference. If the symbol is ++ dynamic or undefined, we must take care not to change its ++ reference type, that is, we can't make it direct. ++ ++ Also, it seems like some sections may actually be resized ++ after the relaxation code is done, so we can't really ++ trust that our "distance" is correct. There's really no ++ easy solution to this problem, so we'll just disallow ++ direct references to SEC_DATA sections. ++ ++ Oh, and .bss isn't actually SEC_DATA, so we disallow ++ !SEC_HAS_CONTENTS as well. */ ++ if (!dynamic && defined ++ && (htab->direct_data_refs ++ || (!(sym_sec->flags & SEC_DATA) ++ && (sym_sec->flags & SEC_HAS_CONTENTS))) ++ && next_state->direct) ++ { ++ next_state = &relax_state[next_state->direct]; ++ RDBG(" D-> %s", next_state->name); ++ } ++ ++ /* Iterate backwards until we find a state that fits. */ ++ while (next_state->prev ++ && !rs_is_good_enough(next_state, frag, symval, addr, ++ got, ind_data, delta)) ++ { ++ next_state = &relax_state[next_state->prev]; ++ RDBG(" P-> %s", next_state->name); ++ } ++ ++ /* Then try to find the best possible state. */ ++ while (next_state->next) ++ { ++ const struct relax_state *candidate; ++ ++ candidate = &relax_state[next_state->next]; ++ if (!rs_is_good_enough(candidate, frag, symval, addr, got, ++ ind_data, delta)) ++ break; ++ ++ next_state = candidate; ++ RDBG(" N-> %s", next_state->name); ++ } ++ ++ RDBG(" [size %ld]\n", next_state->size); ++ ++ BFD_ASSERT(next_state->id); ++ BFD_ASSERT(!dynamic || next_state->reftype == REF_GOT); ++ ++ size_adjust = next_state->size - state->size; ++ ++ /* There's a theoretical possibility that shrinking one frag ++ may cause another to grow, which may cause the first one to ++ grow as well, and we're back where we started. Avoid this ++ scenario by disallowing a frag that has grown to ever ++ shrink again. */ ++ if (state->reftype == REF_GOT && next_state->reftype != REF_GOT) ++ { ++ if (frag->has_grown) ++ next_state = state; ++ else ++ unref_got_entry(htab, got); ++ } ++ else if (state->reftype != REF_GOT && next_state->reftype == REF_GOT) ++ { ++ ref_got_entry(htab, got); ++ frag->has_grown = TRUE; ++ } ++ else if (state->reftype == REF_CPOOL ++ && next_state->reftype != REF_CPOOL) ++ { ++ if (frag->has_grown) ++ next_state = state; ++ else ++ ind_data->add_frag->refcount--; ++ } ++ else if (state->reftype != REF_CPOOL ++ && next_state->reftype == REF_CPOOL) ++ { ++ ind_data->add_frag->refcount++; ++ frag->has_grown = TRUE; ++ } ++ else ++ { ++ if (frag->has_grown && size_adjust < 0) ++ next_state = state; ++ else if (size_adjust > 0) ++ frag->has_grown = TRUE; ++ } ++ ++ size_adjust = next_state->size - state->size; ++ frag->state = next_state->id; ++ ++ break; ++ } ++ ++ if (size_adjust) ++ htab->repeat_pass = TRUE; ++ ++ frag->size_adjust += size_adjust; ++ sec->size += size_adjust; ++ delta += size_adjust; ++ ++ BFD_ASSERT((frag->offset + frag->offset_adjust ++ + frag->size + frag->size_adjust) ++ == (frag[1].offset + frag[1].offset_adjust + delta)); ++ } ++ ++ ret = TRUE; ++ ++ out: ++ release_local_syms(abfd, isymbuf); ++ release_internal_relocs(sec, relocs); ++ return ret; ++} ++ ++static bfd_boolean ++adjust_global_symbol(struct elf_avr32_link_hash_entry *havr, ++ struct bfd_link_info *info ATTRIBUTE_UNUSED) ++{ ++ struct elf_link_hash_entry *h = &havr->root; ++ ++ if (havr->sym_frag && (h->root.type == bfd_link_hash_defined ++ || h->root.type == bfd_link_hash_defweak)) ++ { ++ RDBG("adjust_global_symbol: %s 0x%08lx -> 0x%08lx\n", ++ h->root.root.string, h->root.u.def.value, ++ h->root.u.def.value + havr->sym_frag->offset_adjust); ++ h->root.u.def.value += havr->sym_frag->offset_adjust; ++ } ++ return TRUE; ++} ++ ++static bfd_boolean ++adjust_syms(struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ bfd *abfd; ++ ++ htab = avr32_elf_hash_table(info); ++ elf_link_hash_traverse(&htab->root, adjust_global_symbol, info); ++ ++ for (abfd = info->input_bfds; abfd; abfd = abfd->link_next) ++ { ++ Elf_Internal_Sym *isymbuf; ++ struct fragment **local_sym_frag, *frag; ++ unsigned int i, sym_count; ++ ++ sym_count = elf_tdata(abfd)->symtab_hdr.sh_info; ++ if (sym_count == 0) ++ continue; ++ ++ isymbuf = retrieve_local_syms(abfd, info->keep_memory); ++ if (!isymbuf) ++ return FALSE; ++ ++ local_sym_frag = elf_tdata(abfd)->local_sym_frag; ++ ++ for (i = 0; i < sym_count; i++) ++ { ++ frag = local_sym_frag[i]; ++ if (frag) ++ { ++ RDBG("adjust_local_symbol: %s[%u] 0x%08lx -> 0x%08lx\n", ++ abfd->filename, i, isymbuf[i].st_value, ++ isymbuf[i].st_value + frag->offset_adjust); ++ isymbuf[i].st_value += frag->offset_adjust; ++ } ++ } ++ ++ release_local_syms(abfd, isymbuf); ++ } ++ ++ htab->symbols_adjusted = TRUE; ++ return TRUE; ++} ++ ++static bfd_boolean ++adjust_relocs(bfd *abfd, asection *sec, struct bfd_link_info *info) ++{ ++ struct avr32_relax_data *rd; ++ Elf_Internal_Rela *relocs; ++ Elf_Internal_Shdr *symtab_hdr; ++ unsigned int i; ++ bfd_boolean ret = FALSE; ++ ++ rd = avr32_relax_data(sec); ++ if (!rd->reloc_data) ++ return TRUE; ++ ++ RDBG("adjust_relocs: %s<%s> (count: %u)\n", abfd->filename, sec->name, ++ sec->reloc_count); ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ return FALSE; ++ ++ symtab_hdr = &elf_tdata(abfd)->symtab_hdr; ++ ++ for (i = 0; i < sec->reloc_count; i++) ++ { ++ Elf_Internal_Rela *rela = &relocs[i]; ++ struct avr32_reloc_data *r_data = &rd->reloc_data[i]; ++ struct fragment *sym_frag; ++ unsigned long r_symndx; ++ ++ if (r_data->add_frag) ++ { ++ r_symndx = ELF_R_SYM(rela->r_info); ++ ++ if (r_symndx < symtab_hdr->sh_info) ++ sym_frag = elf_tdata(abfd)->local_sym_frag[r_symndx]; ++ else ++ { ++ struct elf_link_hash_entry *h; ++ ++ h = elf_sym_hashes(abfd)[r_symndx - symtab_hdr->sh_info]; ++ ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ BFD_ASSERT(h->root.type == bfd_link_hash_defined ++ || h->root.type == bfd_link_hash_defweak); ++ ++ sym_frag = ((struct elf_avr32_link_hash_entry *)h)->sym_frag; ++ } ++ ++ RDBG(" addend: 0x%08lx -> 0x%08lx\n", ++ rela->r_addend, ++ rela->r_addend + r_data->add_frag->offset_adjust ++ - (sym_frag ? sym_frag->offset_adjust : 0)); ++ ++ /* If this is against a section symbol, we won't find any ++ sym_frag, so we'll just adjust the addend. */ ++ rela->r_addend += r_data->add_frag->offset_adjust; ++ if (sym_frag) ++ rela->r_addend -= sym_frag->offset_adjust; ++ ++ if (r_data->sub_frag) ++ { ++ bfd_byte *contents; ++ bfd_signed_vma diff; ++ ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ goto out; ++ ++ /* I realize now that sub_frag is misnamed. It's ++ actually add_frag which is subtracted in this ++ case... */ ++ diff = bfd_get_signed_32(abfd, contents + rela->r_offset); ++ diff += (r_data->sub_frag->offset_adjust ++ - r_data->add_frag->offset_adjust); ++ bfd_put_32(abfd, diff, contents + rela->r_offset); ++ ++ RDBG(" 0x%lx: DIFF32 updated: 0x%lx\n", rela->r_offset, diff); ++ ++ release_contents(sec, contents); ++ } ++ } ++ else ++ BFD_ASSERT(!r_data->sub_frag); ++ } ++ ++ ret = TRUE; ++ ++ out: ++ release_internal_relocs(sec, relocs); ++ return ret; ++} ++ ++static bfd_boolean ++avr32_move_data(bfd *abfd, asection *sec, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct avr32_relax_data *rd; ++ struct fragment *frag, *fragend; ++ Elf_Internal_Rela *relocs = NULL; ++ bfd_byte *contents = NULL; ++ unsigned int i; ++ bfd_boolean ret = FALSE; ++ ++ htab = avr32_elf_hash_table(info); ++ rd = avr32_relax_data(sec); ++ ++ if (!htab->symbols_adjusted) ++ if (!adjust_syms(info)) ++ return FALSE; ++ ++ if (rd->is_relaxable) ++ { ++ /* Resize the section first, so that we can be sure that enough ++ memory is allocated in case the section has grown. */ ++ if (sec->size > sec->rawsize ++ && elf_section_data(sec)->this_hdr.contents) ++ { ++ /* We must not use cached data if the section has grown. */ ++ free(elf_section_data(sec)->this_hdr.contents); ++ elf_section_data(sec)->this_hdr.contents = NULL; ++ } ++ ++ relocs = retrieve_internal_relocs(abfd, sec, info->keep_memory); ++ if (!relocs) ++ goto out; ++ contents = retrieve_contents(abfd, sec, info->keep_memory); ++ if (!contents) ++ goto out; ++ ++ fragend = rd->frag + rd->frag_count; ++ ++ RDBG("move_data: %s<%s>: relocs=%p, contents=%p\n", ++ abfd->filename, sec->name, relocs, contents); ++ ++ /* First, move the data into place. We must take care to move ++ frags in the right order so that we don't accidentally ++ overwrite parts of the next frag. */ ++ for (frag = rd->frag; frag < fragend; frag++) ++ { ++ RDBG(" 0x%08lx%c0x%x: size 0x%lx%c0x%x\n", ++ frag->offset, frag->offset_adjust >= 0 ? '+' : '-', ++ abs(frag->offset_adjust), ++ frag->size, frag->size_adjust >= 0 ? '+' : '-', ++ abs(frag->size_adjust)); ++ if (frag->offset_adjust > 0) ++ { ++ struct fragment *prev = frag - 1; ++ struct fragment *last; ++ ++ for (last = frag; last < fragend && last->offset_adjust > 0; ++ last++) ; ++ ++ if (last == fragend) ++ last--; ++ ++ for (frag = last; frag != prev; frag--) ++ { ++ if (frag->offset_adjust ++ && frag->size + frag->size_adjust > 0) ++ { ++ RDBG("memmove 0x%lx -> 0x%lx (size %lu)\n", ++ frag->offset, frag->offset + frag->offset_adjust, ++ frag->size + frag->size_adjust); ++ memmove(contents + frag->offset + frag->offset_adjust, ++ contents + frag->offset, ++ frag->size + frag->size_adjust); ++ } ++ } ++ frag = last; ++ } ++ else if (frag->offset_adjust && frag->size + frag->size_adjust > 0) ++ { ++ RDBG("memmove 0x%lx -> 0x%lx (size %lu)\n", ++ frag->offset, frag->offset + frag->offset_adjust, ++ frag->size + frag->size_adjust); ++ memmove(contents + frag->offset + frag->offset_adjust, ++ contents + frag->offset, ++ frag->size + frag->size_adjust); ++ } ++ } ++ ++ i = 0; ++ ++ for (frag = rd->frag; frag < fragend; frag++) ++ { ++ const struct relax_state *state, *istate; ++ struct avr32_reloc_data *r_data = NULL; ++ ++ istate = &relax_state[frag->initial_state]; ++ state = &relax_state[frag->state]; ++ ++ if (rd->reloc_data) ++ r_data = &rd->reloc_data[frag->rela - relocs]; ++ ++ BFD_ASSERT((long)(frag->size + frag->size_adjust) >= 0); ++ BFD_ASSERT(state->reftype != REF_CPOOL ++ || r_data->add_frag->refcount > 0); ++ ++ if (istate->reftype == REF_CPOOL && state->reftype != REF_CPOOL) ++ { ++ struct fragment *ifrag; ++ ++ /* An indirect reference through the cpool has been ++ converted to a direct reference. We must update the ++ reloc to point to the symbol itself instead of the ++ constant pool entry. The reloc type will be updated ++ later. */ ++ ifrag = r_data->add_frag; ++ frag->rela->r_info = ifrag->rela->r_info; ++ frag->rela->r_addend = ifrag->rela->r_addend; ++ ++ /* Copy the reloc data so the addend will be adjusted ++ correctly later. */ ++ *r_data = rd->reloc_data[ifrag->rela - relocs]; ++ } ++ ++ /* Move all relocs covered by this frag. */ ++ if (frag->rela) ++ BFD_ASSERT(&relocs[i] <= frag->rela); ++ else ++ BFD_ASSERT((frag + 1) == fragend && frag->state == RS_NONE); ++ ++ if (frag == rd->frag) ++ BFD_ASSERT(i == 0); ++ else ++ BFD_ASSERT(&relocs[i] > frag[-1].rela); ++ ++ /* If non-null, frag->rela is the last relocation in the ++ fragment. frag->rela can only be null in the last ++ fragment, so in that case, we'll just do the rest. */ ++ for (; (i < sec->reloc_count ++ && (!frag->rela || &relocs[i] <= frag->rela)); i++) ++ { ++ RDBG("[%4u] r_offset 0x%08lx -> 0x%08lx\n", i, relocs[i].r_offset, ++ relocs[i].r_offset + frag->offset_adjust); ++ relocs[i].r_offset += frag->offset_adjust; ++ } ++ ++ if (frag->refcount == 0) ++ { ++ /* If this frag is to be discarded, make sure we won't ++ relocate it later on. */ ++ BFD_ASSERT(frag->state == RS_CPENT); ++ frag->rela->r_info = ELF_R_INFO(ELF_R_SYM(frag->rela->r_info), ++ R_AVR32_NONE); ++ } ++ else if (frag->state == RS_ALIGN) ++ { ++ bfd_vma addr, addr_end; ++ ++ addr = frag->rela->r_offset; ++ addr_end = (frag->offset + frag->offset_adjust ++ + frag->size + frag->size_adjust); ++ ++ /* If the section is executable, insert NOPs. ++ Otherwise, insert zeroes. */ ++ if (sec->flags & SEC_CODE) ++ { ++ if (addr & 1) ++ { ++ bfd_put_8(abfd, 0, contents + addr); ++ addr++; ++ } ++ ++ BFD_ASSERT(!((addr_end - addr) & 1)); ++ ++ while (addr < addr_end) ++ { ++ bfd_put_16(abfd, NOP_OPCODE, contents + addr); ++ addr += 2; ++ } ++ } ++ else ++ memset(contents + addr, 0, addr_end - addr); ++ } ++ else if (state->opcode_mask) ++ { ++ bfd_vma insn; ++ ++ /* Update the opcode and the relocation type unless it's a ++ "special" relax state (i.e. RS_NONE, RS_ALIGN or ++ RS_CPENT.), in which case the opcode mask is zero. */ ++ insn = bfd_get_32(abfd, contents + frag->rela->r_offset); ++ insn &= ~state->opcode_mask; ++ insn |= state->opcode; ++ RDBG(" 0x%lx: inserting insn %08lx\n", ++ frag->rela->r_offset, insn); ++ bfd_put_32(abfd, insn, contents + frag->rela->r_offset); ++ ++ frag->rela->r_info = ELF_R_INFO(ELF_R_SYM(frag->rela->r_info), ++ state->r_type); ++ } ++ ++ if ((frag + 1) == fragend) ++ BFD_ASSERT((frag->offset + frag->size + frag->offset_adjust ++ + frag->size_adjust) == sec->size); ++ else ++ BFD_ASSERT((frag->offset + frag->size + frag->offset_adjust ++ + frag->size_adjust) ++ == (frag[1].offset + frag[1].offset_adjust)); ++ } ++ } ++ ++ /* Adjust reloc addends and DIFF32 differences */ ++ if (!adjust_relocs(abfd, sec, info)) ++ return FALSE; ++ ++ ret = TRUE; ++ ++ out: ++ release_contents(sec, contents); ++ release_internal_relocs(sec, relocs); ++ return ret; ++} ++ ++static bfd_boolean ++avr32_elf_relax_section(bfd *abfd, asection *sec, ++ struct bfd_link_info *info, bfd_boolean *again) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct avr32_relax_data *rd; ++ ++ *again = FALSE; ++ if (info->relocatable) ++ return TRUE; ++ ++ htab = avr32_elf_hash_table(info); ++ if ((!(sec->flags & SEC_RELOC) || sec->reloc_count == 0) ++ && sec != htab->sgot) ++ return TRUE; ++ ++ if (!htab->relocations_analyzed) ++ { ++ if (!analyze_relocations(info)) ++ return FALSE; ++ htab->relocations_analyzed = TRUE; ++ } ++ ++ rd = avr32_relax_data(sec); ++ ++ if (rd->iteration != htab->relax_iteration) ++ { ++ if (!htab->repeat_pass) ++ htab->relax_pass++; ++ htab->relax_iteration++; ++ htab->repeat_pass = FALSE; ++ } ++ ++ rd->iteration++; ++ ++ switch (htab->relax_pass) ++ { ++ case RELAX_PASS_SIZE_FRAGS: ++ if (!avr32_size_frags(abfd, sec, info)) ++ return FALSE; ++ *again = TRUE; ++ break; ++ case RELAX_PASS_MOVE_DATA: ++ if (!avr32_move_data(abfd, sec, info)) ++ return FALSE; ++ break; ++ } ++ ++ return TRUE; ++} ++ ++ ++/* Relocation */ ++ ++static bfd_reloc_status_type ++avr32_check_reloc_value(asection *sec, Elf_Internal_Rela *rela, ++ bfd_signed_vma relocation, reloc_howto_type *howto); ++static bfd_reloc_status_type ++avr32_final_link_relocate(reloc_howto_type *howto, bfd *input_bfd, ++ asection *input_section, bfd_byte *contents, ++ Elf_Internal_Rela *rel, bfd_vma value); ++static bfd_boolean ++avr32_elf_relocate_section(bfd *output_bfd, struct bfd_link_info *info, ++ bfd *input_bfd, asection *input_section, ++ bfd_byte *contents, Elf_Internal_Rela *relocs, ++ Elf_Internal_Sym *local_syms, ++ asection **local_sections); ++ ++ ++#define symbol_address(symbol) \ ++ symbol->value + symbol->section->output_section->vma \ ++ + symbol->section->output_offset ++ ++#define avr32_elf_insert_field(size, field, abfd, reloc_entry, data) \ ++ do \ ++ { \ ++ unsigned long x; \ ++ x = bfd_get_##size (abfd, data + reloc_entry->address); \ ++ x &= ~reloc_entry->howto->dst_mask; \ ++ x |= field & reloc_entry->howto->dst_mask; \ ++ bfd_put_##size (abfd, (bfd_vma) x, data + reloc_entry->address); \ ++ } \ ++ while(0) ++ ++static bfd_reloc_status_type ++avr32_check_reloc_value(asection *sec ATTRIBUTE_UNUSED, ++ Elf_Internal_Rela *rela ATTRIBUTE_UNUSED, ++ bfd_signed_vma relocation, ++ reloc_howto_type *howto) ++{ ++ bfd_vma reloc_u; ++ ++ /* We take "complain_overflow_dont" to mean "don't complain on ++ alignment either". This way, we don't have to special-case ++ R_AVR32_HI16 */ ++ if (howto->complain_on_overflow == complain_overflow_dont) ++ return bfd_reloc_ok; ++ ++ /* Check if the value is correctly aligned */ ++ if (relocation & ((1 << howto->rightshift) - 1)) ++ { ++ RDBG("misaligned: %s<%s+%lx>: %s: 0x%lx (align %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, relocation, howto->rightshift); ++ return bfd_reloc_overflow; ++ } ++ ++ /* Now, get rid of the unnecessary bits */ ++ relocation >>= howto->rightshift; ++ reloc_u = (bfd_vma)relocation; ++ ++ switch (howto->complain_on_overflow) ++ { ++ case complain_overflow_unsigned: ++ case complain_overflow_bitfield: ++ if (reloc_u > (unsigned long)((1 << howto->bitsize) - 1)) ++ { ++ RDBG("unsigned overflow: %s<%s+%lx>: %s: 0x%lx (size %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, reloc_u, howto->bitsize); ++ RDBG("reloc vma: 0x%lx\n", ++ sec->output_section->vma + sec->output_offset + rela->r_offset); ++ ++ return bfd_reloc_overflow; ++ } ++ break; ++ case complain_overflow_signed: ++ if (relocation > (1 << (howto->bitsize - 1)) - 1) ++ { ++ RDBG("signed overflow: %s<%s+%lx>: %s: 0x%lx (size %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, reloc_u, howto->bitsize); ++ RDBG("reloc vma: 0x%lx\n", ++ sec->output_section->vma + sec->output_offset + rela->r_offset); ++ ++ return bfd_reloc_overflow; ++ } ++ if (relocation < -(1 << (howto->bitsize - 1))) ++ { ++ RDBG("signed overflow: %s<%s+%lx>: %s: -0x%lx (size %u)\n", ++ sec->owner->filename, sec->name, rela->r_offset, ++ howto->name, -relocation, howto->bitsize); ++ RDBG("reloc vma: 0x%lx\n", ++ sec->output_section->vma + sec->output_offset + rela->r_offset); ++ ++ return bfd_reloc_overflow; ++ } ++ break; ++ default: ++ abort(); ++ } ++ ++ return bfd_reloc_ok; ++} ++ ++ ++static bfd_reloc_status_type ++avr32_final_link_relocate(reloc_howto_type *howto, ++ bfd *input_bfd, ++ asection *input_section, ++ bfd_byte *contents, ++ Elf_Internal_Rela *rel, ++ bfd_vma value) ++{ ++ bfd_vma field; ++ bfd_vma relocation; ++ bfd_reloc_status_type status; ++ bfd_byte *p = contents + rel->r_offset; ++ unsigned long x; ++ ++ pr_debug(" (6b) final link relocate\n"); ++ ++ /* Sanity check the address */ ++ if (rel->r_offset > input_section->size) ++ { ++ (*_bfd_error_handler) ++ ("%B: %A+0x%lx: offset out of range (section size: 0x%lx)", ++ input_bfd, input_section, rel->r_offset, input_section->size); ++ return bfd_reloc_outofrange; ++ } ++ ++ relocation = value + rel->r_addend; ++ ++ if (howto->pc_relative) ++ { ++ bfd_vma addr; ++ ++ addr = input_section->output_section->vma ++ + input_section->output_offset + rel->r_offset; ++ addr &= ~0UL << howto->rightshift; ++ relocation -= addr; ++ } ++ ++ switch (ELF32_R_TYPE(rel->r_info)) ++ { ++ case R_AVR32_16N_PCREL: ++ /* sub reg, pc, . - (sym + addend) */ ++ relocation = -relocation; ++ break; ++ } ++ ++ status = avr32_check_reloc_value(input_section, rel, relocation, howto); ++ ++ relocation >>= howto->rightshift; ++ if (howto->bitsize == 21) ++ field = (relocation & 0xffff) ++ | ((relocation & 0x10000) << 4) ++ | ((relocation & 0x1e0000) << 8); ++ else if (howto->bitsize == 12) ++ field = (relocation & 0xff) | ((relocation & 0xf00) << 4); ++ else if (howto->bitsize == 10) ++ field = ((relocation & 0xff) << 4) ++ | ((relocation & 0x300) >> 8); ++ else ++ field = relocation << howto->bitpos; ++ ++ switch (howto->size) ++ { ++ case 0: ++ x = bfd_get_8 (input_bfd, p); ++ x &= ~howto->dst_mask; ++ x |= field & howto->dst_mask; ++ bfd_put_8 (input_bfd, (bfd_vma) x, p); ++ break; ++ case 1: ++ x = bfd_get_16 (input_bfd, p); ++ x &= ~howto->dst_mask; ++ x |= field & howto->dst_mask; ++ bfd_put_16 (input_bfd, (bfd_vma) x, p); ++ break; ++ case 2: ++ x = bfd_get_32 (input_bfd, p); ++ x &= ~howto->dst_mask; ++ x |= field & howto->dst_mask; ++ bfd_put_32 (input_bfd, (bfd_vma) x, p); ++ break; ++ default: ++ abort(); ++ } ++ ++ return status; ++} ++ ++/* (6) Apply relocations to the normal (non-dynamic) sections */ ++ ++static bfd_boolean ++avr32_elf_relocate_section(bfd *output_bfd, struct bfd_link_info *info, ++ bfd *input_bfd, asection *input_section, ++ bfd_byte *contents, Elf_Internal_Rela *relocs, ++ Elf_Internal_Sym *local_syms, ++ asection **local_sections) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ Elf_Internal_Shdr *symtab_hdr; ++ Elf_Internal_Rela *rel, *relend; ++ struct elf_link_hash_entry **sym_hashes; ++ struct got_entry **local_got_ents; ++ asection *sgot; ++ asection *srelgot; ++ ++ pr_debug("(6) relocate section %s:<%s> (size 0x%lx)\n", ++ input_bfd->filename, input_section->name, input_section->size); ++ ++ /* If we're doing a partial link, we don't have to do anything since ++ we're using RELA relocations */ ++ if (info->relocatable) ++ return TRUE; ++ ++ htab = avr32_elf_hash_table(info); ++ symtab_hdr = &elf_tdata(input_bfd)->symtab_hdr; ++ sym_hashes = elf_sym_hashes(input_bfd); ++ local_got_ents = elf_local_got_ents(input_bfd); ++ sgot = htab->sgot; ++ srelgot = htab->srelgot; ++ ++ relend = relocs + input_section->reloc_count; ++ for (rel = relocs; rel < relend; rel++) ++ { ++ unsigned long r_type, r_symndx; ++ reloc_howto_type *howto; ++ Elf_Internal_Sym *sym = NULL; ++ struct elf_link_hash_entry *h = NULL; ++ asection *sec = NULL; ++ bfd_vma value; ++ bfd_vma offset; ++ bfd_reloc_status_type status; ++ ++ r_type = ELF32_R_TYPE(rel->r_info); ++ r_symndx = ELF32_R_SYM(rel->r_info); ++ ++ if (r_type == R_AVR32_NONE ++ || r_type == R_AVR32_ALIGN ++ || r_type == R_AVR32_DIFF32 ++ || r_type == R_AVR32_DIFF16 ++ || r_type == R_AVR32_DIFF8) ++ continue; ++ ++ /* Sanity check */ ++ if (r_type > R_AVR32_max) ++ { ++ bfd_set_error(bfd_error_bad_value); ++ return FALSE; ++ } ++ ++ howto = &elf_avr32_howto_table[r_type]; ++ ++ if (r_symndx < symtab_hdr->sh_info) ++ { ++ sym = local_syms + r_symndx; ++ sec = local_sections[r_symndx]; ++ ++ pr_debug(" (6a) processing %s against local symbol %lu\n", ++ howto->name, r_symndx); ++ ++ /* The following function changes rel->r_addend behind our back. */ ++ value = _bfd_elf_rela_local_sym(output_bfd, sym, &sec, rel); ++ pr_debug(" => value: %lx, addend: %lx\n", value, rel->r_addend); ++ } ++ else ++ { ++ if (sym_hashes == NULL) ++ return FALSE; ++ ++ h = sym_hashes[r_symndx - symtab_hdr->sh_info]; ++ while (h->root.type == bfd_link_hash_indirect ++ || h->root.type == bfd_link_hash_warning) ++ h = (struct elf_link_hash_entry *)h->root.u.i.link; ++ ++ pr_debug(" (6a) processing %s against symbol %s\n", ++ howto->name, h->root.root.string); ++ ++ if (h->root.type == bfd_link_hash_defined ++ || h->root.type == bfd_link_hash_defweak) ++ { ++ bfd_boolean dyn; ++ ++ dyn = htab->root.dynamic_sections_created; ++ sec = h->root.u.def.section; ++ ++ if (sec->output_section) ++ value = (h->root.u.def.value ++ + sec->output_section->vma ++ + sec->output_offset); ++ else ++ value = h->root.u.def.value; ++ } ++ else if (h->root.type == bfd_link_hash_undefweak) ++ value = 0; ++ else if (info->unresolved_syms_in_objects == RM_IGNORE ++ && ELF_ST_VISIBILITY(h->other) == STV_DEFAULT) ++ value = 0; ++ else ++ { ++ bfd_boolean err; ++ err = (info->unresolved_syms_in_objects == RM_GENERATE_ERROR ++ || ELF_ST_VISIBILITY(h->other) != STV_DEFAULT); ++ if (!info->callbacks->undefined_symbol ++ (info, h->root.root.string, input_bfd, ++ input_section, rel->r_offset, err)) ++ return FALSE; ++ value = 0; ++ } ++ ++ pr_debug(" => value: %lx, addend: %lx\n", value, rel->r_addend); ++ } ++ ++ switch (r_type) ++ { ++ case R_AVR32_GOT32: ++ case R_AVR32_GOT16: ++ case R_AVR32_GOT8: ++ case R_AVR32_GOT21S: ++ case R_AVR32_GOT18SW: ++ case R_AVR32_GOT16S: ++ case R_AVR32_GOT7UW: ++ case R_AVR32_LDA_GOT: ++ case R_AVR32_GOTCALL: ++ BFD_ASSERT(sgot != NULL); ++ ++ if (h != NULL) ++ { ++ BFD_ASSERT(h->got.glist->refcount > 0); ++ offset = h->got.glist->offset; ++ ++ BFD_ASSERT(offset < sgot->size); ++ if (!elf_hash_table(info)->dynamic_sections_created ++ || (h->def_regular ++ && (!info->shared ++ || info->symbolic ++ || h->dynindx == -1))) ++ { ++ /* This is actually a static link, or it is a ++ -Bsymbolic link and the symbol is defined ++ locally, or the symbol was forced to be local. */ ++ bfd_put_32(output_bfd, value, sgot->contents + offset); ++ } ++ } ++ else ++ { ++ BFD_ASSERT(local_got_ents && ++ local_got_ents[r_symndx]->refcount > 0); ++ offset = local_got_ents[r_symndx]->offset; ++ ++ /* Local GOT entries don't have relocs. If this is a ++ shared library, the dynamic linker will add the load ++ address to the initial value at startup. */ ++ BFD_ASSERT(offset < sgot->size); ++ pr_debug("Initializing GOT entry at offset %lu: 0x%lx\n", ++ offset, value); ++ bfd_put_32 (output_bfd, value, sgot->contents + offset); ++ } ++ ++ value = sgot->output_offset + offset; ++ pr_debug("GOT reference: New value %lx\n", value); ++ break; ++ ++ case R_AVR32_GOTPC: ++ /* This relocation type is for constant pool entries used in ++ the calculation "Rd = PC - (PC - GOT)", where the ++ constant pool supplies the constant (PC - GOT) ++ offset. The symbol value + addend indicates where the ++ value of PC is taken. */ ++ value -= sgot->output_section->vma; ++ break; ++ ++ case R_AVR32_32_PCREL: ++ /* We must adjust r_offset to account for discarded data in ++ the .eh_frame section. This is probably not the right ++ way to do this, since AFAICS all other architectures do ++ it some other way. I just can't figure out how... */ ++ { ++ bfd_vma r_offset; ++ ++ r_offset = _bfd_elf_section_offset(output_bfd, info, ++ input_section, ++ rel->r_offset); ++ if (r_offset == (bfd_vma)-1 ++ || r_offset == (bfd_vma)-2) ++ continue; ++ rel->r_offset = r_offset; ++ } ++ break; ++ ++ case R_AVR32_32: ++ /* We need to emit a run-time relocation in the following cases: ++ - we're creating a shared library ++ - the symbol is not defined in any regular objects ++ ++ Of course, sections that aren't going to be part of the ++ run-time image will not get any relocs, and undefined ++ symbols won't have any either (only weak undefined ++ symbols should get this far). */ ++ if ((info->shared ++ || (elf_hash_table(info)->dynamic_sections_created ++ && h != NULL ++ && h->def_dynamic ++ && !h->def_regular)) ++ && r_symndx != 0 ++ && (input_section->flags & SEC_ALLOC)) ++ { ++ Elf_Internal_Rela outrel; ++ bfd_byte *loc; ++ bfd_boolean skip, relocate; ++ struct elf_avr32_link_hash_entry *avrh; ++ ++ pr_debug("Going to generate dynamic reloc...\n"); ++ ++ skip = FALSE; ++ relocate = FALSE; ++ ++ outrel.r_offset = _bfd_elf_section_offset(output_bfd, info, ++ input_section, ++ rel->r_offset); ++ if (outrel.r_offset == (bfd_vma)-1) ++ skip = TRUE; ++ else if (outrel.r_offset == (bfd_vma)-2) ++ skip = TRUE, relocate = TRUE; ++ ++ outrel.r_offset += (input_section->output_section->vma ++ + input_section->output_offset); ++ ++ pr_debug(" ... offset %lx, dynindx %ld\n", ++ outrel.r_offset, h ? h->dynindx : -1); ++ ++ if (skip) ++ memset(&outrel, 0, sizeof(outrel)); ++ else ++ { ++ avrh = (struct elf_avr32_link_hash_entry *)h; ++ /* h->dynindx may be -1 if this symbol was marked to ++ become local. */ ++ if (h == NULL ++ || ((info->symbolic || h->dynindx == -1) ++ && h->def_regular)) ++ { ++ relocate = TRUE; ++ outrel.r_info = ELF32_R_INFO(0, R_AVR32_RELATIVE); ++ outrel.r_addend = value + rel->r_addend; ++ pr_debug(" ... R_AVR32_RELATIVE\n"); ++ } ++ else ++ { ++ BFD_ASSERT(h->dynindx != -1); ++ relocate = TRUE; ++ outrel.r_info = ELF32_R_INFO(h->dynindx, R_AVR32_GLOB_DAT); ++ outrel.r_addend = rel->r_addend; ++ pr_debug(" ... R_AVR32_GLOB_DAT\n"); ++ } ++ } ++ ++ pr_debug("srelgot reloc_count: %d, size %lu\n", ++ srelgot->reloc_count, srelgot->size); ++ ++ loc = srelgot->contents; ++ loc += srelgot->reloc_count++ * sizeof(Elf32_External_Rela); ++ bfd_elf32_swap_reloca_out(output_bfd, &outrel, loc); ++ ++ BFD_ASSERT(srelgot->reloc_count * sizeof(Elf32_External_Rela) ++ <= srelgot->size); ++ ++ if (!relocate) ++ continue; ++ } ++ break; ++ } ++ ++ status = avr32_final_link_relocate(howto, input_bfd, input_section, ++ contents, rel, value); ++ ++ switch (status) ++ { ++ case bfd_reloc_ok: ++ break; ++ ++ case bfd_reloc_overflow: ++ { ++ const char *name; ++ ++ if (h != NULL) ++ name = h->root.root.string; ++ else ++ { ++ name = bfd_elf_string_from_elf_section(input_bfd, ++ symtab_hdr->sh_link, ++ sym->st_name); ++ if (name == NULL) ++ return FALSE; ++ if (*name == '\0') ++ name = bfd_section_name(input_bfd, sec); ++ } ++ if (!((*info->callbacks->reloc_overflow) ++ (info, (h ? &h->root : NULL), name, howto->name, ++ rel->r_addend, input_bfd, input_section, rel->r_offset))) ++ return FALSE; ++ } ++ break; ++ ++ case bfd_reloc_outofrange: ++ default: ++ abort(); ++ } ++ } ++ ++ return TRUE; ++} ++ ++ ++/* Additional processing of dynamic sections after relocation */ ++ ++static bfd_boolean ++avr32_elf_finish_dynamic_symbol(bfd *output_bfd, struct bfd_link_info *info, ++ struct elf_link_hash_entry *h, ++ Elf_Internal_Sym *sym); ++static bfd_boolean ++avr32_elf_finish_dynamic_sections(bfd *output_bfd, struct bfd_link_info *info); ++ ++ ++/* (7) Initialize the contents of a dynamic symbol and/or emit ++ relocations for it */ ++ ++static bfd_boolean ++avr32_elf_finish_dynamic_symbol(bfd *output_bfd, struct bfd_link_info *info, ++ struct elf_link_hash_entry *h, ++ Elf_Internal_Sym *sym) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ struct got_entry *got; ++ ++ pr_debug("(7) finish dynamic symbol: %s\n", h->root.root.string); ++ ++ htab = avr32_elf_hash_table(info); ++ got = h->got.glist; ++ ++ if (got && got->refcount > 0) ++ { ++ asection *sgot; ++ asection *srelgot; ++ Elf_Internal_Rela rel; ++ bfd_byte *loc; ++ ++ /* This symbol has an entry in the GOT. Set it up. */ ++ sgot = htab->sgot; ++ srelgot = htab->srelgot; ++ BFD_ASSERT(sgot && srelgot); ++ ++ rel.r_offset = (sgot->output_section->vma ++ + sgot->output_offset ++ + got->offset); ++ ++ /* If this is a static link, or it is a -Bsymbolic link and the ++ symbol is defined locally or was forced to be local because ++ of a version file, we just want to emit a RELATIVE reloc. The ++ entry in the global offset table will already have been ++ initialized in the relocate_section function. */ ++ if ((info->shared ++ && !info->symbolic ++ && h->dynindx != -1) ++ || (htab->root.dynamic_sections_created ++ && h->def_dynamic ++ && !h->def_regular)) ++ { ++ bfd_put_32(output_bfd, 0, sgot->contents + got->offset); ++ rel.r_info = ELF32_R_INFO(h->dynindx, R_AVR32_GLOB_DAT); ++ rel.r_addend = 0; ++ ++ pr_debug("GOT reloc R_AVR32_GLOB_DAT, dynindx: %ld\n", h->dynindx); ++ pr_debug(" srelgot reloc_count: %d, size: %lu\n", ++ srelgot->reloc_count, srelgot->size); ++ ++ loc = (srelgot->contents ++ + srelgot->reloc_count++ * sizeof(Elf32_External_Rela)); ++ bfd_elf32_swap_reloca_out(output_bfd, &rel, loc); ++ ++ BFD_ASSERT(srelgot->reloc_count * sizeof(Elf32_External_Rela) ++ <= srelgot->size); ++ } ++ } ++ ++ /* Mark _DYNAMIC and _GLOBAL_OFFSET_TABLE_ as absolute */ ++ if (strcmp(h->root.root.string, "_DYNAMIC") == 0 ++ || strcmp(h->root.root.string, "_GLOBAL_OFFSET_TABLE_") == 0) ++ sym->st_shndx = SHN_ABS; ++ ++ return TRUE; ++} ++ ++/* (8) Do any remaining initialization of the dynamic sections */ ++ ++static bfd_boolean ++avr32_elf_finish_dynamic_sections(bfd *output_bfd, struct bfd_link_info *info) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ asection *sgot, *sdyn; ++ ++ pr_debug("(8) finish dynamic sections\n"); ++ ++ htab = avr32_elf_hash_table(info); ++ sgot = htab->sgot; ++ sdyn = bfd_get_section_by_name(htab->root.dynobj, ".dynamic"); ++ ++ if (htab->root.dynamic_sections_created) ++ { ++ Elf32_External_Dyn *dyncon, *dynconend; ++ ++ BFD_ASSERT(sdyn && sgot && sgot->size >= AVR32_GOT_HEADER_SIZE); ++ ++ dyncon = (Elf32_External_Dyn *)sdyn->contents; ++ dynconend = (Elf32_External_Dyn *)(sdyn->contents + sdyn->size); ++ for (; dyncon < dynconend; dyncon++) ++ { ++ Elf_Internal_Dyn dyn; ++ asection *s; ++ ++ bfd_elf32_swap_dyn_in(htab->root.dynobj, dyncon, &dyn); ++ ++ switch (dyn.d_tag) ++ { ++ default: ++ break; ++ ++ case DT_PLTGOT: ++ s = sgot->output_section; ++ BFD_ASSERT(s != NULL); ++ dyn.d_un.d_ptr = s->vma; ++ bfd_elf32_swap_dyn_out(output_bfd, &dyn, dyncon); ++ break; ++ ++ case DT_AVR32_GOTSZ: ++ s = sgot->output_section; ++ BFD_ASSERT(s != NULL); ++ dyn.d_un.d_val = s->size; ++ bfd_elf32_swap_dyn_out(output_bfd, &dyn, dyncon); ++ break; ++ } ++ } ++ ++ /* Fill in the first two entries in the global offset table */ ++ bfd_put_32(output_bfd, ++ sdyn->output_section->vma + sdyn->output_offset, ++ sgot->contents); ++ ++ /* The runtime linker will fill this one in with the address of ++ the run-time link map */ ++ bfd_put_32(output_bfd, 0, sgot->contents + 4); ++ } ++ ++ if (sgot) ++ elf_section_data(sgot->output_section)->this_hdr.sh_entsize = 4; ++ ++ return TRUE; ++} ++ ++ ++/* AVR32-specific private ELF data */ ++ ++static bfd_boolean ++avr32_elf_set_private_flags(bfd *abfd, flagword flags); ++static bfd_boolean ++avr32_elf_copy_private_bfd_data(bfd *ibfd, bfd *obfd); ++static bfd_boolean ++avr32_elf_merge_private_bfd_data(bfd *ibfd, bfd *obfd); ++static bfd_boolean ++avr32_elf_print_private_bfd_data(bfd *abfd, void *ptr); ++ ++static bfd_boolean ++avr32_elf_set_private_flags(bfd *abfd, flagword flags) ++{ ++ elf_elfheader(abfd)->e_flags = flags; ++ elf_flags_init(abfd) = TRUE; ++ ++ return TRUE; ++} ++ ++/* Copy backend specific data from one object module to another. */ ++ ++static bfd_boolean ++avr32_elf_copy_private_bfd_data(bfd *ibfd, bfd *obfd) ++{ ++ elf_elfheader(obfd)->e_flags = elf_elfheader(ibfd)->e_flags; ++ return TRUE; ++} ++ ++/* Merge backend specific data from an object file to the output ++ object file when linking. */ ++ ++static bfd_boolean ++avr32_elf_merge_private_bfd_data(bfd *ibfd, bfd *obfd) ++{ ++ flagword out_flags, in_flags; ++ ++ pr_debug("(0) merge_private_bfd_data: %s -> %s\n", ++ ibfd->filename, obfd->filename); ++ ++ in_flags = elf_elfheader(ibfd)->e_flags; ++ out_flags = elf_elfheader(obfd)->e_flags; ++ ++ if (elf_flags_init(obfd)) ++ { ++ /* If one of the inputs are non-PIC, the output must be ++ considered non-PIC. The same applies to linkrelax. */ ++ if (!(in_flags & EF_AVR32_PIC)) ++ out_flags &= ~EF_AVR32_PIC; ++ if (!(in_flags & EF_AVR32_LINKRELAX)) ++ out_flags &= ~EF_AVR32_LINKRELAX; ++ } ++ else ++ { ++ elf_flags_init(obfd) = TRUE; ++ out_flags = in_flags; ++ } ++ ++ elf_elfheader(obfd)->e_flags = out_flags; ++ ++ return TRUE; ++} ++ ++static bfd_boolean ++avr32_elf_print_private_bfd_data(bfd *abfd, void *ptr) ++{ ++ FILE *file = (FILE *)ptr; ++ unsigned long flags; ++ ++ BFD_ASSERT(abfd != NULL && ptr != NULL); ++ ++ _bfd_elf_print_private_bfd_data(abfd, ptr); ++ ++ flags = elf_elfheader(abfd)->e_flags; ++ ++ fprintf(file, _("private flags = %lx:"), elf_elfheader(abfd)->e_flags); ++ ++ if (flags & EF_AVR32_PIC) ++ fprintf(file, " [PIC]"); ++ if (flags & EF_AVR32_LINKRELAX) ++ fprintf(file, " [linker relaxable]"); ++ ++ flags &= ~(EF_AVR32_PIC | EF_AVR32_LINKRELAX); ++ ++ if (flags) ++ fprintf(file, _("")); ++ ++ fputc('\n', file); ++ ++ return TRUE; ++} ++ ++/* Set avr32-specific linker options. */ ++void bfd_elf32_avr32_set_options(struct bfd_link_info *info, ++ int direct_data_refs) ++{ ++ struct elf_avr32_link_hash_table *htab; ++ ++ htab = avr32_elf_hash_table (info); ++ htab->direct_data_refs = !!direct_data_refs; ++} ++ ++ ++ ++/* Understanding core dumps */ ++ ++static bfd_boolean ++avr32_elf_grok_prstatus(bfd *abfd, Elf_Internal_Note *note); ++static bfd_boolean ++avr32_elf_grok_psinfo(bfd *abfd, Elf_Internal_Note *note); ++ ++static bfd_boolean ++avr32_elf_grok_prstatus(bfd *abfd, Elf_Internal_Note *note) ++{ ++ /* Linux/AVR32B elf_prstatus */ ++ if (note->descsz != 148) ++ return FALSE; ++ ++ /* pr_cursig */ ++ elf_tdata(abfd)->core_signal = bfd_get_16(abfd, note->descdata + 12); ++ ++ /* pr_pid */ ++ elf_tdata(abfd)->core_pid = bfd_get_32(abfd, note->descdata + 24); ++ ++ /* Make a ".reg/999" section for pr_reg. The size is for 16 ++ general-purpose registers, SR and r12_orig (18 * 4 = 72). */ ++ return _bfd_elfcore_make_pseudosection(abfd, ".reg", 72, ++ note->descpos + 72); ++} ++ ++static bfd_boolean ++avr32_elf_grok_psinfo(bfd *abfd, Elf_Internal_Note *note) ++{ ++ /* Linux/AVR32B elf_prpsinfo */ ++ if (note->descsz != 128) ++ return FALSE; ++ ++ elf_tdata(abfd)->core_program ++ = _bfd_elfcore_strndup(abfd, note->descdata + 32, 16); ++ elf_tdata(abfd)->core_command ++ = _bfd_elfcore_strndup(abfd, note->descdata + 48, 80); ++ ++ /* Note that for some reason, a spurious space is tacked ++ onto the end of the args in some (at least one anyway) ++ implementations, so strip it off if it exists. */ ++ ++ { ++ char *command = elf_tdata (abfd)->core_command; ++ int n = strlen (command); ++ ++ if (0 < n && command[n - 1] == ' ') ++ command[n - 1] = '\0'; ++ } ++ ++ return TRUE; ++} ++ ++ ++#define ELF_ARCH bfd_arch_avr32 ++#define ELF_MACHINE_CODE EM_AVR32 ++#define ELF_MAXPAGESIZE 1024 ++ ++#define TARGET_BIG_SYM bfd_elf32_avr32_vec ++#define TARGET_BIG_NAME "elf32-avr32" ++ ++#define elf_backend_grok_prstatus avr32_elf_grok_prstatus ++#define elf_backend_grok_psinfo avr32_elf_grok_psinfo ++ ++/* Only RELA relocations are used */ ++#define elf_backend_may_use_rel_p 0 ++#define elf_backend_may_use_rela_p 1 ++#define elf_backend_default_use_rela_p 1 ++#define elf_backend_rela_normal 1 ++#define elf_info_to_howto_rel NULL ++#define elf_info_to_howto avr32_info_to_howto ++ ++#define bfd_elf32_bfd_copy_private_bfd_data avr32_elf_copy_private_bfd_data ++#define bfd_elf32_bfd_merge_private_bfd_data avr32_elf_merge_private_bfd_data ++#define bfd_elf32_bfd_set_private_flags avr32_elf_set_private_flags ++#define bfd_elf32_bfd_print_private_bfd_data avr32_elf_print_private_bfd_data ++#define bfd_elf32_new_section_hook avr32_elf_new_section_hook ++ ++#define elf_backend_gc_mark_hook avr32_elf_gc_mark_hook ++#define elf_backend_gc_sweep_hook avr32_elf_gc_sweep_hook ++#define elf_backend_relocate_section avr32_elf_relocate_section ++#define elf_backend_copy_indirect_symbol avr32_elf_copy_indirect_symbol ++#define elf_backend_create_dynamic_sections avr32_elf_create_dynamic_sections ++#define bfd_elf32_bfd_link_hash_table_create avr32_elf_link_hash_table_create ++#define elf_backend_adjust_dynamic_symbol avr32_elf_adjust_dynamic_symbol ++#define elf_backend_size_dynamic_sections avr32_elf_size_dynamic_sections ++#define elf_backend_finish_dynamic_symbol avr32_elf_finish_dynamic_symbol ++#define elf_backend_finish_dynamic_sections avr32_elf_finish_dynamic_sections ++ ++#define bfd_elf32_bfd_relax_section avr32_elf_relax_section ++ ++/* Find out which symbols need an entry in .got. */ ++#define elf_backend_check_relocs avr32_check_relocs ++#define elf_backend_can_refcount 1 ++#define elf_backend_can_gc_sections 1 ++#define elf_backend_plt_readonly 1 ++#define elf_backend_plt_not_loaded 1 ++#define elf_backend_want_plt_sym 0 ++#define elf_backend_plt_alignment 2 ++#define elf_backend_want_dynbss 0 ++#define elf_backend_want_got_plt 0 ++#define elf_backend_want_got_sym 1 ++#define elf_backend_got_header_size AVR32_GOT_HEADER_SIZE ++ ++#include "elf32-target.h" +--- /dev/null ++++ b/bfd/elf32-avr32.h +@@ -0,0 +1,23 @@ ++/* AVR32-specific support for 32-bit ELF. ++ Copyright 2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or modify ++ it under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2 of the License, or ++ (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, ++ but WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ GNU General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ ++ ++void bfd_elf32_avr32_set_options(struct bfd_link_info *info, ++ int direct_data_refs); +--- b/bfd/elf-bfd.h ++++ b/bfd/elf-bfd.h +@@ -406,6 +406,7 @@ + ALPHA_ELF_DATA = 1, + ARM_ELF_DATA, + AVR_ELF_DATA, ++ AVR32_ELF_DATA, + BFIN_ELF_DATA, + CRIS_ELF_DATA, + FRV_ELF_DATA, +@@ -1553,6 +1554,10 @@ + find_nearest_line. */ + struct mips_elf_find_line *find_line_info; + ++ /* Used by AVR32 ELF relaxation code. Contains an array of pointers ++ for each local symbol to the fragment where it is defined. */ ++ struct fragment **local_sym_frag; ++ + /* A place to stash dwarf1 info for this bfd. */ + struct dwarf1_debug *dwarf1_find_line_info; + +--- a/bfd/libbfd.h ++++ b/bfd/libbfd.h +@@ -1783,6 +1783,48 @@ static const char *const bfd_reloc_code_ + "BFD_RELOC_AVR_LDI", + "BFD_RELOC_AVR_6", + "BFD_RELOC_AVR_6_ADIW", ++ "BFD_RELOC_AVR32_DIFF32", ++ "BFD_RELOC_AVR32_DIFF16", ++ "BFD_RELOC_AVR32_DIFF8", ++ "BFD_RELOC_AVR32_GOT32", ++ "BFD_RELOC_AVR32_GOT16", ++ "BFD_RELOC_AVR32_GOT8", ++ "BFD_RELOC_AVR32_21S", ++ "BFD_RELOC_AVR32_16U", ++ "BFD_RELOC_AVR32_16S", ++ "BFD_RELOC_AVR32_SUB5", ++ "BFD_RELOC_AVR32_8S_EXT", ++ "BFD_RELOC_AVR32_8S", ++ "BFD_RELOC_AVR32_15S", ++ "BFD_RELOC_AVR32_22H_PCREL", ++ "BFD_RELOC_AVR32_18W_PCREL", ++ "BFD_RELOC_AVR32_16B_PCREL", ++ "BFD_RELOC_AVR32_16N_PCREL", ++ "BFD_RELOC_AVR32_14UW_PCREL", ++ "BFD_RELOC_AVR32_11H_PCREL", ++ "BFD_RELOC_AVR32_10UW_PCREL", ++ "BFD_RELOC_AVR32_9H_PCREL", ++ "BFD_RELOC_AVR32_9UW_PCREL", ++ "BFD_RELOC_AVR32_GOTPC", ++ "BFD_RELOC_AVR32_GOTCALL", ++ "BFD_RELOC_AVR32_LDA_GOT", ++ "BFD_RELOC_AVR32_GOT21S", ++ "BFD_RELOC_AVR32_GOT18SW", ++ "BFD_RELOC_AVR32_GOT16S", ++ "BFD_RELOC_AVR32_32_CPENT", ++ "BFD_RELOC_AVR32_CPCALL", ++ "BFD_RELOC_AVR32_16_CP", ++ "BFD_RELOC_AVR32_9W_CP", ++ "BFD_RELOC_AVR32_ALIGN", ++ "BFD_RELOC_AVR32_14UW", ++ "BFD_RELOC_AVR32_10UW", ++ "BFD_RELOC_AVR32_10SW", ++ "BFD_RELOC_AVR32_STHH_W", ++ "BFD_RELOC_AVR32_7UW", ++ "BFD_RELOC_AVR32_6S", ++ "BFD_RELOC_AVR32_6UW", ++ "BFD_RELOC_AVR32_4UH", ++ "BFD_RELOC_AVR32_3U", + "BFD_RELOC_RX_NEG8", + "BFD_RELOC_RX_NEG16", + "BFD_RELOC_RX_NEG24", +--- a/bfd/Makefile.am ++++ b/bfd/Makefile.am +@@ -75,6 +75,7 @@ ALL_MACHINES = \ + cpu-arc.lo \ + cpu-arm.lo \ + cpu-avr.lo \ ++ cpu-avr32.lo \ + cpu-bfin.lo \ + cpu-cr16.lo \ + cpu-cr16c.lo \ +@@ -272,6 +273,7 @@ BFD32_BACKENDS = \ + elf32-arc.lo \ + elf32-arm.lo \ + elf32-avr.lo \ ++ elf32-avr32.lo \ + elf32-bfin.lo \ + elf32-cr16.lo \ + elf32-cr16c.lo \ +--- a/bfd/reloc.c ++++ b/bfd/reloc.c +@@ -4275,6 +4275,131 @@ ENUMDOC + Renesas RX Relocations. + + ENUM ++ BFD_RELOC_AVR32_DIFF32 ++ENUMX ++ BFD_RELOC_AVR32_DIFF16 ++ENUMX ++ BFD_RELOC_AVR32_DIFF8 ++ENUMDOC ++ Difference between two labels: L2 - L1. The value of L1 is encoded ++ as sym + addend, while the initial difference after assembly is ++ inserted into the object file by the assembler. ++ENUM ++ BFD_RELOC_AVR32_GOT32 ++ENUMX ++ BFD_RELOC_AVR32_GOT16 ++ENUMX ++ BFD_RELOC_AVR32_GOT8 ++ENUMDOC ++ Reference to a symbol through the Global Offset Table. The linker ++ will allocate an entry for symbol in the GOT and insert the offset ++ of this entry as the relocation value. ++ENUM ++ BFD_RELOC_AVR32_21S ++ENUMX ++ BFD_RELOC_AVR32_16U ++ENUMX ++ BFD_RELOC_AVR32_16S ++ENUMX ++ BFD_RELOC_AVR32_SUB5 ++ENUMX ++ BFD_RELOC_AVR32_8S_EXT ++ENUMX ++ BFD_RELOC_AVR32_8S ++ENUMX ++ BFD_RELOC_AVR32_15S ++ENUMDOC ++ Normal (non-pc-relative) code relocations. Alignment and signedness ++ is indicated by the suffixes. S means signed, U means unsigned. W ++ means word-aligned, H means halfword-aligned, neither means ++ byte-aligned (no alignment.) SUB5 is the same relocation as 16S. ++ENUM ++ BFD_RELOC_AVR32_22H_PCREL ++ENUMX ++ BFD_RELOC_AVR32_18W_PCREL ++ENUMX ++ BFD_RELOC_AVR32_16B_PCREL ++ENUMX ++ BFD_RELOC_AVR32_16N_PCREL ++ENUMX ++ BFD_RELOC_AVR32_14UW_PCREL ++ENUMX ++ BFD_RELOC_AVR32_11H_PCREL ++ENUMX ++ BFD_RELOC_AVR32_10UW_PCREL ++ENUMX ++ BFD_RELOC_AVR32_9H_PCREL ++ENUMX ++ BFD_RELOC_AVR32_9UW_PCREL ++ENUMDOC ++ PC-relative relocations are signed if neither 'U' nor 'S' is ++ specified. However, we explicitly tack on a 'B' to indicate no ++ alignment, to avoid confusion with data relocs. All of these resolve ++ to sym + addend - offset, except the one with 'N' (negated) suffix. ++ This particular one resolves to offset - sym - addend. ++ENUM ++ BFD_RELOC_AVR32_GOTPC ++ENUMDOC ++ Subtract the link-time address of the GOT from (symbol + addend) ++ and insert the result. ++ENUM ++ BFD_RELOC_AVR32_GOTCALL ++ENUMX ++ BFD_RELOC_AVR32_LDA_GOT ++ENUMX ++ BFD_RELOC_AVR32_GOT21S ++ENUMX ++ BFD_RELOC_AVR32_GOT18SW ++ENUMX ++ BFD_RELOC_AVR32_GOT16S ++ENUMDOC ++ Reference to a symbol through the GOT. The linker will allocate an ++ entry for symbol in the GOT and insert the offset of this entry as ++ the relocation value. addend must be zero. As usual, 'S' means ++ signed, 'W' means word-aligned, etc. ++ENUM ++ BFD_RELOC_AVR32_32_CPENT ++ENUMDOC ++ 32-bit constant pool entry. I don't think 8- and 16-bit entries make ++ a whole lot of sense. ++ENUM ++ BFD_RELOC_AVR32_CPCALL ++ENUMX ++ BFD_RELOC_AVR32_16_CP ++ENUMX ++ BFD_RELOC_AVR32_9W_CP ++ENUMDOC ++ Constant pool references. Some of these relocations are signed, ++ others are unsigned. It doesn't really matter, since the constant ++ pool always comes after the code that references it. ++ENUM ++ BFD_RELOC_AVR32_ALIGN ++ENUMDOC ++ sym must be the absolute symbol. The addend specifies the alignment ++ order, e.g. if addend is 2, the linker must add padding so that the ++ next address is aligned to a 4-byte boundary. ++ENUM ++ BFD_RELOC_AVR32_14UW ++ENUMX ++ BFD_RELOC_AVR32_10UW ++ENUMX ++ BFD_RELOC_AVR32_10SW ++ENUMX ++ BFD_RELOC_AVR32_STHH_W ++ENUMX ++ BFD_RELOC_AVR32_7UW ++ENUMX ++ BFD_RELOC_AVR32_6S ++ENUMX ++ BFD_RELOC_AVR32_6UW ++ENUMX ++ BFD_RELOC_AVR32_4UH ++ENUMX ++ BFD_RELOC_AVR32_3U ++ENUMDOC ++ Code relocations that will never make it to the output file. ++ ++ENUM + BFD_RELOC_390_12 + ENUMDOC + Direct 12 bit. +--- a/bfd/targets.c ++++ b/bfd/targets.c +@@ -579,6 +579,7 @@ extern const bfd_target b_out_vec_big_ho + extern const bfd_target b_out_vec_little_host; + extern const bfd_target bfd_pei_ia64_vec; + extern const bfd_target bfd_elf32_avr_vec; ++extern const bfd_target bfd_elf32_avr32_vec; + extern const bfd_target bfd_elf32_bfin_vec; + extern const bfd_target bfd_elf32_bfinfdpic_vec; + extern const bfd_target bfd_elf32_big_generic_vec; +@@ -917,6 +918,7 @@ static const bfd_target * const _bfd_tar + &bfd_pei_ia64_vec, + #endif + &bfd_elf32_avr_vec, ++ &bfd_elf32_avr32_vec, + &bfd_elf32_bfin_vec, + &bfd_elf32_bfinfdpic_vec, + +--- a/binutils/doc/binutils.info ++++ b/binutils/doc/binutils.info +@@ -1705,6 +1705,10 @@ equivalent. At least one option from th + useful when attempting to disassemble thumb code produced by other + compilers. + ++ For the AVR32 architectures that support Floating point unit (FPU), ++ specifying '-M decode-fpu' will enable disassembler to print the ++ floating point instruction instead of 'cop' instructions. ++ + For the x86, some of the options duplicate functions of the `-m' + switch, but allow finer grained control. Multiple selections from + the following may be specified as a comma separated string. +--- a/binutils/doc/binutils.texi ++++ b/binutils/doc/binutils.texi +@@ -1980,6 +1980,10 @@ using the switch @option{--disassembler- + useful when attempting to disassemble thumb code produced by other + compilers. + ++For the AVR32 architectures that support Floating point unit (FPU), ++specifying @option{-M decode-fpu} will enable disassembler to print the ++floating point instructions instead of 'cop' instructions. ++ + For the x86, some of the options duplicate functions of the @option{-m} + switch, but allow finer grained control. Multiple selections from the + following may be specified as a comma separated string. +--- a/binutils/doc/objdump.1 ++++ b/binutils/doc/objdump.1 +@@ -425,6 +425,10 @@ using the switch \fB\-\-disassembler\-op + useful when attempting to disassemble thumb code produced by other + compilers. + .Sp ++For the \s-1AVR32\s0 architectures that support Floating point unit (FPU), ++specifying \fB\-M decode\-fpu\fR will enable disassembler to print the ++floating point instructions instead of 'cop' instructions. ++.Sp + For the x86, some of the options duplicate functions of the \fB\-m\fR + switch, but allow finer grained control. Multiple selections from the + following may be specified as a comma separated string. +--- a/binutils/readelf.c ++++ b/binutils/readelf.c +@@ -95,6 +95,7 @@ + #include "elf/arc.h" + #include "elf/arm.h" + #include "elf/avr.h" ++#include "elf/avr32.h" + #include "elf/bfin.h" + #include "elf/cr16.h" + #include "elf/cris.h" +@@ -619,6 +620,7 @@ guess_is_rela (unsigned int e_machine) + case EM_ALPHA: + case EM_ALTERA_NIOS2: + case EM_AVR: ++ case EM_AVR32: + case EM_AVR_OLD: + case EM_BLACKFIN: + case EM_CR16: +@@ -1072,6 +1074,10 @@ dump_relocations (FILE * file, + rtype = elf_avr_reloc_type (type); + break; + ++ case EM_AVR32: ++ rtype = elf_avr32_reloc_type (type); ++ break; ++ + case EM_OLD_SPARCV9: + case EM_SPARC32PLUS: + case EM_SPARCV9: +--- a/gas/as.c ++++ b/gas/as.c +@@ -459,10 +459,10 @@ parse_args (int * pargc, char *** pargv) + the end of the preceeding line so that it is simpler to + selectively add and remove lines from this list. */ + {"alternate", no_argument, NULL, OPTION_ALTERNATE} +- /* The entry for "a" is here to prevent getopt_long_only() from +- considering that -a is an abbreviation for --alternate. This is +- necessary because -a= is a valid switch but getopt would +- normally reject it since --alternate does not take an argument. */ ++ /* The next two entries are here to prevent getopt_long_only() from ++ considering that -a or -al is an abbreviation for --alternate. ++ This is necessary because -a= is a valid switch but getopt ++ would normally reject it since --alternate does not take an argument. */ + ,{"a", optional_argument, NULL, 'a'} + /* Handle -al=. */ + ,{"al", optional_argument, NULL, OPTION_AL} +@@ -839,8 +839,15 @@ This program has absolutely no warranty. + case 'a': + if (optarg) + { +- if (optarg != old_argv[optind] && optarg[-1] == '=') ++ /* If optarg is part of the -a switch and not a separate argument ++ in its own right, then scan backwards to the just after the -a. ++ This means skipping over both '=' and 'l' which might have been ++ taken to be part of the -a switch itself. */ ++ if (optarg != old_argv[optind]) ++ { ++ while (optarg[-1] == '=' || optarg[-1] == 'l') + --optarg; ++ } + + if (md_parse_option (optc, optarg) != 0) + break; +--- a/gas/as.h ++++ b/gas/as.h +@@ -82,6 +82,7 @@ + #endif + #define gas_assert(P) \ + ((void) ((P) ? 0 : (as_assert (__FILE__, __LINE__, __PRETTY_FUNCTION__), 0))) ++#define assert(P) gas_assert(P) + #undef abort + #define abort() as_abort (__FILE__, __LINE__, __PRETTY_FUNCTION__) + +--- a/gas/atof-generic.c ++++ b/gas/atof-generic.c +@@ -121,6 +121,21 @@ atof_generic (/* return pointer to just + + switch (first_digit[0]) + { ++ case 's': ++ case 'S': ++ case 'q': ++ case 'Q': ++ if (!strncasecmp ("nan", first_digit+1, 3)) ++ { ++ address_of_generic_floating_point_number->sign = 0; ++ address_of_generic_floating_point_number->exponent = 0; ++ address_of_generic_floating_point_number->leader = ++ address_of_generic_floating_point_number->low; ++ *address_of_string_pointer = first_digit + 4; ++ return 0; ++ } ++ break; ++ + case 'n': + case 'N': + if (!strncasecmp ("nan", first_digit, 3)) +--- a/gas/config/atof-vax.c ++++ b/gas/config/atof-vax.c +@@ -268,9 +268,27 @@ flonum_gen2vax (int format_letter, /* On + int exponent_skippage; + LITTLENUM_TYPE word1; + +- /* JF: Deal with new Nan, +Inf and -Inf codes. */ ++ /* JF: Deal with new +/-(q/Q/s/S)Nan, +Inf and -Inf codes. */ + if (f->sign != '-' && f->sign != '+') + { ++ if (f->sign == 0) ++ { ++ /* All NaNs are 0. */ ++ memset (words, 0x00, sizeof (LITTLENUM_TYPE) * precision); ++ } ++ else if (f->sign == 'P') ++ { ++ /* Positive Infinity. */ ++ memset (words, 0xff, sizeof (LITTLENUM_TYPE) * precision); ++ words[0] &= 0x7fff; ++ } ++ else if (f->sign == 'N') ++ { ++ /* Negative Infinity. */ ++ memset (words, 0x00, sizeof (LITTLENUM_TYPE) * precision); ++ words[0] = 0x0080; ++ } ++ else + make_invalid_floating_point_number (words); + return return_value; + } +--- /dev/null ++++ b/gas/config/tc-avr32.c +@@ -0,0 +1,4839 @@ ++/* Assembler implementation for AVR32. ++ Copyright 2003,2004,2005,2006,2007,2008,2009,2010 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of GAS, the GNU Assembler. ++ ++ GAS is free software; you can redistribute it and/or modify it ++ under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2, or (at your option) ++ any later version. ++ ++ GAS is distributed in the hope that it will be useful, but WITHOUT ++ ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ++ or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public ++ License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with GAS; see the file COPYING. If not, write to the Free ++ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include ++#include "as.h" ++#include "safe-ctype.h" ++#include "subsegs.h" ++#include "symcat.h" ++#include "opcodes/avr32-opc.h" ++#include "opcodes/avr32-asm.h" ++#include "elf/avr32.h" ++#include "dwarf2dbg.h" ++ ++#define xDEBUG ++#define xOPC_CONSISTENCY_CHECK ++ ++#ifdef DEBUG ++# define pr_debug(fmt, args...) fprintf(stderr, fmt, ##args) ++#else ++# define pr_debug(fmt, args...) ++#endif ++ ++/* 3 MSB of instruction word indicate group. Group 7 -> extended */ ++#define AVR32_COMPACT_P(opcode) ((opcode[0] & 0xe0) != 0xe0) ++ ++#define streq(a, b) (strcmp(a, b) == 0) ++#define skip_whitespace(str) do { while(*(str) == ' ') ++(str); } while(0) ++ ++/* Flags given on the command line */ ++static int avr32_pic = FALSE; ++int linkrelax = FALSE; ++int avr32_iarcompat = FALSE; ++ ++/* This array holds the chars that always start a comment. */ ++const char comment_chars[] = "#"; ++ ++/* This array holds the chars that only start a comment at the ++ beginning of a line. We must include '#' here because the compiler ++ may produce #APP and #NO_APP in its output. */ ++const char line_comment_chars[] = "#"; ++ ++/* These may be used instead of newline (same as ';' in C). */ ++const char line_separator_chars[] = ";"; ++ ++/* Chars that can be used to separate mantissa from exponent in ++ floating point numbers. */ ++const char EXP_CHARS[] = "eE"; ++ ++/* Chars that mean this number is a floating point constant. */ ++const char FLT_CHARS[] = "dD"; ++ ++/* Pre-defined "_GLOBAL_OFFSET_TABLE_" */ ++symbolS *GOT_symbol; ++ ++static struct hash_control *avr32_mnemonic_htab; ++ ++struct avr32_ifield_data ++{ ++ bfd_vma value; ++ /* FIXME: Get rid of align_order and complain. complain is never ++ used, align_order is used in one place. Try to use the relax ++ table instead. */ ++ unsigned int align_order; ++}; ++ ++struct avr32_insn ++{ ++ const struct avr32_syntax *syntax; ++ expressionS immediate; ++ int pcrel; ++ int force_extended; ++ unsigned int next_slot; ++ bfd_reloc_code_real_type r_type; ++ struct avr32_ifield_data field_value[AVR32_MAX_FIELDS]; ++}; ++ ++static struct avr32_insn current_insn; ++ ++/* The target specific pseudo-ops we support. */ ++static void s_rseg (int); ++static void s_cpool(int); ++ ++const pseudo_typeS md_pseudo_table[] = ++{ ++ /* Make sure that .word is 32 bits */ ++ { "word", cons, 4 }, ++ { "file", (void (*) PARAMS ((int))) dwarf2_directive_file, 0 }, ++ { "loc", dwarf2_directive_loc, 0 }, ++ ++ /* .lcomm requires an explicit alignment parameter */ ++ { "lcomm", s_lcomm, 1 }, ++ ++ /* AVR32-specific pseudo-ops */ ++ { "cpool", s_cpool, 0}, ++ ++ /* IAR compatible pseudo-ops */ ++ { "program", s_ignore, 0 }, ++ { "public", s_globl, 0 }, ++ { "extern", s_ignore, 0 }, ++ { "module", s_ignore, 0 }, ++ { "rseg", s_rseg, 0 }, ++ { "dc8", cons, 1 }, ++ { "dc16", cons, 2 }, ++ { "dc32", cons, 4 }, ++ ++ { NULL, NULL, 0 } ++}; ++ ++/* Questionable stuff starts here */ ++ ++enum avr32_opinfo { ++ AVR32_OPINFO_NONE = BFD_RELOC_NONE, ++ AVR32_OPINFO_GOT, ++ AVR32_OPINFO_TLSGD, ++ AVR32_OPINFO_HI, ++ AVR32_OPINFO_LO, ++}; ++ ++enum avr32_arch { ++ ARCH_TYPE_AP, ++ ARCH_TYPE_UCR1, ++ ARCH_TYPE_UCR2, ++ ARCH_TYPE_UCR3, ++ ARCH_TYPE_UCR3FP ++}; ++ ++struct arch_type_s ++{ ++ /* Architecture name */ ++ char *name; ++ /* Instruction Set Architecture Flags */ ++ unsigned long isa_flags; ++}; ++ ++struct part_type_s ++{ ++ /* Part name */ ++ char *name; ++ /* Architecture type */ ++ unsigned int arch; ++}; ++ ++static struct arch_type_s arch_types[] = ++{ ++ {"ap", AVR32_V1 | AVR32_SIMD | AVR32_DSP | AVR32_PICO}, ++ {"ucr1", AVR32_V1 | AVR32_DSP | AVR32_RMW}, ++ {"ucr2", AVR32_V1 | AVR32_V2 | AVR32_DSP | AVR32_RMW}, ++ {"ucr3", AVR32_V1 | AVR32_V2 | AVR32_V3 | AVR32_DSP | AVR32_RMW}, ++ {"ucr3fp", AVR32_V1 | AVR32_V2 | AVR32_V3 | AVR32_DSP | AVR32_RMW | AVR32_V3FP}, ++ {"all-insn", AVR32_V1 | AVR32_V2 | AVR32_V3 | AVR32_SIMD | AVR32_DSP | AVR32_RMW | AVR32_V3FP | AVR32_PICO}, ++ {NULL, 0} ++}; ++ ++static struct part_type_s part_types[] = ++{ ++ {"ap7000", ARCH_TYPE_AP}, ++ {"ap7001", ARCH_TYPE_AP}, ++ {"ap7002", ARCH_TYPE_AP}, ++ {"ap7200", ARCH_TYPE_AP}, ++ {"uc3a0128", ARCH_TYPE_UCR2}, ++ {"uc3a0256", ARCH_TYPE_UCR2}, ++ {"uc3a0512es", ARCH_TYPE_UCR1}, ++ {"uc3a0512", ARCH_TYPE_UCR2}, ++ {"uc3a1128", ARCH_TYPE_UCR2}, ++ {"uc3a1256es", ARCH_TYPE_UCR1}, ++ {"uc3a1256", ARCH_TYPE_UCR2}, ++ {"uc3a1512es", ARCH_TYPE_UCR1}, ++ {"uc3a1512", ARCH_TYPE_UCR2}, ++ {"uc3a364", ARCH_TYPE_UCR2}, ++ {"uc3a364s", ARCH_TYPE_UCR2}, ++ {"uc3a3128", ARCH_TYPE_UCR2}, ++ {"uc3a3128s", ARCH_TYPE_UCR2}, ++ {"uc3a3256", ARCH_TYPE_UCR2}, ++ {"uc3a3256s", ARCH_TYPE_UCR2}, ++ {"uc3b064", ARCH_TYPE_UCR1}, ++ {"uc3b0128", ARCH_TYPE_UCR1}, ++ {"uc3b0256es", ARCH_TYPE_UCR1}, ++ {"uc3b0256", ARCH_TYPE_UCR1}, ++ {"uc3b0512", ARCH_TYPE_UCR2}, ++ {"uc3b0512revc", ARCH_TYPE_UCR2}, ++ {"uc3b164", ARCH_TYPE_UCR1}, ++ {"uc3b1128", ARCH_TYPE_UCR1}, ++ {"uc3b1256", ARCH_TYPE_UCR1}, ++ {"uc3b1256es", ARCH_TYPE_UCR1}, ++ {"uc3b1512", ARCH_TYPE_UCR2}, ++ {"uc3b1512revc", ARCH_TYPE_UCR2}, ++ {"uc3c0512crevc", ARCH_TYPE_UCR3}, ++ {"uc3c1512crevc", ARCH_TYPE_UCR3}, ++ {"uc3c2512crevc", ARCH_TYPE_UCR3}, ++ {"atuc3l0256", ARCH_TYPE_UCR3}, ++ {"mxt768e", ARCH_TYPE_UCR3}, ++ {"uc3l064", ARCH_TYPE_UCR3}, ++ {"uc3l032", ARCH_TYPE_UCR3}, ++ {"uc3l016", ARCH_TYPE_UCR3}, ++ {"uc3l064revb", ARCH_TYPE_UCR3}, ++ {"uc3c064c", ARCH_TYPE_UCR3FP}, ++ {"uc3c0128c", ARCH_TYPE_UCR3FP}, ++ {"uc3c0256c", ARCH_TYPE_UCR3FP}, ++ {"uc3c0512c", ARCH_TYPE_UCR3FP}, ++ {"uc3c164c", ARCH_TYPE_UCR3FP}, ++ {"uc3c1128c", ARCH_TYPE_UCR3FP}, ++ {"uc3c1256c", ARCH_TYPE_UCR3FP}, ++ {"uc3c1512c", ARCH_TYPE_UCR3FP}, ++ {"uc3c264c", ARCH_TYPE_UCR3FP}, ++ {"uc3c2128c", ARCH_TYPE_UCR3FP}, ++ {"uc3c2256c", ARCH_TYPE_UCR3FP}, ++ {"uc3c2512c", ARCH_TYPE_UCR3FP}, ++ {NULL, 0} ++}; ++ ++/* Current architecture type. */ ++static struct arch_type_s default_arch = {"all-insn", AVR32_V1 | AVR32_V2 | AVR32_V3 | AVR32_SIMD | AVR32_DSP | AVR32_RMW | AVR32_V3FP | AVR32_PICO }; ++static struct arch_type_s *avr32_arch = &default_arch; ++ ++/* Display nicely formatted list of known part- and architecture names. */ ++ ++static void ++show_arch_list (FILE *stream) ++{ ++ int i, x; ++ ++ fprintf (stream, _("Known architecture names:")); ++ x = 1000; ++ ++ for (i = 0; arch_types[i].name; i++) ++ { ++ int len = strlen (arch_types[i].name); ++ ++ x += len + 1; ++ ++ if (x < 75) ++ fprintf (stream, " %s", arch_types[i].name); ++ else ++ { ++ fprintf (stream, "\n %s", arch_types[i].name); ++ x = len + 2; ++ } ++ } ++ ++ fprintf (stream, "\n"); ++} ++ ++static void ++show_part_list (FILE *stream) ++{ ++ int i, x; ++ ++ fprintf (stream, _("Known part names:")); ++ x = 1000; ++ ++ for (i = 0; part_types[i].name; i++) ++ { ++ int len = strlen(part_types[i].name); ++ ++ x += len + 1; ++ ++ if (x < 75) ++ fprintf (stream, " %s", part_types[i].name); ++ else ++ { ++ fprintf(stream, "\n %s", part_types[i].name); ++ x = len + 2; ++ } ++ } ++ ++ fprintf (stream, "\n"); ++} ++ ++const char *md_shortopts = ""; ++struct option md_longopts[] = ++{ ++#define OPTION_ARCH (OPTION_MD_BASE) ++#define OPTION_PART (OPTION_ARCH + 1) ++#define OPTION_IAR (OPTION_PART + 1) ++#define OPTION_PIC (OPTION_IAR + 1) ++#define OPTION_NOPIC (OPTION_PIC + 1) ++#define OPTION_LINKRELAX (OPTION_NOPIC + 1) ++#define OPTION_NOLINKRELAX (OPTION_LINKRELAX + 1) ++#define OPTION_DIRECT_DATA_REFS (OPTION_NOLINKRELAX + 1) ++ {"march", required_argument, NULL, OPTION_ARCH}, ++ {"mpart", required_argument, NULL, OPTION_PART}, ++ {"iar", no_argument, NULL, OPTION_IAR}, ++ {"pic", no_argument, NULL, OPTION_PIC}, ++ {"no-pic", no_argument, NULL, OPTION_NOPIC}, ++ {"linkrelax", no_argument, NULL, OPTION_LINKRELAX}, ++ {"no-linkrelax", no_argument, NULL, OPTION_NOLINKRELAX}, ++ /* deprecated alias for -mpart=xxx */ ++ {"mcpu", required_argument, NULL, OPTION_PART}, ++ {NULL, no_argument, NULL, 0} ++}; ++ ++size_t md_longopts_size = sizeof (md_longopts); ++ ++void ++md_show_usage (FILE *stream) ++{ ++ fprintf (stream, _("\ ++AVR32 options:\n\ ++ -march=[arch-name] Select cpu architecture. [Default `all-insn']\n\ ++ -mpart=[part-name] Select specific part. [Default `none']\n\ ++ --pic Produce Position-Independent Code\n\ ++ --no-pic Don't produce Position-Independent Code\n\ ++ --linkrelax Produce output suitable for linker relaxing\n\ ++ --no-linkrelax Don't produce output suitable for linker relaxing\n")); ++ show_arch_list(stream); ++} ++ ++int ++md_parse_option (int c, char *arg ATTRIBUTE_UNUSED) ++{ ++ switch (c) ++ { ++ case OPTION_ARCH: ++ { ++ int i; ++ char *s = alloca (strlen (arg) + 1); ++ ++ { ++ char *t = s; ++ char *arg1 = arg; ++ ++ do ++ *t = TOLOWER (*arg1++); ++ while (*t++); ++ } ++ ++ /* Add backward compability */ ++ if (strcmp ("uc", s)== 0) ++ { ++ as_warn("Deprecated arch `%s' specified. " ++ "Please use '-march=ucr1' instead. " ++ "Converting to arch 'ucr1'\n", ++ s); ++ s="ucr1"; ++ } ++ ++ for (i = 0; arch_types[i].name; ++i) ++ if (strcmp (arch_types[i].name, s) == 0) ++ break; ++ ++ if (!arch_types[i].name) ++ { ++ show_arch_list (stderr); ++ as_fatal (_("unknown architecture: %s\n"), arg); ++ } ++ ++ avr32_arch = &arch_types[i]; ++ break; ++ } ++ case OPTION_PART: ++ { ++ int i; ++ char *s = alloca (strlen (arg) + 1); ++ char *t = s; ++ char *p = arg; ++ ++ /* If arch type has already been set, don't bother. ++ -march= always overrides -mpart= */ ++ if (avr32_arch != &default_arch) ++ break; ++ ++ do ++ *t = TOLOWER (*p++); ++ while (*t++); ++ ++ for (i = 0; part_types[i].name; ++i) ++ if (strcmp (part_types[i].name, s) == 0) ++ break; ++ ++ if (!part_types[i].name) ++ { ++ show_part_list (stderr); ++ as_fatal (_("unknown part: %s\n"), arg); ++ } ++ ++ avr32_arch = &arch_types[part_types[i].arch]; ++ break; ++ } ++ case OPTION_IAR: ++ avr32_iarcompat = 1; ++ break; ++ case OPTION_PIC: ++ avr32_pic = 1; ++ break; ++ case OPTION_NOPIC: ++ avr32_pic = 0; ++ break; ++ case OPTION_LINKRELAX: ++ linkrelax = 1; ++ break; ++ case OPTION_NOLINKRELAX: ++ linkrelax = 0; ++ break; ++ default: ++ return 0; ++ } ++ return 1; ++} ++ ++/* Can't use symbol_new here, so have to create a symbol and then at ++ a later date assign it a value. Thats what these functions do. ++ ++ Shamelessly stolen from ARM. */ ++ ++static void ++symbol_locate (symbolS * symbolP, ++ const char * name, /* It is copied, the caller can modify. */ ++ segT segment, /* Segment identifier (SEG_). */ ++ valueT valu, /* Symbol value. */ ++ fragS * frag) /* Associated fragment. */ ++{ ++ unsigned int name_length; ++ char * preserved_copy_of_name; ++ ++ name_length = strlen (name) + 1; /* +1 for \0. */ ++ obstack_grow (¬es, name, name_length); ++ preserved_copy_of_name = obstack_finish (¬es); ++#ifdef STRIP_UNDERSCORE ++ if (preserved_copy_of_name[0] == '_') ++ preserved_copy_of_name++; ++#endif ++ ++#ifdef tc_canonicalize_symbol_name ++ preserved_copy_of_name = ++ tc_canonicalize_symbol_name (preserved_copy_of_name); ++#endif ++ ++ S_SET_NAME (symbolP, preserved_copy_of_name); ++ ++ S_SET_SEGMENT (symbolP, segment); ++ S_SET_VALUE (symbolP, valu); ++ symbol_clear_list_pointers (symbolP); ++ ++ symbol_set_frag (symbolP, frag); ++ ++ /* Link to end of symbol chain. */ ++ { ++ extern int symbol_table_frozen; ++ ++ if (symbol_table_frozen) ++ abort (); ++ } ++ ++ symbol_append (symbolP, symbol_lastP, & symbol_rootP, & symbol_lastP); ++ ++ obj_symbol_new_hook (symbolP); ++ ++#ifdef tc_symbol_new_hook ++ tc_symbol_new_hook (symbolP); ++#endif ++ ++#ifdef DEBUG_SYMS ++ verify_symbol_chain (symbol_rootP, symbol_lastP); ++#endif /* DEBUG_SYMS */ ++} ++ ++struct cpool_entry ++{ ++ int refcount; ++ offsetT offset; ++ expressionS exp; ++}; ++ ++struct cpool ++{ ++ struct cpool *next; ++ int used; ++ struct cpool_entry *literals; ++ unsigned int padding; ++ unsigned int next_free_entry; ++ unsigned int id; ++ symbolS *symbol; ++ segT section; ++ subsegT sub_section; ++}; ++ ++struct cpool *cpool_list = NULL; ++ ++static struct cpool * ++find_cpool(segT section, subsegT sub_section) ++{ ++ struct cpool *pool; ++ ++ for (pool = cpool_list; pool != NULL; pool = pool->next) ++ { ++ if (!pool->used ++ && pool->section == section ++ && pool->sub_section == sub_section) ++ break; ++ } ++ ++ return pool; ++} ++ ++static struct cpool * ++find_or_make_cpool(segT section, subsegT sub_section) ++{ ++ static unsigned int next_cpool_id = 0; ++ struct cpool *pool; ++ ++ pool = find_cpool(section, sub_section); ++ ++ if (!pool) ++ { ++ pool = xmalloc(sizeof(*pool)); ++ if (!pool) ++ return NULL; ++ ++ pool->used = 0; ++ pool->literals = NULL; ++ pool->padding = 0; ++ pool->next_free_entry = 0; ++ pool->section = section; ++ pool->sub_section = sub_section; ++ pool->next = cpool_list; ++ pool->symbol = NULL; ++ ++ cpool_list = pool; ++ } ++ ++ /* NULL symbol means that the pool is new or has just been emptied. */ ++ if (!pool->symbol) ++ { ++ pool->symbol = symbol_create(FAKE_LABEL_NAME, undefined_section, ++ 0, &zero_address_frag); ++ pool->id = next_cpool_id++; ++ } ++ ++ return pool; ++} ++ ++static struct cpool * ++add_to_cpool(expressionS *exp, unsigned int *index, int ref) ++{ ++ struct cpool *pool; ++ unsigned int entry; ++ ++ pool = find_or_make_cpool(now_seg, now_subseg); ++ ++ /* Check if this constant is already in the pool. */ ++ for (entry = 0; entry < pool->next_free_entry; entry++) ++ { ++ if ((pool->literals[entry].exp.X_op == exp->X_op) ++ && (exp->X_op == O_constant) ++ && (pool->literals[entry].exp.X_add_number ++ == exp->X_add_number) ++ && (pool->literals[entry].exp.X_unsigned ++ == exp->X_unsigned)) ++ break; ++ ++ if ((pool->literals[entry].exp.X_op == exp->X_op) ++ && (exp->X_op == O_symbol) ++ && (pool->literals[entry].exp.X_add_number ++ == exp->X_add_number) ++ && (pool->literals[entry].exp.X_add_symbol ++ == exp->X_add_symbol) ++ && (pool->literals[entry].exp.X_op_symbol ++ == exp->X_op_symbol)) ++ break; ++ } ++ ++ /* Create an entry if we didn't find a match */ ++ if (entry == pool->next_free_entry) ++ { ++ pool->literals = xrealloc(pool->literals, ++ sizeof(struct cpool_entry) * (entry + 1)); ++ pool->literals[entry].exp = *exp; ++ pool->literals[entry].refcount = 0; ++ pool->next_free_entry++; ++ } ++ ++ if (index) ++ *index = entry; ++ if (ref) ++ pool->literals[entry].refcount++; ++ ++ return pool; ++} ++ ++struct avr32_operand ++{ ++ int id; ++ int is_signed; ++ int is_pcrel; ++ int align_order; ++ int (*match)(char *str); ++ void (*parse)(const struct avr32_operand *op, char *str, int opindex); ++}; ++ ++static int ++match_anything(char *str ATTRIBUTE_UNUSED) ++{ ++ return 1; ++} ++ ++static int ++match_intreg(char *str) ++{ ++ int regid, ret = 1; ++ ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ pr_debug("match_intreg: `%s': %d\n", str, ret); ++ ++ return ret; ++} ++ ++static int ++match_intreg_predec(char *str) ++{ ++ int regid; ++ ++ if (str[0] != '-' || str[1] != '-') ++ return 0; ++ ++ regid = avr32_parse_intreg(str + 2); ++ if (regid < 0) ++ return 0; ++ ++ return 1; ++} ++ ++static int ++match_intreg_postinc(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '+') ++ break; ++ ++ if (p[0] != '+' || p[1] != '+') ++ return 0; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_intreg_lsl(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '<') ++ break; ++ ++ if (p[0] && p[1] != '<') ++ return 0; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_intreg_lsr(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '>') ++ break; ++ ++ if (p[0] && p[1] != '>') ++ return 0; ++ ++ c = *p, *p = 0; ++ ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_intreg_part(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == ':') ++ break; ++ ++ if (p[0] != ':' || !ISPRINT(p[1]) || p[2] != '\0') ++ return 0; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ ++ *p = c; ++ ++ return ret; ++} ++ ++#define match_intreg_disp match_anything ++ ++static int ++match_intreg_index(char *str) ++{ ++ int regid, ret = 1; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* don't allow empty displacement here (it makes no sense) */ ++ if (p[0] != '[') ++ return 0; ++ ++ for (end = p + 1; *end; end++) ; ++ if (*(--end) != ']') ++ return 0; ++ ++ c = *end, *end = 0; ++ if (!match_intreg_lsl(p + 1)) ++ ret = 0; ++ *end = c; ++ ++ if (ret) ++ { ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ *p = c; ++ } ++ ++ return ret; ++} ++ ++static int ++match_intreg_xindex(char *str) ++{ ++ int regid, ret = 1; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* empty displacement makes no sense here either */ ++ if (p[0] != '[') ++ return 0; ++ ++ for (end = p + 1; *end; end++) ++ if (*end == '<') ++ break; ++ ++ if (!streq(end, "<<2]")) ++ return 0; ++ ++ c = *end, *end = 0; ++ if (!match_intreg_part(p + 1)) ++ ret = 0; ++ *end = c; ++ ++ if (ret) ++ { ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ ret = 0; ++ *p = c; ++ } ++ ++ return ret; ++} ++ ++/* The PC_UDISP_W operator may show up as a label or as a pc[disp] ++ expression. So there's no point in attempting to match this... */ ++#define match_pc_disp match_anything ++ ++static int ++match_sp(char *str) ++{ ++ /* SP in any form will do */ ++ return avr32_parse_intreg(str) == AVR32_REG_SP; ++} ++ ++static int ++match_sp_disp(char *str) ++{ ++ int regid, ret = 1; ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* allow empty displacement, meaning zero */ ++ if (p[0] == '[') ++ { ++ char *end; ++ for (end = p + 1; *end; end++) ; ++ if (end[-1] != ']') ++ return 0; ++ } ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ if (regid != AVR32_REG_SP) ++ ret = 0; ++ ++ *p = c; ++ return ret; ++} ++ ++static int ++match_cpno(char *str) ++{ ++ if (strncasecmp(str, "cp", 2) != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_cpreg(char *str) ++{ ++ if (strncasecmp(str, "cr", 2) != 0) ++ return 0; ++ return 1; ++} ++ ++/* We allow complex expressions, and register names may show up as ++ symbols. Just make sure immediate expressions are always matched ++ last. */ ++#define match_const match_anything ++#define match_jmplabel match_anything ++#define match_number match_anything ++ ++/* Mnemonics that take reglists never accept anything else */ ++#define match_reglist8 match_anything ++#define match_reglist9 match_anything ++#define match_reglist16 match_anything ++#define match_reglist_ldm match_anything ++#define match_reglist_cp8 match_anything ++#define match_reglist_cpd8 match_anything ++ ++/* Ditto for retval, jospinc and mcall */ ++#define match_retval match_anything ++#define match_jospinc match_anything ++#define match_mcall match_anything ++ ++/* COH is used to select between two different syntaxes */ ++static int ++match_coh(char *str) ++{ ++ return strcasecmp(str, "coh") == 0; ++} ++#if 0 ++static int ++match_fpreg(char *str) ++{ ++ unsigned long regid; ++ char *endptr; ++ ++ if ((str[0] != 'f' && str[0] != 'F') ++ || (str[1] != 'r' && str[1] != 'R')) ++ return 0; ++ ++ str += 2; ++ regid = strtoul(str, &endptr, 10); ++ if (!*str || *endptr) ++ return 0; ++ ++ return 1; ++} ++#endif ++ ++static int ++match_picoreg(char *str) ++{ ++ int regid; ++ ++ regid = avr32_parse_picoreg(str); ++ if (regid < 0) ++ return 0; ++ return 1; ++} ++ ++#define match_pico_reglist_w match_anything ++#define match_pico_reglist_d match_anything ++ ++static int ++match_pico_in(char *str) ++{ ++ unsigned long regid; ++ char *end; ++ ++ if (strncasecmp(str, "in", 2) != 0) ++ return 0; ++ ++ str += 2; ++ regid = strtoul(str, &end, 10); ++ if (!*str || *end) ++ return 0; ++ ++ return 1; ++} ++ ++static int ++match_pico_out0(char *str) ++{ ++ if (strcasecmp(str, "out0") != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_pico_out1(char *str) ++{ ++ if (strcasecmp(str, "out1") != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_pico_out2(char *str) ++{ ++ if (strcasecmp(str, "out2") != 0) ++ return 0; ++ return 1; ++} ++ ++static int ++match_pico_out3(char *str) ++{ ++ if (strcasecmp(str, "out3") != 0) ++ return 0; ++ return 1; ++} ++ ++static void parse_nothing(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str ATTRIBUTE_UNUSED, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ /* Do nothing (this is used for "match-only" operands like COH) */ ++} ++ ++static void ++parse_const(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ expressionS *sym_exp; ++ int slot; ++ char *save; ++ ++ pr_debug("parse_const: `%s' (signed: %d, pcrel: %d, align: %d)\n", ++ str, op->is_signed, op->is_pcrel, op->align_order); ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ ++ expression(exp); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ current_insn.pcrel = op->is_pcrel; ++ ++ switch (exp->X_op) ++ { ++ case O_illegal: ++ as_bad(_("illegal operand")); ++ break; ++ case O_absent: ++ as_bad(_("missing operand")); ++ break; ++ case O_constant: ++ pr_debug(" -> constant: %ld\n", (long)exp->X_add_number); ++ current_insn.field_value[slot].value = exp->X_add_number; ++ break; ++ case O_uminus: ++ pr_debug(" -> uminus\n"); ++ sym_exp = symbol_get_value_expression(exp->X_add_symbol); ++ switch (sym_exp->X_op) { ++ case O_subtract: ++ pr_debug(" -> subtract: switching operands\n"); ++ exp->X_op_symbol = sym_exp->X_add_symbol; ++ exp->X_add_symbol = sym_exp->X_op_symbol; ++ exp->X_op = O_subtract; ++ /* TODO: Remove the old X_add_symbol */ ++ break; ++ default: ++ as_bad(_("Expression too complex\n")); ++ break; ++ } ++ break; ++#if 0 ++ case O_subtract: ++ /* Any expression subtracting a symbol from the current section ++ can be made PC-relative by adding the right offset. */ ++ if (S_GET_SEGMENT(exp->X_op_symbol) == now_seg) ++ current_insn.pcrel = TRUE; ++ pr_debug(" -> subtract: pcrel? %s\n", ++ current_insn.pcrel ? "yes" : "no"); ++ /* fall through */ ++#endif ++ default: ++ pr_debug(" -> (%p <%d> %p + %d)\n", ++ exp->X_add_symbol, exp->X_op, exp->X_op_symbol, ++ exp->X_add_number); ++ current_insn.field_value[slot].value = 0; ++ break; ++ } ++ ++ input_line_pointer = save; ++} ++ ++static void ++parse_jmplabel(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ int slot; ++ char *save; ++ ++ pr_debug("parse_jmplabel: `%s' (signed: %d, pcrel: %d, align: %d)\n", ++ str, op->is_signed, op->is_pcrel, op->align_order); ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ ++ expression(exp); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ current_insn.pcrel = TRUE; ++ ++ switch (exp->X_op) ++ { ++ case O_illegal: ++ as_bad(_("illegal operand")); ++ break; ++ case O_absent: ++ as_bad(_("missing operand")); ++ break; ++ case O_constant: ++ pr_debug(" -> constant: %ld\n", (long)exp->X_add_number); ++ current_insn.field_value[slot].value = exp->X_add_number; ++ current_insn.pcrel = 0; ++ break; ++ default: ++ pr_debug(" -> (%p <%d> %p + %d)\n", ++ exp->X_add_symbol, exp->X_op, exp->X_op_symbol, ++ exp->X_add_number); ++ current_insn.field_value[slot].value = 0; ++ break; ++ } ++ ++ input_line_pointer = save; ++} ++ ++static void ++parse_intreg(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int regid, slot; ++ ++ pr_debug("parse_intreg: `%s'\n", str); ++ ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = op->align_order; ++} ++ ++static void ++parse_intreg_predec(const struct avr32_operand *op, char *str, int opindex) ++{ ++ parse_intreg(op, str + 2, opindex); ++} ++ ++static void ++parse_intreg_postinc(const struct avr32_operand *op, char *str, int opindex) ++{ ++ char *p, c; ++ ++ pr_debug("parse_intreg_postinc: `%s'\n", str); ++ ++ for (p = str; *p != '+'; p++) ; ++ ++ c = *p, *p = 0; ++ parse_intreg(op, str, opindex); ++ *p = c; ++} ++ ++static void ++parse_intreg_shift(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int regid, slot, shift = 0; ++ char *p, c; ++ char shiftop; ++ ++ pr_debug("parse Ry<') ++ break; ++ ++ shiftop = *p; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ if (c) ++ { ++ if (p[0] != shiftop || p[1] != shiftop) ++ as_bad(_("expected shift operator in `%s'"), p); ++ else ++ { ++ expressionS exp; ++ char *saved; ++ ++ saved = input_line_pointer; ++ input_line_pointer = p + 2; ++ expression(&exp); ++ input_line_pointer = saved; ++ ++ if (exp.X_op != O_constant) ++ as_bad(_("shift amount must be a numeric constant")); ++ else ++ shift = exp.X_add_number; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = shift; ++} ++ ++/* The match() function selected the right opcode, so it doesn't ++ matter which way we shift any more. */ ++#define parse_intreg_lsl parse_intreg_shift ++#define parse_intreg_lsr parse_intreg_shift ++ ++static void ++parse_intreg_part(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ static const char bparts[] = { 'b', 'l', 'u', 't' }; ++ static const char hparts[] = { 'b', 't' }; ++ unsigned int slot, sel; ++ int regid; ++ char *p, c; ++ ++ pr_debug("parse reg:part `%s'\n", str); ++ ++ for (p = str; *p; p++) ++ if (*p == ':') ++ break; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ assert(c == ':'); ++ ++ if (op->align_order) ++ { ++ for (sel = 0; sel < sizeof(hparts); sel++) ++ if (TOLOWER(p[1]) == hparts[sel]) ++ break; ++ ++ if (sel >= sizeof(hparts)) ++ { ++ as_bad(_("invalid halfword selector `%c' (must be either b or t)"), ++ p[1]); ++ sel = 0; ++ } ++ } ++ else ++ { ++ for (sel = 0; sel < sizeof(bparts); sel++) ++ if (TOLOWER(p[1]) == bparts[sel]) ++ break; ++ ++ if (sel >= sizeof(bparts)) ++ { ++ as_bad(_("invalid byte selector `%c' (must be one of b,l,u,t)"), ++ p[1]); ++ sel = 0; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = sel; ++} ++ ++/* This is the parser for "Rp[displacement]" expressions. In addition ++ to the "official" syntax, we accept a label as a replacement for ++ the register expression. This syntax implies Rp=PC and the ++ displacement is the pc-relative distance to the label. */ ++static void ++parse_intreg_disp(const struct avr32_operand *op, char *str, int opindex) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ int slot, regid; ++ char *save, *p, c; ++ ++ pr_debug("parse_intreg_disp: `%s' (signed: %d, pcrel: %d, align: %d)\n", ++ str, op->is_signed, op->is_pcrel, op->align_order); ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ slot = current_insn.next_slot++; ++ ++ /* First, check if we have a valid register either before '[' or as ++ the sole expression. If so, we use the Rp[disp] syntax. */ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ *p = c; ++ ++ if (regid >= 0) ++ { ++ current_insn.field_value[slot].value = regid; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ ++ if (c == '[') ++ { ++ save = input_line_pointer; ++ input_line_pointer = p + 1; ++ ++ expression(exp); ++ ++ if (*input_line_pointer != ']') ++ as_bad(_("junk after displacement expression")); ++ ++ input_line_pointer = save; ++ ++ switch (exp->X_op) ++ { ++ case O_illegal: ++ as_bad(_("illegal displacement expression")); ++ break; ++ case O_absent: ++ as_bad(_("missing displacement expression")); ++ break; ++ case O_constant: ++ pr_debug(" -> constant: %ld\n", exp->X_add_number); ++ current_insn.field_value[slot].value = exp->X_add_number; ++ break; ++#if 0 ++ case O_subtract: ++ if (S_GET_SEGMENT(exp->X_op_symbol) == now_seg) ++ current_insn.pcrel = TRUE; ++ pr_debug(" -> subtract: pcrel? %s\n", ++ current_insn.pcrel ? "yes" : "no"); ++ /* fall through */ ++#endif ++ default: ++ pr_debug(" -> (%p <%d> %p + %d)\n", ++ exp->X_add_symbol, exp->X_op, exp->X_op_symbol, ++ exp->X_add_number); ++ current_insn.field_value[slot].value = 0; ++ } ++ } ++ else ++ { ++ exp->X_op = O_constant; ++ exp->X_add_number = 0; ++ current_insn.field_value[slot].value = 0; ++ } ++ } ++ else ++ { ++ /* Didn't find a valid register. Try parsing it as a label. */ ++ current_insn.field_value[slot].value = AVR32_REG_PC; ++ parse_jmplabel(op, str, opindex); ++ } ++} ++ ++static void ++parse_intreg_index(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int slot, regid; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ assert(*p); ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ ++ p++; ++ for (end = p; *end; end++) ++ if (*end == ']' || *end == '<') ++ break; ++ ++ assert(*end); ++ ++ c = *end, *end = 0; ++ regid = avr32_parse_intreg(p); ++ assert(regid >= 0); ++ *end = c; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = 0; ++ ++ if (*end == '<') ++ { ++ expressionS exp; ++ char *save; ++ ++ p = end + 2; ++ for (end = p; *end; end++) ++ if (*end == ']') ++ break; ++ ++ assert(*end == ']'); ++ ++ c = *end, *end = 0; ++ save = input_line_pointer; ++ input_line_pointer = p; ++ expression(&exp); ++ ++ if (*input_line_pointer) ++ as_bad(_("junk after shift expression")); ++ ++ *end = c; ++ input_line_pointer = save; ++ ++ if (exp.X_op == O_constant) ++ current_insn.field_value[slot].value = exp.X_add_number; ++ else ++ as_bad(_("shift expression too complex")); ++ } ++} ++ ++static void ++parse_intreg_xindex(const struct avr32_operand *op, char *str, int opindex) ++{ ++ int slot, regid; ++ char *p, *end, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ assert(*p); ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ assert(regid >= 0); ++ *p = c; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ ++ p++; ++ for (end = p; *end; end++) ++ if (*end == '<') ++ break; ++ ++ assert(*end); ++ ++ c = *end, *end = 0; ++ parse_intreg_part(op, p, opindex); ++ *end = c; ++} ++ ++static void ++parse_pc_disp(const struct avr32_operand *op, char *str, int opindex) ++{ ++ char *p, c; ++ ++ for (p = str; *p; p++) ++ if (*p == '[') ++ break; ++ ++ /* The lddpc instruction comes in two different syntax variants: ++ lddpc reg, expression ++ lddpc reg, pc[disp] ++ If the operand contains a '[', we use the second form. */ ++ if (*p) ++ { ++ int regid; ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ *p = c; ++ if (regid == AVR32_REG_PC) ++ { ++ char *end; ++ ++ for (end = ++p; *end; end++) ; ++ if (*(--end) != ']') ++ as_bad(_("unrecognized form of instruction: `%s'"), str); ++ else ++ { ++ c = *end, *end = 0; ++ parse_const(op, p, opindex); ++ *end = c; ++ current_insn.pcrel = 0; ++ } ++ } ++ else ++ as_bad(_("unrecognized form of instruction: `%s'"), str); ++ } ++ else ++ { ++ parse_jmplabel(op, str, opindex); ++ } ++} ++ ++static void parse_sp(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str ATTRIBUTE_UNUSED, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ int slot; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = AVR32_REG_SP; ++} ++ ++static void ++parse_sp_disp(const struct avr32_operand *op, char *str, int opindex) ++{ ++ char *p, c; ++ ++ for (; *str; str++) ++ if (*str == '[') ++ break; ++ ++ assert(*str); ++ ++ for (p = ++str; *p; p++) ++ if (*p == ']') ++ break; ++ ++ c = *p, *p = 0; ++ parse_const(op, str, opindex); ++ *p = c; ++} ++ ++static void ++parse_cpno(const struct avr32_operand *op ATTRIBUTE_UNUSED, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ int slot; ++ ++ str += 2; ++ if (*str == '#') ++ str++; ++ if (*str < '0' || *str > '7' || str[1]) ++ as_bad(_("invalid coprocessor `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = *str - '0'; ++} ++ ++static void ++parse_cpreg(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned int crid; ++ int slot; ++ char *endptr; ++ ++ str += 2; ++ crid = strtoul(str, &endptr, 10); ++ if (*endptr || crid > 15 || crid & ((1 << op->align_order) - 1)) ++ as_bad(_("invalid coprocessor register `%s'"), str); ++ ++ crid >>= op->align_order; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = crid; ++} ++ ++static void ++parse_number(const struct avr32_operand *op, char *str, ++ int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS exp; ++ int slot; ++ char *save; ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].align_order = op->align_order; ++ ++ if (exp.X_op == O_constant) ++ current_insn.field_value[slot].value = exp.X_add_number; ++ else ++ as_bad(_("invalid numeric expression `%s'"), str); ++} ++ ++static void ++parse_reglist8(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ unsigned long value = 0; ++ int slot; ++ char *tail; ++ ++ regmask = avr32_parse_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("invalid register list `%s'"), str); ++ else ++ { ++ if (avr32_make_regmask8(regmask, &value)) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = value; ++} ++ ++static int ++parse_reglist_tail(char *str, unsigned long regmask) ++{ ++ expressionS exp; ++ char *save, *p, c; ++ int regid; ++ ++ for (p = str + 1; *p; p++) ++ if (*p == '=') ++ break; ++ ++ if (!*p) ++ { ++ as_bad(_("invalid register list `%s'"), str); ++ return -2; ++ } ++ ++ c = *p, *p = 0; ++ regid = avr32_parse_intreg(str); ++ *p = c; ++ ++ if (regid != 12) ++ { ++ as_bad(_("invalid register list `%s'"), str); ++ return -2; ++ } ++ ++ /* If we have an assignment, we must pop PC and we must _not_ ++ pop LR or R12 */ ++ if (!(regmask & (1 << AVR32_REG_PC))) ++ { ++ as_bad(_("return value specified for non-return instruction")); ++ return -2; ++ } ++ else if (regmask & ((1 << AVR32_REG_R12) | (1 << AVR32_REG_LR))) ++ { ++ as_bad(_("can't pop LR or R12 when specifying return value")); ++ return -2; ++ } ++ ++ save = input_line_pointer; ++ input_line_pointer = p + 1; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ if (exp.X_op != O_constant ++ || exp.X_add_number < -1 ++ || exp.X_add_number > 1) ++ { ++ as_bad(_("invalid return value `%s'"), str); ++ return -2; ++ } ++ ++ return exp.X_add_number; ++} ++ ++static void ++parse_reglist9(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ unsigned long value = 0, kbit = 0; ++ int slot; ++ char *tail; ++ ++ regmask = avr32_parse_reglist(str, &tail); ++ /* printf("parsed reglist16: %04lx, tail: `%s'\n", regmask, tail); */ ++ if (*tail) ++ { ++ int retval; ++ ++ retval = parse_reglist_tail(tail, regmask); ++ ++ switch (retval) ++ { ++ case -1: ++ regmask |= 1 << AVR32_REG_LR; ++ break; ++ case 0: ++ break; ++ case 1: ++ regmask |= 1 << AVR32_REG_R12; ++ break; ++ default: ++ break; ++ } ++ ++ kbit = 1; ++ } ++ ++ if (avr32_make_regmask8(regmask, &value)) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = (value << 1) | kbit; ++} ++ ++static void ++parse_reglist16(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot; ++ char *tail; ++ ++ regmask = avr32_parse_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("invalid register list `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++} ++ ++static void ++parse_reglist_ldm(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot, rp, w_bit = 0; ++ char *tail, *p, c; ++ ++ for (p = str; *p && *p != ','; p++) ++ if (*p == '+') ++ break; ++ ++ c = *p, *p = 0; ++ rp = avr32_parse_intreg(str); ++ *p = c; ++ if (rp < 0) ++ { ++ as_bad(_("invalid destination register in `%s'"), str); ++ return; ++ } ++ ++ if (p[0] == '+' && p[1] == '+') ++ { ++ w_bit = 1; ++ p += 2; ++ } ++ ++ if (*p != ',') ++ { ++ as_bad(_("expected `,' after destination register in `%s'"), str); ++ return; ++ } ++ ++ str = p + 1; ++ regmask = avr32_parse_reglist(str, &tail); ++ if (*tail) ++ { ++ int retval; ++ ++ if (rp != AVR32_REG_SP) ++ { ++ as_bad(_("junk at end of line: `%s'"), tail); ++ return; ++ } ++ ++ rp = AVR32_REG_PC; ++ ++ retval = parse_reglist_tail(tail, regmask); ++ ++ switch (retval) ++ { ++ case -1: ++ regmask |= 1 << AVR32_REG_LR; ++ break; ++ case 0: ++ break; ++ case 1: ++ regmask |= 1 << AVR32_REG_R12; ++ break; ++ default: ++ return; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = rp; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = w_bit; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++} ++ ++static void ++parse_reglist_cp8(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot, h_bit = 0; ++ char *tail; ++ ++ regmask = avr32_parse_cpreglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ else if (regmask & 0xffUL) ++ { ++ if (regmask & 0xff00UL) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ regmask &= 0xff; ++ } ++ else if (regmask & 0xff00UL) ++ { ++ regmask >>= 8; ++ h_bit = 1; ++ } ++ else ++ as_warn(_("register list is empty")); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = h_bit; ++} ++ ++static void ++parse_reglist_cpd8(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask, regmask_d = 0; ++ int slot, i; ++ char *tail; ++ ++ regmask = avr32_parse_cpreglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ ++ for (i = 0; i < 8; i++) ++ { ++ if (regmask & 1) ++ { ++ if (!(regmask & 2)) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ regmask_d |= 1 << i; ++ } ++ else if (regmask & 2) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ ++ regmask >>= 2; ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask_d; ++} ++ ++static void ++parse_retval(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ int regid, slot; ++ ++ regid = avr32_parse_intreg(str); ++ if (regid < 0) ++ { ++ expressionS exp; ++ char *save; ++ ++ regid = 0; ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ if (exp.X_op != O_constant) ++ as_bad(_("invalid return value `%s'"), str); ++ else ++ switch (exp.X_add_number) ++ { ++ case -1: ++ regid = AVR32_REG_LR; ++ break; ++ case 0: ++ regid = AVR32_REG_SP; ++ break; ++ case 1: ++ regid = AVR32_REG_PC; ++ break; ++ default: ++ as_bad(_("invalid return value `%s'"), str); ++ break; ++ } ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++} ++ ++#define parse_mcall parse_intreg_disp ++ ++static void ++parse_jospinc(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ expressionS exp; ++ int slot; ++ char *save; ++ ++ save = input_line_pointer; ++ input_line_pointer = str; ++ expression(&exp); ++ input_line_pointer = save; ++ ++ slot = current_insn.next_slot++; ++ ++ if (exp.X_op == O_constant) ++ { ++ if (exp.X_add_number > 0) ++ exp.X_add_number--; ++ current_insn.field_value[slot].value = exp.X_add_number; ++ } ++ else ++ as_bad(_("invalid numeric expression `%s'"), str); ++} ++ ++#define parse_coh parse_nothing ++#if 0 ++static void ++parse_fpreg(const struct avr32_operand *op, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regid; ++ int slot; ++ ++ regid = strtoul(str + 2, NULL, 10); ++ ++ if ((regid >= 16) || (regid & ((1 << op->align_order) - 1))) ++ as_bad(_("invalid floating-point register `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = op->align_order; ++} ++#endif ++ ++static void ++parse_picoreg(const struct avr32_operand *op, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regid; ++ int slot; ++ ++ regid = avr32_parse_picoreg(str); ++ if (regid & ((1 << op->align_order) - 1)) ++ as_bad(_("invalid double-word PiCo register `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = op->align_order; ++} ++ ++static void ++parse_pico_reglist_w(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask; ++ int slot, h_bit = 0; ++ char *tail; ++ ++ regmask = avr32_parse_pico_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ ++ if (regmask & 0x00ffUL) ++ { ++ if (regmask & 0xff00UL) ++ as_bad(_("register list `%s' doesn't fit"), str); ++ regmask &= 0x00ffUL; ++ } ++ else if (regmask & 0xff00UL) ++ { ++ regmask >>= 8; ++ h_bit = 1; ++ } ++ else ++ as_warn(_("register list is empty")); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask; ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = h_bit; ++} ++ ++static void ++parse_pico_reglist_d(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regmask, regmask_d = 0; ++ int slot, i; ++ char *tail; ++ ++ regmask = avr32_parse_pico_reglist(str, &tail); ++ if (*tail) ++ as_bad(_("junk at end of line: `%s'"), tail); ++ ++ for (i = 0; i < 8; i++) ++ { ++ if (regmask & 1) ++ { ++ if (!(regmask & 2)) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ regmask_d |= 1 << i; ++ } ++ else if (regmask & 2) ++ { ++ as_bad(_("register list `%s' doesn't fit"), str); ++ break; ++ } ++ ++ regmask >>= 2; ++ } ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regmask_d; ++} ++ ++static void ++parse_pico_in(const struct avr32_operand *op ATTRIBUTE_UNUSED, ++ char *str, int opindex ATTRIBUTE_UNUSED) ++{ ++ unsigned long regid; ++ int slot; ++ ++ regid = strtoul(str + 2, NULL, 10); ++ ++ if (regid >= 12) ++ as_bad(_("invalid PiCo IN register `%s'"), str); ++ ++ slot = current_insn.next_slot++; ++ current_insn.field_value[slot].value = regid; ++ current_insn.field_value[slot].align_order = 0; ++} ++ ++#define parse_pico_out0 parse_nothing ++#define parse_pico_out1 parse_nothing ++#define parse_pico_out2 parse_nothing ++#define parse_pico_out3 parse_nothing ++ ++#define OP(name, sgn, pcrel, align, func) \ ++ { AVR32_OPERAND_##name, sgn, pcrel, align, match_##func, parse_##func } ++ ++struct avr32_operand avr32_operand_table[] = { ++ OP(INTREG, 0, 0, 0, intreg), ++ OP(INTREG_PREDEC, 0, 0, 0, intreg_predec), ++ OP(INTREG_POSTINC, 0, 0, 0, intreg_postinc), ++ OP(INTREG_LSL, 0, 0, 0, intreg_lsl), ++ OP(INTREG_LSR, 0, 0, 0, intreg_lsr), ++ OP(INTREG_BSEL, 0, 0, 0, intreg_part), ++ OP(INTREG_HSEL, 0, 0, 1, intreg_part), ++ OP(INTREG_SDISP, 1, 0, 0, intreg_disp), ++ OP(INTREG_SDISP_H, 1, 0, 1, intreg_disp), ++ OP(INTREG_SDISP_W, 1, 0, 2, intreg_disp), ++ OP(INTREG_UDISP, 0, 0, 0, intreg_disp), ++ OP(INTREG_UDISP_H, 0, 0, 1, intreg_disp), ++ OP(INTREG_UDISP_W, 0, 0, 2, intreg_disp), ++ OP(INTREG_INDEX, 0, 0, 0, intreg_index), ++ OP(INTREG_XINDEX, 0, 0, 0, intreg_xindex), ++ OP(DWREG, 0, 0, 1, intreg), ++ OP(PC_UDISP_W, 0, 1, 2, pc_disp), ++ OP(SP, 0, 0, 0, sp), ++ OP(SP_UDISP_W, 0, 0, 2, sp_disp), ++ OP(CPNO, 0, 0, 0, cpno), ++ OP(CPREG, 0, 0, 0, cpreg), ++ OP(CPREG_D, 0, 0, 1, cpreg), ++ OP(UNSIGNED_CONST, 0, 0, 0, const), ++ OP(UNSIGNED_CONST_W, 0, 0, 2, const), ++ OP(SIGNED_CONST, 1, 0, 0, const), ++ OP(SIGNED_CONST_W, 1, 0, 2, const), ++ OP(JMPLABEL, 1, 1, 1, jmplabel), ++ OP(UNSIGNED_NUMBER, 0, 0, 0, number), ++ OP(UNSIGNED_NUMBER_W, 0, 0, 2, number), ++ OP(REGLIST8, 0, 0, 0, reglist8), ++ OP(REGLIST9, 0, 0, 0, reglist9), ++ OP(REGLIST16, 0, 0, 0, reglist16), ++ OP(REGLIST_LDM, 0, 0, 0, reglist_ldm), ++ OP(REGLIST_CP8, 0, 0, 0, reglist_cp8), ++ OP(REGLIST_CPD8, 0, 0, 0, reglist_cpd8), ++ OP(RETVAL, 0, 0, 0, retval), ++ OP(MCALL, 1, 0, 2, mcall), ++ OP(JOSPINC, 0, 0, 0, jospinc), ++ OP(COH, 0, 0, 0, coh), ++ OP(PICO_REG_W, 0, 0, 0, picoreg), ++ OP(PICO_REG_D, 0, 0, 1, picoreg), ++ OP(PICO_REGLIST_W, 0, 0, 0, pico_reglist_w), ++ OP(PICO_REGLIST_D, 0, 0, 0, pico_reglist_d), ++ OP(PICO_IN, 0, 0, 0, pico_in), ++ OP(PICO_OUT0, 0, 0, 0, pico_out0), ++ OP(PICO_OUT1, 0, 0, 0, pico_out1), ++ OP(PICO_OUT2, 0, 0, 0, pico_out2), ++ OP(PICO_OUT3, 0, 0, 0, pico_out3), ++}; ++ ++symbolS * ++md_undefined_symbol (char *name ATTRIBUTE_UNUSED) ++{ ++ pr_debug("md_undefined_symbol: %s\n", name); ++ return 0; ++} ++ ++struct avr32_relax_type ++{ ++ long lower_bound; ++ long upper_bound; ++ unsigned char align; ++ unsigned char length; ++ signed short next; ++}; ++ ++#define EMPTY { 0, 0, 0, 0, -1 } ++#define C(lower, upper, align, next) \ ++ { (lower), (upper), (align), 2, AVR32_OPC_##next } ++#define E(lower, upper, align) \ ++ { (lower), (upper), (align), 4, -1 } ++ ++static const struct avr32_relax_type avr32_relax_table[] = ++ { ++ /* 0 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ E(0, 65535, 0), E(0, 65535, 0), E(0, 65535, 0), E(0, 65535, 0), ++ EMPTY, ++ /* 16 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(-256, 254, 1, BREQ2), C(-256, 254, 1, BRNE2), ++ C(-256, 254, 1, BRCC2), C(-256, 254, 1, BRCS2), ++ C(-256, 254, 1, BRGE2), C(-256, 254, 1, BRLT2), ++ C(-256, 254, 1, BRMI2), C(-256, 254, 1, BRPL2), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ /* 32 */ ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ E(-2097152, 2097150, 1), E(-2097152, 2097150, 1), ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 48 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ ++ C(-32, 31, 0, CP_W3), E(-1048576, 1048575, 0), ++ ++ EMPTY, EMPTY, EMPTY, ++ /* 64: csrfcz */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(0, 65535, 0), E(0, 65535, 0), ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(-32768, 32767, 0), ++ /* 80: LD_SB2 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(0, 7, 0, LD_UB4), E(-32768, 32767, 0), ++ ++ EMPTY, ++ EMPTY, EMPTY, ++ ++ C(0, 14, 1, LD_SH4), E(-32768, 32767, 0), ++ ++ EMPTY, EMPTY, EMPTY, ++ ++ C(0, 14, 1, LD_UH4), ++ ++ /* 96: LD_UH4 */ ++ E(-32768, 32767, 0), ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(0, 124, 2, LD_W4), E(-32768, 32767, 0), ++ ++ E(0, 1020, 2), /* LDC_D1 */ ++ EMPTY, EMPTY, ++ E(0, 1020, 2), /* LDC_W1 */ ++ EMPTY, EMPTY, ++ E(0, 16380, 2), /* LDC0_D */ ++ E(0, 16380, 2), /* LDC0_W */ ++ EMPTY, ++ ++ /* 112: LDCM_D_PU */ ++ EMPTY, EMPTY, EMPTY, ++ ++ C(0, 508, 2, LDDPC_EXT), E(-32768, 32767, 0), ++ ++ EMPTY,EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 134: MACHH_W */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(-131072, 131068, 2), /* MCALL */ ++ E(0, 1020, 2), /* MFDR */ ++ E(0, 1020, 2), /* MFSR */ ++ EMPTY, EMPTY, ++ ++ C(-128, 127, 0, MOV2), E(-1048576, 1048575, 0), ++ ++ EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ E(-128, 127, 0), /* MOVEQ2 */ ++ E(-128, 127, 0), /* MOVNE2 */ ++ E(-128, 127, 0), /* MOVCC2 */ ++ E(-128, 127, 0), /* 166: MOVCS2 */ ++ E(-128, 127, 0), /* MOVGE2 */ ++ E(-128, 127, 0), /* MOVLT2 */ ++ E(-128, 127, 0), /* MOVMI2 */ ++ E(-128, 127, 0), /* MOVPL2 */ ++ E(-128, 127, 0), /* MOVLS2 */ ++ E(-128, 127, 0), /* MOVGT2 */ ++ E(-128, 127, 0), /* MOVLE2 */ ++ E(-128, 127, 0), /* MOVHI2 */ ++ E(-128, 127, 0), /* MOVVS2 */ ++ E(-128, 127, 0), /* MOVVC2 */ ++ E(-128, 127, 0), /* MOVQS2 */ ++ E(-128, 127, 0), /* MOVAL2 */ ++ ++ E(0, 1020, 2), /* MTDR */ ++ E(0, 1020, 2), /* MTSR */ ++ EMPTY, ++ EMPTY, ++ E(-128, 127, 0), /* MUL3 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 198: MVCR_W */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(0, 65535, 0), E(0, 65535, 0), ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 230: PASR_H */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 262: PUNPCKSB_H */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ ++ C(-1024, 1022, 1, RCALL2), E(-2097152, 2097150, 1), ++ ++ EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ ++ C(-1024, 1022, 1, BRAL), ++ ++ EMPTY, EMPTY, EMPTY, ++ E(-128, 127, 0), /* RSUB2 */ ++ /* 294: SATADD_H */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ E(0, 255, 0), /* SLEEP */ ++ EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 326: ST_B2 */ ++ EMPTY, EMPTY, ++ C(0, 7, 0, ST_B4), E(-32768, 32767, 0), ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ E(-32768, 32767, 0), ++ EMPTY, EMPTY, EMPTY, ++ C(0, 14, 1, ST_H4), E(-32768, 32767, 0), ++ EMPTY, EMPTY, ++ EMPTY, ++ C(0, 60, 2, ST_W4), E(-32768, 32767, 0), ++ E(0, 1020, 2), /* STC_D1 */ ++ EMPTY, EMPTY, ++ E(0, 1020, 2), /* STC_W1 */ ++ EMPTY, EMPTY, ++ E(0, 16380, 2), /* STC0_D */ ++ E(0, 16380, 2), /* STC0_W */ ++ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 358: STDSP */ ++ EMPTY, EMPTY, ++ E(0, 1020, 2), /* STHH_W1 */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, ++ E(-32768, 32767, 0), ++ C(-512, 508, 2, SUB4), ++ C(-128, 127, 0, SUB4), E(-1048576, 1048576, 0), ++ /* SUB{cond} */ ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ /* SUBF{cond} */ ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ EMPTY, ++ ++ /* 406: SWAP_B */ ++ EMPTY, EMPTY, EMPTY, ++ E(0, 255, 0), /* SYNC */ ++ EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 414: TST */ ++ EMPTY, EMPTY, E(-65536, 65535, 2), E(-65536, 65535, 2), E(-65536, 65535, 2), EMPTY, EMPTY, EMPTY, ++ /* 422: RSUB{cond} */ ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), E(-128, 127, 0), ++ /* 436: ADD{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 454: SUB{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 472: AND{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 486: OR{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 502: EOR{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 518: LD.w{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 534: LD.sh{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 550: LD.uh{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 566: LD.sb{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 582: LD.ub{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 596: ST.w{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 614: ST.h{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 630: ST.b{cond} */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ /* 646: movh */ ++ E(0, 65535, 0), EMPTY, EMPTY, ++ /* 649: fmac.s */ ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, EMPTY, ++ }; ++ ++#undef E ++#undef C ++#undef EMPTY ++ ++#define AVR32_RS_NONE (-1) ++ ++#define avr32_rs_size(state) (avr32_relax_table[(state)].length) ++#define avr32_rs_align(state) (avr32_relax_table[(state)].align) ++#define relax_more(state) (avr32_relax_table[(state)].next) ++ ++#define opc_initial_substate(opc) ((opc)->id) ++ ++static int need_relax(int subtype, offsetT distance) ++{ ++ offsetT upper_bound, lower_bound; ++ ++ upper_bound = avr32_relax_table[subtype].upper_bound; ++ lower_bound = avr32_relax_table[subtype].lower_bound; ++ ++ if (distance & ((1 << avr32_rs_align(subtype)) - 1)) ++ return 1; ++ if ((distance > upper_bound) || (distance < lower_bound)) ++ return 1; ++ ++ return 0; ++} ++ ++enum { ++ LDA_SUBTYPE_MOV1, ++ LDA_SUBTYPE_MOV2, ++ LDA_SUBTYPE_SUB, ++ LDA_SUBTYPE_LDDPC, ++ LDA_SUBTYPE_LDW, ++ LDA_SUBTYPE_GOTLOAD, ++ LDA_SUBTYPE_GOTLOAD_LARGE, ++}; ++ ++enum { ++ CALL_SUBTYPE_RCALL1, ++ CALL_SUBTYPE_RCALL2, ++ CALL_SUBTYPE_MCALL_CP, ++ CALL_SUBTYPE_MCALL_GOT, ++ CALL_SUBTYPE_MCALL_LARGE, ++}; ++ ++#define LDA_INITIAL_SIZE (avr32_pic ? 4 : 2) ++#define CALL_INITIAL_SIZE 2 ++ ++#define need_reloc(sym, seg, pcrel) \ ++ (!(S_IS_DEFINED(sym) \ ++ && ((pcrel && S_GET_SEGMENT(sym) == seg) \ ++ || (!pcrel && S_GET_SEGMENT(sym) == absolute_section))) \ ++ || S_FORCE_RELOC(sym, 1)) ++ ++/* Return an initial guess of the length by which a fragment must grow to ++ hold a branch to reach its destination. ++ Also updates fr_type/fr_subtype as necessary. ++ ++ Called just before doing relaxation. ++ Any symbol that is now undefined will not become defined. ++ The guess for fr_var is ACTUALLY the growth beyond fr_fix. ++ Whatever we do to grow fr_fix or fr_var contributes to our returned value. ++ Although it may not be explicit in the frag, pretend fr_var starts with a ++ 0 value. */ ++ ++static int ++avr32_default_estimate_size_before_relax (fragS *fragP, segT segment) ++{ ++ int growth = 0; ++ ++ assert(fragP); ++ assert(fragP->fr_symbol); ++ ++ if (fragP->tc_frag_data.force_extended ++ || need_reloc(fragP->fr_symbol, segment, fragP->tc_frag_data.pcrel)) ++ { ++ int largest_state = fragP->fr_subtype; ++ while (relax_more(largest_state) != AVR32_RS_NONE) ++ largest_state = relax_more(largest_state); ++ growth = avr32_rs_size(largest_state) - fragP->fr_var; ++ } ++ else ++ { ++ growth = avr32_rs_size(fragP->fr_subtype) - fragP->fr_var; ++ } ++ ++ pr_debug("%s:%d: md_estimate_size_before_relax: %d\n", ++ fragP->fr_file, fragP->fr_line, growth); ++ ++ return growth; ++} ++ ++static int ++avr32_lda_estimate_size_before_relax(fragS *fragP, segT segment ATTRIBUTE_UNUSED) ++{ ++ return fragP->fr_var - LDA_INITIAL_SIZE; ++} ++ ++static int ++avr32_call_estimate_size_before_relax(fragS *fragP, segT segment ATTRIBUTE_UNUSED) ++{ ++ return fragP->fr_var - CALL_INITIAL_SIZE; ++} ++ ++static int ++avr32_cpool_estimate_size_before_relax(fragS *fragP, ++ segT segment ATTRIBUTE_UNUSED) ++{ ++ return fragP->fr_var; ++} ++ ++/* This macro may be defined to relax a frag. GAS will call this with the ++ * segment, the frag, and the change in size of all previous frags; ++ * md_relax_frag should return the change in size of the frag. */ ++static long ++avr32_default_relax_frag (segT segment, fragS *fragP, long stretch) ++{ ++ int state, next_state; ++ symbolS *symbolP; /* The target symbol */ ++ long growth = 0; ++ ++ state = next_state = fragP->fr_subtype; ++ ++ symbolP = fragP->fr_symbol; ++ ++ if (fragP->tc_frag_data.force_extended ++ || need_reloc(symbolP, segment, fragP->tc_frag_data.pcrel)) ++ { ++ /* Symbol must be resolved by the linker. Emit the largest ++ possible opcode. */ ++ while (relax_more(next_state) != AVR32_RS_NONE) ++ next_state = relax_more(next_state); ++ } ++ else ++ { ++ addressT address; /* The address of fragP */ ++ addressT target; /* The address of the target symbol */ ++ offsetT distance; /* The distance between the insn and the symbol */ ++ fragS *sym_frag; ++ ++ address = fragP->fr_address; ++ target = fragP->fr_offset; ++ symbolP = fragP->fr_symbol; ++ sym_frag = symbol_get_frag(symbolP); ++ ++ address += fragP->fr_fix - fragP->fr_var; ++ target += S_GET_VALUE(symbolP); ++ ++ if (stretch != 0 ++ && sym_frag->relax_marker != fragP->relax_marker ++ && S_GET_SEGMENT(symbolP) == segment) ++ /* if it was correctly aligned before, make sure it stays aligned */ ++ target += stretch & (~0UL << avr32_rs_align(state)); ++ ++ if (fragP->tc_frag_data.pcrel) ++ distance = target - (address & (~0UL << avr32_rs_align(state))); ++ else ++ distance = target; ++ ++ pr_debug("%s:%d: relax more? 0x%x - 0x%x = 0x%x (%d), align %d\n", ++ fragP->fr_file, fragP->fr_line, target, address, ++ distance, distance, avr32_rs_align(state)); ++ ++ if (need_relax(state, distance)) ++ { ++ if (relax_more(state) != AVR32_RS_NONE) ++ next_state = relax_more(state); ++ pr_debug("%s:%d: relax more %d -> %d (%d - %d, align %d)\n", ++ fragP->fr_file, fragP->fr_line, state, next_state, ++ target, address, avr32_rs_align(state)); ++ } ++ } ++ ++ growth = avr32_rs_size(next_state) - avr32_rs_size(state); ++ fragP->fr_subtype = next_state; ++ ++ pr_debug("%s:%d: md_relax_frag: growth=%d, subtype=%d, opc=0x%08lx\n", ++ fragP->fr_file, fragP->fr_line, growth, fragP->fr_subtype, ++ avr32_opc_table[next_state].value); ++ ++ return growth; ++} ++ ++static long ++avr32_lda_relax_frag(segT segment, fragS *fragP, long stretch) ++{ ++ struct cpool *pool= NULL; ++ unsigned int entry = 0; ++ addressT address, target; ++ offsetT distance; ++ symbolS *symbolP; ++ fragS *sym_frag; ++ long old_size, new_size; ++ ++ symbolP = fragP->fr_symbol; ++ old_size = fragP->fr_var; ++ if (!avr32_pic) ++ { ++ pool = fragP->tc_frag_data.pool; ++ entry = fragP->tc_frag_data.pool_entry; ++ } ++ ++ address = fragP->fr_address; ++ address += fragP->fr_fix - LDA_INITIAL_SIZE; ++ ++ if (!S_IS_DEFINED(symbolP) || S_FORCE_RELOC(symbolP, 1)) ++ goto relax_max; ++ ++ target = fragP->fr_offset; ++ sym_frag = symbol_get_frag(symbolP); ++ target += S_GET_VALUE(symbolP); ++ ++ if (sym_frag->relax_marker != fragP->relax_marker ++ && S_GET_SEGMENT(symbolP) == segment) ++ target += stretch; ++ ++ distance = target - address; ++ ++ pr_debug("lda_relax_frag: target: %d, address: %d, var: %d\n", ++ target, address, fragP->fr_var); ++ ++ if (!avr32_pic && S_GET_SEGMENT(symbolP) == absolute_section ++ && target <= 127 && (offsetT)target >= -128) ++ { ++ if (fragP->fr_subtype == LDA_SUBTYPE_LDDPC ++ || fragP->fr_subtype == LDA_SUBTYPE_LDW) ++ pool->literals[entry].refcount--; ++ new_size = 2; ++ fragP->fr_subtype = LDA_SUBTYPE_MOV1; ++ } ++ else if (!avr32_pic && S_GET_SEGMENT(symbolP) == absolute_section ++ && target <= 1048575 && (offsetT)target >= -1048576) ++ { ++ if (fragP->fr_subtype == LDA_SUBTYPE_LDDPC ++ || fragP->fr_subtype == LDA_SUBTYPE_LDW) ++ pool->literals[entry].refcount--; ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_MOV2; ++ } ++ else if (!linkrelax && S_GET_SEGMENT(symbolP) == segment ++ /* the field will be negated, so this is really -(-32768) ++ and -(32767) */ ++ && distance <= 32768 && distance >= -32767) ++ { ++ if (!avr32_pic ++ && (fragP->fr_subtype == LDA_SUBTYPE_LDDPC ++ || fragP->fr_subtype == LDA_SUBTYPE_LDW)) ++ pool->literals[entry].refcount--; ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_SUB; ++ } ++ else ++ { ++ relax_max: ++ if (avr32_pic) ++ { ++ if (linkrelax) ++ { ++ new_size = 8; ++ fragP->fr_subtype = LDA_SUBTYPE_GOTLOAD_LARGE; ++ } ++ else ++ { ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_GOTLOAD; ++ } ++ } ++ else ++ { ++ if (fragP->fr_subtype != LDA_SUBTYPE_LDDPC ++ && fragP->fr_subtype != LDA_SUBTYPE_LDW) ++ pool->literals[entry].refcount++; ++ ++ sym_frag = symbol_get_frag(pool->symbol); ++ target = (sym_frag->fr_address + sym_frag->fr_fix ++ + pool->padding + pool->literals[entry].offset); ++ ++ pr_debug("cpool sym address: 0x%lx\n", ++ sym_frag->fr_address + sym_frag->fr_fix); ++ ++ know(pool->section == segment); ++ ++ if (sym_frag->relax_marker != fragP->relax_marker) ++ target += stretch; ++ ++ distance = target - address; ++ if (distance <= 508 && distance >= 0) ++ { ++ new_size = 2; ++ fragP->fr_subtype = LDA_SUBTYPE_LDDPC; ++ } ++ else ++ { ++ new_size = 4; ++ fragP->fr_subtype = LDA_SUBTYPE_LDW; ++ } ++ ++ pr_debug("lda_relax_frag (cpool): target=0x%lx, address=0x%lx, refcount=%d\n", ++ target, address, pool->literals[entry].refcount); ++ } ++ } ++ ++ fragP->fr_var = new_size; ++ ++ pr_debug("%s:%d: lda: relax pass done. subtype: %d, growth: %ld\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_subtype, new_size - old_size); ++ ++ return new_size - old_size; ++} ++ ++static long ++avr32_call_relax_frag(segT segment, fragS *fragP, long stretch) ++{ ++ struct cpool *pool = NULL; ++ unsigned int entry = 0; ++ addressT address, target; ++ offsetT distance; ++ symbolS *symbolP; ++ fragS *sym_frag; ++ long old_size, new_size; ++ ++ symbolP = fragP->fr_symbol; ++ old_size = fragP->fr_var; ++ if (!avr32_pic) ++ { ++ pool = fragP->tc_frag_data.pool; ++ entry = fragP->tc_frag_data.pool_entry; ++ } ++ ++ address = fragP->fr_address; ++ address += fragP->fr_fix - CALL_INITIAL_SIZE; ++ ++ if (need_reloc(symbolP, segment, 1)) ++ { ++ pr_debug("call: must emit reloc\n"); ++ goto relax_max; ++ } ++ ++ target = fragP->fr_offset; ++ sym_frag = symbol_get_frag(symbolP); ++ target += S_GET_VALUE(symbolP); ++ ++ if (sym_frag->relax_marker != fragP->relax_marker ++ && S_GET_SEGMENT(symbolP) == segment) ++ target += stretch; ++ ++ distance = target - address; ++ ++ if (distance <= 1022 && distance >= -1024) ++ { ++ pr_debug("call: distance is %d, emitting short rcall\n", distance); ++ if (!avr32_pic && fragP->fr_subtype == CALL_SUBTYPE_MCALL_CP) ++ pool->literals[entry].refcount--; ++ new_size = 2; ++ fragP->fr_subtype = CALL_SUBTYPE_RCALL1; ++ } ++ else if (distance <= 2097150 && distance >= -2097152) ++ { ++ pr_debug("call: distance is %d, emitting long rcall\n", distance); ++ if (!avr32_pic && fragP->fr_subtype == CALL_SUBTYPE_MCALL_CP) ++ pool->literals[entry].refcount--; ++ new_size = 4; ++ fragP->fr_subtype = CALL_SUBTYPE_RCALL2; ++ } ++ else ++ { ++ pr_debug("call: distance %d too far, emitting something big\n", distance); ++ ++ relax_max: ++ if (avr32_pic) ++ { ++ if (linkrelax) ++ { ++ new_size = 10; ++ fragP->fr_subtype = CALL_SUBTYPE_MCALL_LARGE; ++ } ++ else ++ { ++ new_size = 4; ++ fragP->fr_subtype = CALL_SUBTYPE_MCALL_GOT; ++ } ++ } ++ else ++ { ++ if (fragP->fr_subtype != CALL_SUBTYPE_MCALL_CP) ++ pool->literals[entry].refcount++; ++ ++ new_size = 4; ++ fragP->fr_subtype = CALL_SUBTYPE_MCALL_CP; ++ } ++ } ++ ++ fragP->fr_var = new_size; ++ ++ pr_debug("%s:%d: call: relax pass done, growth: %d, fr_var: %d\n", ++ fragP->fr_file, fragP->fr_line, ++ new_size - old_size, fragP->fr_var); ++ ++ return new_size - old_size; ++} ++ ++static long ++avr32_cpool_relax_frag(segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP, ++ long stretch ATTRIBUTE_UNUSED) ++{ ++ struct cpool *pool; ++ addressT address; ++ long old_size, new_size; ++ unsigned int entry; ++ ++ pool = fragP->tc_frag_data.pool; ++ address = fragP->fr_address + fragP->fr_fix; ++ old_size = fragP->fr_var; ++ new_size = 0; ++ ++ for (entry = 0; entry < pool->next_free_entry; entry++) ++ { ++ if (pool->literals[entry].refcount > 0) ++ { ++ pool->literals[entry].offset = new_size; ++ new_size += 4; ++ } ++ } ++ ++ fragP->fr_var = new_size; ++ ++ return new_size - old_size; ++} ++ ++/* *fragP has been relaxed to its final size, and now needs to have ++ the bytes inside it modified to conform to the new size. ++ ++ Called after relaxation is finished. ++ fragP->fr_type == rs_machine_dependent. ++ fragP->fr_subtype is the subtype of what the address relaxed to. */ ++ ++static void ++avr32_default_convert_frag (bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ const struct avr32_opcode *opc; ++ const struct avr32_ifield *ifield; ++ bfd_reloc_code_real_type r_type; ++ symbolS *symbolP; ++ fixS *fixP; ++ bfd_vma value; ++ int subtype; ++ ++ opc = &avr32_opc_table[fragP->fr_subtype]; ++ ifield = opc->fields[opc->var_field]; ++ symbolP = fragP->fr_symbol; ++ subtype = fragP->fr_subtype; ++ r_type = opc->reloc_type; ++ ++ /* Clear the opcode bits and the bits belonging to the relaxed ++ field. We assume all other fields stay the same. */ ++ value = bfd_getb32(fragP->fr_opcode); ++ value &= ~(opc->mask | ifield->mask); ++ ++ /* Insert the new opcode */ ++ value |= opc->value; ++ bfd_putb32(value, fragP->fr_opcode); ++ ++ fragP->fr_fix += opc->size - fragP->fr_var; ++ ++ if (fragP->tc_frag_data.reloc_info != AVR32_OPINFO_NONE) ++ { ++ switch (fragP->tc_frag_data.reloc_info) ++ { ++ case AVR32_OPINFO_HI: ++ r_type = BFD_RELOC_HI16; ++ break; ++ case AVR32_OPINFO_LO: ++ r_type = BFD_RELOC_LO16; ++ break; ++ case AVR32_OPINFO_GOT: ++ switch (r_type) ++ { ++ case BFD_RELOC_AVR32_18W_PCREL: ++ r_type = BFD_RELOC_AVR32_GOT18SW; ++ break; ++ case BFD_RELOC_AVR32_16S: ++ r_type = BFD_RELOC_AVR32_GOT16S; ++ break; ++ default: ++ BAD_CASE(r_type); ++ break; ++ } ++ break; ++ default: ++ BAD_CASE(fragP->tc_frag_data.reloc_info); ++ break; ++ } ++ } ++ ++ pr_debug("%s:%d: convert_frag: new %s fixup\n", ++ fragP->fr_file, fragP->fr_line, ++ bfd_get_reloc_code_name(r_type)); ++ ++#if 1 ++ fixP = fix_new_exp(fragP, fragP->fr_fix - opc->size, opc->size, ++ &fragP->tc_frag_data.exp, ++ fragP->tc_frag_data.pcrel, r_type); ++#else ++ fixP = fix_new(fragP, fragP->fr_fix - opc->size, opc->size, symbolP, ++ fragP->fr_offset, fragP->tc_frag_data.pcrel, r_type); ++#endif ++ ++ /* Revert fix_new brain damage. "dot_value" is the value of PC at ++ the point of the fixup, relative to the frag address. fix_new() ++ and friends think they are only being called during the assembly ++ pass, not during relaxation or similar, so fx_dot_value, fx_file ++ and fx_line are all initialized to the wrong value. But we don't ++ know the size of the fixup until now, so we really can't live up ++ to the assumptions these functions make about the target. What ++ do these functions think the "where" and "frag" argument mean ++ anyway? */ ++ fixP->fx_dot_value = fragP->fr_fix - opc->size; ++ fixP->fx_file = fragP->fr_file; ++ fixP->fx_line = fragP->fr_line; ++ ++ fixP->tc_fix_data.ifield = ifield; ++ fixP->tc_fix_data.align = avr32_rs_align(subtype); ++ fixP->tc_fix_data.min = avr32_relax_table[subtype].lower_bound; ++ fixP->tc_fix_data.max = avr32_relax_table[subtype].upper_bound; ++} ++ ++static void ++avr32_lda_convert_frag(bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ const struct avr32_opcode *opc; ++ const struct avr32_ifield *ifield; ++ bfd_reloc_code_real_type r_type; ++ expressionS exp; ++ struct cpool *pool; ++ fixS *fixP; ++ bfd_vma value; ++ int regid, pcrel = 0, align = 0; ++ char *p; ++ ++ r_type = BFD_RELOC_NONE; ++ regid = fragP->tc_frag_data.reloc_info; ++ p = fragP->fr_opcode; ++ exp.X_add_symbol = fragP->fr_symbol; ++ exp.X_add_number = fragP->fr_offset; ++ exp.X_op = O_symbol; ++ ++ pr_debug("%s:%d: lda_convert_frag, subtype: %d, fix: %d, var: %d, regid: %d\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_subtype, fragP->fr_fix, fragP->fr_var, regid); ++ ++ switch (fragP->fr_subtype) ++ { ++ case LDA_SUBTYPE_MOV1: ++ opc = &avr32_opc_table[AVR32_OPC_MOV1]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ r_type = opc->reloc_type; ++ break; ++ case LDA_SUBTYPE_MOV2: ++ opc = &avr32_opc_table[AVR32_OPC_MOV2]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ r_type = opc->reloc_type; ++ break; ++ case LDA_SUBTYPE_SUB: ++ opc = &avr32_opc_table[AVR32_OPC_SUB5]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ opc->fields[1]->insert(opc->fields[1], p, AVR32_REG_PC); ++ ifield = opc->fields[2]; ++ r_type = BFD_RELOC_AVR32_16N_PCREL; ++ ++ /* Pretend that SUB5 isn't a "negated" pcrel expression for now. ++ We'll have to fix it up later when we know whether to ++ generate a reloc for it (in which case the linker will negate ++ it, so we shouldn't). */ ++ pcrel = 1; ++ break; ++ case LDA_SUBTYPE_LDDPC: ++ opc = &avr32_opc_table[AVR32_OPC_LDDPC]; ++ align = 2; ++ r_type = BFD_RELOC_AVR32_9W_CP; ++ goto cpool_common; ++ case LDA_SUBTYPE_LDW: ++ opc = &avr32_opc_table[AVR32_OPC_LDDPC_EXT]; ++ r_type = BFD_RELOC_AVR32_16_CP; ++ cpool_common: ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ pool = fragP->tc_frag_data.pool; ++ exp.X_add_symbol = pool->symbol; ++ exp.X_add_number = pool->literals[fragP->tc_frag_data.pool_entry].offset; ++ pcrel = 1; ++ break; ++ case LDA_SUBTYPE_GOTLOAD_LARGE: ++ /* ld.w Rd, r6[Rd << 2] (last) */ ++ opc = &avr32_opc_table[AVR32_OPC_LD_W5]; ++ bfd_putb32(opc->value, p + 4); ++ opc->fields[0]->insert(opc->fields[0], p + 4, regid); ++ opc->fields[1]->insert(opc->fields[1], p + 4, 6); ++ opc->fields[2]->insert(opc->fields[2], p + 4, regid); ++ opc->fields[3]->insert(opc->fields[3], p + 4, 2); ++ ++ /* mov Rd, (got_offset / 4) */ ++ opc = &avr32_opc_table[AVR32_OPC_MOV2]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_LDA_GOT; ++ break; ++ case LDA_SUBTYPE_GOTLOAD: ++ opc = &avr32_opc_table[AVR32_OPC_LD_W4]; ++ opc->fields[0]->insert(opc->fields[0], p, regid); ++ opc->fields[1]->insert(opc->fields[1], p, 6); ++ ifield = opc->fields[2]; ++ if (r_type == BFD_RELOC_NONE) ++ r_type = BFD_RELOC_AVR32_GOT16S; ++ break; ++ default: ++ BAD_CASE(fragP->fr_subtype); ++ } ++ ++ value = bfd_getb32(p); ++ value &= ~(opc->mask | ifield->mask); ++ value |= opc->value; ++ bfd_putb32(value, p); ++ ++ fragP->fr_fix += fragP->fr_var - LDA_INITIAL_SIZE; ++ ++ if (fragP->fr_next ++ && ((offsetT)(fragP->fr_next->fr_address - fragP->fr_address) ++ != fragP->fr_fix)) ++ { ++ fprintf(stderr, "LDA frag: fr_fix is wrong! fragP->fr_var = %ld, r_type = %s\n", ++ fragP->fr_var, bfd_get_reloc_code_name(r_type)); ++ abort(); ++ } ++ ++ fixP = fix_new_exp(fragP, fragP->fr_fix - fragP->fr_var, fragP->fr_var, ++ &exp, pcrel, r_type); ++ ++ /* Revert fix_new brain damage. "dot_value" is the value of PC at ++ the point of the fixup, relative to the frag address. fix_new() ++ and friends think they are only being called during the assembly ++ pass, not during relaxation or similar, so fx_dot_value, fx_file ++ and fx_line are all initialized to the wrong value. But we don't ++ know the size of the fixup until now, so we really can't live up ++ to the assumptions these functions make about the target. What ++ do these functions think the "where" and "frag" argument mean ++ anyway? */ ++ fixP->fx_dot_value = fragP->fr_fix - opc->size; ++ fixP->fx_file = fragP->fr_file; ++ fixP->fx_line = fragP->fr_line; ++ ++ fixP->tc_fix_data.ifield = ifield; ++ fixP->tc_fix_data.align = align; ++ /* these are only used if the fixup can actually be resolved */ ++ fixP->tc_fix_data.min = -32768; ++ fixP->tc_fix_data.max = 32767; ++} ++ ++static void ++avr32_call_convert_frag(bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ const struct avr32_opcode *opc = NULL; ++ const struct avr32_ifield *ifield; ++ bfd_reloc_code_real_type r_type; ++ symbolS *symbol; ++ offsetT offset; ++ fixS *fixP; ++ bfd_vma value; ++ int pcrel = 0, align = 0; ++ char *p; ++ ++ symbol = fragP->fr_symbol; ++ offset = fragP->fr_offset; ++ r_type = BFD_RELOC_NONE; ++ p = fragP->fr_opcode; ++ ++ pr_debug("%s:%d: call_convert_frag, subtype: %d, fix: %d, var: %d\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_subtype, fragP->fr_fix, fragP->fr_var); ++ ++ switch (fragP->fr_subtype) ++ { ++ case CALL_SUBTYPE_RCALL1: ++ opc = &avr32_opc_table[AVR32_OPC_RCALL1]; ++ /* fall through */ ++ case CALL_SUBTYPE_RCALL2: ++ if (!opc) ++ opc = &avr32_opc_table[AVR32_OPC_RCALL2]; ++ ifield = opc->fields[0]; ++ r_type = opc->reloc_type; ++ pcrel = 1; ++ align = 1; ++ break; ++ case CALL_SUBTYPE_MCALL_CP: ++ opc = &avr32_opc_table[AVR32_OPC_MCALL]; ++ opc->fields[0]->insert(opc->fields[0], p, AVR32_REG_PC); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_CPCALL; ++ symbol = fragP->tc_frag_data.pool->symbol; ++ offset = fragP->tc_frag_data.pool->literals[fragP->tc_frag_data.pool_entry].offset; ++ assert(fragP->tc_frag_data.pool->literals[fragP->tc_frag_data.pool_entry].refcount > 0); ++ pcrel = 1; ++ align = 2; ++ break; ++ case CALL_SUBTYPE_MCALL_GOT: ++ opc = &avr32_opc_table[AVR32_OPC_MCALL]; ++ opc->fields[0]->insert(opc->fields[0], p, 6); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_GOT18SW; ++ break; ++ case CALL_SUBTYPE_MCALL_LARGE: ++ assert(fragP->fr_var == 10); ++ /* ld.w lr, r6[lr << 2] */ ++ opc = &avr32_opc_table[AVR32_OPC_LD_W5]; ++ bfd_putb32(opc->value, p + 4); ++ opc->fields[0]->insert(opc->fields[0], p + 4, AVR32_REG_LR); ++ opc->fields[1]->insert(opc->fields[1], p + 4, 6); ++ opc->fields[2]->insert(opc->fields[2], p + 4, AVR32_REG_LR); ++ opc->fields[3]->insert(opc->fields[3], p + 4, 2); ++ ++ /* icall lr */ ++ opc = &avr32_opc_table[AVR32_OPC_ICALL]; ++ bfd_putb16(opc->value >> 16, p + 8); ++ opc->fields[0]->insert(opc->fields[0], p + 8, AVR32_REG_LR); ++ ++ /* mov lr, (got_offset / 4) */ ++ opc = &avr32_opc_table[AVR32_OPC_MOV2]; ++ opc->fields[0]->insert(opc->fields[0], p, AVR32_REG_LR); ++ ifield = opc->fields[1]; ++ r_type = BFD_RELOC_AVR32_GOTCALL; ++ break; ++ default: ++ BAD_CASE(fragP->fr_subtype); ++ } ++ ++ /* Insert the opcode and clear the variable ifield */ ++ value = bfd_getb32(p); ++ value &= ~(opc->mask | ifield->mask); ++ value |= opc->value; ++ bfd_putb32(value, p); ++ ++ fragP->fr_fix += fragP->fr_var - CALL_INITIAL_SIZE; ++ ++ if (fragP->fr_next ++ && ((offsetT)(fragP->fr_next->fr_address - fragP->fr_address) ++ != fragP->fr_fix)) ++ { ++ fprintf(stderr, "%s:%d: fr_fix %lu is wrong! fr_var=%lu, r_type=%s\n", ++ fragP->fr_file, fragP->fr_line, ++ fragP->fr_fix, fragP->fr_var, bfd_get_reloc_code_name(r_type)); ++ fprintf(stderr, "fr_fix should be %ld. next frag is %s:%d\n", ++ (offsetT)(fragP->fr_next->fr_address - fragP->fr_address), ++ fragP->fr_next->fr_file, fragP->fr_next->fr_line); ++ } ++ ++ fixP = fix_new(fragP, fragP->fr_fix - fragP->fr_var, fragP->fr_var, ++ symbol, offset, pcrel, r_type); ++ ++ /* Revert fix_new brain damage. "dot_value" is the value of PC at ++ the point of the fixup, relative to the frag address. fix_new() ++ and friends think they are only being called during the assembly ++ pass, not during relaxation or similar, so fx_dot_value, fx_file ++ and fx_line are all initialized to the wrong value. But we don't ++ know the size of the fixup until now, so we really can't live up ++ to the assumptions these functions make about the target. What ++ do these functions think the "where" and "frag" argument mean ++ anyway? */ ++ fixP->fx_dot_value = fragP->fr_fix - opc->size; ++ fixP->fx_file = fragP->fr_file; ++ fixP->fx_line = fragP->fr_line; ++ ++ fixP->tc_fix_data.ifield = ifield; ++ fixP->tc_fix_data.align = align; ++ /* these are only used if the fixup can actually be resolved */ ++ fixP->tc_fix_data.min = -2097152; ++ fixP->tc_fix_data.max = 2097150; ++} ++ ++static void ++avr32_cpool_convert_frag(bfd *abfd ATTRIBUTE_UNUSED, ++ segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP) ++{ ++ struct cpool *pool; ++ addressT address; ++ unsigned int entry; ++ char *p; ++ char sym_name[20]; ++ ++ /* Did we get rid of the frag altogether? */ ++ if (!fragP->fr_var) ++ return; ++ ++ pool = fragP->tc_frag_data.pool; ++ address = fragP->fr_address + fragP->fr_fix; ++ p = fragP->fr_literal + fragP->fr_fix; ++ ++ sprintf(sym_name, "$$cp_\002%x", pool->id); ++ symbol_locate(pool->symbol, sym_name, pool->section, fragP->fr_fix, fragP); ++ symbol_table_insert(pool->symbol); ++ ++ for (entry = 0; entry < pool->next_free_entry; entry++) ++ { ++ if (pool->literals[entry].refcount > 0) ++ { ++ fix_new_exp(fragP, fragP->fr_fix, 4, &pool->literals[entry].exp, ++ FALSE, BFD_RELOC_AVR32_32_CPENT); ++ fragP->fr_fix += 4; ++ } ++ } ++} ++ ++static struct avr32_relaxer avr32_default_relaxer = { ++ .estimate_size = avr32_default_estimate_size_before_relax, ++ .relax_frag = avr32_default_relax_frag, ++ .convert_frag = avr32_default_convert_frag, ++}; ++static struct avr32_relaxer avr32_lda_relaxer = { ++ .estimate_size = avr32_lda_estimate_size_before_relax, ++ .relax_frag = avr32_lda_relax_frag, ++ .convert_frag = avr32_lda_convert_frag, ++}; ++static struct avr32_relaxer avr32_call_relaxer = { ++ .estimate_size = avr32_call_estimate_size_before_relax, ++ .relax_frag = avr32_call_relax_frag, ++ .convert_frag = avr32_call_convert_frag, ++}; ++static struct avr32_relaxer avr32_cpool_relaxer = { ++ .estimate_size = avr32_cpool_estimate_size_before_relax, ++ .relax_frag = avr32_cpool_relax_frag, ++ .convert_frag = avr32_cpool_convert_frag, ++}; ++ ++static void s_cpool(int arg ATTRIBUTE_UNUSED) ++{ ++ struct cpool *pool; ++ unsigned int max_size; ++ char *buf; ++ ++ pool = find_cpool(now_seg, now_subseg); ++ if (!pool || !pool->symbol || pool->next_free_entry == 0) ++ return; ++ ++ /* Make sure the constant pool is properly aligned */ ++ frag_align_code(2, 0); ++ if (bfd_get_section_alignment(stdoutput, pool->section) < 2) ++ bfd_set_section_alignment(stdoutput, pool->section, 2); ++ ++ /* Assume none of the entries are discarded, and that we need the ++ maximum amount of alignment. But we're not going to allocate ++ anything up front. */ ++ max_size = pool->next_free_entry * 4 + 2; ++ frag_grow(max_size); ++ buf = frag_more(0); ++ ++ frag_now->tc_frag_data.relaxer = &avr32_cpool_relaxer; ++ frag_now->tc_frag_data.pool = pool; ++ ++ symbol_set_frag(pool->symbol, frag_now); ++ ++ /* Assume zero initial size, allowing other relaxers to be ++ optimistic about things. */ ++ frag_var(rs_machine_dependent, max_size, 0, ++ 0, pool->symbol, 0, NULL); ++ ++ /* Mark the pool as empty. */ ++ pool->used = 1; ++} ++ ++/* The location from which a PC relative jump should be calculated, ++ given a PC relative reloc. */ ++ ++long ++md_pcrel_from_section (fixS *fixP, segT sec) ++{ ++ pr_debug("pcrel_from_section, fx_offset = %d\n", fixP->fx_offset); ++ ++ if (fixP->fx_addsy != NULL ++ && (! S_IS_DEFINED (fixP->fx_addsy) ++ || S_GET_SEGMENT (fixP->fx_addsy) != sec ++ || S_FORCE_RELOC(fixP->fx_addsy, 1))) ++ { ++ pr_debug("Unknown pcrel symbol: %s\n", S_GET_NAME(fixP->fx_addsy)); ++ ++ /* The symbol is undefined (or is defined but not in this section). ++ Let the linker figure it out. */ ++ return 0; ++ } ++ ++ pr_debug("pcrel from %x + %x, symbol: %s (%x)\n", ++ fixP->fx_frag->fr_address, fixP->fx_where, ++ fixP->fx_addsy?S_GET_NAME(fixP->fx_addsy):"(null)", ++ fixP->fx_addsy?S_GET_VALUE(fixP->fx_addsy):0); ++ ++ return ((fixP->fx_frag->fr_address + fixP->fx_where) ++ & (~0UL << fixP->tc_fix_data.align)); ++} ++ ++valueT ++md_section_align (segT segment, valueT size) ++{ ++ int align = bfd_get_section_alignment (stdoutput, segment); ++ return ((size + (1 << align) - 1) & (-1 << align)); ++} ++ ++static int syntax_matches(const struct avr32_syntax *syntax, ++ char *str) ++{ ++ int i; ++ ++ pr_debug("syntax %d matches `%s'?\n", syntax->id, str); ++ ++ if (syntax->nr_operands < 0) ++ { ++ struct avr32_operand *op; ++ int optype; ++ ++ for (i = 0; i < (-syntax->nr_operands - 1); i++) ++ { ++ char *p; ++ char c; ++ ++ optype = syntax->operand[i]; ++ assert(optype < AVR32_NR_OPERANDS); ++ op = &avr32_operand_table[optype]; ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ if (p == str) ++ return 0; ++ ++ c = *p; ++ *p = 0; ++ ++ if (!op->match(str)) ++ { ++ *p = c; ++ return 0; ++ } ++ ++ str = p; ++ *p = c; ++ if (c) ++ str++; ++ } ++ ++ optype = syntax->operand[i]; ++ assert(optype < AVR32_NR_OPERANDS); ++ op = &avr32_operand_table[optype]; ++ ++ if (!op->match(str)) ++ return 0; ++ return 1; ++ } ++ ++ for (i = 0; i < syntax->nr_operands; i++) ++ { ++ struct avr32_operand *op; ++ int optype = syntax->operand[i]; ++ char *p; ++ char c; ++ ++ assert(optype < AVR32_NR_OPERANDS); ++ op = &avr32_operand_table[optype]; ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ if (p == str) ++ return 0; ++ ++ c = *p; ++ *p = 0; ++ ++ if (!op->match(str)) ++ { ++ *p = c; ++ return 0; ++ } ++ ++ str = p; ++ *p = c; ++ if (c) ++ str++; ++ } ++ ++ if (*str == '\0') ++ return 1; ++ ++ if ((*str == 'e' || *str == 'E') && !str[1]) ++ return 1; ++ ++ return 0; ++} ++ ++static int parse_operands(char *str) ++{ ++ int i; ++ ++ if (current_insn.syntax->nr_operands < 0) ++ { ++ int optype; ++ struct avr32_operand *op; ++ ++ for (i = 0; i < (-current_insn.syntax->nr_operands - 1); i++) ++ { ++ char *p; ++ char c; ++ ++ optype = current_insn.syntax->operand[i]; ++ op = &avr32_operand_table[optype]; ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ assert(p != str); ++ ++ c = *p, *p = 0; ++ op->parse(op, str, i); ++ *p = c; ++ ++ str = p; ++ if (c) str++; ++ } ++ ++ /* give the rest of the line to the last operand */ ++ optype = current_insn.syntax->operand[i]; ++ op = &avr32_operand_table[optype]; ++ op->parse(op, str, i); ++ } ++ else ++ { ++ for (i = 0; i < current_insn.syntax->nr_operands; i++) ++ { ++ int optype = current_insn.syntax->operand[i]; ++ struct avr32_operand *op = &avr32_operand_table[optype]; ++ char *p; ++ char c; ++ ++ skip_whitespace(str); ++ ++ for (p = str; *p; p++) ++ if (*p == ',') ++ break; ++ ++ assert(p != str); ++ ++ c = *p, *p = 0; ++ op->parse(op, str, i); ++ *p = c; ++ ++ str = p; ++ if (c) str++; ++ } ++ ++ if (*str == 'E' || *str == 'e') ++ current_insn.force_extended = 1; ++ } ++ ++ return 0; ++} ++ ++static const char * ++finish_insn(const struct avr32_opcode *opc) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ unsigned int i; ++ int will_relax = 0; ++ char *buf; ++ ++ assert(current_insn.next_slot == opc->nr_fields); ++ ++ pr_debug("%s:%d: finish_insn: trying opcode %d\n", ++ frag_now->fr_file, frag_now->fr_line, opc->id); ++ ++ /* Go through the relaxation stage for all instructions that can ++ possibly take a symbolic immediate. The relax code will take ++ care of range checking and alignment. */ ++ if (opc->var_field != -1) ++ { ++ int substate, largest_substate; ++ symbolS *sym; ++ offsetT off; ++ ++ will_relax = 1; ++ substate = largest_substate = opc_initial_substate(opc); ++ ++ while (relax_more(largest_substate) != AVR32_RS_NONE) ++ largest_substate = relax_more(largest_substate); ++ ++ pr_debug("will relax. initial substate: %d (size %d), largest substate: %d (size %d)\n", ++ substate, avr32_rs_size(substate), ++ largest_substate, avr32_rs_size(largest_substate)); ++ ++ /* make sure we have enough room for the largest possible opcode */ ++ frag_grow(avr32_rs_size(largest_substate)); ++ buf = frag_more(opc->size); ++ ++ dwarf2_emit_insn(opc->size); ++ ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_NONE; ++ frag_now->tc_frag_data.pcrel = current_insn.pcrel; ++ frag_now->tc_frag_data.force_extended = current_insn.force_extended; ++ frag_now->tc_frag_data.relaxer = &avr32_default_relaxer; ++ ++ if (exp->X_op == O_hi) ++ { ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_HI; ++ exp->X_op = exp->X_md; ++ } ++ else if (exp->X_op == O_lo) ++ { ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_LO; ++ exp->X_op = exp->X_md; ++ } ++ else if (exp->X_op == O_got) ++ { ++ frag_now->tc_frag_data.reloc_info = AVR32_OPINFO_GOT; ++ exp->X_op = O_symbol; ++ } ++ ++#if 0 ++ if ((opc->reloc_type == BFD_RELOC_AVR32_SUB5) ++ && exp->X_op == O_subtract) ++ { ++ symbolS *tmp; ++ tmp = exp->X_add_symbol; ++ exp->X_add_symbol = exp->X_op_symbol; ++ exp->X_op_symbol = tmp; ++ } ++#endif ++ ++ frag_now->tc_frag_data.exp = current_insn.immediate; ++ ++ sym = exp->X_add_symbol; ++ off = exp->X_add_number; ++ if (exp->X_op != O_symbol) ++ { ++ sym = make_expr_symbol(exp); ++ off = 0; ++ } ++ ++ frag_var(rs_machine_dependent, ++ avr32_rs_size(largest_substate) - opc->size, ++ opc->size, ++ substate, sym, off, buf); ++ } ++ else ++ { ++ assert(avr32_rs_size(opc_initial_substate(opc)) == 0); ++ ++ /* Make sure we always have room for another whole word, as the ifield ++ inserters can only write words. */ ++ frag_grow(4); ++ buf = frag_more(opc->size); ++ dwarf2_emit_insn(opc->size); ++ } ++ ++ assert(!(opc->value & ~opc->mask)); ++ ++ pr_debug("inserting opcode: 0x%lx\n", opc->value); ++ bfd_putb32(opc->value, buf); ++ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ const struct avr32_ifield *f = opc->fields[i]; ++ const struct avr32_ifield_data *fd = ¤t_insn.field_value[i]; ++ ++ pr_debug("inserting field: 0x%lx & 0x%lx\n", ++ fd->value >> fd->align_order, f->mask); ++ ++ f->insert(f, buf, fd->value >> fd->align_order); ++ } ++ ++ assert(will_relax || !current_insn.immediate.X_add_symbol); ++ return NULL; ++} ++ ++static const char * ++finish_alias(const struct avr32_alias *alias) ++{ ++ const struct avr32_opcode *opc; ++ struct { ++ unsigned long value; ++ unsigned long align; ++ } mapped_operand[AVR32_MAX_OPERANDS]; ++ unsigned int i; ++ ++ opc = alias->opc; ++ ++ /* Remap the operands from the alias to the real opcode */ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ if (alias->operand_map[i].is_opindex) ++ { ++ struct avr32_ifield_data *fd; ++ fd = ¤t_insn.field_value[alias->operand_map[i].value]; ++ mapped_operand[i].value = fd->value; ++ mapped_operand[i].align = fd->align_order; ++ } ++ else ++ { ++ mapped_operand[i].value = alias->operand_map[i].value; ++ mapped_operand[i].align = 0; ++ } ++ } ++ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ current_insn.field_value[i].value = mapped_operand[i].value; ++ if (opc->id == AVR32_OPC_COP) ++ current_insn.field_value[i].align_order = 0; ++ else ++ current_insn.field_value[i].align_order ++ = mapped_operand[i].align; ++ } ++ ++ current_insn.next_slot = opc->nr_fields; ++ ++ return finish_insn(opc); ++} ++ ++static const char * ++finish_lda(const struct avr32_syntax *syntax ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ relax_substateT initial_subtype; ++ symbolS *sym; ++ offsetT off; ++ int initial_size, max_size; ++ char *buf; ++ ++ initial_size = LDA_INITIAL_SIZE; ++ ++ if (avr32_pic) ++ { ++ initial_subtype = LDA_SUBTYPE_SUB; ++ if (linkrelax) ++ max_size = 8; ++ else ++ max_size = 4; ++ } ++ else ++ { ++ initial_subtype = LDA_SUBTYPE_MOV1; ++ max_size = 4; ++ } ++ ++ frag_grow(max_size); ++ buf = frag_more(initial_size); ++ dwarf2_emit_insn(initial_size); ++ ++ if (exp->X_op == O_symbol) ++ { ++ sym = exp->X_add_symbol; ++ off = exp->X_add_number; ++ } ++ else ++ { ++ sym = make_expr_symbol(exp); ++ off = 0; ++ } ++ ++ frag_now->tc_frag_data.reloc_info = current_insn.field_value[0].value; ++ frag_now->tc_frag_data.relaxer = &avr32_lda_relaxer; ++ ++ if (!avr32_pic) ++ { ++ /* The relaxer will bump the refcount if necessary */ ++ frag_now->tc_frag_data.pool ++ = add_to_cpool(exp, &frag_now->tc_frag_data.pool_entry, 0); ++ } ++ ++ frag_var(rs_machine_dependent, max_size - initial_size, ++ initial_size, initial_subtype, sym, off, buf); ++ ++ return NULL; ++} ++ ++static const char * ++finish_call(const struct avr32_syntax *syntax ATTRIBUTE_UNUSED) ++{ ++ expressionS *exp = ¤t_insn.immediate; ++ symbolS *sym; ++ offsetT off; ++ int initial_size, max_size; ++ char *buf; ++ ++ initial_size = CALL_INITIAL_SIZE; ++ ++ if (avr32_pic) ++ { ++ if (linkrelax) ++ max_size = 10; ++ else ++ max_size = 4; ++ } ++ else ++ max_size = 4; ++ ++ frag_grow(max_size); ++ buf = frag_more(initial_size); ++ dwarf2_emit_insn(initial_size); ++ ++ frag_now->tc_frag_data.relaxer = &avr32_call_relaxer; ++ ++ if (exp->X_op == O_symbol) ++ { ++ sym = exp->X_add_symbol; ++ off = exp->X_add_number; ++ } ++ else ++ { ++ sym = make_expr_symbol(exp); ++ off = 0; ++ } ++ ++ if (!avr32_pic) ++ { ++ /* The relaxer will bump the refcount if necessary */ ++ frag_now->tc_frag_data.pool ++ = add_to_cpool(exp, &frag_now->tc_frag_data.pool_entry, 0); ++ } ++ ++ frag_var(rs_machine_dependent, max_size - initial_size, ++ initial_size, CALL_SUBTYPE_RCALL1, sym, off, buf); ++ ++ return NULL; ++} ++ ++void ++md_begin (void) ++{ ++ unsigned long flags = 0; ++ int i; ++ ++ avr32_mnemonic_htab = hash_new(); ++ ++ if (!avr32_mnemonic_htab) ++ as_fatal(_("virtual memory exhausted")); ++ ++ for (i = 0; i < AVR32_NR_MNEMONICS; i++) ++ { ++ hash_insert(avr32_mnemonic_htab, avr32_mnemonic_table[i].name, ++ (void *)&avr32_mnemonic_table[i]); ++ } ++ ++ if (linkrelax) ++ flags |= EF_AVR32_LINKRELAX; ++ if (avr32_pic) ++ flags |= EF_AVR32_PIC; ++ ++ bfd_set_private_flags(stdoutput, flags); ++ ++#ifdef OPC_CONSISTENCY_CHECK ++ if (sizeof(avr32_operand_table)/sizeof(avr32_operand_table[0]) ++ < AVR32_NR_OPERANDS) ++ as_fatal(_("operand table is incomplete")); ++ ++ for (i = 0; i < AVR32_NR_OPERANDS; i++) ++ if (avr32_operand_table[i].id != i) ++ as_fatal(_("operand table inconsistency found at index %d\n"), i); ++ pr_debug("%d operands verified\n", AVR32_NR_OPERANDS); ++ ++ for (i = 0; i < AVR32_NR_IFIELDS; i++) ++ if (avr32_ifield_table[i].id != i) ++ as_fatal(_("ifield table inconsistency found at index %d\n"), i); ++ pr_debug("%d instruction fields verified\n", AVR32_NR_IFIELDS); ++ ++ for (i = 0; i < AVR32_NR_OPCODES; i++) ++ { ++ if (avr32_opc_table[i].id != i) ++ as_fatal(_("opcode table inconsistency found at index %d\n"), i); ++ if ((avr32_opc_table[i].var_field == -1 ++ && avr32_relax_table[i].length != 0) ++ || (avr32_opc_table[i].var_field != -1 ++ && avr32_relax_table[i].length == 0)) ++ as_fatal(_("relax table inconsistency found at index %d\n"), i); ++ } ++ pr_debug("%d opcodes verified\n", AVR32_NR_OPCODES); ++ ++ for (i = 0; i < AVR32_NR_SYNTAX; i++) ++ if (avr32_syntax_table[i].id != i) ++ as_fatal(_("syntax table inconsistency found at index %d\n"), i); ++ pr_debug("%d syntax variants verified\n", AVR32_NR_SYNTAX); ++ ++ for (i = 0; i < AVR32_NR_ALIAS; i++) ++ if (avr32_alias_table[i].id != i) ++ as_fatal(_("alias table inconsistency found at index %d\n"), i); ++ pr_debug("%d aliases verified\n", AVR32_NR_ALIAS); ++ ++ for (i = 0; i < AVR32_NR_MNEMONICS; i++) ++ if (avr32_mnemonic_table[i].id != i) ++ as_fatal(_("mnemonic table inconsistency found at index %d\n"), i); ++ pr_debug("%d mnemonics verified\n", AVR32_NR_MNEMONICS); ++#endif ++} ++ ++void ++md_assemble (char *str) ++{ ++ struct avr32_mnemonic *mnemonic; ++ char *p, c; ++ ++ memset(¤t_insn, 0, sizeof(current_insn)); ++ current_insn.immediate.X_op = O_constant; ++ ++ skip_whitespace(str); ++ for (p = str; *p; p++) ++ if (*p == ' ') ++ break; ++ c = *p; ++ *p = 0; ++ ++ mnemonic = hash_find(avr32_mnemonic_htab, str); ++ *p = c; ++ if (c) p++; ++ ++ if (mnemonic) ++ { ++ const struct avr32_syntax *syntax; ++ ++ for (syntax = mnemonic->syntax; syntax; syntax = syntax->next) ++ { ++ const char *errmsg = NULL; ++ ++ if (syntax_matches(syntax, p)) ++ { ++ if (!(syntax->isa_flags & avr32_arch->isa_flags)) ++ { ++ as_bad(_("Selected architecture `%s' does not support `%s'"), ++ avr32_arch->name, str); ++ return; ++ } ++ ++ current_insn.syntax = syntax; ++ parse_operands(p); ++ ++ switch (syntax->type) ++ { ++ case AVR32_PARSER_NORMAL: ++ errmsg = finish_insn(syntax->u.opc); ++ break; ++ case AVR32_PARSER_ALIAS: ++ errmsg = finish_alias(syntax->u.alias); ++ break; ++ case AVR32_PARSER_LDA: ++ errmsg = finish_lda(syntax); ++ break; ++ case AVR32_PARSER_CALL: ++ errmsg = finish_call(syntax); ++ break; ++ default: ++ BAD_CASE(syntax->type); ++ break; ++ } ++ ++ if (errmsg) ++ as_bad("%s in `%s'", errmsg, str); ++ ++ return; ++ } ++ } ++ ++ as_bad(_("unrecognized form of instruction: `%s'"), str); ++ } ++ else ++ as_bad(_("unrecognized instruction `%s'"), str); ++} ++ ++void avr32_cleanup(void) ++{ ++ struct cpool *pool; ++ ++ /* Emit any constant pools that haven't been explicitly flushed with ++ a .cpool directive. */ ++ for (pool = cpool_list; pool; pool = pool->next) ++ { ++ subseg_set(pool->section, pool->sub_section); ++ s_cpool(0); ++ } ++} ++ ++/* Handle any PIC-related operands in data allocation pseudo-ops */ ++void ++avr32_cons_fix_new (fragS *frag, int off, int size, expressionS *exp) ++{ ++ bfd_reloc_code_real_type r_type = BFD_RELOC_UNUSED; ++ int pcrel = 0; ++ ++ pr_debug("%s:%u: cons_fix_new, add_sym: %s, op_sym: %s, op: %d, add_num: %d\n", ++ frag->fr_file, frag->fr_line, ++ exp->X_add_symbol?S_GET_NAME(exp->X_add_symbol):"(none)", ++ exp->X_op_symbol?S_GET_NAME(exp->X_op_symbol):"(none)", ++ exp->X_op, exp->X_add_number); ++ ++ if (exp->X_op == O_subtract && exp->X_op_symbol) ++ { ++ if (exp->X_op_symbol == GOT_symbol) ++ { ++ if (size != 4) ++ goto bad_size; ++ r_type = BFD_RELOC_AVR32_GOTPC; ++ exp->X_op = O_symbol; ++ exp->X_op_symbol = NULL; ++ } ++ } ++ else if (exp->X_op == O_got) ++ { ++ switch (size) ++ { ++ case 1: ++ r_type = BFD_RELOC_AVR32_GOT8; ++ break; ++ case 2: ++ r_type = BFD_RELOC_AVR32_GOT16; ++ break; ++ case 4: ++ r_type = BFD_RELOC_AVR32_GOT32; ++ break; ++ default: ++ goto bad_size; ++ } ++ ++ exp->X_op = O_symbol; ++ } ++ ++ if (r_type == BFD_RELOC_UNUSED) ++ switch (size) ++ { ++ case 1: ++ r_type = BFD_RELOC_8; ++ break; ++ case 2: ++ r_type = BFD_RELOC_16; ++ break; ++ case 4: ++ r_type = BFD_RELOC_32; ++ break; ++ default: ++ goto bad_size; ++ } ++ else if (size != 4) ++ { ++ bad_size: ++ as_bad(_("unsupported BFD relocation size %u"), size); ++ r_type = BFD_RELOC_UNUSED; ++ } ++ ++ fix_new_exp (frag, off, size, exp, pcrel, r_type); ++} ++ ++static void ++avr32_frob_section(bfd *abfd ATTRIBUTE_UNUSED, segT sec, ++ void *ignore ATTRIBUTE_UNUSED) ++{ ++ segment_info_type *seginfo; ++ fixS *fix; ++ ++ seginfo = seg_info(sec); ++ if (!seginfo) ++ return; ++ ++ for (fix = seginfo->fix_root; fix; fix = fix->fx_next) ++ { ++ if (fix->fx_done) ++ continue; ++ ++ if (fix->fx_r_type == BFD_RELOC_AVR32_SUB5 ++ && fix->fx_addsy && fix->fx_subsy) ++ { ++ if (S_GET_SEGMENT(fix->fx_addsy) != S_GET_SEGMENT(fix->fx_subsy) ++ || linkrelax) ++ { ++ symbolS *tmp; ++#ifdef DEBUG ++ fprintf(stderr, "Swapping symbols in fixup:\n"); ++ print_fixup(fix); ++#endif ++ tmp = fix->fx_addsy; ++ fix->fx_addsy = fix->fx_subsy; ++ fix->fx_subsy = tmp; ++ fix->fx_offset = -fix->fx_offset; ++ } ++ } ++ } ++} ++ ++/* We need to look for SUB5 instructions with expressions that will be ++ made PC-relative and switch fx_addsy with fx_subsy. This has to be ++ done before adjustment or the wrong symbol might be adjusted. ++ ++ This applies to fixups that are a result of expressions like -(sym ++ - .) and that will make it all the way to md_apply_fix3(). LDA ++ does the right thing in convert_frag, so we must not convert ++ those. */ ++void ++avr32_frob_file(void) ++{ ++ /* if (1 || !linkrelax) ++ return; */ ++ ++ bfd_map_over_sections(stdoutput, avr32_frob_section, NULL); ++} ++ ++static bfd_boolean ++convert_to_diff_reloc(fixS *fixP) ++{ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF32; ++ break; ++ case BFD_RELOC_16: ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF16; ++ break; ++ case BFD_RELOC_8: ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF8; ++ break; ++ default: ++ return FALSE; ++ } ++ ++ return TRUE; ++} ++ ++/* Simplify a fixup. If possible, the fixup is reduced to a single ++ constant which is written to the output file. Otherwise, a ++ relocation is generated so that the linker can take care of the ++ rest. ++ ++ ELF relocations have certain constraints: They can only take a ++ single symbol and a single addend. This means that for difference ++ expressions, we _must_ get rid of the fx_subsy symbol somehow. ++ ++ The difference between two labels in the same section can be ++ calculated directly unless 'linkrelax' is set, or a relocation is ++ forced. If so, we must emit a R_AVR32_DIFFxx relocation. If there ++ are addends involved at this point, we must be especially careful ++ as the relocation must point exactly to the symbol being ++ subtracted. ++ ++ When subtracting a symbol defined in the same section as the fixup, ++ we might be able to convert it to a PC-relative expression, unless ++ linkrelax is set. If this is the case, there's no way we can make ++ sure that the difference between the fixup and fx_subsy stays ++ constant. So for now, we're just going to disallow that. ++ */ ++void ++avr32_process_fixup(fixS *fixP, segT this_segment) ++{ ++ segT add_symbol_segment = absolute_section; ++ segT sub_symbol_segment = absolute_section; ++ symbolS *fx_addsy, *fx_subsy; ++ offsetT value = 0, fx_offset; ++ bfd_boolean apply = FALSE; ++ ++ assert(this_segment != absolute_section); ++ ++ if (fixP->fx_r_type >= BFD_RELOC_UNUSED) ++ { ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("Bad relocation type %d\n"), fixP->fx_r_type); ++ return; ++ } ++ ++ /* BFD_RELOC_AVR32_SUB5 fixups have been swapped by avr32_frob_section() */ ++ fx_addsy = fixP->fx_addsy; ++ fx_subsy = fixP->fx_subsy; ++ fx_offset = fixP->fx_offset; ++ ++ if (fx_addsy) ++ add_symbol_segment = S_GET_SEGMENT(fx_addsy); ++ ++ if (fx_subsy) ++ { ++ resolve_symbol_value(fx_subsy); ++ sub_symbol_segment = S_GET_SEGMENT(fx_subsy); ++ ++ if (sub_symbol_segment == this_segment ++ && (!linkrelax ++ || S_GET_VALUE(fx_subsy) == (fixP->fx_frag->fr_address ++ + fixP->fx_where))) ++ { ++ fixP->fx_pcrel = TRUE; ++ fx_offset += (fixP->fx_frag->fr_address + fixP->fx_where ++ - S_GET_VALUE(fx_subsy)); ++ fx_subsy = NULL; ++ } ++ else if (sub_symbol_segment == absolute_section) ++ { ++ /* The symbol is really a constant. */ ++ fx_offset -= S_GET_VALUE(fx_subsy); ++ fx_subsy = NULL; ++ } ++ else if (SEG_NORMAL(add_symbol_segment) ++ && sub_symbol_segment == add_symbol_segment ++ && (!linkrelax || convert_to_diff_reloc(fixP))) ++ { ++ /* Difference between two labels in the same section. */ ++ if (linkrelax) ++ { ++ /* convert_to_diff() has ensured that the reloc type is ++ either DIFF32, DIFF16 or DIFF8. */ ++ value = (S_GET_VALUE(fx_addsy) + fixP->fx_offset ++ - S_GET_VALUE(fx_subsy)); ++ ++ /* Try to convert it to a section symbol if possible */ ++ if (!S_FORCE_RELOC(fx_addsy, 1) ++ && !(sub_symbol_segment->flags & SEC_THREAD_LOCAL)) ++ { ++ fx_offset = S_GET_VALUE(fx_subsy); ++ fx_addsy = section_symbol(sub_symbol_segment); ++ } ++ else ++ { ++ fx_addsy = fx_subsy; ++ fx_offset = 0; ++ } ++ ++ fx_subsy = NULL; ++ apply = TRUE; ++ } ++ else ++ { ++ fx_offset += S_GET_VALUE(fx_addsy); ++ fx_offset -= S_GET_VALUE(fx_subsy); ++ fx_addsy = NULL; ++ fx_subsy = NULL; ++ } ++ } ++ else ++ { ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("can't resolve `%s' {%s section} - `%s' {%s section}"), ++ fx_addsy ? S_GET_NAME (fx_addsy) : "0", ++ segment_name (add_symbol_segment), ++ S_GET_NAME (fx_subsy), ++ segment_name (sub_symbol_segment)); ++ return; ++ } ++ } ++ ++ if (fx_addsy && !TC_FORCE_RELOCATION(fixP)) ++ { ++ if (add_symbol_segment == this_segment ++ && fixP->fx_pcrel) ++ { ++ value += S_GET_VALUE(fx_addsy); ++ value -= md_pcrel_from_section(fixP, this_segment); ++ fx_addsy = NULL; ++ fixP->fx_pcrel = FALSE; ++ } ++ else if (add_symbol_segment == absolute_section) ++ { ++ fx_offset += S_GET_VALUE(fixP->fx_addsy); ++ fx_addsy = NULL; ++ } ++ } ++ ++ if (!fx_addsy) ++ fixP->fx_done = TRUE; ++ ++ if (fixP->fx_pcrel) ++ { ++ if (fx_addsy != NULL ++ && S_IS_DEFINED(fx_addsy) ++ && S_GET_SEGMENT(fx_addsy) != this_segment) ++ value += md_pcrel_from_section(fixP, this_segment); ++ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ fixP->fx_r_type = BFD_RELOC_32_PCREL; ++ break; ++ case BFD_RELOC_16: ++ fixP->fx_r_type = BFD_RELOC_16_PCREL; ++ break; ++ case BFD_RELOC_8: ++ fixP->fx_r_type = BFD_RELOC_8_PCREL; ++ break; ++ case BFD_RELOC_AVR32_SUB5: ++ fixP->fx_r_type = BFD_RELOC_AVR32_16N_PCREL; ++ break; ++ case BFD_RELOC_AVR32_16S: ++ fixP->fx_r_type = BFD_RELOC_AVR32_16B_PCREL; ++ break; ++ case BFD_RELOC_AVR32_14UW: ++ fixP->fx_r_type = BFD_RELOC_AVR32_14UW_PCREL; ++ break; ++ case BFD_RELOC_AVR32_10UW: ++ fixP->fx_r_type = BFD_RELOC_AVR32_10UW_PCREL; ++ break; ++ default: ++ /* Should have been taken care of already */ ++ break; ++ } ++ } ++ ++ if (fixP->fx_done || apply) ++ { ++ const struct avr32_ifield *ifield; ++ char *buf = fixP->fx_where + fixP->fx_frag->fr_literal; ++ ++ if (fixP->fx_done) ++ value += fx_offset; ++ ++ /* For hosts with longs bigger than 32-bits make sure that the top ++ bits of a 32-bit negative value read in by the parser are set, ++ so that the correct comparisons are made. */ ++ if (value & 0x80000000) ++ value |= (-1L << 31); ++ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ case BFD_RELOC_16: ++ case BFD_RELOC_8: ++ case BFD_RELOC_AVR32_DIFF32: ++ case BFD_RELOC_AVR32_DIFF16: ++ case BFD_RELOC_AVR32_DIFF8: ++ md_number_to_chars(buf, value, fixP->fx_size); ++ break; ++ case BFD_RELOC_HI16: ++ value >>= 16; ++ case BFD_RELOC_LO16: ++ value &= 0xffff; ++ md_number_to_chars(buf + 2, value, 2); ++ break; ++ case BFD_RELOC_AVR32_16N_PCREL: ++ value = -value; ++ /* fall through */ ++ case BFD_RELOC_AVR32_22H_PCREL: ++ case BFD_RELOC_AVR32_18W_PCREL: ++ case BFD_RELOC_AVR32_16B_PCREL: ++ case BFD_RELOC_AVR32_11H_PCREL: ++ case BFD_RELOC_AVR32_9H_PCREL: ++ case BFD_RELOC_AVR32_9UW_PCREL: ++ case BFD_RELOC_AVR32_3U: ++ case BFD_RELOC_AVR32_4UH: ++ case BFD_RELOC_AVR32_6UW: ++ case BFD_RELOC_AVR32_6S: ++ case BFD_RELOC_AVR32_7UW: ++ case BFD_RELOC_AVR32_8S_EXT: ++ case BFD_RELOC_AVR32_8S: ++ case BFD_RELOC_AVR32_10UW: ++ case BFD_RELOC_AVR32_10SW: ++ case BFD_RELOC_AVR32_STHH_W: ++ case BFD_RELOC_AVR32_14UW: ++ case BFD_RELOC_AVR32_16S: ++ case BFD_RELOC_AVR32_16U: ++ case BFD_RELOC_AVR32_21S: ++ case BFD_RELOC_AVR32_SUB5: ++ case BFD_RELOC_AVR32_CPCALL: ++ case BFD_RELOC_AVR32_16_CP: ++ case BFD_RELOC_AVR32_9W_CP: ++ case BFD_RELOC_AVR32_15S: ++ ifield = fixP->tc_fix_data.ifield; ++ pr_debug("insert field: %ld <= %ld <= %ld (align %u)\n", ++ fixP->tc_fix_data.min, value, fixP->tc_fix_data.max, ++ fixP->tc_fix_data.align); ++ if (value < fixP->tc_fix_data.min || value > fixP->tc_fix_data.max) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("operand out of range (%ld not between %ld and %ld)"), ++ value, fixP->tc_fix_data.min, fixP->tc_fix_data.max); ++ if (value & ((1 << fixP->tc_fix_data.align) - 1)) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("misaligned operand (required alignment: %d)"), ++ 1 << fixP->tc_fix_data.align); ++ ifield->insert(ifield, buf, value >> fixP->tc_fix_data.align); ++ break; ++ case BFD_RELOC_AVR32_ALIGN: ++ /* Nothing to do */ ++ fixP->fx_done = FALSE; ++ break; ++ default: ++ as_fatal("reloc type %s not handled\n", ++ bfd_get_reloc_code_name(fixP->fx_r_type)); ++ } ++ } ++ ++ fixP->fx_addsy = fx_addsy; ++ fixP->fx_subsy = fx_subsy; ++ fixP->fx_offset = fx_offset; ++ ++ if (!fixP->fx_done) ++ { ++ if (!fixP->fx_addsy) ++ fixP->fx_addsy = abs_section_sym; ++ ++ symbol_mark_used_in_reloc(fixP->fx_addsy); ++ if (fixP->fx_subsy) ++ abort(); ++ } ++} ++ ++#if 0 ++void ++md_apply_fix3 (fixS *fixP, valueT *valP, segT seg) ++{ ++ const struct avr32_ifield *ifield; ++ offsetT value = *valP; ++ char *buf = fixP->fx_where + fixP->fx_frag->fr_literal; ++ bfd_boolean apply; ++ ++ pr_debug("%s:%u: apply_fix3: r_type=%d value=%lx offset=%lx\n", ++ fixP->fx_file, fixP->fx_line, fixP->fx_r_type, *valP, ++ fixP->fx_offset); ++ ++ if (fixP->fx_r_type >= BFD_RELOC_UNUSED) ++ { ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("Bad relocation type %d\n"), fixP->fx_r_type); ++ return; ++ } ++ ++ if (!fixP->fx_addsy && !fixP->fx_subsy) ++ fixP->fx_done = 1; ++ ++ if (fixP->fx_pcrel) ++ { ++ if (fixP->fx_addsy != NULL ++ && S_IS_DEFINED(fixP->fx_addsy) ++ && S_GET_SEGMENT(fixP->fx_addsy) != seg) ++ value += md_pcrel_from_section(fixP, seg); ++ ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_32: ++ fixP->fx_r_type = BFD_RELOC_32_PCREL; ++ break; ++ case BFD_RELOC_16: ++ case BFD_RELOC_8: ++ as_bad_where (fixP->fx_file, fixP->fx_line, ++ _("8- and 16-bit PC-relative relocations not supported")); ++ break; ++ case BFD_RELOC_AVR32_SUB5: ++ fixP->fx_r_type = BFD_RELOC_AVR32_PCREL_SUB5; ++ break; ++ case BFD_RELOC_AVR32_16S: ++ fixP->fx_r_type = BFD_RELOC_AVR32_16_PCREL; ++ break; ++ default: ++ /* Should have been taken care of already */ ++ break; ++ } ++ } ++ ++ if (fixP->fx_r_type == BFD_RELOC_32 ++ && fixP->fx_subsy) ++ { ++ fixP->fx_r_type = BFD_RELOC_AVR32_DIFF32; ++ ++ /* Offsets are only allowed if it's a result of adjusting a ++ local symbol into a section-relative offset. ++ tc_fix_adjustable() should prevent any adjustment if there ++ was an offset involved before. */ ++ if (fixP->fx_offset && !symbol_section_p(fixP->fx_addsy)) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("cannot represent symbol difference with an offset")); ++ ++ value = (S_GET_VALUE(fixP->fx_addsy) + fixP->fx_offset ++ - S_GET_VALUE(fixP->fx_subsy)); ++ ++ /* The difference before any relaxing takes place is written ++ out, and the DIFF32 reloc identifies the address of the first ++ symbol (i.e. the on that's subtracted.) */ ++ *valP = value; ++ fixP->fx_offset -= value; ++ fixP->fx_subsy = NULL; ++ ++ md_number_to_chars(buf, value, fixP->fx_size); ++ } ++ ++ if (fixP->fx_done) ++ { ++ switch (fixP->fx_r_type) ++ { ++ case BFD_RELOC_8: ++ case BFD_RELOC_16: ++ case BFD_RELOC_32: ++ md_number_to_chars(buf, value, fixP->fx_size); ++ break; ++ case BFD_RELOC_HI16: ++ value >>= 16; ++ case BFD_RELOC_LO16: ++ value &= 0xffff; ++ *valP = value; ++ md_number_to_chars(buf + 2, value, 2); ++ break; ++ case BFD_RELOC_AVR32_PCREL_SUB5: ++ value = -value; ++ /* fall through */ ++ case BFD_RELOC_AVR32_9_PCREL: ++ case BFD_RELOC_AVR32_11_PCREL: ++ case BFD_RELOC_AVR32_16_PCREL: ++ case BFD_RELOC_AVR32_18_PCREL: ++ case BFD_RELOC_AVR32_22_PCREL: ++ case BFD_RELOC_AVR32_3U: ++ case BFD_RELOC_AVR32_4UH: ++ case BFD_RELOC_AVR32_6UW: ++ case BFD_RELOC_AVR32_6S: ++ case BFD_RELOC_AVR32_7UW: ++ case BFD_RELOC_AVR32_8S: ++ case BFD_RELOC_AVR32_10UW: ++ case BFD_RELOC_AVR32_10SW: ++ case BFD_RELOC_AVR32_14UW: ++ case BFD_RELOC_AVR32_16S: ++ case BFD_RELOC_AVR32_16U: ++ case BFD_RELOC_AVR32_21S: ++ case BFD_RELOC_AVR32_BRC1: ++ case BFD_RELOC_AVR32_SUB5: ++ case BFD_RELOC_AVR32_CPCALL: ++ case BFD_RELOC_AVR32_16_CP: ++ case BFD_RELOC_AVR32_9_CP: ++ case BFD_RELOC_AVR32_15S: ++ ifield = fixP->tc_fix_data.ifield; ++ pr_debug("insert field: %ld <= %ld <= %ld (align %u)\n", ++ fixP->tc_fix_data.min, value, fixP->tc_fix_data.max, ++ fixP->tc_fix_data.align); ++ if (value < fixP->tc_fix_data.min || value > fixP->tc_fix_data.max) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("operand out of range (%ld not between %ld and %ld)"), ++ value, fixP->tc_fix_data.min, fixP->tc_fix_data.max); ++ if (value & ((1 << fixP->tc_fix_data.align) - 1)) ++ as_bad_where(fixP->fx_file, fixP->fx_line, ++ _("misaligned operand (required alignment: %d)"), ++ 1 << fixP->tc_fix_data.align); ++ ifield->insert(ifield, buf, value >> fixP->tc_fix_data.align); ++ break; ++ case BFD_RELOC_AVR32_ALIGN: ++ /* Nothing to do */ ++ fixP->fx_done = FALSE; ++ break; ++ default: ++ as_fatal("reloc type %s not handled\n", ++ bfd_get_reloc_code_name(fixP->fx_r_type)); ++ } ++ } ++} ++#endif ++ ++arelent * ++tc_gen_reloc (asection *section ATTRIBUTE_UNUSED, ++ fixS *fixp) ++{ ++ arelent *reloc; ++ bfd_reloc_code_real_type code; ++ ++ reloc = xmalloc (sizeof (arelent)); ++ ++ reloc->sym_ptr_ptr = xmalloc (sizeof (asymbol *)); ++ *reloc->sym_ptr_ptr = symbol_get_bfdsym (fixp->fx_addsy); ++ reloc->address = fixp->fx_frag->fr_address + fixp->fx_where; ++ reloc->addend = fixp->fx_offset; ++ code = fixp->fx_r_type; ++ ++ reloc->howto = bfd_reloc_type_lookup (stdoutput, code); ++ ++ if (reloc->howto == NULL) ++ { ++ as_bad_where (fixp->fx_file, fixp->fx_line, ++ _("cannot represent relocation %s in this object file format"), ++ bfd_get_reloc_code_name (code)); ++ return NULL; ++ } ++ ++ return reloc; ++} ++ ++bfd_boolean ++avr32_force_reloc(fixS *fixP) ++{ ++ if (linkrelax && fixP->fx_addsy ++ && !(S_GET_SEGMENT(fixP->fx_addsy)->flags & SEC_DEBUGGING) ++ && S_GET_SEGMENT(fixP->fx_addsy) != absolute_section) ++ { ++ pr_debug(stderr, "force reloc: addsy=%p, r_type=%d, sec=%s\n", ++ fixP->fx_addsy, fixP->fx_r_type, S_GET_SEGMENT(fixP->fx_addsy)->name); ++ return 1; ++ } ++ ++ return generic_force_reloc(fixP); ++} ++ ++bfd_boolean ++avr32_fix_adjustable(fixS *fixP) ++{ ++ switch (fixP->fx_r_type) ++ { ++ /* GOT relocations can't have addends since BFD treats all ++ references to a given symbol the same. This means that we ++ must avoid section-relative references to local symbols when ++ dealing with these kinds of relocs */ ++ case BFD_RELOC_AVR32_GOT32: ++ case BFD_RELOC_AVR32_GOT16: ++ case BFD_RELOC_AVR32_GOT8: ++ case BFD_RELOC_AVR32_GOT21S: ++ case BFD_RELOC_AVR32_GOT18SW: ++ case BFD_RELOC_AVR32_GOT16S: ++ case BFD_RELOC_AVR32_LDA_GOT: ++ case BFD_RELOC_AVR32_GOTCALL: ++ pr_debug("fix not adjustable\n"); ++ return 0; ++ ++ default: ++ break; ++ } ++ ++ return 1; ++} ++ ++/* When we want the linker to be able to relax the code, we need to ++ output a reloc for every .align directive requesting an alignment ++ to a four byte boundary or larger. If we don't do this, the linker ++ can't guarantee that the alignment is actually maintained in the ++ linker output. ++ ++ TODO: Might as well insert proper NOPs while we're at it... */ ++void ++avr32_handle_align(fragS *frag) ++{ ++ if (linkrelax ++ && frag->fr_type == rs_align_code ++ && frag->fr_address + frag->fr_fix > 0 ++ && frag->fr_offset > 0) ++ { ++ /* The alignment order (fr_offset) is stored in the addend. */ ++ fix_new(frag, frag->fr_fix, 2, &abs_symbol, frag->fr_offset, ++ FALSE, BFD_RELOC_AVR32_ALIGN); ++ } ++} ++ ++/* Relax_align. Advance location counter to next address that has 'alignment' ++ lowest order bits all 0s, return size of adjustment made. */ ++relax_addressT ++avr32_relax_align(segT segment ATTRIBUTE_UNUSED, ++ fragS *fragP, ++ relax_addressT address) ++{ ++ relax_addressT mask; ++ relax_addressT new_address; ++ int alignment; ++ ++ alignment = fragP->fr_offset; ++ mask = ~((~0) << alignment); ++ new_address = (address + mask) & (~mask); ++ ++ return new_address - address; ++} ++ ++/* Turn a string in input_line_pointer into a floating point constant ++ of type type, and store the appropriate bytes in *litP. The number ++ of LITTLENUMS emitted is stored in *sizeP . An error message is ++ returned, or NULL on OK. */ ++ ++/* Equal to MAX_PRECISION in atof-ieee.c */ ++#define MAX_LITTLENUMS 6 ++ ++char * ++md_atof (type, litP, sizeP) ++char type; ++char * litP; ++int * sizeP; ++{ ++ int i; ++ int prec; ++ LITTLENUM_TYPE words [MAX_LITTLENUMS]; ++ char * t; ++ ++ switch (type) ++ { ++ case 'f': ++ case 'F': ++ case 's': ++ case 'S': ++ prec = 2; ++ break; ++ ++ case 'd': ++ case 'D': ++ case 'r': ++ case 'R': ++ prec = 4; ++ break; ++ ++ /* FIXME: Some targets allow other format chars for bigger sizes here. */ ++ ++ default: ++ * sizeP = 0; ++ return _("Bad call to md_atof()"); ++ } ++ ++ t = atof_ieee (input_line_pointer, type, words); ++ if (t) ++ input_line_pointer = t; ++ * sizeP = prec * sizeof (LITTLENUM_TYPE); ++ ++ for (i = 0; i < prec; i++) ++ { ++ md_number_to_chars (litP, (valueT) words[i], ++ sizeof (LITTLENUM_TYPE)); ++ litP += sizeof (LITTLENUM_TYPE); ++ } ++ ++ return 0; ++} ++ ++static char *avr32_end_of_match(char *cont, char *what) ++{ ++ int len = strlen (what); ++ ++ if (! is_part_of_name (cont[len]) ++ && strncasecmp (cont, what, len) == 0) ++ return cont + len; ++ ++ return NULL; ++} ++ ++int ++avr32_parse_name (char const *name, expressionS *exp, char *nextchar) ++{ ++ char *next = input_line_pointer; ++ char *next_end; ++ ++ pr_debug("parse_name: %s, nextchar=%c (%02x)\n", name, *nextchar, *nextchar); ++ ++ if (*nextchar == '(') ++ { ++ if (strcasecmp(name, "hi") == 0) ++ { ++ *next = *nextchar; ++ ++ expression(exp); ++ ++ if (exp->X_op == O_constant) ++ { ++ pr_debug(" -> constant hi(0x%08lx) -> 0x%04lx\n", ++ exp->X_add_number, exp->X_add_number >> 16); ++ exp->X_add_number = (exp->X_add_number >> 16) & 0xffff; ++ } ++ else ++ { ++ exp->X_md = exp->X_op; ++ exp->X_op = O_hi; ++ } ++ ++ return 1; ++ } ++ else if (strcasecmp(name, "lo") == 0) ++ { ++ *next = *nextchar; ++ ++ expression(exp); ++ ++ if (exp->X_op == O_constant) ++ exp->X_add_number &= 0xffff; ++ else ++ { ++ exp->X_md = exp->X_op; ++ exp->X_op = O_lo; ++ } ++ ++ return 1; ++ } ++ } ++ else if (*nextchar == '@') ++ { ++ exp->X_md = exp->X_op; ++ ++ if ((next_end = avr32_end_of_match (next + 1, "got"))) ++ exp->X_op = O_got; ++ else if ((next_end = avr32_end_of_match (next + 1, "tlsgd"))) ++ exp->X_op = O_tlsgd; ++ /* Add more as needed */ ++ else ++ { ++ char c; ++ input_line_pointer++; ++ c = get_symbol_end(); ++ as_bad (_("unknown relocation override `%s'"), next + 1); ++ *input_line_pointer = c; ++ input_line_pointer = next; ++ return 0; ++ } ++ ++ exp->X_op_symbol = NULL; ++ exp->X_add_symbol = symbol_find_or_make (name); ++ exp->X_add_number = 0; ++ ++ *input_line_pointer = *nextchar; ++ input_line_pointer = next_end; ++ *nextchar = *input_line_pointer; ++ *input_line_pointer = '\0'; ++ return 1; ++ } ++ else if (strcmp (name, "_GLOBAL_OFFSET_TABLE_") == 0) ++ { ++ if (!GOT_symbol) ++ GOT_symbol = symbol_find_or_make(name); ++ ++ exp->X_add_symbol = GOT_symbol; ++ exp->X_op = O_symbol; ++ exp->X_add_number = 0; ++ return 1; ++ } ++ ++ return 0; ++} ++ ++static void ++s_rseg (int value ATTRIBUTE_UNUSED) ++{ ++ /* Syntax: RSEG segment_name [:type] [NOROOT|ROOT] [(align)] ++ * Defaults: ++ * - type: undocumented ("typically CODE or DATA") ++ * - ROOT ++ * - align: 1 for code, 0 for others ++ * ++ * TODO: NOROOT is ignored. If gas supports discardable segments, it should ++ * be implemented. ++ */ ++ char *name, *end; ++ int length, type, attr; ++ int align = 0; ++ ++ SKIP_WHITESPACE(); ++ ++ end = input_line_pointer; ++ while (0 == strchr ("\n\t;:( ", *end)) ++ end++; ++ if (end == input_line_pointer) ++ { ++ as_warn (_("missing name")); ++ ignore_rest_of_line(); ++ return; ++ } ++ ++ name = xmalloc (end - input_line_pointer + 1); ++ memcpy (name, input_line_pointer, end - input_line_pointer); ++ name[end - input_line_pointer] = '\0'; ++ input_line_pointer = end; ++ ++ SKIP_WHITESPACE(); ++ ++ type = SHT_NULL; ++ attr = 0; ++ ++ if (*input_line_pointer == ':') ++ { ++ /* Skip the colon */ ++ ++input_line_pointer; ++ SKIP_WHITESPACE(); ++ ++ /* Possible options at this point: ++ * - flag (ROOT or NOROOT) ++ * - a segment type ++ */ ++ end = input_line_pointer; ++ while (0 == strchr ("\n\t;:( ", *end)) ++ end++; ++ length = end - input_line_pointer; ++ if (((length == 4) && (0 == strncasecmp( input_line_pointer, "ROOT", 4))) || ++ ((length == 6) && (0 == strncasecmp( input_line_pointer, "NOROOT", 6)))) ++ { ++ /* Ignore ROOT/NOROOT */ ++ input_line_pointer = end; ++ } ++ else ++ { ++ /* Must be a segment type */ ++ switch (*input_line_pointer) ++ { ++ case 'C': ++ case 'c': ++ if ((length == 4) && ++ (0 == strncasecmp (input_line_pointer, "CODE", 4))) ++ { ++ attr |= SHF_ALLOC | SHF_EXECINSTR; ++ type = SHT_PROGBITS; ++ align = 1; ++ break; ++ } ++ if ((length == 5) && ++ (0 == strncasecmp (input_line_pointer, "CONST", 5))) ++ { ++ attr |= SHF_ALLOC; ++ type = SHT_PROGBITS; ++ break; ++ } ++ goto de_fault; ++ ++ case 'D': ++ case 'd': ++ if ((length == 4) && ++ (0 == strncasecmp (input_line_pointer, "DATA", 4))) ++ { ++ attr |= SHF_ALLOC | SHF_WRITE; ++ type = SHT_PROGBITS; ++ break; ++ } ++ goto de_fault; ++ ++ /* TODO: Add FAR*, HUGE*, IDATA and NEAR* if necessary */ ++ ++ case 'U': ++ case 'u': ++ if ((length == 7) && ++ (0 == strncasecmp (input_line_pointer, "UNTYPED", 7))) ++ break; ++ goto de_fault; ++ ++ /* TODO: Add XDATA and ZPAGE if necessary */ ++ ++ de_fault: ++ default: ++ as_warn (_("unrecognized segment type")); ++ } ++ ++ input_line_pointer = end; ++ SKIP_WHITESPACE(); ++ ++ if (*input_line_pointer == ':') ++ { ++ /* ROOT/NOROOT */ ++ ++input_line_pointer; ++ SKIP_WHITESPACE(); ++ ++ end = input_line_pointer; ++ while (0 == strchr ("\n\t;:( ", *end)) ++ end++; ++ length = end - input_line_pointer; ++ if (! ((length == 4) && ++ (0 == strncasecmp( input_line_pointer, "ROOT", 4))) && ++ ! ((length == 6) && ++ (0 == strncasecmp( input_line_pointer, "NOROOT", 6)))) ++ { ++ as_warn (_("unrecognized segment flag")); ++ } ++ ++ input_line_pointer = end; ++ SKIP_WHITESPACE(); ++ } ++ } ++ } ++ ++ if (*input_line_pointer == '(') ++ { ++ align = get_absolute_expression (); ++ } ++ ++ demand_empty_rest_of_line(); ++ ++ obj_elf_change_section (name, type, attr, 0, NULL, 0, 0); ++#ifdef AVR32_DEBUG ++ fprintf( stderr, "RSEG: Changed section to %s, type: 0x%x, attr: 0x%x\n", ++ name, type, attr ); ++ fprintf( stderr, "RSEG: Aligning to 2**%d\n", align ); ++#endif ++ ++ if (align > 15) ++ { ++ align = 15; ++ as_warn (_("alignment too large: %u assumed"), align); ++ } ++ ++ /* Hope not, that is */ ++ assert (now_seg != absolute_section); ++ ++ /* Only make a frag if we HAVE to... */ ++ if (align != 0 && !need_pass_2) ++ { ++ if (subseg_text_p (now_seg)) ++ frag_align_code (align, 0); ++ else ++ frag_align (align, 0, 0); ++ } ++ ++ record_alignment (now_seg, align - OCTETS_PER_BYTE_POWER); ++} ++ ++/* vim: syntax=c sw=2 ++ */ +--- /dev/null ++++ b/gas/config/tc-avr32.h +@@ -0,0 +1,325 @@ ++/* Assembler definitions for AVR32. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of GAS, the GNU Assembler. ++ ++ GAS is free software; you can redistribute it and/or modify it ++ under the terms of the GNU General Public License as published by ++ the Free Software Foundation; either version 2, or (at your option) ++ any later version. ++ ++ GAS is distributed in the hope that it will be useful, but WITHOUT ++ ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ++ or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public ++ License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with GAS; see the file COPYING. If not, write to the Free ++ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#if 0 ++#define DEBUG ++#define DEBUG1 ++#define DEBUG2 ++#define DEBUG3 ++#define DEBUG4 ++#define DEBUG5 ++#endif ++ ++/* Are we trying to be compatible with the IAR assembler? (--iar) */ ++extern int avr32_iarcompat; ++ ++/* By convention, you should define this macro in the `.h' file. For ++ example, `tc-m68k.h' defines `TC_M68K'. You might have to use this ++ if it is necessary to add CPU specific code to the object format ++ file. */ ++#define TC_AVR32 ++ ++/* This macro is the BFD target name to use when creating the output ++ file. This will normally depend upon the `OBJ_FMT' macro. */ ++#define TARGET_FORMAT "elf32-avr32" ++ ++/* This macro is the BFD architecture to pass to `bfd_set_arch_mach'. */ ++#define TARGET_ARCH bfd_arch_avr32 ++ ++/* This macro is the BFD machine number to pass to ++ `bfd_set_arch_mach'. If it is not defined, GAS will use 0. */ ++#define TARGET_MACH 0 ++ ++/* UNDOCUMENTED: Allow //-style comments */ ++#define DOUBLESLASH_LINE_COMMENTS ++ ++/* You should define this macro to be non-zero if the target is big ++ endian, and zero if the target is little endian. */ ++#define TARGET_BYTES_BIG_ENDIAN 1 ++ ++/* FIXME: It seems that GAS only expects a one-byte opcode... ++ #define NOP_OPCODE 0xd703 */ ++ ++/* If you define this macro, GAS will warn about the use of ++ nonstandard escape sequences in a string. */ ++#undef ONLY_STANDARD_ESCAPES ++ ++#define DWARF2_FORMAT(SEC) dwarf2_format_32bit ++ ++/* Instructions are either 2 or 4 bytes long */ ++/* #define DWARF2_LINE_MIN_INSN_LENGTH 2 */ ++ ++/* GAS will call this function for any expression that can not be ++ recognized. When the function is called, `input_line_pointer' ++ will point to the start of the expression. */ ++#define md_operand(x) ++ ++#define md_parse_name(name, expr, mode, c) avr32_parse_name(name, expr, c) ++extern int avr32_parse_name(const char *, struct expressionS *, char *); ++ ++/* You may define this macro to generate a fixup for a data ++ allocation pseudo-op. */ ++#define TC_CONS_FIX_NEW(FRAG, OFF, LEN, EXP) \ ++ avr32_cons_fix_new(FRAG, OFF, LEN, EXP) ++void avr32_cons_fix_new (fragS *, int, int, expressionS *); ++ ++/* `extsym - .' expressions can be emitted using PC-relative relocs */ ++#define DIFF_EXPR_OK ++ ++/* This is used to construct expressions out of @gotoff, etc. The ++ relocation type is stored in X_md */ ++#define O_got O_md1 ++#define O_hi O_md2 ++#define O_lo O_md3 ++#define O_tlsgd O_md4 ++ ++/* You may define this macro to parse an expression used in a data ++ allocation pseudo-op such as `.word'. You can use this to ++ recognize relocation directives that may appear in such directives. */ ++/* #define TC_PARSE_CONS_EXPRESSION(EXPR,N) avr_parse_cons_expression (EXPR,N) ++ void avr_parse_cons_expression (expressionS *exp, int nbytes); */ ++ ++/* This should just call either `number_to_chars_bigendian' or ++ `number_to_chars_littleendian', whichever is appropriate. On ++ targets like the MIPS which support options to change the ++ endianness, which function to call is a runtime decision. On ++ other targets, `md_number_to_chars' can be a simple macro. */ ++#define md_number_to_chars number_to_chars_bigendian ++ ++/* `md_short_jump_size' ++ `md_long_jump_size' ++ `md_create_short_jump' ++ `md_create_long_jump' ++ If `WORKING_DOT_WORD' is defined, GAS will not do broken word ++ processing (*note Broken words::.). Otherwise, you should set ++ `md_short_jump_size' to the size of a short jump (a jump that is ++ just long enough to jump around a long jmp) and ++ `md_long_jump_size' to the size of a long jump (a jump that can go ++ anywhere in the function), You should define ++ `md_create_short_jump' to create a short jump around a long jump, ++ and define `md_create_long_jump' to create a long jump. */ ++#define WORKING_DOT_WORD ++ ++/* If you define this macro, it means that `tc_gen_reloc' may return ++ multiple relocation entries for a single fixup. In this case, the ++ return value of `tc_gen_reloc' is a pointer to a null terminated ++ array. */ ++#undef RELOC_EXPANSION_POSSIBLE ++ ++/* If you define this macro, GAS will not require pseudo-ops to start with a . ++ character. */ ++#define NO_PSEUDO_DOT (avr32_iarcompat) ++ ++/* The IAR assembler uses $ as the location counter. Unfortunately, we ++ can't make this dependent on avr32_iarcompat... */ ++#define DOLLAR_DOT ++ ++/* Values passed to md_apply_fix3 don't include the symbol value. */ ++#define MD_APPLY_SYM_VALUE(FIX) 0 ++ ++/* The number of bytes to put into a word in a listing. This affects ++ the way the bytes are clumped together in the listing. For ++ example, a value of 2 might print `1234 5678' where a value of 1 ++ would print `12 34 56 78'. The default value is 4. */ ++#define LISTING_WORD_SIZE 4 ++ ++/* extern const struct relax_type md_relax_table[]; ++#define TC_GENERIC_RELAX_TABLE md_relax_table */ ++ ++/* ++ An `.lcomm' directive with no explicit alignment parameter will use ++ this macro to set P2VAR to the alignment that a request for SIZE ++ bytes will have. The alignment is expressed as a power of two. If ++ no alignment should take place, the macro definition should do ++ nothing. Some targets define a `.bss' directive that is also ++ affected by this macro. The default definition will set P2VAR to ++ the truncated power of two of sizes up to eight bytes. ++ ++ We want doublewords to be word-aligned, so we're going to modify the ++ default definition a tiny bit. ++*/ ++#define TC_IMPLICIT_LCOMM_ALIGNMENT(SIZE, P2VAR) \ ++ do \ ++ { \ ++ if ((SIZE) >= 4) \ ++ (P2VAR) = 2; \ ++ else if ((SIZE) >= 2) \ ++ (P2VAR) = 1; \ ++ else \ ++ (P2VAR) = 0; \ ++ } \ ++ while (0) ++ ++/* When relaxing, we need to generate relocations for alignment ++ directives. */ ++#define HANDLE_ALIGN(frag) avr32_handle_align(frag) ++extern void avr32_handle_align(fragS *); ++ ++/* See internals doc for explanation. Oh wait... ++ Now, can you guess where "alignment" comes from? ;-) */ ++#define MAX_MEM_FOR_RS_ALIGN_CODE ((1 << alignment) - 1) ++ ++/* We need to stop gas from reducing certain expressions (e.g. GOT ++ references) */ ++#define tc_fix_adjustable(fix) avr32_fix_adjustable(fix) ++extern bfd_boolean avr32_fix_adjustable(struct fix *); ++ ++/* The linker needs to be passed a little more information when relaxing. */ ++#define TC_FORCE_RELOCATION(fix) avr32_force_reloc(fix) ++extern bfd_boolean avr32_force_reloc(struct fix *); ++ ++/* I'm tired of working around all the madness in fixup_segment(). ++ This hook will do basically the same things as the generic code, ++ and then it will "goto" right past it. */ ++#define TC_VALIDATE_FIX(FIX, SEG, SKIP) \ ++ do \ ++ { \ ++ avr32_process_fixup(FIX, SEG); \ ++ if (!(FIX)->fx_done) \ ++ ++seg_reloc_count; \ ++ goto SKIP; \ ++ } \ ++ while (0) ++extern void avr32_process_fixup(struct fix *fixP, segT this_segment); ++ ++/* Positive values of TC_FX_SIZE_SLACK allow a target to define ++ fixups that far past the end of a frag. Having such fixups ++ is of course most most likely a bug in setting fx_size correctly. ++ A negative value disables the fixup check entirely, which is ++ appropriate for something like the Renesas / SuperH SH_COUNT ++ reloc. */ ++/* This target is buggy, and sets fix size too large. */ ++#define TC_FX_SIZE_SLACK(FIX) -1 ++ ++/* We don't want the gas core to make any assumptions about our way of ++ doing linkrelaxing. */ ++#define TC_LINKRELAX_FIXUP(SEG) 0 ++ ++/* ... but we do want it to insert lots of padding. */ ++#define LINKER_RELAXING_SHRINKS_ONLY ++ ++/* Better do it ourselves, really... */ ++#define TC_RELAX_ALIGN(SEG, FRAG, ADDR) avr32_relax_align(SEG, FRAG, ADDR) ++extern relax_addressT ++avr32_relax_align(segT segment, fragS *fragP, relax_addressT address); ++ ++/* Use line number format that is amenable to linker relaxation. */ ++#define DWARF2_USE_FIXED_ADVANCE_PC (linkrelax != 0) ++ ++/* This is called by write_object_file() just before symbols are ++ attempted converted into section symbols. */ ++#define tc_frob_file_before_adjust() avr32_frob_file() ++extern void avr32_frob_file(void); ++ ++/* If you define this macro, GAS will call it at the end of each input ++ file. */ ++#define md_cleanup() avr32_cleanup() ++extern void avr32_cleanup(void); ++ ++/* There's an AVR32-specific hack in operand() which creates O_md ++ expressions when encountering HWRD or LWRD. We need to generate ++ proper relocs for them */ ++/* #define md_cgen_record_fixup_exp avr32_cgen_record_fixup_exp */ ++ ++/* I needed to add an extra hook in gas_cgen_finish_insn() for ++ conversion of O_md* operands because md_cgen_record_fixup_exp() ++ isn't called for relaxable insns */ ++/* #define md_cgen_convert_expr(exp, opinfo) avr32_cgen_convert_expr(exp, opinfo) ++ int avr32_cgen_convert_expr(expressionS *, int); */ ++ ++/* #define tc_gen_reloc gas_cgen_tc_gen_reloc */ ++ ++/* If you define this macro, it should return the position from which ++ the PC relative adjustment for a PC relative fixup should be ++ made. On many processors, the base of a PC relative instruction is ++ the next instruction, so this macro would return the length of an ++ instruction, plus the address of the PC relative fixup. The latter ++ can be calculated as fixp->fx_where + fixp->fx_frag->fr_address. */ ++extern long md_pcrel_from_section (struct fix *, segT); ++#define MD_PCREL_FROM_SECTION(FIX, SEC) md_pcrel_from_section (FIX, SEC) ++ ++#define LOCAL_LABEL(name) (name[0] == '.' && (name[1] == 'L')) ++#define LOCAL_LABELS_FB 1 ++ ++struct avr32_relaxer ++{ ++ int (*estimate_size)(fragS *, segT); ++ long (*relax_frag)(segT, fragS *, long); ++ void (*convert_frag)(bfd *, segT, fragS *); ++}; ++ ++/* AVR32 has quite complex instruction coding, which means we need ++ * lots of information in order to do the right thing during relaxing ++ * (basically, we need to be able to reconstruct a whole new opcode if ++ * necessary) */ ++#define TC_FRAG_TYPE struct avr32_frag_data ++ ++struct cpool; ++ ++struct avr32_frag_data ++{ ++ /* TODO: Maybe add an expression object here so that we can use ++ fix_new_exp() in md_convert_frag? We may have to decide ++ pcrel-ness in md_estimate_size_before_relax() as well...or we ++ might do it when parsing. Doing it while parsing may fail ++ because the sub_symbol is undefined then... */ ++ int pcrel; ++ int force_extended; ++ int reloc_info; ++ struct avr32_relaxer *relaxer; ++ expressionS exp; ++ ++ /* Points to associated constant pool, for use by LDA and CALL in ++ non-pic mode, and when relaxing the .cpool directive */ ++ struct cpool *pool; ++ unsigned int pool_entry; ++}; ++ ++/* We will have to initialize the fields explicitly when needed */ ++#define TC_FRAG_INIT(fragP) ++ ++#define md_estimate_size_before_relax(fragP, segT) \ ++ ((fragP)->tc_frag_data.relaxer->estimate_size(fragP, segT)) ++#define md_relax_frag(segment, fragP, stretch) \ ++ ((fragP)->tc_frag_data.relaxer->relax_frag(segment, fragP, stretch)) ++#define md_convert_frag(abfd, segment, fragP) \ ++ ((fragP)->tc_frag_data.relaxer->convert_frag(abfd, segment, fragP)) ++ ++#define TC_FIX_TYPE struct avr32_fix_data ++ ++struct avr32_fix_data ++{ ++ const struct avr32_ifield *ifield; ++ unsigned int align; ++ long min; ++ long max; ++}; ++ ++#define TC_INIT_FIX_DATA(fixP) \ ++ do \ ++ { \ ++ (fixP)->tc_fix_data.ifield = NULL; \ ++ (fixP)->tc_fix_data.align = 0; \ ++ (fixP)->tc_fix_data.min = 0; \ ++ (fixP)->tc_fix_data.max = 0; \ ++ } \ ++ while (0) +--- a/gas/configure.tgt ++++ b/gas/configure.tgt +@@ -33,6 +33,7 @@ case ${cpu} in + am33_2.0) cpu_type=mn10300 endian=little ;; + arm*be|arm*b) cpu_type=arm endian=big ;; + arm*) cpu_type=arm endian=little ;; ++ avr32*) cpu_type=avr32 endian=big ;; + bfin*) cpu_type=bfin endian=little ;; + c4x*) cpu_type=tic4x ;; + cr16*) cpu_type=cr16 endian=little ;; +@@ -136,6 +137,9 @@ case ${generic_target} in + + cr16-*-elf*) fmt=elf ;; + ++ avr32-*-linux*) fmt=elf em=linux bfd_gas=yes ;; ++ avr32*) fmt=elf bfd_gas=yes ;; ++ + cris-*-linux-* | crisv32-*-linux-*) + fmt=multi em=linux ;; + cris-*-* | crisv32-*-*) fmt=multi ;; +--- a/gas/doc/all.texi ++++ b/gas/doc/all.texi +@@ -30,6 +30,7 @@ + @set ARC + @set ARM + @set AVR ++@set AVR32 + @set Blackfin + @set CR16 + @set CRIS +--- a/gas/doc/asconfig.texi ++++ b/gas/doc/asconfig.texi +@@ -30,6 +30,7 @@ + @set ARC + @set ARM + @set AVR ++@set AVR32 + @set Blackfin + @set CR16 + @set CRIS +--- a/gas/doc/as.texinfo ++++ b/gas/doc/as.texinfo +@@ -6865,6 +6865,9 @@ subject, see the hardware manufacturer's + @ifset AVR + * AVR-Dependent:: AVR Dependent Features + @end ifset ++@ifset AVR32 ++* AVR32-Dependent:: AVR32 Dependent Features ++@end ifset + @ifset Blackfin + * Blackfin-Dependent:: Blackfin Dependent Features + @end ifset +@@ -7006,6 +7009,10 @@ subject, see the hardware manufacturer's + @include c-avr.texi + @end ifset + ++@ifset AVR32 ++@include c-avr32.texi ++@end ifset ++ + @ifset Blackfin + @include c-bfin.texi + @end ifset +--- /dev/null ++++ b/gas/doc/c-avr32.texi +@@ -0,0 +1,244 @@ ++@c Copyright 2005, 2006, 2007, 2008, 2009 ++@c Atmel Corporation ++@c This is part of the GAS manual. ++@c For copying conditions, see the file as.texinfo. ++ ++@ifset GENERIC ++@page ++@node AVR32-Dependent ++@chapter AVR32 Dependent Features ++@end ifset ++ ++@ifclear GENERIC ++@node Machine Dependencies ++@chapter AVR32 Dependent Features ++@end ifclear ++ ++@cindex AVR32 support ++@menu ++* AVR32 Options:: Options ++* AVR32 Syntax:: Syntax ++* AVR32 Directives:: Directives ++* AVR32 Opcodes:: Opcodes ++@end menu ++ ++@node AVR32 Options ++@section Options ++@cindex AVR32 options ++@cindex options for AVR32 ++ ++@table @code ++ ++@cindex @code{--pic} command line option, AVR32 ++@cindex PIC code generation for AVR32 ++@item --pic ++This option specifies that the output of the assembler should be marked ++as position-independent code (PIC). It will also ensure that ++pseudo-instructions that deal with address calculation are output as ++PIC, and that all absolute address references in the code are marked as ++such. ++ ++@cindex @code{--linkrelax} command line option, AVR32 ++@item --linkrelax ++This option specifies that the output of the assembler should be marked ++as linker-relaxable. It will also ensure that all PC-relative operands ++that may change during linker relaxation get appropriate relocations. ++ ++@end table ++ ++ ++@node AVR32 Syntax ++@section Syntax ++@menu ++* AVR32-Chars:: Special Characters ++* AVR32-Symrefs:: Symbol references ++@end menu ++ ++@node AVR32-Chars ++@subsection Special Characters ++ ++@cindex line comment character, AVR32 ++@cindex AVR32 line comment character ++The presence of a @samp{//} on a line indicates the start of a comment ++that extends to the end of the current line. If a @samp{#} appears as ++the first character of a line, the whole line is treated as a comment. ++ ++@cindex line separator, AVR32 ++@cindex statement separator, AVR32 ++@cindex AVR32 line separator ++The @samp{;} character can be used instead of a newline to separate ++statements. ++ ++@node AVR32-Symrefs ++@subsection Symbol references ++ ++The absolute value of a symbol can be obtained by simply naming the ++symbol. However, as AVR32 symbols have 32-bit values, most symbols have ++values that are outside the range of any instructions. ++ ++Instructions that take a PC-relative offset, e.g. @code{lddpc} or ++@code{rcall}, can also reference a symbol by simply naming the symbol ++(no explicit calculations necessary). In this case, the assembler or ++linker subtracts the address of the instruction from the symbol's value ++and inserts the result into the instruction. Note that even though an ++overflow is less likely to happen for a relative reference than for an ++absolute reference, the assembler or linker will generate an error if ++the referenced symbol is too far away from the current location. ++ ++Relative references can be used for data as well. For example: ++ ++@smallexample ++ lddpc r0, 2f ++1: add r0, pc ++ ... ++ .align 2 ++2: .int @var{some_symbol} - 1b ++@end smallexample ++ ++Here, r0 will end up with the run-time address of @var{some_symbol} even ++if the program was loaded at a different address than it was linked ++(position-independent code). ++ ++@subsubsection Symbol modifiers ++ ++@table @code ++ ++@item @code{hi(@var{symbol})} ++Evaluates to the value of the symbol shifted right 16 bits. This will ++work even if @var{symbol} is defined in a different module. ++ ++@item @code{lo(@var{symbol})} ++Evaluates to the low 16 bits of the symbol's value. This will work even ++if @var{symbol} is defined in a different module. ++ ++@item @code{@var{symbol}@@got} ++Create a GOT entry for @var{symbol} and return the offset of that entry ++relative to the GOT base. ++ ++@end table ++ ++ ++@node AVR32 Directives ++@section Directives ++@cindex machine directives, AVR32 ++@cindex AVR32 directives ++ ++@table @code ++ ++@cindex @code{.cpool} directive, AVR32 ++@item .cpool ++This directive causes the current contents of the constant pool to be ++dumped into the current section at the current location (aligned to a ++word boundary). @code{GAS} maintains a separate constant pool for each ++section and each sub-section. The @code{.cpool} directive will only ++affect the constant pool of the current section and sub-section. At the ++end of assembly, all remaining, non-empty constant pools will ++automatically be dumped. ++ ++@end table ++ ++ ++@node AVR32 Opcodes ++@section Opcodes ++@cindex AVR32 opcodes ++@cindex opcodes for AVR32 ++ ++@code{@value{AS}} implements all the standard AVR32 opcodes. It also ++implements several pseudo-opcodes, which are recommended to use wherever ++possible because they give the tool chain better freedom to generate ++optimal code. ++ ++@table @code ++ ++@cindex @code{LDA.W reg, symbol} pseudo op, AVR32 ++@item LDA.W ++@smallexample ++ lda.w @var{reg}, @var{symbol} ++@end smallexample ++ ++This instruction will load the address of @var{symbol} into ++@var{reg}. The instruction will evaluate to one of the following, ++depending on the relative distance to the symbol, the relative distance ++to the constant pool and whether the @code{--pic} option has been ++specified. If the @code{--pic} option has not been specified, the ++alternatives are as follows: ++@smallexample ++ /* @var{symbol} evaluates to a small enough value */ ++ mov @var{reg}, @var{symbol} ++ ++ /* (. - @var{symbol}) evaluates to a small enough value */ ++ sub @var{reg}, pc, . - @var{symbol} ++ ++ /* Constant pool is close enough */ ++ lddpc @var{reg}, @var{cpent} ++ ... ++@var{cpent}: ++ .long @var{symbol} ++ ++ /* Otherwise (not implemented yet, probably not necessary) */ ++ mov @var{reg}, lo(@var{symbol}) ++ orh @var{reg}, hi(@var{symbol}) ++@end smallexample ++ ++If the @code{--pic} option has been specified, the alternatives are as ++follows: ++@smallexample ++ /* (. - @var{symbol}) evaluates to a small enough value */ ++ sub @var{reg}, pc, . - @var{symbol} ++ ++ /* If @code{--linkrelax} not specified */ ++ ld.w @var{reg}, r6[@var{symbol}@@got] ++ ++ /* Otherwise */ ++ mov @var{reg}, @var{symbol}@@got / 4 ++ ld.w @var{reg}, r6[@var{reg} << 2] ++@end smallexample ++ ++If @var{symbol} is not defined in the same file and section as the ++@code{LDA.W} instruction, the most pessimistic alternative of the ++above is selected. The linker may convert it back into the most ++optimal alternative when the final value of all symbols is known. ++ ++@cindex @code{CALL symbol} pseudo op, AVR32 ++@item CALL ++@smallexample ++ call @var{symbol} ++@end smallexample ++ ++This instruction will insert code to call the subroutine identified by ++@var{symbol}. It will evaluate to one of the following, depending on ++the relative distance to the symbol as well as the @code{--linkrelax} ++and @code{--pic} command-line options. ++ ++If @var{symbol} is defined in the same section and input file, and the ++distance is small enough, an @code{rcall} instruction is inserted: ++@smallexample ++ rcall @var{symbol} ++@end smallexample ++ ++Otherwise, if the @code{--pic} option has not been specified: ++@smallexample ++ mcall @var{cpent} ++ ... ++@var{cpent}: ++ .long @var{symbol} ++@end smallexample ++ ++Finally, if nothing else fits and the @code{--pic} option has been ++specified, the assembler will indirect the call through the Global ++Offset Table: ++@smallexample ++ /* If @code{--linkrelax} not specified */ ++ mcall r6[@var{symbol}@@got] ++ ++ /* If @code{--linkrelax} specified */ ++ mov lr, @var{symbol}@@got / 4 ++ ld.w lr, r6[lr << 2] ++ icall lr ++@end smallexample ++ ++The linker, after determining the final value of @var{symbol}, may ++convert any of these into more optimal alternatives. This includes ++deleting any superfluous constant pool- and GOT-entries. ++ ++@end table +--- a/gas/doc/Makefile.am ++++ b/gas/doc/Makefile.am +@@ -33,6 +33,7 @@ CPU_DOCS = \ + c-arc.texi \ + c-arm.texi \ + c-avr.texi \ ++ c-avr32.texi \ + c-bfin.texi \ + c-cr16.texi \ + c-d10v.texi \ +--- a/gas/Makefile.am ++++ b/gas/Makefile.am +@@ -111,6 +111,7 @@ TARGET_CPU_CFILES = \ + config/tc-arc.c \ + config/tc-arm.c \ + config/tc-avr.c \ ++ config/tc-avr32.c \ + config/tc-bfin.c \ + config/tc-cr16.c \ + config/tc-cris.c \ +@@ -175,6 +176,7 @@ TARGET_CPU_HFILES = \ + config/tc-arc.h \ + config/tc-arm.h \ + config/tc-avr.h \ ++ config/tc-avr32.h \ + config/tc-bfin.h \ + config/tc-cr16.h \ + config/tc-cris.h \ +--- a/gas/Makefile.in ++++ b/gas/Makefile.in +@@ -378,6 +378,7 @@ TARGET_CPU_CFILES = \ + config/tc-arc.c \ + config/tc-arm.c \ + config/tc-avr.c \ ++ config/tc-avr32.c \ + config/tc-bfin.c \ + config/tc-cr16.c \ + config/tc-cris.c \ +@@ -442,6 +443,7 @@ TARGET_CPU_HFILES = \ + config/tc-arc.h \ + config/tc-arm.h \ + config/tc-avr.h \ ++ config/tc-avr32.h \ + config/tc-bfin.h \ + config/tc-cr16.h \ + config/tc-cris.h \ +@@ -785,6 +787,7 @@ distclean-compile: + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-arc.Po@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-arm.Po@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-avr.Po@am__quote@ ++@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-avr32.Po@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-bfin.Po@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-cr16.Po@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/tc-cris.Po@am__quote@ +@@ -923,6 +926,20 @@ tc-avr.obj: config/tc-avr.c + @AMDEP_TRUE@@am__fastdepCC_FALSE@ DEPDIR=$(DEPDIR) $(CCDEPMODE) $(depcomp) @AMDEPBACKSLASH@ + @am__fastdepCC_FALSE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -c -o tc-avr.obj `if test -f 'config/tc-avr.c'; then $(CYGPATH_W) 'config/tc-avr.c'; else $(CYGPATH_W) '$(srcdir)/config/tc-avr.c'; fi` + ++tc-avr32.o: config/tc-avr32.c ++@am__fastdepCC_TRUE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -MT tc-avr32.o -MD -MP -MF $(DEPDIR)/tc-avr32.Tpo -c -o tc-avr32.o `test -f 'config/tc-avr32.c' || echo '$(srcdir)/'`config/tc-avr32.c ++@am__fastdepCC_TRUE@ $(am__mv) $(DEPDIR)/tc-avr32.Tpo $(DEPDIR)/tc-avr32.Po ++@AMDEP_TRUE@@am__fastdepCC_FALSE@ source='config/tc-avr32.c' object='tc-avr32.o' libtool=no @AMDEPBACKSLASH@ ++@AMDEP_TRUE@@am__fastdepCC_FALSE@ DEPDIR=$(DEPDIR) $(CCDEPMODE) $(depcomp) @AMDEPBACKSLASH@ ++@am__fastdepCC_FALSE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -c -o tc-avr32.o `test -f 'config/tc-avr32.c' || echo '$(srcdir)/'`config/tc-avr32.c ++ ++tc-avr32.obj: config/tc-avr32.c ++@am__fastdepCC_TRUE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -MT tc-avr32.obj -MD -MP -MF $(DEPDIR)/tc-avr32.Tpo -c -o tc-avr32.obj `if test -f 'config/tc-avr32.c'; then $(CYGPATH_W) 'config/tc-avr32.c'; else $(CYGPATH_W) '$(srcdir)/config/tc-avr32.c'; fi` ++@am__fastdepCC_TRUE@ $(am__mv) $(DEPDIR)/tc-avr32.Tpo $(DEPDIR)/tc-avr32.Po ++@AMDEP_TRUE@@am__fastdepCC_FALSE@ source='config/tc-avr32.c' object='tc-avr32.obj' libtool=no @AMDEPBACKSLASH@ ++@AMDEP_TRUE@@am__fastdepCC_FALSE@ DEPDIR=$(DEPDIR) $(CCDEPMODE) $(depcomp) @AMDEPBACKSLASH@ ++@am__fastdepCC_FALSE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -c -o tc-avr32.obj `if test -f 'config/tc-avr32.c'; then $(CYGPATH_W) 'config/tc-avr32.c'; else $(CYGPATH_W) '$(srcdir)/config/tc-avr32.c'; fi` ++ + tc-bfin.o: config/tc-bfin.c + @am__fastdepCC_TRUE@ $(CC) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) -MT tc-bfin.o -MD -MP -MF $(DEPDIR)/tc-bfin.Tpo -c -o tc-bfin.o `test -f 'config/tc-bfin.c' || echo '$(srcdir)/'`config/tc-bfin.c + @am__fastdepCC_TRUE@ $(am__mv) $(DEPDIR)/tc-bfin.Tpo $(DEPDIR)/tc-bfin.Po +--- /dev/null ++++ b/gas/testsuite/gas/avr32/aliases.d +@@ -0,0 +1,19 @@ ++#as: ++#objdump: -dr ++#name: aliases ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: 19 80 [ \t]+ld\.ub r0,r12\[0x0\] ++ 2: f9 20 00 00[ \t]+ld\.sb r0,r12\[0\] ++ 6: 98 80 [ \t]+ld\.uh r0,r12\[0x0\] ++ 8: 98 00 [ \t]+ld\.sh r0,r12\[0x0\] ++ a: 78 00 [ \t]+ld\.w r0,r12\[0x0\] ++ ++0000000c : ++ c: b8 80 [ \t]+st\.b r12\[0x0\],r0 ++ e: b8 00 [ \t]+st\.h r12\[0x0\],r0 ++ 10: 99 00 [ \t]+st\.w r12\[0x0\],r0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/aliases.s +@@ -0,0 +1,14 @@ ++ .text ++ .global ld_nodisp ++ld_nodisp: ++ ld.ub r0, r12 ++ ld.sb r0, r12 ++ ld.uh r0, r12 ++ ld.sh r0, r12 ++ ld.w r0, r12 ++ ++ .global st_nodisp ++st_nodisp: ++ st.b r12, r0 ++ st.h r12, r0 ++ st.w r12, r0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/allinsn.d +@@ -0,0 +1,2987 @@ ++#as: ++#objdump: -dr ++#name: allinsn ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 3e ld\.d lr,pc\[pc<<0x3\] ++ *[0-9a-f]*: e0 00 02 00 ld\.d r0,r0\[r0\] ++ *[0-9a-f]*: ea 05 02 26 ld\.d r6,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 02 14 ld\.d r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 02 1e ld\.d lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: e6 0d 02 2a ld\.d r10,r3\[sp<<0x2\] ++ *[0-9a-f]*: f4 06 02 28 ld\.d r8,r10\[r6<<0x2\] ++ *[0-9a-f]*: ee 09 02 02 ld\.d r2,r7\[r9\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 03 0f ld\.w pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 03 3c ld\.w r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 03 25 ld\.w r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 03 14 ld\.w r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 03 1e ld\.w lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: f2 09 03 02 ld\.w r2,r9\[r9\] ++ *[0-9a-f]*: e4 06 03 0b ld\.w r11,r2\[r6\] ++ *[0-9a-f]*: e4 0d 03 30 ld\.w r0,r2\[sp<<0x3\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 04 0f ld\.sh pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 04 3c ld\.sh r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 04 25 ld\.sh r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 04 14 ld\.sh r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 04 1e ld\.sh lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: e0 0f 04 2b ld\.sh r11,r0\[pc<<0x2\] ++ *[0-9a-f]*: fa 06 04 2a ld\.sh r10,sp\[r6<<0x2\] ++ *[0-9a-f]*: e4 02 04 0c ld\.sh r12,r2\[r2\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 05 0f ld\.uh pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 05 3c ld\.uh r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 05 25 ld\.uh r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 05 14 ld\.uh r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 05 1e ld\.uh lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: fe 0e 05 38 ld\.uh r8,pc\[lr<<0x3\] ++ *[0-9a-f]*: e2 0f 05 16 ld\.uh r6,r1\[pc<<0x1\] ++ *[0-9a-f]*: fc 0d 05 16 ld\.uh r6,lr\[sp<<0x1\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 06 0f ld\.sb pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 06 3c ld\.sb r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 06 25 ld\.sb r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 06 14 ld\.sb r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 06 1e ld\.sb lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: e2 0f 06 39 ld\.sb r9,r1\[pc<<0x3\] ++ *[0-9a-f]*: e6 0b 06 10 ld\.sb r0,r3\[r11<<0x1\] ++ *[0-9a-f]*: ea 05 06 1a ld\.sb r10,r5\[r5<<0x1\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 07 0f ld\.ub pc,pc\[pc\] ++ *[0-9a-f]*: f8 0c 07 3c ld\.ub r12,r12\[r12<<0x3\] ++ *[0-9a-f]*: ea 05 07 25 ld\.ub r5,r5\[r5<<0x2\] ++ *[0-9a-f]*: e8 04 07 14 ld\.ub r4,r4\[r4<<0x1\] ++ *[0-9a-f]*: fc 0e 07 1e ld\.ub lr,lr\[lr<<0x1\] ++ *[0-9a-f]*: f8 07 07 36 ld\.ub r6,r12\[r7<<0x3\] ++ *[0-9a-f]*: ec 0c 07 02 ld\.ub r2,r6\[r12\] ++ *[0-9a-f]*: ee 0b 07 10 ld\.ub r0,r7\[r11<<0x1\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 08 0e st\.d pc\[pc\],lr ++ *[0-9a-f]*: f8 0c 08 3c st\.d r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 08 26 st\.d r5\[r5<<0x2\],r6 ++ *[0-9a-f]*: e8 04 08 14 st\.d r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 08 1e st\.d lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e2 09 08 14 st\.d r1\[r9<<0x1\],r4 ++ *[0-9a-f]*: f4 02 08 14 st\.d r10\[r2<<0x1\],r4 ++ *[0-9a-f]*: f8 06 08 0e st\.d r12\[r6\],lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 09 0f st\.w pc\[pc\],pc ++ *[0-9a-f]*: f8 0c 09 3c st\.w r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 09 25 st\.w r5\[r5<<0x2\],r5 ++ *[0-9a-f]*: e8 04 09 14 st\.w r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 09 1e st\.w lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e2 0a 09 03 st\.w r1\[r10\],r3 ++ *[0-9a-f]*: e0 0a 09 19 st\.w r0\[r10<<0x1\],r9 ++ *[0-9a-f]*: e8 05 09 3f st\.w r4\[r5<<0x3\],pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0a 0f st\.h pc\[pc\],pc ++ *[0-9a-f]*: f8 0c 0a 3c st\.h r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 0a 25 st\.h r5\[r5<<0x2\],r5 ++ *[0-9a-f]*: e8 04 0a 14 st\.h r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 0a 1e st\.h lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e4 09 0a 0b st\.h r2\[r9\],r11 ++ *[0-9a-f]*: ea 01 0a 2c st\.h r5\[r1<<0x2\],r12 ++ *[0-9a-f]*: fe 08 0a 23 st\.h pc\[r8<<0x2\],r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0b 0f st\.b pc\[pc\],pc ++ *[0-9a-f]*: f8 0c 0b 3c st\.b r12\[r12<<0x3\],r12 ++ *[0-9a-f]*: ea 05 0b 25 st\.b r5\[r5<<0x2\],r5 ++ *[0-9a-f]*: e8 04 0b 14 st\.b r4\[r4<<0x1\],r4 ++ *[0-9a-f]*: fc 0e 0b 1e st\.b lr\[lr<<0x1\],lr ++ *[0-9a-f]*: e2 08 0b 16 st\.b r1\[r8<<0x1\],r6 ++ *[0-9a-f]*: fc 0e 0b 31 st\.b lr\[lr<<0x3\],r1 ++ *[0-9a-f]*: ea 00 0b 2f st\.b r5\[r0<<0x2\],pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0c 0f divs pc,pc,pc ++ *[0-9a-f]*: f8 0c 0c 0c divs r12,r12,r12 ++ *[0-9a-f]*: ea 05 0c 05 divs r5,r5,r5 ++ *[0-9a-f]*: e8 04 0c 04 divs r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0c 0e divs lr,lr,lr ++ *[0-9a-f]*: fe 0f 0c 03 divs r3,pc,pc ++ *[0-9a-f]*: f8 02 0c 09 divs r9,r12,r2 ++ *[0-9a-f]*: e8 01 0c 07 divs r7,r4,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 0f add pc,pc ++ *[0-9a-f]*: 18 0c add r12,r12 ++ *[0-9a-f]*: 0a 05 add r5,r5 ++ *[0-9a-f]*: 08 04 add r4,r4 ++ *[0-9a-f]*: 1c 0e add lr,lr ++ *[0-9a-f]*: 12 0c add r12,r9 ++ *[0-9a-f]*: 06 06 add r6,r3 ++ *[0-9a-f]*: 18 0a add r10,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 1f sub pc,pc ++ *[0-9a-f]*: 18 1c sub r12,r12 ++ *[0-9a-f]*: 0a 15 sub r5,r5 ++ *[0-9a-f]*: 08 14 sub r4,r4 ++ *[0-9a-f]*: 1c 1e sub lr,lr ++ *[0-9a-f]*: 0c 1e sub lr,r6 ++ *[0-9a-f]*: 1a 10 sub r0,sp ++ *[0-9a-f]*: 18 16 sub r6,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 2f rsub pc,pc ++ *[0-9a-f]*: 18 2c rsub r12,r12 ++ *[0-9a-f]*: 0a 25 rsub r5,r5 ++ *[0-9a-f]*: 08 24 rsub r4,r4 ++ *[0-9a-f]*: 1c 2e rsub lr,lr ++ *[0-9a-f]*: 1a 2b rsub r11,sp ++ *[0-9a-f]*: 08 27 rsub r7,r4 ++ *[0-9a-f]*: 02 29 rsub r9,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 3f cp\.w pc,pc ++ *[0-9a-f]*: 18 3c cp\.w r12,r12 ++ *[0-9a-f]*: 0a 35 cp\.w r5,r5 ++ *[0-9a-f]*: 08 34 cp\.w r4,r4 ++ *[0-9a-f]*: 1c 3e cp\.w lr,lr ++ *[0-9a-f]*: 04 36 cp\.w r6,r2 ++ *[0-9a-f]*: 12 30 cp\.w r0,r9 ++ *[0-9a-f]*: 1a 33 cp\.w r3,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 4f or pc,pc ++ *[0-9a-f]*: 18 4c or r12,r12 ++ *[0-9a-f]*: 0a 45 or r5,r5 ++ *[0-9a-f]*: 08 44 or r4,r4 ++ *[0-9a-f]*: 1c 4e or lr,lr ++ *[0-9a-f]*: 12 44 or r4,r9 ++ *[0-9a-f]*: 08 4b or r11,r4 ++ *[0-9a-f]*: 00 44 or r4,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 5f eor pc,pc ++ *[0-9a-f]*: 18 5c eor r12,r12 ++ *[0-9a-f]*: 0a 55 eor r5,r5 ++ *[0-9a-f]*: 08 54 eor r4,r4 ++ *[0-9a-f]*: 1c 5e eor lr,lr ++ *[0-9a-f]*: 16 5c eor r12,r11 ++ *[0-9a-f]*: 02 50 eor r0,r1 ++ *[0-9a-f]*: 1e 55 eor r5,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 6f and pc,pc ++ *[0-9a-f]*: 18 6c and r12,r12 ++ *[0-9a-f]*: 0a 65 and r5,r5 ++ *[0-9a-f]*: 08 64 and r4,r4 ++ *[0-9a-f]*: 1c 6e and lr,lr ++ *[0-9a-f]*: 02 68 and r8,r1 ++ *[0-9a-f]*: 1a 60 and r0,sp ++ *[0-9a-f]*: 0a 6a and r10,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 7f tst pc,pc ++ *[0-9a-f]*: 18 7c tst r12,r12 ++ *[0-9a-f]*: 0a 75 tst r5,r5 ++ *[0-9a-f]*: 08 74 tst r4,r4 ++ *[0-9a-f]*: 1c 7e tst lr,lr ++ *[0-9a-f]*: 18 70 tst r0,r12 ++ *[0-9a-f]*: 0c 7a tst r10,r6 ++ *[0-9a-f]*: 08 7d tst sp,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 8f andn pc,pc ++ *[0-9a-f]*: 18 8c andn r12,r12 ++ *[0-9a-f]*: 0a 85 andn r5,r5 ++ *[0-9a-f]*: 08 84 andn r4,r4 ++ *[0-9a-f]*: 1c 8e andn lr,lr ++ *[0-9a-f]*: 18 89 andn r9,r12 ++ *[0-9a-f]*: 1a 8b andn r11,sp ++ *[0-9a-f]*: 0a 8c andn r12,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e 9f mov pc,pc ++ *[0-9a-f]*: 18 9c mov r12,r12 ++ *[0-9a-f]*: 0a 95 mov r5,r5 ++ *[0-9a-f]*: 08 94 mov r4,r4 ++ *[0-9a-f]*: 1c 9e mov lr,lr ++ *[0-9a-f]*: 12 95 mov r5,r9 ++ *[0-9a-f]*: 16 9b mov r11,r11 ++ *[0-9a-f]*: 1c 92 mov r2,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e af st\.w pc\+\+,pc ++ *[0-9a-f]*: 18 ac st\.w r12\+\+,r12 ++ *[0-9a-f]*: 0a a5 st\.w r5\+\+,r5 ++ *[0-9a-f]*: 08 a4 st\.w r4\+\+,r4 ++ *[0-9a-f]*: 1c ae st\.w lr\+\+,lr ++ *[0-9a-f]*: 02 ab st\.w r1\+\+,r11 ++ *[0-9a-f]*: 1a a0 st\.w sp\+\+,r0 ++ *[0-9a-f]*: 1a a1 st\.w sp\+\+,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e bf st\.h pc\+\+,pc ++ *[0-9a-f]*: 18 bc st\.h r12\+\+,r12 ++ *[0-9a-f]*: 0a b5 st\.h r5\+\+,r5 ++ *[0-9a-f]*: 08 b4 st\.h r4\+\+,r4 ++ *[0-9a-f]*: 1c be st\.h lr\+\+,lr ++ *[0-9a-f]*: 18 bd st\.h r12\+\+,sp ++ *[0-9a-f]*: 0e be st\.h r7\+\+,lr ++ *[0-9a-f]*: 0e b4 st\.h r7\+\+,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e cf st\.b pc\+\+,pc ++ *[0-9a-f]*: 18 cc st\.b r12\+\+,r12 ++ *[0-9a-f]*: 0a c5 st\.b r5\+\+,r5 ++ *[0-9a-f]*: 08 c4 st\.b r4\+\+,r4 ++ *[0-9a-f]*: 1c ce st\.b lr\+\+,lr ++ *[0-9a-f]*: 12 cd st\.b r9\+\+,sp ++ *[0-9a-f]*: 02 cd st\.b r1\+\+,sp ++ *[0-9a-f]*: 00 c4 st\.b r0\+\+,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e df st\.w --pc,pc ++ *[0-9a-f]*: 18 dc st\.w --r12,r12 ++ *[0-9a-f]*: 0a d5 st\.w --r5,r5 ++ *[0-9a-f]*: 08 d4 st\.w --r4,r4 ++ *[0-9a-f]*: 1c de st\.w --lr,lr ++ *[0-9a-f]*: 02 d7 st\.w --r1,r7 ++ *[0-9a-f]*: 06 d9 st\.w --r3,r9 ++ *[0-9a-f]*: 0a d5 st\.w --r5,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e ef st\.h --pc,pc ++ *[0-9a-f]*: 18 ec st\.h --r12,r12 ++ *[0-9a-f]*: 0a e5 st\.h --r5,r5 ++ *[0-9a-f]*: 08 e4 st\.h --r4,r4 ++ *[0-9a-f]*: 1c ee st\.h --lr,lr ++ *[0-9a-f]*: 0a e7 st\.h --r5,r7 ++ *[0-9a-f]*: 10 e8 st\.h --r8,r8 ++ *[0-9a-f]*: 0e e2 st\.h --r7,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1e ff st\.b --pc,pc ++ *[0-9a-f]*: 18 fc st\.b --r12,r12 ++ *[0-9a-f]*: 0a f5 st\.b --r5,r5 ++ *[0-9a-f]*: 08 f4 st\.b --r4,r4 ++ *[0-9a-f]*: 1c fe st\.b --lr,lr ++ *[0-9a-f]*: 1a fd st\.b --sp,sp ++ *[0-9a-f]*: 1a fb st\.b --sp,r11 ++ *[0-9a-f]*: 08 f5 st\.b --r4,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 0f ld\.w pc,pc\+\+ ++ *[0-9a-f]*: 19 0c ld\.w r12,r12\+\+ ++ *[0-9a-f]*: 0b 05 ld\.w r5,r5\+\+ ++ *[0-9a-f]*: 09 04 ld\.w r4,r4\+\+ ++ *[0-9a-f]*: 1d 0e ld\.w lr,lr\+\+ ++ *[0-9a-f]*: 0f 03 ld\.w r3,r7\+\+ ++ *[0-9a-f]*: 1d 03 ld\.w r3,lr\+\+ ++ *[0-9a-f]*: 0b 0c ld\.w r12,r5\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 1f ld\.sh pc,pc\+\+ ++ *[0-9a-f]*: 19 1c ld\.sh r12,r12\+\+ ++ *[0-9a-f]*: 0b 15 ld\.sh r5,r5\+\+ ++ *[0-9a-f]*: 09 14 ld\.sh r4,r4\+\+ ++ *[0-9a-f]*: 1d 1e ld\.sh lr,lr\+\+ ++ *[0-9a-f]*: 05 1b ld\.sh r11,r2\+\+ ++ *[0-9a-f]*: 11 12 ld\.sh r2,r8\+\+ ++ *[0-9a-f]*: 0d 17 ld\.sh r7,r6\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 2f ld\.uh pc,pc\+\+ ++ *[0-9a-f]*: 19 2c ld\.uh r12,r12\+\+ ++ *[0-9a-f]*: 0b 25 ld\.uh r5,r5\+\+ ++ *[0-9a-f]*: 09 24 ld\.uh r4,r4\+\+ ++ *[0-9a-f]*: 1d 2e ld\.uh lr,lr\+\+ ++ *[0-9a-f]*: 0f 26 ld\.uh r6,r7\+\+ ++ *[0-9a-f]*: 17 2a ld\.uh r10,r11\+\+ ++ *[0-9a-f]*: 09 2e ld\.uh lr,r4\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 3f ld\.ub pc,pc\+\+ ++ *[0-9a-f]*: 19 3c ld\.ub r12,r12\+\+ ++ *[0-9a-f]*: 0b 35 ld\.ub r5,r5\+\+ ++ *[0-9a-f]*: 09 34 ld\.ub r4,r4\+\+ ++ *[0-9a-f]*: 1d 3e ld\.ub lr,lr\+\+ ++ *[0-9a-f]*: 1d 38 ld\.ub r8,lr\+\+ ++ *[0-9a-f]*: 19 3c ld\.ub r12,r12\+\+ ++ *[0-9a-f]*: 15 3b ld\.ub r11,r10\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 4f ld\.w pc,--pc ++ *[0-9a-f]*: 19 4c ld\.w r12,--r12 ++ *[0-9a-f]*: 0b 45 ld\.w r5,--r5 ++ *[0-9a-f]*: 09 44 ld\.w r4,--r4 ++ *[0-9a-f]*: 1d 4e ld\.w lr,--lr ++ *[0-9a-f]*: 1d 4a ld\.w r10,--lr ++ *[0-9a-f]*: 13 4c ld\.w r12,--r9 ++ *[0-9a-f]*: 0b 46 ld\.w r6,--r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 5f ld\.sh pc,--pc ++ *[0-9a-f]*: 19 5c ld\.sh r12,--r12 ++ *[0-9a-f]*: 0b 55 ld\.sh r5,--r5 ++ *[0-9a-f]*: 09 54 ld\.sh r4,--r4 ++ *[0-9a-f]*: 1d 5e ld\.sh lr,--lr ++ *[0-9a-f]*: 15 5f ld\.sh pc,--r10 ++ *[0-9a-f]*: 07 56 ld\.sh r6,--r3 ++ *[0-9a-f]*: 0d 54 ld\.sh r4,--r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 6f ld\.uh pc,--pc ++ *[0-9a-f]*: 19 6c ld\.uh r12,--r12 ++ *[0-9a-f]*: 0b 65 ld\.uh r5,--r5 ++ *[0-9a-f]*: 09 64 ld\.uh r4,--r4 ++ *[0-9a-f]*: 1d 6e ld\.uh lr,--lr ++ *[0-9a-f]*: 05 63 ld\.uh r3,--r2 ++ *[0-9a-f]*: 01 61 ld\.uh r1,--r0 ++ *[0-9a-f]*: 13 62 ld\.uh r2,--r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 7f ld\.ub pc,--pc ++ *[0-9a-f]*: 19 7c ld\.ub r12,--r12 ++ *[0-9a-f]*: 0b 75 ld\.ub r5,--r5 ++ *[0-9a-f]*: 09 74 ld\.ub r4,--r4 ++ *[0-9a-f]*: 1d 7e ld\.ub lr,--lr ++ *[0-9a-f]*: 03 71 ld\.ub r1,--r1 ++ *[0-9a-f]*: 0d 70 ld\.ub r0,--r6 ++ *[0-9a-f]*: 0f 72 ld\.ub r2,--r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 8f ld\.ub pc,pc\[0x0\] ++ *[0-9a-f]*: 19 fc ld\.ub r12,r12\[0x7\] ++ *[0-9a-f]*: 0b c5 ld\.ub r5,r5\[0x4\] ++ *[0-9a-f]*: 09 b4 ld\.ub r4,r4\[0x3\] ++ *[0-9a-f]*: 1d 9e ld\.ub lr,lr\[0x1\] ++ *[0-9a-f]*: 13 e6 ld\.ub r6,r9\[0x6\] ++ *[0-9a-f]*: 1d c2 ld\.ub r2,lr\[0x4\] ++ *[0-9a-f]*: 11 81 ld\.ub r1,r8\[0x0\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 20 0d sub sp,0 ++ *[0-9a-f]*: 2f fd sub sp,-4 ++ *[0-9a-f]*: 28 0d sub sp,-512 ++ *[0-9a-f]*: 27 fd sub sp,508 ++ *[0-9a-f]*: 20 1d sub sp,4 ++ *[0-9a-f]*: 20 bd sub sp,44 ++ *[0-9a-f]*: 20 2d sub sp,8 ++ *[0-9a-f]*: 25 7d sub sp,348 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 20 0f sub pc,0 ++ *[0-9a-f]*: 2f fc sub r12,-1 ++ *[0-9a-f]*: 28 05 sub r5,-128 ++ *[0-9a-f]*: 27 f4 sub r4,127 ++ *[0-9a-f]*: 20 1e sub lr,1 ++ *[0-9a-f]*: 2d 76 sub r6,-41 ++ *[0-9a-f]*: 22 54 sub r4,37 ++ *[0-9a-f]*: 23 8c sub r12,56 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 30 0f mov pc,0 ++ *[0-9a-f]*: 3f fc mov r12,-1 ++ *[0-9a-f]*: 38 05 mov r5,-128 ++ *[0-9a-f]*: 37 f4 mov r4,127 ++ *[0-9a-f]*: 30 1e mov lr,1 ++ *[0-9a-f]*: 30 ef mov pc,14 ++ *[0-9a-f]*: 39 c6 mov r6,-100 ++ *[0-9a-f]*: 38 6e mov lr,-122 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 40 0f lddsp pc,sp\[0x0\] ++ *[0-9a-f]*: 47 fc lddsp r12,sp\[0x1fc\] ++ *[0-9a-f]*: 44 05 lddsp r5,sp\[0x100\] ++ *[0-9a-f]*: 43 f4 lddsp r4,sp\[0xfc\] ++ *[0-9a-f]*: 40 1e lddsp lr,sp\[0x4\] ++ *[0-9a-f]*: 44 0e lddsp lr,sp\[0x100\] ++ *[0-9a-f]*: 40 5c lddsp r12,sp\[0x14\] ++ *[0-9a-f]*: 47 69 lddsp r9,sp\[0x1d8\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 48 0f lddpc pc,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4f f0 lddpc r0,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4c 08 lddpc r8,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4b f7 lddpc r7,[0-9a-f]* <.*> ++ *[0-9a-f]*: 48 1e lddpc lr,[0-9a-f]* <.*> ++ *[0-9a-f]*: 4f 6d lddpc sp,[0-9a-f]* <.*> ++ *[0-9a-f]*: 49 e6 lddpc r6,[0-9a-f]* <.*> ++ *[0-9a-f]*: 48 7b lddpc r11,[0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 50 0f stdsp sp\[0x0\],pc ++ *[0-9a-f]*: 57 fc stdsp sp\[0x1fc\],r12 ++ *[0-9a-f]*: 54 05 stdsp sp\[0x100\],r5 ++ *[0-9a-f]*: 53 f4 stdsp sp\[0xfc\],r4 ++ *[0-9a-f]*: 50 1e stdsp sp\[0x4\],lr ++ *[0-9a-f]*: 54 cf stdsp sp\[0x130\],pc ++ *[0-9a-f]*: 54 00 stdsp sp\[0x100\],r0 ++ *[0-9a-f]*: 55 45 stdsp sp\[0x150\],r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 58 0f cp.w pc,0 ++ *[0-9a-f]*: 5b fc cp.w r12,-1 ++ *[0-9a-f]*: 5a 05 cp.w r5,-32 ++ *[0-9a-f]*: 59 f4 cp.w r4,31 ++ *[0-9a-f]*: 58 1e cp.w lr,1 ++ *[0-9a-f]*: 58 38 cp.w r8,3 ++ *[0-9a-f]*: 59 0e cp.w lr,16 ++ *[0-9a-f]*: 5a 67 cp.w r7,-26 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 0f acr pc ++ *[0-9a-f]*: 5c 0c acr r12 ++ *[0-9a-f]*: 5c 05 acr r5 ++ *[0-9a-f]*: 5c 04 acr r4 ++ *[0-9a-f]*: 5c 0e acr lr ++ *[0-9a-f]*: 5c 02 acr r2 ++ *[0-9a-f]*: 5c 0c acr r12 ++ *[0-9a-f]*: 5c 0f acr pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 1f scr pc ++ *[0-9a-f]*: 5c 1c scr r12 ++ *[0-9a-f]*: 5c 15 scr r5 ++ *[0-9a-f]*: 5c 14 scr r4 ++ *[0-9a-f]*: 5c 1e scr lr ++ *[0-9a-f]*: 5c 1f scr pc ++ *[0-9a-f]*: 5c 16 scr r6 ++ *[0-9a-f]*: 5c 11 scr r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 2f cpc pc ++ *[0-9a-f]*: 5c 2c cpc r12 ++ *[0-9a-f]*: 5c 25 cpc r5 ++ *[0-9a-f]*: 5c 24 cpc r4 ++ *[0-9a-f]*: 5c 2e cpc lr ++ *[0-9a-f]*: 5c 2f cpc pc ++ *[0-9a-f]*: 5c 24 cpc r4 ++ *[0-9a-f]*: 5c 29 cpc r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 3f neg pc ++ *[0-9a-f]*: 5c 3c neg r12 ++ *[0-9a-f]*: 5c 35 neg r5 ++ *[0-9a-f]*: 5c 34 neg r4 ++ *[0-9a-f]*: 5c 3e neg lr ++ *[0-9a-f]*: 5c 37 neg r7 ++ *[0-9a-f]*: 5c 31 neg r1 ++ *[0-9a-f]*: 5c 39 neg r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 4f abs pc ++ *[0-9a-f]*: 5c 4c abs r12 ++ *[0-9a-f]*: 5c 45 abs r5 ++ *[0-9a-f]*: 5c 44 abs r4 ++ *[0-9a-f]*: 5c 4e abs lr ++ *[0-9a-f]*: 5c 46 abs r6 ++ *[0-9a-f]*: 5c 46 abs r6 ++ *[0-9a-f]*: 5c 44 abs r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 5f castu\.b pc ++ *[0-9a-f]*: 5c 5c castu\.b r12 ++ *[0-9a-f]*: 5c 55 castu\.b r5 ++ *[0-9a-f]*: 5c 54 castu\.b r4 ++ *[0-9a-f]*: 5c 5e castu\.b lr ++ *[0-9a-f]*: 5c 57 castu\.b r7 ++ *[0-9a-f]*: 5c 5d castu\.b sp ++ *[0-9a-f]*: 5c 59 castu\.b r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 6f casts\.b pc ++ *[0-9a-f]*: 5c 6c casts\.b r12 ++ *[0-9a-f]*: 5c 65 casts\.b r5 ++ *[0-9a-f]*: 5c 64 casts\.b r4 ++ *[0-9a-f]*: 5c 6e casts\.b lr ++ *[0-9a-f]*: 5c 6b casts\.b r11 ++ *[0-9a-f]*: 5c 61 casts\.b r1 ++ *[0-9a-f]*: 5c 6a casts\.b r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 7f castu\.h pc ++ *[0-9a-f]*: 5c 7c castu\.h r12 ++ *[0-9a-f]*: 5c 75 castu\.h r5 ++ *[0-9a-f]*: 5c 74 castu\.h r4 ++ *[0-9a-f]*: 5c 7e castu\.h lr ++ *[0-9a-f]*: 5c 7a castu\.h r10 ++ *[0-9a-f]*: 5c 7b castu\.h r11 ++ *[0-9a-f]*: 5c 71 castu\.h r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 8f casts\.h pc ++ *[0-9a-f]*: 5c 8c casts\.h r12 ++ *[0-9a-f]*: 5c 85 casts\.h r5 ++ *[0-9a-f]*: 5c 84 casts\.h r4 ++ *[0-9a-f]*: 5c 8e casts\.h lr ++ *[0-9a-f]*: 5c 80 casts\.h r0 ++ *[0-9a-f]*: 5c 85 casts\.h r5 ++ *[0-9a-f]*: 5c 89 casts\.h r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c 9f brev pc ++ *[0-9a-f]*: 5c 9c brev r12 ++ *[0-9a-f]*: 5c 95 brev r5 ++ *[0-9a-f]*: 5c 94 brev r4 ++ *[0-9a-f]*: 5c 9e brev lr ++ *[0-9a-f]*: 5c 95 brev r5 ++ *[0-9a-f]*: 5c 9a brev r10 ++ *[0-9a-f]*: 5c 98 brev r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c af swap\.h pc ++ *[0-9a-f]*: 5c ac swap\.h r12 ++ *[0-9a-f]*: 5c a5 swap\.h r5 ++ *[0-9a-f]*: 5c a4 swap\.h r4 ++ *[0-9a-f]*: 5c ae swap\.h lr ++ *[0-9a-f]*: 5c a7 swap\.h r7 ++ *[0-9a-f]*: 5c a0 swap\.h r0 ++ *[0-9a-f]*: 5c a8 swap\.h r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c bf swap\.b pc ++ *[0-9a-f]*: 5c bc swap\.b r12 ++ *[0-9a-f]*: 5c b5 swap\.b r5 ++ *[0-9a-f]*: 5c b4 swap\.b r4 ++ *[0-9a-f]*: 5c be swap\.b lr ++ *[0-9a-f]*: 5c ba swap\.b r10 ++ *[0-9a-f]*: 5c bc swap\.b r12 ++ *[0-9a-f]*: 5c b1 swap\.b r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c cf swap\.bh pc ++ *[0-9a-f]*: 5c cc swap\.bh r12 ++ *[0-9a-f]*: 5c c5 swap\.bh r5 ++ *[0-9a-f]*: 5c c4 swap\.bh r4 ++ *[0-9a-f]*: 5c ce swap\.bh lr ++ *[0-9a-f]*: 5c c9 swap\.bh r9 ++ *[0-9a-f]*: 5c c4 swap\.bh r4 ++ *[0-9a-f]*: 5c c1 swap\.bh r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c df com pc ++ *[0-9a-f]*: 5c dc com r12 ++ *[0-9a-f]*: 5c d5 com r5 ++ *[0-9a-f]*: 5c d4 com r4 ++ *[0-9a-f]*: 5c de com lr ++ *[0-9a-f]*: 5c d2 com r2 ++ *[0-9a-f]*: 5c d2 com r2 ++ *[0-9a-f]*: 5c d7 com r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c ef tnbz pc ++ *[0-9a-f]*: 5c ec tnbz r12 ++ *[0-9a-f]*: 5c e5 tnbz r5 ++ *[0-9a-f]*: 5c e4 tnbz r4 ++ *[0-9a-f]*: 5c ee tnbz lr ++ *[0-9a-f]*: 5c e8 tnbz r8 ++ *[0-9a-f]*: 5c ec tnbz r12 ++ *[0-9a-f]*: 5c ef tnbz pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5c ff rol pc ++ *[0-9a-f]*: 5c fc rol r12 ++ *[0-9a-f]*: 5c f5 rol r5 ++ *[0-9a-f]*: 5c f4 rol r4 ++ *[0-9a-f]*: 5c fe rol lr ++ *[0-9a-f]*: 5c fa rol r10 ++ *[0-9a-f]*: 5c f9 rol r9 ++ *[0-9a-f]*: 5c f5 rol r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 0f ror pc ++ *[0-9a-f]*: 5d 0c ror r12 ++ *[0-9a-f]*: 5d 05 ror r5 ++ *[0-9a-f]*: 5d 04 ror r4 ++ *[0-9a-f]*: 5d 0e ror lr ++ *[0-9a-f]*: 5d 08 ror r8 ++ *[0-9a-f]*: 5d 04 ror r4 ++ *[0-9a-f]*: 5d 07 ror r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 1f icall pc ++ *[0-9a-f]*: 5d 1c icall r12 ++ *[0-9a-f]*: 5d 15 icall r5 ++ *[0-9a-f]*: 5d 14 icall r4 ++ *[0-9a-f]*: 5d 1e icall lr ++ *[0-9a-f]*: 5d 13 icall r3 ++ *[0-9a-f]*: 5d 11 icall r1 ++ *[0-9a-f]*: 5d 13 icall r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 2f mustr pc ++ *[0-9a-f]*: 5d 2c mustr r12 ++ *[0-9a-f]*: 5d 25 mustr r5 ++ *[0-9a-f]*: 5d 24 mustr r4 ++ *[0-9a-f]*: 5d 2e mustr lr ++ *[0-9a-f]*: 5d 21 mustr r1 ++ *[0-9a-f]*: 5d 24 mustr r4 ++ *[0-9a-f]*: 5d 2c mustr r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5d 3f musfr pc ++ *[0-9a-f]*: 5d 3c musfr r12 ++ *[0-9a-f]*: 5d 35 musfr r5 ++ *[0-9a-f]*: 5d 34 musfr r4 ++ *[0-9a-f]*: 5d 3e musfr lr ++ *[0-9a-f]*: 5d 3b musfr r11 ++ *[0-9a-f]*: 5d 3c musfr r12 ++ *[0-9a-f]*: 5d 32 musfr r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5e 0f reteq 1 ++ *[0-9a-f]*: 5e fc retal r12 ++ *[0-9a-f]*: 5e 85 retls r5 ++ *[0-9a-f]*: 5e 74 retpl r4 ++ *[0-9a-f]*: 5e 1e retne -1 ++ *[0-9a-f]*: 5e 90 retgt r0 ++ *[0-9a-f]*: 5e 9c retgt r12 ++ *[0-9a-f]*: 5e 4a retge r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 5f 0f sreq pc ++ *[0-9a-f]*: 5f fc sral r12 ++ *[0-9a-f]*: 5f 85 srls r5 ++ *[0-9a-f]*: 5f 74 srpl r4 ++ *[0-9a-f]*: 5f 1e srne lr ++ *[0-9a-f]*: 5f 50 srlt r0 ++ *[0-9a-f]*: 5f fd sral sp ++ *[0-9a-f]*: 5f 49 srge r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 7e 0f ld\.w pc,pc\[0x0\] ++ *[0-9a-f]*: 79 fc ld\.w r12,r12\[0x7c\] ++ *[0-9a-f]*: 6b 05 ld\.w r5,r5\[0x40\] ++ *[0-9a-f]*: 68 f4 ld\.w r4,r4\[0x3c\] ++ *[0-9a-f]*: 7c 1e ld\.w lr,lr\[0x4\] ++ *[0-9a-f]*: 64 dd ld\.w sp,r2\[0x34\] ++ *[0-9a-f]*: 62 29 ld\.w r9,r1\[0x8\] ++ *[0-9a-f]*: 7a f5 ld\.w r5,sp\[0x3c\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 0f ld\.sh pc,pc\[0x0\] ++ *[0-9a-f]*: 98 7c ld\.sh r12,r12\[0xe\] ++ *[0-9a-f]*: 8a 45 ld\.sh r5,r5\[0x8\] ++ *[0-9a-f]*: 88 34 ld\.sh r4,r4\[0x6\] ++ *[0-9a-f]*: 9c 1e ld\.sh lr,lr\[0x2\] ++ *[0-9a-f]*: 84 44 ld\.sh r4,r2\[0x8\] ++ *[0-9a-f]*: 9c 5d ld\.sh sp,lr\[0xa\] ++ *[0-9a-f]*: 96 12 ld\.sh r2,r11\[0x2\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 8f ld\.uh pc,pc\[0x0\] ++ *[0-9a-f]*: 98 fc ld\.uh r12,r12\[0xe\] ++ *[0-9a-f]*: 8a c5 ld\.uh r5,r5\[0x8\] ++ *[0-9a-f]*: 88 b4 ld\.uh r4,r4\[0x6\] ++ *[0-9a-f]*: 9c 9e ld\.uh lr,lr\[0x2\] ++ *[0-9a-f]*: 80 da ld\.uh r10,r0\[0xa\] ++ *[0-9a-f]*: 96 c8 ld\.uh r8,r11\[0x8\] ++ *[0-9a-f]*: 84 ea ld\.uh r10,r2\[0xc\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9f 0f st\.w pc\[0x0\],pc ++ *[0-9a-f]*: 99 fc st\.w r12\[0x3c\],r12 ++ *[0-9a-f]*: 8b 85 st\.w r5\[0x20\],r5 ++ *[0-9a-f]*: 89 74 st\.w r4\[0x1c\],r4 ++ *[0-9a-f]*: 9d 1e st\.w lr\[0x4\],lr ++ *[0-9a-f]*: 8f bb st\.w r7\[0x2c\],r11 ++ *[0-9a-f]*: 85 66 st\.w r2\[0x18\],r6 ++ *[0-9a-f]*: 89 39 st\.w r4\[0xc\],r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 0f st\.h pc\[0x0\],pc ++ *[0-9a-f]*: b8 7c st\.h r12\[0xe\],r12 ++ *[0-9a-f]*: aa 45 st\.h r5\[0x8\],r5 ++ *[0-9a-f]*: a8 34 st\.h r4\[0x6\],r4 ++ *[0-9a-f]*: bc 1e st\.h lr\[0x2\],lr ++ *[0-9a-f]*: bc 5c st\.h lr\[0xa\],r12 ++ *[0-9a-f]*: ac 20 st\.h r6\[0x4\],r0 ++ *[0-9a-f]*: aa 6d st\.h r5\[0xc\],sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 8f st\.b pc\[0x0\],pc ++ *[0-9a-f]*: b8 fc st\.b r12\[0x7\],r12 ++ *[0-9a-f]*: aa c5 st\.b r5\[0x4\],r5 ++ *[0-9a-f]*: a8 b4 st\.b r4\[0x3\],r4 ++ *[0-9a-f]*: bc 9e st\.b lr\[0x1\],lr ++ *[0-9a-f]*: b8 e9 st\.b r12\[0x6\],r9 ++ *[0-9a-f]*: a4 be st\.b r2\[0x3\],lr ++ *[0-9a-f]*: a2 bb st\.b r1\[0x3\],r11 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 00 ld\.d r0,pc ++ *[0-9a-f]*: b9 0e ld\.d lr,r12 ++ *[0-9a-f]*: ab 08 ld\.d r8,r5 ++ *[0-9a-f]*: a9 06 ld\.d r6,r4 ++ *[0-9a-f]*: bd 02 ld\.d r2,lr ++ *[0-9a-f]*: af 0e ld\.d lr,r7 ++ *[0-9a-f]*: a9 04 ld\.d r4,r4 ++ *[0-9a-f]*: bf 0e ld\.d lr,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 01 ld\.d r0,pc\+\+ ++ *[0-9a-f]*: b9 0f ld\.d lr,r12\+\+ ++ *[0-9a-f]*: ab 09 ld\.d r8,r5\+\+ ++ *[0-9a-f]*: a9 07 ld\.d r6,r4\+\+ ++ *[0-9a-f]*: bd 03 ld\.d r2,lr\+\+ ++ *[0-9a-f]*: ab 0f ld\.d lr,r5\+\+ ++ *[0-9a-f]*: b7 0d ld\.d r12,r11\+\+ ++ *[0-9a-f]*: b9 03 ld\.d r2,r12\+\+ ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 10 ld\.d r0,--pc ++ *[0-9a-f]*: b9 1e ld\.d lr,--r12 ++ *[0-9a-f]*: ab 18 ld\.d r8,--r5 ++ *[0-9a-f]*: a9 16 ld\.d r6,--r4 ++ *[0-9a-f]*: bd 12 ld\.d r2,--lr ++ *[0-9a-f]*: a1 18 ld\.d r8,--r0 ++ *[0-9a-f]*: bf 1a ld\.d r10,--pc ++ *[0-9a-f]*: a9 12 ld\.d r2,--r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 11 st\.d pc,r0 ++ *[0-9a-f]*: b9 1f st\.d r12,lr ++ *[0-9a-f]*: ab 19 st\.d r5,r8 ++ *[0-9a-f]*: a9 17 st\.d r4,r6 ++ *[0-9a-f]*: bd 13 st\.d lr,r2 ++ *[0-9a-f]*: a1 1d st\.d r0,r12 ++ *[0-9a-f]*: bb 15 st\.d sp,r4 ++ *[0-9a-f]*: b9 1d st\.d r12,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 20 st\.d pc\+\+,r0 ++ *[0-9a-f]*: b9 2e st\.d r12\+\+,lr ++ *[0-9a-f]*: ab 28 st\.d r5\+\+,r8 ++ *[0-9a-f]*: a9 26 st\.d r4\+\+,r6 ++ *[0-9a-f]*: bd 22 st\.d lr\+\+,r2 ++ *[0-9a-f]*: bb 26 st\.d sp\+\+,r6 ++ *[0-9a-f]*: b5 26 st\.d r10\+\+,r6 ++ *[0-9a-f]*: af 22 st\.d r7\+\+,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 21 st\.d --pc,r0 ++ *[0-9a-f]*: b9 2f st\.d --r12,lr ++ *[0-9a-f]*: ab 29 st\.d --r5,r8 ++ *[0-9a-f]*: a9 27 st\.d --r4,r6 ++ *[0-9a-f]*: bd 23 st\.d --lr,r2 ++ *[0-9a-f]*: a7 27 st\.d --r3,r6 ++ *[0-9a-f]*: bd 23 st\.d --lr,r2 ++ *[0-9a-f]*: a1 25 st\.d --r0,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: bf 3f mul pc,pc ++ *[0-9a-f]*: b9 3c mul r12,r12 ++ *[0-9a-f]*: ab 35 mul r5,r5 ++ *[0-9a-f]*: a9 34 mul r4,r4 ++ *[0-9a-f]*: bd 3e mul lr,lr ++ *[0-9a-f]*: bd 3a mul r10,lr ++ *[0-9a-f]*: b1 30 mul r0,r8 ++ *[0-9a-f]*: ab 38 mul r8,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 4f asr pc,0x0 ++ *[0-9a-f]*: bf 5c asr r12,0x1f ++ *[0-9a-f]*: b1 45 asr r5,0x10 ++ *[0-9a-f]*: af 54 asr r4,0xf ++ *[0-9a-f]*: a1 5e asr lr,0x1 ++ *[0-9a-f]*: b7 56 asr r6,0x17 ++ *[0-9a-f]*: b3 46 asr r6,0x12 ++ *[0-9a-f]*: a9 45 asr r5,0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 6f lsl pc,0x0 ++ *[0-9a-f]*: bf 7c lsl r12,0x1f ++ *[0-9a-f]*: b1 65 lsl r5,0x10 ++ *[0-9a-f]*: af 74 lsl r4,0xf ++ *[0-9a-f]*: a1 7e lsl lr,0x1 ++ *[0-9a-f]*: ad 7c lsl r12,0xd ++ *[0-9a-f]*: b1 66 lsl r6,0x10 ++ *[0-9a-f]*: b9 71 lsl r1,0x19 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 8f lsr pc,0x0 ++ *[0-9a-f]*: bf 9c lsr r12,0x1f ++ *[0-9a-f]*: b1 85 lsr r5,0x10 ++ *[0-9a-f]*: af 94 lsr r4,0xf ++ *[0-9a-f]*: a1 9e lsr lr,0x1 ++ *[0-9a-f]*: a1 90 lsr r0,0x1 ++ *[0-9a-f]*: ab 88 lsr r8,0xa ++ *[0-9a-f]*: bb 87 lsr r7,0x1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 af sbr pc,0x0 ++ *[0-9a-f]*: bf bc sbr r12,0x1f ++ *[0-9a-f]*: b1 a5 sbr r5,0x10 ++ *[0-9a-f]*: af b4 sbr r4,0xf ++ *[0-9a-f]*: a1 be sbr lr,0x1 ++ *[0-9a-f]*: bf b8 sbr r8,0x1f ++ *[0-9a-f]*: b7 a6 sbr r6,0x16 ++ *[0-9a-f]*: b7 b1 sbr r1,0x17 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: a1 cf cbr pc,0x0 ++ *[0-9a-f]*: bf dc cbr r12,0x1f ++ *[0-9a-f]*: b1 c5 cbr r5,0x10 ++ *[0-9a-f]*: af d4 cbr r4,0xf ++ *[0-9a-f]*: a1 de cbr lr,0x1 ++ *[0-9a-f]*: ab cc cbr r12,0xa ++ *[0-9a-f]*: b7 c7 cbr r7,0x16 ++ *[0-9a-f]*: a9 d8 cbr r8,0x9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 00 breq [0-9a-f]* <.*> ++ *[0-9a-f]*: cf f7 brpl [0-9a-f]* <.*> ++ *[0-9a-f]*: c8 04 brge [0-9a-f]* <.*> ++ *[0-9a-f]*: c7 f3 brcs [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 11 brne [0-9a-f]* <.*> ++ *[0-9a-f]*: c7 33 brcs [0-9a-f]* <.*> ++ *[0-9a-f]*: cf 70 breq [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 60 breq [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 08 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: cf fb rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 0a rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: cf f9 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 18 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c1 fa rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 78 rjmp [0-9a-f]* <.*> ++ *[0-9a-f]*: cf ea rjmp [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 0c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf ff rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 0e rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf fd rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 1c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c6 cc rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf 7e rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c1 ae rcall [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d0 00 acall 0x0 ++ *[0-9a-f]*: df f0 acall 0x3fc ++ *[0-9a-f]*: d8 00 acall 0x200 ++ *[0-9a-f]*: d7 f0 acall 0x1fc ++ *[0-9a-f]*: d0 10 acall 0x4 ++ *[0-9a-f]*: d5 90 acall 0x164 ++ *[0-9a-f]*: d4 c0 acall 0x130 ++ *[0-9a-f]*: d2 b0 acall 0xac ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ *[0-9a-f]*: d7 33 scall ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d8 02 popm pc ++ *[0-9a-f]*: dd fa popm r0-r11,pc,r12=-1 ++ *[0-9a-f]*: d4 02 popm lr ++ *[0-9a-f]*: db fa popm r0-r11,pc,r12=1 ++ *[0-9a-f]*: d0 12 popm r0-r3 ++ *[0-9a-f]*: d8 e2 popm r4-r10,pc ++ *[0-9a-f]*: d9 1a popm r0-r3,r11,pc,r12=0 ++ *[0-9a-f]*: d7 b2 popm r0-r7,r10-r12,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d8 01 pushm pc ++ *[0-9a-f]*: df f1 pushm r0-r12,lr-pc ++ *[0-9a-f]*: d8 01 pushm pc ++ *[0-9a-f]*: d7 f1 pushm r0-r12,lr ++ *[0-9a-f]*: d0 11 pushm r0-r3 ++ *[0-9a-f]*: dc c1 pushm r8-r10,lr-pc ++ *[0-9a-f]*: d0 91 pushm r0-r3,r10 ++ *[0-9a-f]*: d2 41 pushm r8-r9,r12 ++ ++[0-9a-f]* : ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++ ++[0-9a-f]* : ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++.* ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d0 03 csrfcz 0x0 ++ *[0-9a-f]*: d1 f3 csrfcz 0x1f ++ *[0-9a-f]*: d1 03 csrfcz 0x10 ++ *[0-9a-f]*: d0 f3 csrfcz 0xf ++ *[0-9a-f]*: d0 13 csrfcz 0x1 ++ *[0-9a-f]*: d0 53 csrfcz 0x5 ++ *[0-9a-f]*: d0 d3 csrfcz 0xd ++ *[0-9a-f]*: d1 73 csrfcz 0x17 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d2 03 ssrf 0x0 ++ *[0-9a-f]*: d3 f3 ssrf 0x1f ++ *[0-9a-f]*: d3 03 ssrf 0x10 ++ *[0-9a-f]*: d2 f3 ssrf 0xf ++ *[0-9a-f]*: d2 13 ssrf 0x1 ++ *[0-9a-f]*: d3 d3 ssrf 0x1d ++ *[0-9a-f]*: d2 d3 ssrf 0xd ++ *[0-9a-f]*: d2 d3 ssrf 0xd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d4 03 csrf 0x0 ++ *[0-9a-f]*: d5 f3 csrf 0x1f ++ *[0-9a-f]*: d5 03 csrf 0x10 ++ *[0-9a-f]*: d4 f3 csrf 0xf ++ *[0-9a-f]*: d4 13 csrf 0x1 ++ *[0-9a-f]*: d4 a3 csrf 0xa ++ *[0-9a-f]*: d4 f3 csrf 0xf ++ *[0-9a-f]*: d4 b3 csrf 0xb ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 03 rete ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 13 rets ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 23 retd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 33 retj ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 43 tlbr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 53 tlbs ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 63 tlbw ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 73 breakpoint ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d6 83 incjosp 1 ++ *[0-9a-f]*: d6 93 incjosp 2 ++ *[0-9a-f]*: d6 a3 incjosp 3 ++ *[0-9a-f]*: d6 b3 incjosp 4 ++ *[0-9a-f]*: d6 c3 incjosp -4 ++ *[0-9a-f]*: d6 d3 incjosp -3 ++ *[0-9a-f]*: d6 e3 incjosp -2 ++ *[0-9a-f]*: d6 f3 incjosp -1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 13 popjc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: d7 23 pushjc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 00 0f add pc,pc,pc ++ *[0-9a-f]*: f8 0c 00 3c add r12,r12,r12<<0x3 ++ *[0-9a-f]*: ea 05 00 25 add r5,r5,r5<<0x2 ++ *[0-9a-f]*: e8 04 00 14 add r4,r4,r4<<0x1 ++ *[0-9a-f]*: fc 0e 00 1e add lr,lr,lr<<0x1 ++ *[0-9a-f]*: f8 00 00 10 add r0,r12,r0<<0x1 ++ *[0-9a-f]*: f8 04 00 09 add r9,r12,r4 ++ *[0-9a-f]*: f8 07 00 2c add r12,r12,r7<<0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 0f sub pc,pc,pc ++ *[0-9a-f]*: f8 0c 01 3c sub r12,r12,r12<<0x3 ++ *[0-9a-f]*: ea 05 01 25 sub r5,r5,r5<<0x2 ++ *[0-9a-f]*: e8 04 01 14 sub r4,r4,r4<<0x1 ++ *[0-9a-f]*: fc 0e 01 1e sub lr,lr,lr<<0x1 ++ *[0-9a-f]*: e6 04 01 0d sub sp,r3,r4 ++ *[0-9a-f]*: ee 03 01 03 sub r3,r7,r3 ++ *[0-9a-f]*: f4 0d 01 1d sub sp,r10,sp<<0x1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0d 0f divu pc,pc,pc ++ *[0-9a-f]*: f8 0c 0d 0c divu r12,r12,r12 ++ *[0-9a-f]*: ea 05 0d 05 divu r5,r5,r5 ++ *[0-9a-f]*: e8 04 0d 04 divu r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0d 0e divu lr,lr,lr ++ *[0-9a-f]*: e8 0f 0d 0d divu sp,r4,pc ++ *[0-9a-f]*: ea 0d 0d 05 divu r5,r5,sp ++ *[0-9a-f]*: fa 00 0d 0a divu r10,sp,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0e 0f addhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 0e 3c addhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 0e 35 addhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 0e 04 addhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 0e 3e addhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: e0 03 0e 00 addhh\.w r0,r0:b,r3:b ++ *[0-9a-f]*: f8 07 0e 2e addhh\.w lr,r12:t,r7:b ++ *[0-9a-f]*: f4 02 0e 23 addhh\.w r3,r10:t,r2:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0f 0f subhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 0f 3c subhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 0f 35 subhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 0f 04 subhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 0f 3e subhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: e2 07 0f 2a subhh\.w r10,r1:t,r7:b ++ *[0-9a-f]*: f4 0e 0f 3f subhh\.w pc,r10:t,lr:t ++ *[0-9a-f]*: e0 0c 0f 23 subhh\.w r3,r0:t,r12:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 00 4f adc pc,pc,pc ++ *[0-9a-f]*: f8 0c 00 4c adc r12,r12,r12 ++ *[0-9a-f]*: ea 05 00 45 adc r5,r5,r5 ++ *[0-9a-f]*: e8 04 00 44 adc r4,r4,r4 ++ *[0-9a-f]*: fc 0e 00 4e adc lr,lr,lr ++ *[0-9a-f]*: e0 07 00 44 adc r4,r0,r7 ++ *[0-9a-f]*: e8 03 00 4d adc sp,r4,r3 ++ *[0-9a-f]*: f8 00 00 42 adc r2,r12,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 4f sbc pc,pc,pc ++ *[0-9a-f]*: f8 0c 01 4c sbc r12,r12,r12 ++ *[0-9a-f]*: ea 05 01 45 sbc r5,r5,r5 ++ *[0-9a-f]*: e8 04 01 44 sbc r4,r4,r4 ++ *[0-9a-f]*: fc 0e 01 4e sbc lr,lr,lr ++ *[0-9a-f]*: ee 09 01 46 sbc r6,r7,r9 ++ *[0-9a-f]*: f0 05 01 40 sbc r0,r8,r5 ++ *[0-9a-f]*: e0 04 01 41 sbc r1,r0,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 4f mul pc,pc,pc ++ *[0-9a-f]*: f8 0c 02 4c mul r12,r12,r12 ++ *[0-9a-f]*: ea 05 02 45 mul r5,r5,r5 ++ *[0-9a-f]*: e8 04 02 44 mul r4,r4,r4 ++ *[0-9a-f]*: fc 0e 02 4e mul lr,lr,lr ++ *[0-9a-f]*: e0 00 02 4f mul pc,r0,r0 ++ *[0-9a-f]*: fe 0e 02 48 mul r8,pc,lr ++ *[0-9a-f]*: f8 0f 02 44 mul r4,r12,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 03 4f mac pc,pc,pc ++ *[0-9a-f]*: f8 0c 03 4c mac r12,r12,r12 ++ *[0-9a-f]*: ea 05 03 45 mac r5,r5,r5 ++ *[0-9a-f]*: e8 04 03 44 mac r4,r4,r4 ++ *[0-9a-f]*: fc 0e 03 4e mac lr,lr,lr ++ *[0-9a-f]*: e8 00 03 4a mac r10,r4,r0 ++ *[0-9a-f]*: fc 00 03 47 mac r7,lr,r0 ++ *[0-9a-f]*: f2 0c 03 42 mac r2,r9,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 04 4f muls\.d pc,pc,pc ++ *[0-9a-f]*: f8 0c 04 4c muls\.d r12,r12,r12 ++ *[0-9a-f]*: ea 05 04 45 muls\.d r5,r5,r5 ++ *[0-9a-f]*: e8 04 04 44 muls\.d r4,r4,r4 ++ *[0-9a-f]*: fc 0e 04 4e muls\.d lr,lr,lr ++ *[0-9a-f]*: f0 0e 04 42 muls\.d r2,r8,lr ++ *[0-9a-f]*: e0 0b 04 44 muls\.d r4,r0,r11 ++ *[0-9a-f]*: fc 06 04 45 muls\.d r5,lr,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 05 40 macs\.d r0,pc,pc ++ *[0-9a-f]*: f8 0c 05 4e macs\.d lr,r12,r12 ++ *[0-9a-f]*: ea 05 05 48 macs\.d r8,r5,r5 ++ *[0-9a-f]*: e8 04 05 46 macs\.d r6,r4,r4 ++ *[0-9a-f]*: fc 0e 05 42 macs\.d r2,lr,lr ++ *[0-9a-f]*: e2 09 05 48 macs\.d r8,r1,r9 ++ *[0-9a-f]*: f0 08 05 4e macs\.d lr,r8,r8 ++ *[0-9a-f]*: e6 0c 05 44 macs\.d r4,r3,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 06 40 mulu\.d r0,pc,pc ++ *[0-9a-f]*: f8 0c 06 4e mulu\.d lr,r12,r12 ++ *[0-9a-f]*: ea 05 06 48 mulu\.d r8,r5,r5 ++ *[0-9a-f]*: e8 04 06 46 mulu\.d r6,r4,r4 ++ *[0-9a-f]*: fc 0e 06 42 mulu\.d r2,lr,lr ++ *[0-9a-f]*: ea 00 06 46 mulu\.d r6,r5,r0 ++ *[0-9a-f]*: ec 01 06 44 mulu\.d r4,r6,r1 ++ *[0-9a-f]*: f0 02 06 48 mulu\.d r8,r8,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 07 40 macu\.d r0,pc,pc ++ *[0-9a-f]*: f8 0c 07 4e macu\.d lr,r12,r12 ++ *[0-9a-f]*: ea 05 07 48 macu\.d r8,r5,r5 ++ *[0-9a-f]*: e8 04 07 46 macu\.d r6,r4,r4 ++ *[0-9a-f]*: fc 0e 07 42 macu\.d r2,lr,lr ++ *[0-9a-f]*: fa 0b 07 46 macu\.d r6,sp,r11 ++ *[0-9a-f]*: e8 08 07 42 macu\.d r2,r4,r8 ++ *[0-9a-f]*: f4 09 07 46 macu\.d r6,r10,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 08 4f asr pc,pc,pc ++ *[0-9a-f]*: f8 0c 08 4c asr r12,r12,r12 ++ *[0-9a-f]*: ea 05 08 45 asr r5,r5,r5 ++ *[0-9a-f]*: e8 04 08 44 asr r4,r4,r4 ++ *[0-9a-f]*: fc 0e 08 4e asr lr,lr,lr ++ *[0-9a-f]*: ec 0f 08 4f asr pc,r6,pc ++ *[0-9a-f]*: ec 0c 08 40 asr r0,r6,r12 ++ *[0-9a-f]*: fa 00 08 44 asr r4,sp,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 09 4f lsl pc,pc,pc ++ *[0-9a-f]*: f8 0c 09 4c lsl r12,r12,r12 ++ *[0-9a-f]*: ea 05 09 45 lsl r5,r5,r5 ++ *[0-9a-f]*: e8 04 09 44 lsl r4,r4,r4 ++ *[0-9a-f]*: fc 0e 09 4e lsl lr,lr,lr ++ *[0-9a-f]*: ea 0e 09 4e lsl lr,r5,lr ++ *[0-9a-f]*: fe 03 09 45 lsl r5,pc,r3 ++ *[0-9a-f]*: fe 09 09 41 lsl r1,pc,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0a 4f lsr pc,pc,pc ++ *[0-9a-f]*: f8 0c 0a 4c lsr r12,r12,r12 ++ *[0-9a-f]*: ea 05 0a 45 lsr r5,r5,r5 ++ *[0-9a-f]*: e8 04 0a 44 lsr r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0a 4e lsr lr,lr,lr ++ *[0-9a-f]*: e8 01 0a 42 lsr r2,r4,r1 ++ *[0-9a-f]*: e2 06 0a 45 lsr r5,r1,r6 ++ *[0-9a-f]*: ec 07 0a 4d lsr sp,r6,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0b 4f xchg pc,pc,pc ++ *[0-9a-f]*: f8 0c 0b 4c xchg r12,r12,r12 ++ *[0-9a-f]*: ea 05 0b 45 xchg r5,r5,r5 ++ *[0-9a-f]*: e8 04 0b 44 xchg r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0b 4e xchg lr,lr,lr ++ *[0-9a-f]*: e8 0d 0b 4e xchg lr,r4,sp ++ *[0-9a-f]*: ea 0c 0b 41 xchg r1,r5,r12 ++ *[0-9a-f]*: f8 00 0b 4e xchg lr,r12,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0c 4f max pc,pc,pc ++ *[0-9a-f]*: f8 0c 0c 4c max r12,r12,r12 ++ *[0-9a-f]*: ea 05 0c 45 max r5,r5,r5 ++ *[0-9a-f]*: e8 04 0c 44 max r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0c 4e max lr,lr,lr ++ *[0-9a-f]*: e4 0d 0c 4e max lr,r2,sp ++ *[0-9a-f]*: f4 09 0c 44 max r4,r10,r9 ++ *[0-9a-f]*: f2 0e 0c 4e max lr,r9,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0d 4f min pc,pc,pc ++ *[0-9a-f]*: f8 0c 0d 4c min r12,r12,r12 ++ *[0-9a-f]*: ea 05 0d 45 min r5,r5,r5 ++ *[0-9a-f]*: e8 04 0d 44 min r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0d 4e min lr,lr,lr ++ *[0-9a-f]*: ee 08 0d 49 min r9,r7,r8 ++ *[0-9a-f]*: ea 05 0d 4d min sp,r5,r5 ++ *[0-9a-f]*: e2 04 0d 44 min r4,r1,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0e 4f addabs pc,pc,pc ++ *[0-9a-f]*: f8 0c 0e 4c addabs r12,r12,r12 ++ *[0-9a-f]*: ea 05 0e 45 addabs r5,r5,r5 ++ *[0-9a-f]*: e8 04 0e 44 addabs r4,r4,r4 ++ *[0-9a-f]*: fc 0e 0e 4e addabs lr,lr,lr ++ *[0-9a-f]*: f4 00 0e 47 addabs r7,r10,r0 ++ *[0-9a-f]*: f2 07 0e 49 addabs r9,r9,r7 ++ *[0-9a-f]*: f0 0c 0e 42 addabs r2,r8,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 8f mulnhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 01 bc mulnhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 01 b5 mulnhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 01 84 mulnhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 01 be mulnhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: fa 09 01 ab mulnhh\.w r11,sp:t,r9:b ++ *[0-9a-f]*: e8 0e 01 9d mulnhh\.w sp,r4:b,lr:t ++ *[0-9a-f]*: e4 0b 01 ac mulnhh\.w r12,r2:t,r11:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 80 mulnwh\.d r0,pc,pc:b ++ *[0-9a-f]*: f8 0c 02 9e mulnwh\.d lr,r12,r12:t ++ *[0-9a-f]*: ea 05 02 98 mulnwh\.d r8,r5,r5:t ++ *[0-9a-f]*: e8 04 02 86 mulnwh\.d r6,r4,r4:b ++ *[0-9a-f]*: fc 0e 02 92 mulnwh\.d r2,lr,lr:t ++ *[0-9a-f]*: e6 02 02 9e mulnwh\.d lr,r3,r2:t ++ *[0-9a-f]*: ea 09 02 84 mulnwh\.d r4,r5,r9:b ++ *[0-9a-f]*: e8 04 02 9c mulnwh\.d r12,r4,r4:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 04 8f machh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 04 bc machh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 04 b5 machh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 04 84 machh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 04 be machh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: ea 01 04 9e machh\.w lr,r5:b,r1:t ++ *[0-9a-f]*: ec 07 04 89 machh\.w r9,r6:b,r7:b ++ *[0-9a-f]*: fc 0c 04 a5 machh\.w r5,lr:t,r12:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 05 80 machh\.d r0,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 05 be machh\.d lr,r12:t,r12:t ++ *[0-9a-f]*: ea 05 05 b8 machh\.d r8,r5:t,r5:t ++ *[0-9a-f]*: e8 04 05 86 machh\.d r6,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 05 b2 machh\.d r2,lr:t,lr:t ++ *[0-9a-f]*: e0 08 05 8a machh\.d r10,r0:b,r8:b ++ *[0-9a-f]*: e8 05 05 9e machh\.d lr,r4:b,r5:t ++ *[0-9a-f]*: e0 04 05 98 machh\.d r8,r0:b,r4:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 06 8f macsathh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 06 bc macsathh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 06 b5 macsathh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 06 84 macsathh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 06 be macsathh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: ee 0f 06 b7 macsathh\.w r7,r7:t,pc:t ++ *[0-9a-f]*: e4 04 06 a4 macsathh\.w r4,r2:t,r4:b ++ *[0-9a-f]*: f0 03 06 b4 macsathh\.w r4,r8:t,r3:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 07 8f mulhh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 07 bc mulhh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 07 b5 mulhh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 07 84 mulhh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 07 be mulhh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: e8 09 07 a7 mulhh\.w r7,r4:t,r9:b ++ *[0-9a-f]*: e6 07 07 bf mulhh\.w pc,r3:t,r7:t ++ *[0-9a-f]*: e8 09 07 9f mulhh\.w pc,r4:b,r9:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 08 8f mulsathh\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 08 bc mulsathh\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 08 b5 mulsathh\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 08 84 mulsathh\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 08 be mulsathh\.h lr,lr:t,lr:t ++ *[0-9a-f]*: e2 0d 08 83 mulsathh\.h r3,r1:b,sp:b ++ *[0-9a-f]*: fc 0b 08 ab mulsathh\.h r11,lr:t,r11:b ++ *[0-9a-f]*: f0 0b 08 98 mulsathh\.h r8,r8:b,r11:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 09 8f mulsathh\.w pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 09 bc mulsathh\.w r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 09 b5 mulsathh\.w r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 09 84 mulsathh\.w r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 09 be mulsathh\.w lr,lr:t,lr:t ++ *[0-9a-f]*: f6 06 09 ae mulsathh\.w lr,r11:t,r6:b ++ *[0-9a-f]*: ec 07 09 96 mulsathh\.w r6,r6:b,r7:t ++ *[0-9a-f]*: e4 03 09 8a mulsathh\.w r10,r2:b,r3:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0a 8f mulsatrndhh\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 0a bc mulsatrndhh\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 0a b5 mulsatrndhh\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 0a 84 mulsatrndhh\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 0a be mulsatrndhh\.h lr,lr:t,lr:t ++ *[0-9a-f]*: ec 09 0a 8b mulsatrndhh\.h r11,r6:b,r9:b ++ *[0-9a-f]*: e6 08 0a 9b mulsatrndhh\.h r11,r3:b,r8:t ++ *[0-9a-f]*: fa 07 0a b5 mulsatrndhh\.h r5,sp:t,r7:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0b 8f mulsatrndwh\.w pc,pc,pc:b ++ *[0-9a-f]*: f8 0c 0b 9c mulsatrndwh\.w r12,r12,r12:t ++ *[0-9a-f]*: ea 05 0b 95 mulsatrndwh\.w r5,r5,r5:t ++ *[0-9a-f]*: e8 04 0b 84 mulsatrndwh\.w r4,r4,r4:b ++ *[0-9a-f]*: fc 0e 0b 9e mulsatrndwh\.w lr,lr,lr:t ++ *[0-9a-f]*: f8 00 0b 85 mulsatrndwh\.w r5,r12,r0:b ++ *[0-9a-f]*: f4 0f 0b 87 mulsatrndwh\.w r7,r10,pc:b ++ *[0-9a-f]*: f0 05 0b 9a mulsatrndwh\.w r10,r8,r5:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0c 80 macwh\.d r0,pc,pc:b ++ *[0-9a-f]*: f8 0c 0c 9e macwh\.d lr,r12,r12:t ++ *[0-9a-f]*: ea 05 0c 98 macwh\.d r8,r5,r5:t ++ *[0-9a-f]*: e8 04 0c 86 macwh\.d r6,r4,r4:b ++ *[0-9a-f]*: fc 0e 0c 92 macwh\.d r2,lr,lr:t ++ *[0-9a-f]*: f4 0c 0c 94 macwh\.d r4,r10,r12:t ++ *[0-9a-f]*: ee 0d 0c 84 macwh\.d r4,r7,sp:b ++ *[0-9a-f]*: f2 0b 0c 8e macwh\.d lr,r9,r11:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0d 80 mulwh\.d r0,pc,pc:b ++ *[0-9a-f]*: f8 0c 0d 9e mulwh\.d lr,r12,r12:t ++ *[0-9a-f]*: ea 05 0d 98 mulwh\.d r8,r5,r5:t ++ *[0-9a-f]*: e8 04 0d 86 mulwh\.d r6,r4,r4:b ++ *[0-9a-f]*: fc 0e 0d 92 mulwh\.d r2,lr,lr:t ++ *[0-9a-f]*: ea 01 0d 8c mulwh\.d r12,r5,r1:b ++ *[0-9a-f]*: e2 03 0d 90 mulwh\.d r0,r1,r3:t ++ *[0-9a-f]*: f2 02 0d 80 mulwh\.d r0,r9,r2:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0e 8f mulsatwh\.w pc,pc,pc:b ++ *[0-9a-f]*: f8 0c 0e 9c mulsatwh\.w r12,r12,r12:t ++ *[0-9a-f]*: ea 05 0e 95 mulsatwh\.w r5,r5,r5:t ++ *[0-9a-f]*: e8 04 0e 84 mulsatwh\.w r4,r4,r4:b ++ *[0-9a-f]*: fc 0e 0e 9e mulsatwh\.w lr,lr,lr:t ++ *[0-9a-f]*: fe 0a 0e 9b mulsatwh\.w r11,pc,r10:t ++ *[0-9a-f]*: f8 09 0e 9d mulsatwh\.w sp,r12,r9:t ++ *[0-9a-f]*: e6 02 0e 90 mulsatwh\.w r0,r3,r2:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 0f 8f ld\.w pc,pc\[pc:b<<2\] ++ *[0-9a-f]*: f8 0c 0f bc ld\.w r12,r12\[r12:t<<2\] ++ *[0-9a-f]*: ea 05 0f a5 ld\.w r5,r5\[r5:u<<2\] ++ *[0-9a-f]*: e8 04 0f 94 ld\.w r4,r4\[r4:l<<2\] ++ *[0-9a-f]*: fc 0e 0f 9e ld\.w lr,lr\[lr:l<<2\] ++ *[0-9a-f]*: f4 06 0f 99 ld\.w r9,r10\[r6:l<<2\] ++ *[0-9a-f]*: f4 0a 0f 82 ld\.w r2,r10\[r10:b<<2\] ++ *[0-9a-f]*: ea 0f 0f 8b ld\.w r11,r5\[pc:b<<2\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 00 cf satadd\.w pc,pc,pc ++ *[0-9a-f]*: f8 0c 00 cc satadd\.w r12,r12,r12 ++ *[0-9a-f]*: ea 05 00 c5 satadd\.w r5,r5,r5 ++ *[0-9a-f]*: e8 04 00 c4 satadd\.w r4,r4,r4 ++ *[0-9a-f]*: fc 0e 00 ce satadd\.w lr,lr,lr ++ *[0-9a-f]*: f0 0b 00 c4 satadd\.w r4,r8,r11 ++ *[0-9a-f]*: f8 06 00 c3 satadd\.w r3,r12,r6 ++ *[0-9a-f]*: fc 09 00 c3 satadd\.w r3,lr,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 01 cf satsub\.w pc,pc,pc ++ *[0-9a-f]*: f8 0c 01 cc satsub\.w r12,r12,r12 ++ *[0-9a-f]*: ea 05 01 c5 satsub\.w r5,r5,r5 ++ *[0-9a-f]*: e8 04 01 c4 satsub\.w r4,r4,r4 ++ *[0-9a-f]*: fc 0e 01 ce satsub\.w lr,lr,lr ++ *[0-9a-f]*: fa 00 01 c8 satsub\.w r8,sp,r0 ++ *[0-9a-f]*: f0 04 01 c9 satsub\.w r9,r8,r4 ++ *[0-9a-f]*: fc 02 01 cf satsub\.w pc,lr,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 02 cf satadd\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 02 cc satadd\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 02 c5 satadd\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 02 c4 satadd\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 02 ce satadd\.h lr,lr,lr ++ *[0-9a-f]*: e6 09 02 c7 satadd\.h r7,r3,r9 ++ *[0-9a-f]*: e0 02 02 c1 satadd\.h r1,r0,r2 ++ *[0-9a-f]*: e8 0e 02 c1 satadd\.h r1,r4,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 03 cf satsub\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 03 cc satsub\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 03 c5 satsub\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 03 c4 satsub\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 03 ce satsub\.h lr,lr,lr ++ *[0-9a-f]*: fc 03 03 ce satsub\.h lr,lr,r3 ++ *[0-9a-f]*: ec 05 03 cb satsub\.h r11,r6,r5 ++ *[0-9a-f]*: fa 00 03 c3 satsub\.h r3,sp,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 10 00 mul pc,pc,0 ++ *[0-9a-f]*: f8 0c 10 ff mul r12,r12,-1 ++ *[0-9a-f]*: ea 05 10 80 mul r5,r5,-128 ++ *[0-9a-f]*: e8 04 10 7f mul r4,r4,127 ++ *[0-9a-f]*: fc 0e 10 01 mul lr,lr,1 ++ *[0-9a-f]*: e4 0c 10 f9 mul r12,r2,-7 ++ *[0-9a-f]*: fe 01 10 5f mul r1,pc,95 ++ *[0-9a-f]*: ec 04 10 13 mul r4,r6,19 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 11 00 rsub pc,pc,0 ++ *[0-9a-f]*: f8 0c 11 ff rsub r12,r12,-1 ++ *[0-9a-f]*: ea 05 11 80 rsub r5,r5,-128 ++ *[0-9a-f]*: e8 04 11 7f rsub r4,r4,127 ++ *[0-9a-f]*: fc 0e 11 01 rsub lr,lr,1 ++ *[0-9a-f]*: fc 09 11 60 rsub r9,lr,96 ++ *[0-9a-f]*: e2 0b 11 38 rsub r11,r1,56 ++ *[0-9a-f]*: ee 00 11 a9 rsub r0,r7,-87 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 12 00 clz pc,pc ++ *[0-9a-f]*: f8 0c 12 00 clz r12,r12 ++ *[0-9a-f]*: ea 05 12 00 clz r5,r5 ++ *[0-9a-f]*: e8 04 12 00 clz r4,r4 ++ *[0-9a-f]*: fc 0e 12 00 clz lr,lr ++ *[0-9a-f]*: e6 02 12 00 clz r2,r3 ++ *[0-9a-f]*: f6 05 12 00 clz r5,r11 ++ *[0-9a-f]*: e6 0f 12 00 clz pc,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 13 00 cpc pc,pc ++ *[0-9a-f]*: f8 0c 13 00 cpc r12,r12 ++ *[0-9a-f]*: ea 05 13 00 cpc r5,r5 ++ *[0-9a-f]*: e8 04 13 00 cpc r4,r4 ++ *[0-9a-f]*: fc 0e 13 00 cpc lr,lr ++ *[0-9a-f]*: e8 0f 13 00 cpc pc,r4 ++ *[0-9a-f]*: f2 05 13 00 cpc r5,r9 ++ *[0-9a-f]*: ee 06 13 00 cpc r6,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 14 00 asr pc,pc,0x0 ++ *[0-9a-f]*: f8 0c 14 1f asr r12,r12,0x1f ++ *[0-9a-f]*: ea 05 14 10 asr r5,r5,0x10 ++ *[0-9a-f]*: e8 04 14 0f asr r4,r4,0xf ++ *[0-9a-f]*: fc 0e 14 01 asr lr,lr,0x1 ++ *[0-9a-f]*: f6 04 14 13 asr r4,r11,0x13 ++ *[0-9a-f]*: fe 0d 14 1a asr sp,pc,0x1a ++ *[0-9a-f]*: fa 0b 14 08 asr r11,sp,0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 15 00 lsl pc,pc,0x0 ++ *[0-9a-f]*: f8 0c 15 1f lsl r12,r12,0x1f ++ *[0-9a-f]*: ea 05 15 10 lsl r5,r5,0x10 ++ *[0-9a-f]*: e8 04 15 0f lsl r4,r4,0xf ++ *[0-9a-f]*: fc 0e 15 01 lsl lr,lr,0x1 ++ *[0-9a-f]*: f4 08 15 11 lsl r8,r10,0x11 ++ *[0-9a-f]*: fc 02 15 03 lsl r2,lr,0x3 ++ *[0-9a-f]*: f6 0e 15 0e lsl lr,r11,0xe ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 16 00 lsr pc,pc,0x0 ++ *[0-9a-f]*: f8 0c 16 1f lsr r12,r12,0x1f ++ *[0-9a-f]*: ea 05 16 10 lsr r5,r5,0x10 ++ *[0-9a-f]*: e8 04 16 0f lsr r4,r4,0xf ++ *[0-9a-f]*: fc 0e 16 01 lsr lr,lr,0x1 ++ *[0-9a-f]*: e6 04 16 1f lsr r4,r3,0x1f ++ *[0-9a-f]*: f2 0f 16 0e lsr pc,r9,0xe ++ *[0-9a-f]*: e0 03 16 06 lsr r3,r0,0x6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 17 00 moveq pc,pc ++ *[0-9a-f]*: f8 0c 17 f0 moval r12,r12 ++ *[0-9a-f]*: ea 05 17 80 movls r5,r5 ++ *[0-9a-f]*: e8 04 17 70 movpl r4,r4 ++ *[0-9a-f]*: fc 0e 17 10 movne lr,lr ++ *[0-9a-f]*: f6 0f 17 10 movne pc,r11 ++ *[0-9a-f]*: e4 0a 17 60 movmi r10,r2 ++ *[0-9a-f]*: f8 08 17 80 movls r8,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 0f padd\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 0c padd\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 05 padd\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 04 padd\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 0e padd\.h lr,lr,lr ++ *[0-9a-f]*: e4 07 20 08 padd\.h r8,r2,r7 ++ *[0-9a-f]*: e0 03 20 00 padd\.h r0,r0,r3 ++ *[0-9a-f]*: f6 06 20 0d padd\.h sp,r11,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 1f psub\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 1c psub\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 15 psub\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 14 psub\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 1e psub\.h lr,lr,lr ++ *[0-9a-f]*: ec 08 20 1e psub\.h lr,r6,r8 ++ *[0-9a-f]*: e2 0d 20 10 psub\.h r0,r1,sp ++ *[0-9a-f]*: fe 0d 20 1f psub\.h pc,pc,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 2f paddx\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 2c paddx\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 25 paddx\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 24 paddx\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 2e paddx\.h lr,lr,lr ++ *[0-9a-f]*: fe 01 20 2f paddx\.h pc,pc,r1 ++ *[0-9a-f]*: e8 05 20 2a paddx\.h r10,r4,r5 ++ *[0-9a-f]*: fe 02 20 25 paddx\.h r5,pc,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 3f psubx\.h pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 3c psubx\.h r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 35 psubx\.h r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 34 psubx\.h r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 3e psubx\.h lr,lr,lr ++ *[0-9a-f]*: f8 05 20 35 psubx\.h r5,r12,r5 ++ *[0-9a-f]*: f0 03 20 33 psubx\.h r3,r8,r3 ++ *[0-9a-f]*: e4 03 20 35 psubx\.h r5,r2,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 4f padds\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 4c padds\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 45 padds\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 44 padds\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 4e padds\.sh lr,lr,lr ++ *[0-9a-f]*: fc 02 20 49 padds\.sh r9,lr,r2 ++ *[0-9a-f]*: f0 01 20 46 padds\.sh r6,r8,r1 ++ *[0-9a-f]*: e8 0a 20 46 padds\.sh r6,r4,r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 5f psubs\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 5c psubs\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 55 psubs\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 54 psubs\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 5e psubs\.sh lr,lr,lr ++ *[0-9a-f]*: fc 0b 20 56 psubs\.sh r6,lr,r11 ++ *[0-9a-f]*: f8 04 20 52 psubs\.sh r2,r12,r4 ++ *[0-9a-f]*: f2 00 20 50 psubs\.sh r0,r9,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 6f paddxs\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 6c paddxs\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 65 paddxs\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 64 paddxs\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 6e paddxs\.sh lr,lr,lr ++ *[0-9a-f]*: e6 09 20 60 paddxs\.sh r0,r3,r9 ++ *[0-9a-f]*: f4 0b 20 6f paddxs\.sh pc,r10,r11 ++ *[0-9a-f]*: f4 0f 20 6f paddxs\.sh pc,r10,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 7f psubxs\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 7c psubxs\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 75 psubxs\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 74 psubxs\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 7e psubxs\.sh lr,lr,lr ++ *[0-9a-f]*: e8 04 20 77 psubxs\.sh r7,r4,r4 ++ *[0-9a-f]*: f0 03 20 77 psubxs\.sh r7,r8,r3 ++ *[0-9a-f]*: ec 05 20 7f psubxs\.sh pc,r6,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 8f padds\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 8c padds\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 85 padds\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 84 padds\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 8e padds\.uh lr,lr,lr ++ *[0-9a-f]*: f6 07 20 8c padds\.uh r12,r11,r7 ++ *[0-9a-f]*: f0 0e 20 87 padds\.uh r7,r8,lr ++ *[0-9a-f]*: f2 07 20 86 padds\.uh r6,r9,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 9f psubs\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 9c psubs\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 95 psubs\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 94 psubs\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 9e psubs\.uh lr,lr,lr ++ *[0-9a-f]*: f4 06 20 9e psubs\.uh lr,r10,r6 ++ *[0-9a-f]*: e4 0f 20 9d psubs\.uh sp,r2,pc ++ *[0-9a-f]*: f2 02 20 92 psubs\.uh r2,r9,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 af paddxs\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 ac paddxs\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 a5 paddxs\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 a4 paddxs\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 ae paddxs\.uh lr,lr,lr ++ *[0-9a-f]*: f2 05 20 a7 paddxs\.uh r7,r9,r5 ++ *[0-9a-f]*: e2 04 20 a9 paddxs\.uh r9,r1,r4 ++ *[0-9a-f]*: e4 03 20 a5 paddxs\.uh r5,r2,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 bf psubxs\.uh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 bc psubxs\.uh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 b5 psubxs\.uh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 b4 psubxs\.uh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 be psubxs\.uh lr,lr,lr ++ *[0-9a-f]*: ea 0d 20 bd psubxs\.uh sp,r5,sp ++ *[0-9a-f]*: ec 06 20 bd psubxs\.uh sp,r6,r6 ++ *[0-9a-f]*: f6 08 20 b3 psubxs\.uh r3,r11,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 cf paddh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 cc paddh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 c5 paddh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 c4 paddh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 ce paddh\.sh lr,lr,lr ++ *[0-9a-f]*: fa 03 20 cc paddh\.sh r12,sp,r3 ++ *[0-9a-f]*: ea 03 20 cf paddh\.sh pc,r5,r3 ++ *[0-9a-f]*: f0 0d 20 c8 paddh\.sh r8,r8,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 df psubh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 dc psubh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 d5 psubh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 d4 psubh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 de psubh\.sh lr,lr,lr ++ *[0-9a-f]*: ea 08 20 d1 psubh\.sh r1,r5,r8 ++ *[0-9a-f]*: e6 06 20 d7 psubh\.sh r7,r3,r6 ++ *[0-9a-f]*: e6 03 20 d4 psubh\.sh r4,r3,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 ef paddxh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 ec paddxh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 e5 paddxh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 e4 paddxh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 ee paddxh\.sh lr,lr,lr ++ *[0-9a-f]*: e0 04 20 e6 paddxh\.sh r6,r0,r4 ++ *[0-9a-f]*: f0 09 20 e9 paddxh\.sh r9,r8,r9 ++ *[0-9a-f]*: e0 0d 20 e3 paddxh\.sh r3,r0,sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 20 ff psubxh\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 20 fc psubxh\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 20 f5 psubxh\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 20 f4 psubxh\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 20 fe psubxh\.sh lr,lr,lr ++ *[0-9a-f]*: fe 0c 20 f4 psubxh\.sh r4,pc,r12 ++ *[0-9a-f]*: e8 06 20 f8 psubxh\.sh r8,r4,r6 ++ *[0-9a-f]*: f2 04 20 fc psubxh\.sh r12,r9,r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 0f paddsub\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 3c paddsub\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 35 paddsub\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 04 paddsub\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 3e paddsub\.h lr,lr:t,lr:t ++ *[0-9a-f]*: e4 0e 21 25 paddsub\.h r5,r2:t,lr:b ++ *[0-9a-f]*: e2 08 21 07 paddsub\.h r7,r1:b,r8:b ++ *[0-9a-f]*: f4 05 21 36 paddsub\.h r6,r10:t,r5:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 4f psubadd\.h pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 7c psubadd\.h r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 75 psubadd\.h r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 44 psubadd\.h r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 7e psubadd\.h lr,lr:t,lr:t ++ *[0-9a-f]*: f6 08 21 79 psubadd\.h r9,r11:t,r8:t ++ *[0-9a-f]*: ee 0e 21 7a psubadd\.h r10,r7:t,lr:t ++ *[0-9a-f]*: fe 0f 21 66 psubadd\.h r6,pc:t,pc:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 8f paddsubs\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 bc paddsubs\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 b5 paddsubs\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 84 paddsubs\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 be paddsubs\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: fc 00 21 a0 paddsubs\.sh r0,lr:t,r0:b ++ *[0-9a-f]*: e4 04 21 b9 paddsubs\.sh r9,r2:t,r4:t ++ *[0-9a-f]*: f2 0d 21 bc paddsubs\.sh r12,r9:t,sp:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 21 cf psubadds\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 21 fc psubadds\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 21 f5 psubadds\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 21 c4 psubadds\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 21 fe psubadds\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: fc 01 21 df psubadds\.sh pc,lr:b,r1:t ++ *[0-9a-f]*: e6 0c 21 cb psubadds\.sh r11,r3:b,r12:b ++ *[0-9a-f]*: e4 08 21 fa psubadds\.sh r10,r2:t,r8:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 0f paddsubs\.uh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 3c paddsubs\.uh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 35 paddsubs\.uh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 04 paddsubs\.uh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 3e paddsubs\.uh lr,lr:t,lr:t ++ *[0-9a-f]*: e4 03 22 09 paddsubs\.uh r9,r2:b,r3:b ++ *[0-9a-f]*: fa 07 22 1d paddsubs\.uh sp,sp:b,r7:t ++ *[0-9a-f]*: e0 0a 22 1e paddsubs\.uh lr,r0:b,r10:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 4f psubadds\.uh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 7c psubadds\.uh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 75 psubadds\.uh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 44 psubadds\.uh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 7e psubadds\.uh lr,lr:t,lr:t ++ *[0-9a-f]*: f2 0f 22 7c psubadds\.uh r12,r9:t,pc:t ++ *[0-9a-f]*: ec 08 22 48 psubadds\.uh r8,r6:b,r8:b ++ *[0-9a-f]*: f0 04 22 48 psubadds\.uh r8,r8:b,r4:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 8f paddsubh\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 bc paddsubh\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 b5 paddsubh\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 84 paddsubh\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 be paddsubh\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: f2 09 22 a8 paddsubh\.sh r8,r9:t,r9:b ++ *[0-9a-f]*: fa 01 22 b0 paddsubh\.sh r0,sp:t,r1:t ++ *[0-9a-f]*: e2 00 22 93 paddsubh\.sh r3,r1:b,r0:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 22 cf psubaddh\.sh pc,pc:b,pc:b ++ *[0-9a-f]*: f8 0c 22 fc psubaddh\.sh r12,r12:t,r12:t ++ *[0-9a-f]*: ea 05 22 f5 psubaddh\.sh r5,r5:t,r5:t ++ *[0-9a-f]*: e8 04 22 c4 psubaddh\.sh r4,r4:b,r4:b ++ *[0-9a-f]*: fc 0e 22 fe psubaddh\.sh lr,lr:t,lr:t ++ *[0-9a-f]*: e6 0a 22 e7 psubaddh\.sh r7,r3:t,r10:b ++ *[0-9a-f]*: e4 01 22 f7 psubaddh\.sh r7,r2:t,r1:t ++ *[0-9a-f]*: e6 06 22 cb psubaddh\.sh r11,r3:b,r6:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 0f padd\.b pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 0c padd\.b r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 05 padd\.b r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 04 padd\.b r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 0e padd\.b lr,lr,lr ++ *[0-9a-f]*: ec 0f 23 02 padd\.b r2,r6,pc ++ *[0-9a-f]*: f2 0c 23 08 padd\.b r8,r9,r12 ++ *[0-9a-f]*: f8 03 23 05 padd\.b r5,r12,r3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 1f psub\.b pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 1c psub\.b r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 15 psub\.b r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 14 psub\.b r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 1e psub\.b lr,lr,lr ++ *[0-9a-f]*: f8 0f 23 10 psub\.b r0,r12,pc ++ *[0-9a-f]*: fa 0a 23 17 psub\.b r7,sp,r10 ++ *[0-9a-f]*: fa 0c 23 15 psub\.b r5,sp,r12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 2f padds\.sb pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 2c padds\.sb r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 25 padds\.sb r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 24 padds\.sb r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 2e padds\.sb lr,lr,lr ++ *[0-9a-f]*: f6 04 23 2d padds\.sb sp,r11,r4 ++ *[0-9a-f]*: f4 0b 23 2b padds\.sb r11,r10,r11 ++ *[0-9a-f]*: f8 06 23 25 padds\.sb r5,r12,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 3f psubs\.sb pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 3c psubs\.sb r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 35 psubs\.sb r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 34 psubs\.sb r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 3e psubs\.sb lr,lr,lr ++ *[0-9a-f]*: ec 08 23 37 psubs\.sb r7,r6,r8 ++ *[0-9a-f]*: f4 09 23 3c psubs\.sb r12,r10,r9 ++ *[0-9a-f]*: f6 00 23 3f psubs\.sb pc,r11,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 4f padds\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 4c padds\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 45 padds\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 44 padds\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 4e padds\.ub lr,lr,lr ++ *[0-9a-f]*: e4 0b 23 43 padds\.ub r3,r2,r11 ++ *[0-9a-f]*: f0 01 23 4a padds\.ub r10,r8,r1 ++ *[0-9a-f]*: f0 0a 23 4b padds\.ub r11,r8,r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 5f psubs\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 5c psubs\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 55 psubs\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 54 psubs\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 5e psubs\.ub lr,lr,lr ++ *[0-9a-f]*: e4 07 23 50 psubs\.ub r0,r2,r7 ++ *[0-9a-f]*: ea 03 23 5e psubs\.ub lr,r5,r3 ++ *[0-9a-f]*: ee 09 23 56 psubs\.ub r6,r7,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 6f paddh\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 6c paddh\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 65 paddh\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 64 paddh\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 6e paddh\.ub lr,lr,lr ++ *[0-9a-f]*: e2 00 23 6e paddh\.ub lr,r1,r0 ++ *[0-9a-f]*: ee 07 23 62 paddh\.ub r2,r7,r7 ++ *[0-9a-f]*: e2 02 23 62 paddh\.ub r2,r1,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 7f psubh\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 7c psubh\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 75 psubh\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 74 psubh\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 7e psubh\.ub lr,lr,lr ++ *[0-9a-f]*: e2 06 23 70 psubh\.ub r0,r1,r6 ++ *[0-9a-f]*: fc 0a 23 74 psubh\.ub r4,lr,r10 ++ *[0-9a-f]*: f0 01 23 79 psubh\.ub r9,r8,r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 8f pmax\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 8c pmax\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 85 pmax\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 84 pmax\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 8e pmax\.ub lr,lr,lr ++ *[0-9a-f]*: e4 0b 23 8f pmax\.ub pc,r2,r11 ++ *[0-9a-f]*: e2 01 23 8c pmax\.ub r12,r1,r1 ++ *[0-9a-f]*: e4 00 23 85 pmax\.ub r5,r2,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 9f pmax\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 9c pmax\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 95 pmax\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 94 pmax\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 9e pmax\.sh lr,lr,lr ++ *[0-9a-f]*: ec 0c 23 9e pmax\.sh lr,r6,r12 ++ *[0-9a-f]*: fe 05 23 92 pmax\.sh r2,pc,r5 ++ *[0-9a-f]*: e4 07 23 9f pmax\.sh pc,r2,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 af pmin\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 ac pmin\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 a5 pmin\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 a4 pmin\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 ae pmin\.ub lr,lr,lr ++ *[0-9a-f]*: e2 05 23 a8 pmin\.ub r8,r1,r5 ++ *[0-9a-f]*: f0 03 23 a1 pmin\.ub r1,r8,r3 ++ *[0-9a-f]*: e4 07 23 a0 pmin\.ub r0,r2,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 bf pmin\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 bc pmin\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 b5 pmin\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 b4 pmin\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 be pmin\.sh lr,lr,lr ++ *[0-9a-f]*: e8 0a 23 b8 pmin\.sh r8,r4,r10 ++ *[0-9a-f]*: f4 0c 23 be pmin\.sh lr,r10,r12 ++ *[0-9a-f]*: ec 02 23 b2 pmin\.sh r2,r6,r2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 cf pavg\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 cc pavg\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 c5 pavg\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 c4 pavg\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 ce pavg\.ub lr,lr,lr ++ *[0-9a-f]*: e2 06 23 c0 pavg\.ub r0,r1,r6 ++ *[0-9a-f]*: e6 06 23 c8 pavg\.ub r8,r3,r6 ++ *[0-9a-f]*: f8 0a 23 cf pavg\.ub pc,r12,r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 23 df pavg\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 23 dc pavg\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 23 d5 pavg\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 23 d4 pavg\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 23 de pavg\.sh lr,lr,lr ++ *[0-9a-f]*: fe 0d 23 d9 pavg\.sh r9,pc,sp ++ *[0-9a-f]*: fa 03 23 df pavg\.sh pc,sp,r3 ++ *[0-9a-f]*: e2 09 23 d6 pavg\.sh r6,r1,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 23 ef pabs\.sb pc,pc ++ *[0-9a-f]*: e0 0c 23 ec pabs\.sb r12,r12 ++ *[0-9a-f]*: e0 05 23 e5 pabs\.sb r5,r5 ++ *[0-9a-f]*: e0 04 23 e4 pabs\.sb r4,r4 ++ *[0-9a-f]*: e0 0e 23 ee pabs\.sb lr,lr ++ *[0-9a-f]*: e0 06 23 eb pabs\.sb r11,r6 ++ *[0-9a-f]*: e0 09 23 ee pabs\.sb lr,r9 ++ *[0-9a-f]*: e0 07 23 ed pabs\.sb sp,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 23 ff pabs\.sh pc,pc ++ *[0-9a-f]*: e0 0c 23 fc pabs\.sh r12,r12 ++ *[0-9a-f]*: e0 05 23 f5 pabs\.sh r5,r5 ++ *[0-9a-f]*: e0 04 23 f4 pabs\.sh r4,r4 ++ *[0-9a-f]*: e0 0e 23 fe pabs\.sh lr,lr ++ *[0-9a-f]*: e0 03 23 ff pabs\.sh pc,r3 ++ *[0-9a-f]*: e0 07 23 f5 pabs\.sh r5,r7 ++ *[0-9a-f]*: e0 00 23 f4 pabs\.sh r4,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 0f psad pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 0c psad r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 05 psad r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 04 psad r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 0e psad lr,lr,lr ++ *[0-9a-f]*: f6 0b 24 09 psad r9,r11,r11 ++ *[0-9a-f]*: e8 0d 24 0e psad lr,r4,sp ++ *[0-9a-f]*: e8 05 24 0e psad lr,r4,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 1f pasr\.b pc,pc,0x0 ++ *[0-9a-f]*: f8 07 24 1c pasr\.b r12,r12,0x7 ++ *[0-9a-f]*: ea 04 24 15 pasr\.b r5,r5,0x4 ++ *[0-9a-f]*: e8 03 24 14 pasr\.b r4,r4,0x3 ++ *[0-9a-f]*: fc 01 24 1e pasr\.b lr,lr,0x1 ++ *[0-9a-f]*: ee 01 24 1f pasr\.b pc,r7,0x1 ++ *[0-9a-f]*: fc 06 24 1d pasr\.b sp,lr,0x6 ++ *[0-9a-f]*: e6 02 24 1d pasr\.b sp,r3,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 2f plsl\.b pc,pc,0x0 ++ *[0-9a-f]*: f8 07 24 2c plsl\.b r12,r12,0x7 ++ *[0-9a-f]*: ea 04 24 25 plsl\.b r5,r5,0x4 ++ *[0-9a-f]*: e8 03 24 24 plsl\.b r4,r4,0x3 ++ *[0-9a-f]*: fc 01 24 2e plsl\.b lr,lr,0x1 ++ *[0-9a-f]*: f6 04 24 22 plsl\.b r2,r11,0x4 ++ *[0-9a-f]*: ea 07 24 28 plsl\.b r8,r5,0x7 ++ *[0-9a-f]*: e0 02 24 2f plsl\.b pc,r0,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 3f plsr\.b pc,pc,0x0 ++ *[0-9a-f]*: f8 07 24 3c plsr\.b r12,r12,0x7 ++ *[0-9a-f]*: ea 04 24 35 plsr\.b r5,r5,0x4 ++ *[0-9a-f]*: e8 03 24 34 plsr\.b r4,r4,0x3 ++ *[0-9a-f]*: fc 01 24 3e plsr\.b lr,lr,0x1 ++ *[0-9a-f]*: e2 02 24 3c plsr\.b r12,r1,0x2 ++ *[0-9a-f]*: fe 07 24 36 plsr\.b r6,pc,0x7 ++ *[0-9a-f]*: f6 02 24 3c plsr\.b r12,r11,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 4f pasr\.h pc,pc,0x0 ++ *[0-9a-f]*: f8 0f 24 4c pasr\.h r12,r12,0xf ++ *[0-9a-f]*: ea 08 24 45 pasr\.h r5,r5,0x8 ++ *[0-9a-f]*: e8 07 24 44 pasr\.h r4,r4,0x7 ++ *[0-9a-f]*: fc 01 24 4e pasr\.h lr,lr,0x1 ++ *[0-9a-f]*: f6 0a 24 40 pasr\.h r0,r11,0xa ++ *[0-9a-f]*: ec 08 24 44 pasr\.h r4,r6,0x8 ++ *[0-9a-f]*: e4 04 24 46 pasr\.h r6,r2,0x4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 5f plsl\.h pc,pc,0x0 ++ *[0-9a-f]*: f8 0f 24 5c plsl\.h r12,r12,0xf ++ *[0-9a-f]*: ea 08 24 55 plsl\.h r5,r5,0x8 ++ *[0-9a-f]*: e8 07 24 54 plsl\.h r4,r4,0x7 ++ *[0-9a-f]*: fc 01 24 5e plsl\.h lr,lr,0x1 ++ *[0-9a-f]*: f4 09 24 55 plsl\.h r5,r10,0x9 ++ *[0-9a-f]*: fc 08 24 5d plsl\.h sp,lr,0x8 ++ *[0-9a-f]*: fc 07 24 50 plsl\.h r0,lr,0x7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 6f plsr\.h pc,pc,0x0 ++ *[0-9a-f]*: f8 0f 24 6c plsr\.h r12,r12,0xf ++ *[0-9a-f]*: ea 08 24 65 plsr\.h r5,r5,0x8 ++ *[0-9a-f]*: e8 07 24 64 plsr\.h r4,r4,0x7 ++ *[0-9a-f]*: fc 01 24 6e plsr\.h lr,lr,0x1 ++ *[0-9a-f]*: e0 0f 24 6b plsr\.h r11,r0,0xf ++ *[0-9a-f]*: e6 03 24 6e plsr\.h lr,r3,0x3 ++ *[0-9a-f]*: fc 0a 24 68 plsr\.h r8,lr,0xa ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 7f packw\.sh pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 7c packw\.sh r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 75 packw\.sh r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 74 packw\.sh r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 7e packw\.sh lr,lr,lr ++ *[0-9a-f]*: f6 0a 24 7d packw\.sh sp,r11,r10 ++ *[0-9a-f]*: e4 0c 24 78 packw\.sh r8,r2,r12 ++ *[0-9a-f]*: e2 05 24 78 packw\.sh r8,r1,r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 8f punpckub\.h pc,pc:b ++ *[0-9a-f]*: f8 00 24 9c punpckub\.h r12,r12:t ++ *[0-9a-f]*: ea 00 24 95 punpckub\.h r5,r5:t ++ *[0-9a-f]*: e8 00 24 84 punpckub\.h r4,r4:b ++ *[0-9a-f]*: fc 00 24 9e punpckub\.h lr,lr:t ++ *[0-9a-f]*: e2 00 24 96 punpckub\.h r6,r1:t ++ *[0-9a-f]*: ea 00 24 8e punpckub\.h lr,r5:b ++ *[0-9a-f]*: e4 00 24 9e punpckub\.h lr,r2:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 00 24 af punpcksb\.h pc,pc:b ++ *[0-9a-f]*: f8 00 24 bc punpcksb\.h r12,r12:t ++ *[0-9a-f]*: ea 00 24 b5 punpcksb\.h r5,r5:t ++ *[0-9a-f]*: e8 00 24 a4 punpcksb\.h r4,r4:b ++ *[0-9a-f]*: fc 00 24 be punpcksb\.h lr,lr:t ++ *[0-9a-f]*: ee 00 24 b4 punpcksb\.h r4,r7:t ++ *[0-9a-f]*: fc 00 24 a6 punpcksb\.h r6,lr:b ++ *[0-9a-f]*: f8 00 24 bc punpcksb\.h r12,r12:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 cf packsh\.ub pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 cc packsh\.ub r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 c5 packsh\.ub r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 c4 packsh\.ub r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 ce packsh\.ub lr,lr,lr ++ *[0-9a-f]*: ec 03 24 c3 packsh\.ub r3,r6,r3 ++ *[0-9a-f]*: e0 03 24 c8 packsh\.ub r8,r0,r3 ++ *[0-9a-f]*: e6 0e 24 c9 packsh\.ub r9,r3,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe 0f 24 df packsh\.sb pc,pc,pc ++ *[0-9a-f]*: f8 0c 24 dc packsh\.sb r12,r12,r12 ++ *[0-9a-f]*: ea 05 24 d5 packsh\.sb r5,r5,r5 ++ *[0-9a-f]*: e8 04 24 d4 packsh\.sb r4,r4,r4 ++ *[0-9a-f]*: fc 0e 24 de packsh\.sb lr,lr,lr ++ *[0-9a-f]*: f0 01 24 d6 packsh\.sb r6,r8,r1 ++ *[0-9a-f]*: f2 08 24 de packsh\.sb lr,r9,r8 ++ *[0-9a-f]*: ec 06 24 dd packsh\.sb sp,r6,r6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 1f 00 00 andl pc,0x0 ++ *[0-9a-f]*: e0 1c ff ff andl r12,0xffff ++ *[0-9a-f]*: e0 15 80 00 andl r5,0x8000 ++ *[0-9a-f]*: e0 14 7f ff andl r4,0x7fff ++ *[0-9a-f]*: e0 1e 00 01 andl lr,0x1 ++ *[0-9a-f]*: e0 1f 5a 58 andl pc,0x5a58 ++ *[0-9a-f]*: e0 18 b8 9e andl r8,0xb89e ++ *[0-9a-f]*: e0 17 35 97 andl r7,0x3597 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e2 1f 00 00 andl pc,0x0,COH ++ *[0-9a-f]*: e2 1c ff ff andl r12,0xffff,COH ++ *[0-9a-f]*: e2 15 80 00 andl r5,0x8000,COH ++ *[0-9a-f]*: e2 14 7f ff andl r4,0x7fff,COH ++ *[0-9a-f]*: e2 1e 00 01 andl lr,0x1,COH ++ *[0-9a-f]*: e2 16 58 e1 andl r6,0x58e1,COH ++ *[0-9a-f]*: e2 10 9e cd andl r0,0x9ecd,COH ++ *[0-9a-f]*: e2 14 bd c4 andl r4,0xbdc4,COH ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e4 1f 00 00 andh pc,0x0 ++ *[0-9a-f]*: e4 1c ff ff andh r12,0xffff ++ *[0-9a-f]*: e4 15 80 00 andh r5,0x8000 ++ *[0-9a-f]*: e4 14 7f ff andh r4,0x7fff ++ *[0-9a-f]*: e4 1e 00 01 andh lr,0x1 ++ *[0-9a-f]*: e4 1c cc 58 andh r12,0xcc58 ++ *[0-9a-f]*: e4 13 21 e3 andh r3,0x21e3 ++ *[0-9a-f]*: e4 12 a7 eb andh r2,0xa7eb ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e6 1f 00 00 andh pc,0x0,COH ++ *[0-9a-f]*: e6 1c ff ff andh r12,0xffff,COH ++ *[0-9a-f]*: e6 15 80 00 andh r5,0x8000,COH ++ *[0-9a-f]*: e6 14 7f ff andh r4,0x7fff,COH ++ *[0-9a-f]*: e6 1e 00 01 andh lr,0x1,COH ++ *[0-9a-f]*: e6 1b 86 0d andh r11,0x860d,COH ++ *[0-9a-f]*: e6 18 ce f6 andh r8,0xcef6,COH ++ *[0-9a-f]*: e6 1a 5c 83 andh r10,0x5c83,COH ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e8 1f 00 00 orl pc,0x0 ++ *[0-9a-f]*: e8 1c ff ff orl r12,0xffff ++ *[0-9a-f]*: e8 15 80 00 orl r5,0x8000 ++ *[0-9a-f]*: e8 14 7f ff orl r4,0x7fff ++ *[0-9a-f]*: e8 1e 00 01 orl lr,0x1 ++ *[0-9a-f]*: e8 1d 41 7e orl sp,0x417e ++ *[0-9a-f]*: e8 10 52 bd orl r0,0x52bd ++ *[0-9a-f]*: e8 1f ac 47 orl pc,0xac47 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ea 1f 00 00 orh pc,0x0 ++ *[0-9a-f]*: ea 1c ff ff orh r12,0xffff ++ *[0-9a-f]*: ea 15 80 00 orh r5,0x8000 ++ *[0-9a-f]*: ea 14 7f ff orh r4,0x7fff ++ *[0-9a-f]*: ea 1e 00 01 orh lr,0x1 ++ *[0-9a-f]*: ea 18 6e 7d orh r8,0x6e7d ++ *[0-9a-f]*: ea 1c 77 1c orh r12,0x771c ++ *[0-9a-f]*: ea 11 ea 1a orh r1,0xea1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ec 1f 00 00 eorl pc,0x0 ++ *[0-9a-f]*: ec 1c ff ff eorl r12,0xffff ++ *[0-9a-f]*: ec 15 80 00 eorl r5,0x8000 ++ *[0-9a-f]*: ec 14 7f ff eorl r4,0x7fff ++ *[0-9a-f]*: ec 1e 00 01 eorl lr,0x1 ++ *[0-9a-f]*: ec 14 c7 b9 eorl r4,0xc7b9 ++ *[0-9a-f]*: ec 16 fb dd eorl r6,0xfbdd ++ *[0-9a-f]*: ec 11 51 b1 eorl r1,0x51b1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ee 1f 00 00 eorh pc,0x0 ++ *[0-9a-f]*: ee 1c ff ff eorh r12,0xffff ++ *[0-9a-f]*: ee 15 80 00 eorh r5,0x8000 ++ *[0-9a-f]*: ee 14 7f ff eorh r4,0x7fff ++ *[0-9a-f]*: ee 1e 00 01 eorh lr,0x1 ++ *[0-9a-f]*: ee 10 2d d4 eorh r0,0x2dd4 ++ *[0-9a-f]*: ee 1a 94 b5 eorh r10,0x94b5 ++ *[0-9a-f]*: ee 19 df 2a eorh r9,0xdf2a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f0 1f 00 00 mcall [0-9a-f]* <.*> ++ *[0-9a-f]*: f0 1c ff ff mcall r12\[-4\] ++ *[0-9a-f]*: f0 15 80 00 mcall r5\[-131072\] ++ *[0-9a-f]*: f0 14 7f ff mcall r4\[131068\] ++ *[0-9a-f]*: f0 1e 00 01 mcall lr\[4\] ++ *[0-9a-f]*: f0 1d 3b bf mcall sp\[61180\] ++ *[0-9a-f]*: f0 14 dd d2 mcall r4\[-35000\] ++ *[0-9a-f]*: f0 10 09 b1 mcall r0\[9924\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f2 1f 00 00 pref pc\[0\] ++ *[0-9a-f]*: f2 1c ff ff pref r12\[-1\] ++ *[0-9a-f]*: f2 15 80 00 pref r5\[-32768\] ++ *[0-9a-f]*: f2 14 7f ff pref r4\[32767\] ++ *[0-9a-f]*: f2 1e 00 01 pref lr\[1\] ++ *[0-9a-f]*: f2 17 1e 44 pref r7\[7748\] ++ *[0-9a-f]*: f2 17 e1 ed pref r7\[-7699\] ++ *[0-9a-f]*: f2 12 9a dc pref r2\[-25892\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f4 1f 00 00 cache pc\[0\],0x0 ++ *[0-9a-f]*: f4 1c ff ff cache r12\[-1\],0x1f ++ *[0-9a-f]*: f4 15 84 00 cache r5\[-1024\],0x10 ++ *[0-9a-f]*: f4 14 7b ff cache r4\[1023\],0xf ++ *[0-9a-f]*: f4 1e 08 01 cache lr\[1\],0x1 ++ *[0-9a-f]*: f4 13 8c 3c cache r3\[-964\],0x11 ++ *[0-9a-f]*: f4 14 b6 89 cache r4\[-375\],0x16 ++ *[0-9a-f]*: f4 13 8c 88 cache r3\[-888\],0x11 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 20 0f sub pc,0 ++ *[0-9a-f]*: 2f fc sub r12,-1 ++ *[0-9a-f]*: f0 25 00 00 sub r5,-1048576 ++ *[0-9a-f]*: ee 34 ff ff sub r4,1048575 ++ *[0-9a-f]*: 20 1e sub lr,1 ++ *[0-9a-f]*: f6 22 8d 6c sub r2,-619156 ++ *[0-9a-f]*: e6 3e 0a cd sub lr,461517 ++ *[0-9a-f]*: fc 38 2d 25 sub r8,-185051 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 58 0f cp.w pc,0 ++ *[0-9a-f]*: 5b fc cp.w r12,-1 ++ *[0-9a-f]*: f0 45 00 00 cp.w r5,-1048576 ++ *[0-9a-f]*: ee 54 ff ff cp.w r4,1048575 ++ *[0-9a-f]*: 58 1e cp.w lr,1 ++ *[0-9a-f]*: e0 51 e4 ae cp.w r1,124078 ++ *[0-9a-f]*: fa 40 37 e3 cp.w r0,-378909 ++ *[0-9a-f]*: fc 44 4a 14 cp.w r4,-243180 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 30 0f mov pc,0 ++ *[0-9a-f]*: 3f fc mov r12,-1 ++ *[0-9a-f]*: f0 65 00 00 mov r5,-1048576 ++ *[0-9a-f]*: ee 74 ff ff mov r4,1048575 ++ *[0-9a-f]*: 30 1e mov lr,1 ++ *[0-9a-f]*: fa 75 29 a3 mov r5,-317021 ++ *[0-9a-f]*: f4 6d 91 94 mov sp,-749164 ++ *[0-9a-f]*: ee 65 58 93 mov r5,940179 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 00 breq [0-9a-f]* <.*> ++ *[0-9a-f]*: fe 9f ff ff bral [0-9a-f]* <.*> ++ *[0-9a-f]*: f0 88 00 00 brls [0-9a-f]* <.*> ++ *[0-9a-f]*: ee 97 ff ff brpl [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 11 brne [0-9a-f]* <.*> ++ *[0-9a-f]*: f2 8b 4a 4d brhi [0-9a-f]* <.*> ++ *[0-9a-f]*: ea 8e 14 cc brqs [0-9a-f]* <.*> ++ *[0-9a-f]*: fa 98 98 33 brls [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: c0 0c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: cf ff rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: f0 a0 00 00 rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: ee b0 ff ff rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: c0 1c rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: e2 b0 ca 5a rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: e8 a0 47 52 rcall [0-9a-f]* <.*> ++ *[0-9a-f]*: fe b0 fd ef rcall [0-9a-f]* <.*> ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe cf 00 00 sub pc,pc,0 ++ *[0-9a-f]*: f8 cc ff ff sub r12,r12,-1 ++ *[0-9a-f]*: ea c5 80 00 sub r5,r5,-32768 ++ *[0-9a-f]*: e8 c4 7f ff sub r4,r4,32767 ++ *[0-9a-f]*: fc ce 00 01 sub lr,lr,1 ++ *[0-9a-f]*: fe cf ce 38 sub pc,pc,-12744 ++ *[0-9a-f]*: ee c7 95 1b sub r7,r7,-27365 ++ *[0-9a-f]*: f2 c2 bc 32 sub r2,r9,-17358 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe df 00 00 satsub\.w pc,pc,0 ++ *[0-9a-f]*: f8 dc ff ff satsub\.w r12,r12,-1 ++ *[0-9a-f]*: ea d5 80 00 satsub\.w r5,r5,-32768 ++ *[0-9a-f]*: e8 d4 7f ff satsub\.w r4,r4,32767 ++ *[0-9a-f]*: fc de 00 01 satsub\.w lr,lr,1 ++ *[0-9a-f]*: fc d2 f8 29 satsub\.w r2,lr,-2007 ++ *[0-9a-f]*: f8 d7 fc f0 satsub\.w r7,r12,-784 ++ *[0-9a-f]*: ee d4 5a 8c satsub\.w r4,r7,23180 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe e0 00 00 ld\.d r0,pc\[0\] ++ *[0-9a-f]*: f8 ee ff ff ld\.d lr,r12\[-1\] ++ *[0-9a-f]*: ea e8 80 00 ld\.d r8,r5\[-32768\] ++ *[0-9a-f]*: e8 e6 7f ff ld\.d r6,r4\[32767\] ++ *[0-9a-f]*: fc e2 00 01 ld\.d r2,lr\[1\] ++ *[0-9a-f]*: f6 ee 39 c0 ld\.d lr,r11\[14784\] ++ *[0-9a-f]*: f2 e6 b6 27 ld\.d r6,r9\[-18905\] ++ *[0-9a-f]*: e6 e2 e7 2d ld\.d r2,r3\[-6355\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 7e 0f ld\.w pc,pc\[0x0\] ++ *[0-9a-f]*: f8 fc ff ff ld\.w r12,r12\[-1\] ++ *[0-9a-f]*: ea f5 80 00 ld\.w r5,r5\[-32768\] ++ *[0-9a-f]*: e8 f4 7f ff ld\.w r4,r4\[32767\] ++ *[0-9a-f]*: fc fe 00 01 ld\.w lr,lr\[1\] ++ *[0-9a-f]*: f8 f0 a9 8b ld\.w r0,r12\[-22133\] ++ *[0-9a-f]*: fe fd af d7 ld\.w sp,pc\[-20521\] ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 0f ld\.sh pc,pc\[0x0\] ++ *[0-9a-f]*: f9 0c ff ff ld\.sh r12,r12\[-1\] ++ *[0-9a-f]*: eb 05 80 00 ld\.sh r5,r5\[-32768\] ++ *[0-9a-f]*: e9 04 7f ff ld\.sh r4,r4\[32767\] ++ *[0-9a-f]*: fd 0e 00 01 ld\.sh lr,lr\[1\] ++ *[0-9a-f]*: f5 06 78 d2 ld\.sh r6,r10\[30930\] ++ *[0-9a-f]*: f5 06 55 d5 ld\.sh r6,r10\[21973\] ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9e 8f ld\.uh pc,pc\[0x0\] ++ *[0-9a-f]*: f9 1c ff ff ld\.uh r12,r12\[-1\] ++ *[0-9a-f]*: eb 15 80 00 ld\.uh r5,r5\[-32768\] ++ *[0-9a-f]*: e9 14 7f ff ld\.uh r4,r4\[32767\] ++ *[0-9a-f]*: fd 1e 00 01 ld\.uh lr,lr\[1\] ++ *[0-9a-f]*: f3 11 cb d6 ld\.uh r1,r9\[-13354\] ++ *[0-9a-f]*: f7 1e 53 59 ld\.uh lr,r11\[21337\] ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff 2f 00 00 ld\.sb pc,pc\[0\] ++ *[0-9a-f]*: f9 2c ff ff ld\.sb r12,r12\[-1\] ++ *[0-9a-f]*: eb 25 80 00 ld\.sb r5,r5\[-32768\] ++ *[0-9a-f]*: e9 24 7f ff ld\.sb r4,r4\[32767\] ++ *[0-9a-f]*: fd 2e 00 01 ld\.sb lr,lr\[1\] ++ *[0-9a-f]*: fb 27 90 09 ld\.sb r7,sp\[-28663\] ++ *[0-9a-f]*: e3 22 e9 09 ld\.sb r2,r1\[-5879\] ++ *[0-9a-f]*: e7 2c 49 2e ld\.sb r12,r3\[18734\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 1f 8f ld\.ub pc,pc\[0x0\] ++ *[0-9a-f]*: f9 3c ff ff ld\.ub r12,r12\[-1\] ++ *[0-9a-f]*: eb 35 80 00 ld\.ub r5,r5\[-32768\] ++ *[0-9a-f]*: e9 34 7f ff ld\.ub r4,r4\[32767\] ++ *[0-9a-f]*: 1d 9e ld\.ub lr,lr\[0x1\] ++ *[0-9a-f]*: e9 3f 20 55 ld\.ub pc,r4\[8277\] ++ *[0-9a-f]*: f9 35 4a e4 ld\.ub r5,r12\[19172\] ++ *[0-9a-f]*: fd 3a 66 eb ld\.ub r10,lr\[26347\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fe e1 00 00 st\.d pc\[0\],r0 ++ *[0-9a-f]*: f8 ef ff ff st\.d r12\[-1\],lr ++ *[0-9a-f]*: ea e9 80 00 st\.d r5\[-32768\],r8 ++ *[0-9a-f]*: e8 e7 7f ff st\.d r4\[32767\],r6 ++ *[0-9a-f]*: fc e3 00 01 st\.d lr\[1\],r2 ++ *[0-9a-f]*: ea eb 33 90 st\.d r5\[13200\],r10 ++ *[0-9a-f]*: ea eb 24 88 st\.d r5\[9352\],r10 ++ *[0-9a-f]*: ea e5 7e 75 st\.d r5\[32373\],r4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: 9f 0f st\.w pc\[0x0\],pc ++ *[0-9a-f]*: f9 4c ff ff st\.w r12\[-1\],r12 ++ *[0-9a-f]*: eb 45 80 00 st\.w r5\[-32768\],r5 ++ *[0-9a-f]*: e9 44 7f ff st\.w r4\[32767\],r4 ++ *[0-9a-f]*: fd 4e 00 01 st\.w lr\[1\],lr ++ *[0-9a-f]*: fb 47 17 f8 st\.w sp\[6136\],r7 ++ *[0-9a-f]*: ed 4c 69 cf st\.w r6\[27087\],r12 ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 0f st\.h pc\[0x0\],pc ++ *[0-9a-f]*: f9 5c ff ff st\.h r12\[-1\],r12 ++ *[0-9a-f]*: eb 55 80 00 st\.h r5\[-32768\],r5 ++ *[0-9a-f]*: e9 54 7f ff st\.h r4\[32767\],r4 ++ *[0-9a-f]*: fd 5e 00 01 st\.h lr\[1\],lr ++ *[0-9a-f]*: e9 57 d9 16 st\.h r4\[-9962\],r7 ++ *[0-9a-f]*: f3 53 c0 86 st\.h r9\[-16250\],r3 ++ *[0-9a-f]*: d7 03 nop ++ ++[0-9a-f]* : ++ *[0-9a-f]*: be 8f st\.b pc\[0x0\],pc ++ *[0-9a-f]*: f9 6c ff ff st\.b r12\[-1\],r12 ++ *[0-9a-f]*: eb 65 80 00 st\.b r5\[-32768\],r5 ++ *[0-9a-f]*: e9 64 7f ff st\.b r4\[32767\],r4 ++ *[0-9a-f]*: bc 9e st\.b lr\[0x1\],lr ++ *[0-9a-f]*: f9 66 75 96 st\.b r12\[30102\],r6 ++ *[0-9a-f]*: eb 61 71 31 st\.b r5\[28977\],r1 ++ *[0-9a-f]*: e1 61 15 5e st\.b r0\[5470\],r1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 bf 00 00 mfsr pc,0x0 ++ *[0-9a-f]*: e1 bc 00 ff mfsr r12,0x3fc ++ *[0-9a-f]*: e1 b5 00 80 mfsr r5,0x200 ++ *[0-9a-f]*: e1 b4 00 7f mfsr r4,0x1fc ++ *[0-9a-f]*: e1 be 00 01 mfsr lr,0x4 ++ *[0-9a-f]*: e1 b2 00 ae mfsr r2,0x2b8 ++ *[0-9a-f]*: e1 b4 00 41 mfsr r4,0x104 ++ *[0-9a-f]*: e1 ba 00 fe mfsr r10,0x3f8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e3 bf 00 00 mtsr 0x0,pc ++ *[0-9a-f]*: e3 bc 00 ff mtsr 0x3fc,r12 ++ *[0-9a-f]*: e3 b5 00 80 mtsr 0x200,r5 ++ *[0-9a-f]*: e3 b4 00 7f mtsr 0x1fc,r4 ++ *[0-9a-f]*: e3 be 00 01 mtsr 0x4,lr ++ *[0-9a-f]*: e3 ba 00 38 mtsr 0xe0,r10 ++ *[0-9a-f]*: e3 bc 00 d1 mtsr 0x344,r12 ++ *[0-9a-f]*: e3 b9 00 4c mtsr 0x130,r9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 bf 00 00 mfdr pc,0x0 ++ *[0-9a-f]*: e5 bc 00 ff mfdr r12,0x3fc ++ *[0-9a-f]*: e5 b5 00 80 mfdr r5,0x200 ++ *[0-9a-f]*: e5 b4 00 7f mfdr r4,0x1fc ++ *[0-9a-f]*: e5 be 00 01 mfdr lr,0x4 ++ *[0-9a-f]*: e5 b6 00 e9 mfdr r6,0x3a4 ++ *[0-9a-f]*: e5 b5 00 09 mfdr r5,0x24 ++ *[0-9a-f]*: e5 b9 00 4b mfdr r9,0x12c ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e7 bf 00 00 mtdr 0x0,pc ++ *[0-9a-f]*: e7 bc 00 ff mtdr 0x3fc,r12 ++ *[0-9a-f]*: e7 b5 00 80 mtdr 0x200,r5 ++ *[0-9a-f]*: e7 b4 00 7f mtdr 0x1fc,r4 ++ *[0-9a-f]*: e7 be 00 01 mtdr 0x4,lr ++ *[0-9a-f]*: e7 b8 00 2d mtdr 0xb4,r8 ++ *[0-9a-f]*: e7 ba 00 b4 mtdr 0x2d0,r10 ++ *[0-9a-f]*: e7 be 00 66 mtdr 0x198,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 b0 00 00 sleep 0x0 ++ *[0-9a-f]*: e9 b0 00 ff sleep 0xff ++ *[0-9a-f]*: e9 b0 00 80 sleep 0x80 ++ *[0-9a-f]*: e9 b0 00 7f sleep 0x7f ++ *[0-9a-f]*: e9 b0 00 01 sleep 0x1 ++ *[0-9a-f]*: e9 b0 00 fe sleep 0xfe ++ *[0-9a-f]*: e9 b0 00 0f sleep 0xf ++ *[0-9a-f]*: e9 b0 00 2b sleep 0x2b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb b0 00 00 sync 0x0 ++ *[0-9a-f]*: eb b0 00 ff sync 0xff ++ *[0-9a-f]*: eb b0 00 80 sync 0x80 ++ *[0-9a-f]*: eb b0 00 7f sync 0x7f ++ *[0-9a-f]*: eb b0 00 01 sync 0x1 ++ *[0-9a-f]*: eb b0 00 a6 sync 0xa6 ++ *[0-9a-f]*: eb b0 00 e6 sync 0xe6 ++ *[0-9a-f]*: eb b0 00 b4 sync 0xb4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed bf 00 00 bld pc,0x0 ++ *[0-9a-f]*: ed bc 00 1f bld r12,0x1f ++ *[0-9a-f]*: ed b5 00 10 bld r5,0x10 ++ *[0-9a-f]*: ed b4 00 0f bld r4,0xf ++ *[0-9a-f]*: ed be 00 01 bld lr,0x1 ++ *[0-9a-f]*: ed b9 00 0f bld r9,0xf ++ *[0-9a-f]*: ed b0 00 04 bld r0,0x4 ++ *[0-9a-f]*: ed be 00 1a bld lr,0x1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef bf 00 00 bst pc,0x0 ++ *[0-9a-f]*: ef bc 00 1f bst r12,0x1f ++ *[0-9a-f]*: ef b5 00 10 bst r5,0x10 ++ *[0-9a-f]*: ef b4 00 0f bst r4,0xf ++ *[0-9a-f]*: ef be 00 01 bst lr,0x1 ++ *[0-9a-f]*: ef ba 00 1c bst r10,0x1c ++ *[0-9a-f]*: ef b0 00 03 bst r0,0x3 ++ *[0-9a-f]*: ef bd 00 02 bst sp,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f1 bf 00 00 sats pc,0x0 ++ *[0-9a-f]*: f1 bc 03 ff sats r12>>0x1f,0x1f ++ *[0-9a-f]*: f1 b5 02 10 sats r5>>0x10,0x10 ++ *[0-9a-f]*: f1 b4 01 ef sats r4>>0xf,0xf ++ *[0-9a-f]*: f1 be 00 21 sats lr>>0x1,0x1 ++ *[0-9a-f]*: f1 ba 02 63 sats r10>>0x3,0x13 ++ *[0-9a-f]*: f1 ba 03 42 sats r10>>0x2,0x1a ++ *[0-9a-f]*: f1 b1 00 34 sats r1>>0x14,0x1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f1 bf 04 00 satu pc,0x0 ++ *[0-9a-f]*: f1 bc 07 ff satu r12>>0x1f,0x1f ++ *[0-9a-f]*: f1 b5 06 10 satu r5>>0x10,0x10 ++ *[0-9a-f]*: f1 b4 05 ef satu r4>>0xf,0xf ++ *[0-9a-f]*: f1 be 04 21 satu lr>>0x1,0x1 ++ *[0-9a-f]*: f1 bf 04 e5 satu pc>>0x5,0x7 ++ *[0-9a-f]*: f1 b7 04 a5 satu r7>>0x5,0x5 ++ *[0-9a-f]*: f1 b2 06 7a satu r2>>0x1a,0x13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f3 bf 00 00 satrnds pc,0x0 ++ *[0-9a-f]*: f3 bc 03 ff satrnds r12>>0x1f,0x1f ++ *[0-9a-f]*: f3 b5 02 10 satrnds r5>>0x10,0x10 ++ *[0-9a-f]*: f3 b4 01 ef satrnds r4>>0xf,0xf ++ *[0-9a-f]*: f3 be 00 21 satrnds lr>>0x1,0x1 ++ *[0-9a-f]*: f3 b0 02 75 satrnds r0>>0x15,0x13 ++ *[0-9a-f]*: f3 bd 00 40 satrnds sp,0x2 ++ *[0-9a-f]*: f3 b7 03 a6 satrnds r7>>0x6,0x1d ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f3 bf 04 00 satrndu pc,0x0 ++ *[0-9a-f]*: f3 bc 07 ff satrndu r12>>0x1f,0x1f ++ *[0-9a-f]*: f3 b5 06 10 satrndu r5>>0x10,0x10 ++ *[0-9a-f]*: f3 b4 05 ef satrndu r4>>0xf,0xf ++ *[0-9a-f]*: f3 be 04 21 satrndu lr>>0x1,0x1 ++ *[0-9a-f]*: f3 bc 07 40 satrndu r12,0x1a ++ *[0-9a-f]*: f3 b4 04 75 satrndu r4>>0x15,0x3 ++ *[0-9a-f]*: f3 ba 06 03 satrndu r10>>0x3,0x10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f5 bf 00 00 subfeq pc,0 ++ *[0-9a-f]*: f5 bc 0f ff subfal r12,-1 ++ *[0-9a-f]*: f5 b5 08 80 subfls r5,-128 ++ *[0-9a-f]*: f5 b4 07 7f subfpl r4,127 ++ *[0-9a-f]*: f5 be 01 01 subfne lr,1 ++ *[0-9a-f]*: f5 ba 08 08 subfls r10,8 ++ *[0-9a-f]*: f5 bb 0d 63 subfvc r11,99 ++ *[0-9a-f]*: f5 b2 0c 49 subfvs r2,73 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f7 bf 00 00 subeq pc,0 ++ *[0-9a-f]*: f7 bc 0f ff subal r12,-1 ++ *[0-9a-f]*: f7 b5 08 80 subls r5,-128 ++ *[0-9a-f]*: f7 b4 07 7f subpl r4,127 ++ *[0-9a-f]*: f7 be 01 01 subne lr,1 ++ *[0-9a-f]*: f7 bc 08 76 subls r12,118 ++ *[0-9a-f]*: f7 be 0d f4 subvc lr,-12 ++ *[0-9a-f]*: f7 b4 06 f3 submi r4,-13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f9 bf 00 00 moveq pc,0 ++ *[0-9a-f]*: f9 bc 0f ff moval r12,-1 ++ *[0-9a-f]*: f9 b5 08 80 movls r5,-128 ++ *[0-9a-f]*: f9 b4 07 7f movpl r4,127 ++ *[0-9a-f]*: f9 be 01 01 movne lr,1 ++ *[0-9a-f]*: f9 b3 05 86 movlt r3,-122 ++ *[0-9a-f]*: f9 b8 0d 02 movvc r8,2 ++ *[0-9a-f]*: f9 b7 01 91 movne r7,-111 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 18 00 cp\.b pc,r0 ++ *[0-9a-f]*: fe 00 18 00 cp\.b r0,pc ++ *[0-9a-f]*: f0 07 18 00 cp\.b r7,r8 ++ *[0-9a-f]*: ee 08 18 00 cp\.b r8,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e0 0f 19 00 cp\.h pc,r0 ++ *[0-9a-f]*: fe 00 19 00 cp\.h r0,pc ++ *[0-9a-f]*: f0 07 19 00 cp\.h r7,r8 ++ *[0-9a-f]*: ee 08 19 00 cp\.h r8,r7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 cf 00 7e ldm pc,r1-r6 ++ *[0-9a-f]*: e1 cc ff ff ldm r12,r0-pc ++ *[0-9a-f]*: e1 c5 80 00 ldm r5,pc ++ *[0-9a-f]*: e1 c4 7f ff ldm r4,r0-lr ++ *[0-9a-f]*: e1 ce 00 01 ldm lr,r0 ++ *[0-9a-f]*: e1 c9 40 22 ldm r9,r1,r5,lr ++ *[0-9a-f]*: e1 cb 81 ec ldm r11,r2-r3,r5-r8,pc ++ *[0-9a-f]*: e1 c6 a2 09 ldm r6,r0,r3,r9,sp,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e3 cf 03 c0 ldm pc\+\+,r6-r9 ++ *[0-9a-f]*: e3 cc ff ff ldm r12\+\+,r0-pc ++ *[0-9a-f]*: e3 c5 80 00 ldm r5\+\+,pc ++ *[0-9a-f]*: e3 c4 7f ff ldm r4\+\+,r0-lr ++ *[0-9a-f]*: e3 ce 00 01 ldm lr\+\+,r0 ++ *[0-9a-f]*: e3 cc d5 38 ldm r12\+\+,r3-r5,r8,r10,r12,lr-pc ++ *[0-9a-f]*: e3 ca c0 74 ldm r10\+\+,r2,r4-r6,lr-pc ++ *[0-9a-f]*: e3 c6 7e 1a ldm r6\+\+,r1,r3-r4,r9-lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 cf 01 80 ldmts pc,r7-r8 ++ *[0-9a-f]*: e5 cc ff ff ldmts r12,r0-pc ++ *[0-9a-f]*: e5 c5 80 00 ldmts r5,pc ++ *[0-9a-f]*: e5 c4 7f ff ldmts r4,r0-lr ++ *[0-9a-f]*: e5 ce 00 01 ldmts lr,r0 ++ *[0-9a-f]*: e5 c0 18 06 ldmts r0,r1-r2,r11-r12 ++ *[0-9a-f]*: e5 ce 61 97 ldmts lr,r0-r2,r4,r7-r8,sp-lr ++ *[0-9a-f]*: e5 cc c2 3b ldmts r12,r0-r1,r3-r5,r9,lr-pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e7 cf 02 00 ldmts pc\+\+,r9 ++ *[0-9a-f]*: e7 cc ff ff ldmts r12\+\+,r0-pc ++ *[0-9a-f]*: e7 c5 80 00 ldmts r5\+\+,pc ++ *[0-9a-f]*: e7 c4 7f ff ldmts r4\+\+,r0-lr ++ *[0-9a-f]*: e7 ce 00 01 ldmts lr\+\+,r0 ++ *[0-9a-f]*: e7 cd 0a bd ldmts sp\+\+,r0,r2-r5,r7,r9,r11 ++ *[0-9a-f]*: e7 c5 0c 8e ldmts r5\+\+,r1-r3,r7,r10-r11 ++ *[0-9a-f]*: e7 c8 a1 9c ldmts r8\+\+,r2-r4,r7-r8,sp,pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 cf 00 80 stm pc,r7 ++ *[0-9a-f]*: e9 cc ff ff stm r12,r0-pc ++ *[0-9a-f]*: e9 c5 80 00 stm r5,pc ++ *[0-9a-f]*: e9 c4 7f ff stm r4,r0-lr ++ *[0-9a-f]*: e9 ce 00 01 stm lr,r0 ++ *[0-9a-f]*: e9 cd 49 2c stm sp,r2-r3,r5,r8,r11,lr ++ *[0-9a-f]*: e9 c4 4c 5f stm r4,r0-r4,r6,r10-r11,lr ++ *[0-9a-f]*: e9 c9 f2 22 stm r9,r1,r5,r9,r12-pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb cf 00 70 stm --pc,r4-r6 ++ *[0-9a-f]*: eb cc ff ff stm --r12,r0-pc ++ *[0-9a-f]*: eb c5 80 00 stm --r5,pc ++ *[0-9a-f]*: eb c4 7f ff stm --r4,r0-lr ++ *[0-9a-f]*: eb ce 00 01 stm --lr,r0 ++ *[0-9a-f]*: eb cb fb f1 stm --r11,r0,r4-r9,r11-pc ++ *[0-9a-f]*: eb cb 56 09 stm --r11,r0,r3,r9-r10,r12,lr ++ *[0-9a-f]*: eb c6 63 04 stm --r6,r2,r8-r9,sp-lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed cf 01 00 stmts pc,r8 ++ *[0-9a-f]*: ed cc ff ff stmts r12,r0-pc ++ *[0-9a-f]*: ed c5 80 00 stmts r5,pc ++ *[0-9a-f]*: ed c4 7f ff stmts r4,r0-lr ++ *[0-9a-f]*: ed ce 00 01 stmts lr,r0 ++ *[0-9a-f]*: ed c1 c6 5b stmts r1,r0-r1,r3-r4,r6,r9-r10,lr-pc ++ *[0-9a-f]*: ed c3 1d c1 stmts r3,r0,r6-r8,r10-r12 ++ *[0-9a-f]*: ed cb d6 d1 stmts r11,r0,r4,r6-r7,r9-r10,r12,lr-pc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef cf 01 c0 stmts --pc,r6-r8 ++ *[0-9a-f]*: ef cc ff ff stmts --r12,r0-pc ++ *[0-9a-f]*: ef c5 80 00 stmts --r5,pc ++ *[0-9a-f]*: ef c4 7f ff stmts --r4,r0-lr ++ *[0-9a-f]*: ef ce 00 01 stmts --lr,r0 ++ *[0-9a-f]*: ef c2 36 19 stmts --r2,r0,r3-r4,r9-r10,r12-sp ++ *[0-9a-f]*: ef c3 c0 03 stmts --r3,r0-r1,lr-pc ++ *[0-9a-f]*: ef c0 44 7d stmts --r0,r0,r2-r6,r10,lr ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 00 00 ldins\.h pc:b,pc\[0\] ++ *[0-9a-f]*: f9 dc 1f ff ldins\.h r12:t,r12\[-2\] ++ *[0-9a-f]*: eb d5 18 00 ldins\.h r5:t,r5\[-4096\] ++ *[0-9a-f]*: e9 d4 07 ff ldins\.h r4:b,r4\[4094\] ++ *[0-9a-f]*: fd de 10 01 ldins\.h lr:t,lr\[2\] ++ *[0-9a-f]*: fd d0 13 c5 ldins\.h r0:t,lr\[1930\] ++ *[0-9a-f]*: ef d3 0e f5 ldins\.h r3:b,r7\[-534\] ++ *[0-9a-f]*: f9 d2 0b 9a ldins\.h r2:b,r12\[-2252\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 40 00 ldins\.b pc:b,pc\[0\] ++ *[0-9a-f]*: f9 dc 7f ff ldins\.b r12:t,r12\[-1\] ++ *[0-9a-f]*: eb d5 68 00 ldins\.b r5:u,r5\[-2048\] ++ *[0-9a-f]*: e9 d4 57 ff ldins\.b r4:l,r4\[2047\] ++ *[0-9a-f]*: fd de 50 01 ldins\.b lr:l,lr\[1\] ++ *[0-9a-f]*: e9 d6 7d 6a ldins\.b r6:t,r4\[-662\] ++ *[0-9a-f]*: e3 d5 4f 69 ldins\.b r5:b,r1\[-151\] ++ *[0-9a-f]*: f7 da 78 7d ldins\.b r10:t,r11\[-1923\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 20 00 ldswp\.sh pc,pc\[0\] ++ *[0-9a-f]*: f9 dc 2f ff ldswp\.sh r12,r12\[-2\] ++ *[0-9a-f]*: eb d5 28 00 ldswp\.sh r5,r5\[-4096\] ++ *[0-9a-f]*: e9 d4 27 ff ldswp\.sh r4,r4\[4094\] ++ *[0-9a-f]*: fd de 20 01 ldswp\.sh lr,lr\[2\] ++ *[0-9a-f]*: f5 d9 27 84 ldswp\.sh r9,r10\[3848\] ++ *[0-9a-f]*: f9 d4 2c 04 ldswp\.sh r4,r12\[-2040\] ++ *[0-9a-f]*: e5 da 26 08 ldswp\.sh r10,r2\[3088\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 30 00 ldswp\.uh pc,pc\[0\] ++ *[0-9a-f]*: f9 dc 3f ff ldswp\.uh r12,r12\[-2\] ++ *[0-9a-f]*: eb d5 38 00 ldswp\.uh r5,r5\[-4096\] ++ *[0-9a-f]*: e9 d4 37 ff ldswp\.uh r4,r4\[4094\] ++ *[0-9a-f]*: fd de 30 01 ldswp\.uh lr,lr\[2\] ++ *[0-9a-f]*: f3 d4 37 46 ldswp\.uh r4,r9\[3724\] ++ *[0-9a-f]*: fb de 3c bc ldswp\.uh lr,sp\[-1672\] ++ *[0-9a-f]*: f9 d8 38 7d ldswp\.uh r8,r12\[-3846\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 80 00 ldswp\.w pc,pc\[0\] ++ *[0-9a-f]*: f9 dc 8f ff ldswp\.w r12,r12\[-4\] ++ *[0-9a-f]*: eb d5 88 00 ldswp\.w r5,r5\[-8192\] ++ *[0-9a-f]*: e9 d4 87 ff ldswp\.w r4,r4\[8188\] ++ *[0-9a-f]*: fd de 80 01 ldswp\.w lr,lr\[4\] ++ *[0-9a-f]*: ef dd 81 d1 ldswp\.w sp,r7\[1860\] ++ *[0-9a-f]*: eb df 8c c1 ldswp\.w pc,r5\[-3324\] ++ *[0-9a-f]*: f5 dc 8c c8 ldswp\.w r12,r10\[-3296\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df 90 00 stswp\.h pc\[0\],pc ++ *[0-9a-f]*: f9 dc 9f ff stswp\.h r12\[-2\],r12 ++ *[0-9a-f]*: eb d5 98 00 stswp\.h r5\[-4096\],r5 ++ *[0-9a-f]*: e9 d4 97 ff stswp\.h r4\[4094\],r4 ++ *[0-9a-f]*: fd de 90 01 stswp\.h lr\[2\],lr ++ *[0-9a-f]*: ef da 90 20 stswp\.h r7\[64\],r10 ++ *[0-9a-f]*: f5 d2 95 e8 stswp\.h r10\[3024\],r2 ++ *[0-9a-f]*: e1 da 9b 74 stswp\.h r0\[-2328\],r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df a0 00 stswp\.w pc\[0\],pc ++ *[0-9a-f]*: f9 dc af ff stswp\.w r12\[-4\],r12 ++ *[0-9a-f]*: eb d5 a8 00 stswp\.w r5\[-8192\],r5 ++ *[0-9a-f]*: e9 d4 a7 ff stswp\.w r4\[8188\],r4 ++ *[0-9a-f]*: fd de a0 01 stswp\.w lr\[4\],lr ++ *[0-9a-f]*: ff d8 a1 21 stswp\.w pc\[1156\],r8 ++ *[0-9a-f]*: fb da a7 ce stswp\.w sp\[7992\],r10 ++ *[0-9a-f]*: f1 d5 ae db stswp\.w r8\[-1172\],r5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 00 0f and pc,pc,pc ++ *[0-9a-f]*: f9 ec 01 fc and r12,r12,r12<<0x1f ++ *[0-9a-f]*: eb e5 01 05 and r5,r5,r5<<0x10 ++ *[0-9a-f]*: e9 e4 00 f4 and r4,r4,r4<<0xf ++ *[0-9a-f]*: fd ee 00 1e and lr,lr,lr<<0x1 ++ *[0-9a-f]*: e5 e1 00 1a and r10,r2,r1<<0x1 ++ *[0-9a-f]*: f1 eb 01 bc and r12,r8,r11<<0x1b ++ *[0-9a-f]*: ef e0 00 3a and r10,r7,r0<<0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 02 0f and pc,pc,pc ++ *[0-9a-f]*: f9 ec 03 fc and r12,r12,r12>>0x1f ++ *[0-9a-f]*: eb e5 03 05 and r5,r5,r5>>0x10 ++ *[0-9a-f]*: e9 e4 02 f4 and r4,r4,r4>>0xf ++ *[0-9a-f]*: fd ee 02 1e and lr,lr,lr>>0x1 ++ *[0-9a-f]*: f1 e7 03 1c and r12,r8,r7>>0x11 ++ *[0-9a-f]*: e9 e9 03 4f and pc,r4,r9>>0x14 ++ *[0-9a-f]*: f3 ea 02 ca and r10,r9,r10>>0xc ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 10 0f or pc,pc,pc ++ *[0-9a-f]*: f9 ec 11 fc or r12,r12,r12<<0x1f ++ *[0-9a-f]*: eb e5 11 05 or r5,r5,r5<<0x10 ++ *[0-9a-f]*: e9 e4 10 f4 or r4,r4,r4<<0xf ++ *[0-9a-f]*: fd ee 10 1e or lr,lr,lr<<0x1 ++ *[0-9a-f]*: fb eb 11 d8 or r8,sp,r11<<0x1d ++ *[0-9a-f]*: f3 e2 11 cf or pc,r9,r2<<0x1c ++ *[0-9a-f]*: e3 e2 10 35 or r5,r1,r2<<0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 12 0f or pc,pc,pc ++ *[0-9a-f]*: f9 ec 13 fc or r12,r12,r12>>0x1f ++ *[0-9a-f]*: eb e5 13 05 or r5,r5,r5>>0x10 ++ *[0-9a-f]*: e9 e4 12 f4 or r4,r4,r4>>0xf ++ *[0-9a-f]*: fd ee 12 1e or lr,lr,lr>>0x1 ++ *[0-9a-f]*: fb ed 12 21 or r1,sp,sp>>0x2 ++ *[0-9a-f]*: e3 e1 13 d0 or r0,r1,r1>>0x1d ++ *[0-9a-f]*: f9 e8 12 84 or r4,r12,r8>>0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 20 0f eor pc,pc,pc ++ *[0-9a-f]*: f9 ec 21 fc eor r12,r12,r12<<0x1f ++ *[0-9a-f]*: eb e5 21 05 eor r5,r5,r5<<0x10 ++ *[0-9a-f]*: e9 e4 20 f4 eor r4,r4,r4<<0xf ++ *[0-9a-f]*: fd ee 20 1e eor lr,lr,lr<<0x1 ++ *[0-9a-f]*: f3 e4 20 ba eor r10,r9,r4<<0xb ++ *[0-9a-f]*: e1 e1 21 f4 eor r4,r0,r1<<0x1f ++ *[0-9a-f]*: e5 ec 20 d6 eor r6,r2,r12<<0xd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 22 0f eor pc,pc,pc ++ *[0-9a-f]*: f9 ec 23 fc eor r12,r12,r12>>0x1f ++ *[0-9a-f]*: eb e5 23 05 eor r5,r5,r5>>0x10 ++ *[0-9a-f]*: e9 e4 22 f4 eor r4,r4,r4>>0xf ++ *[0-9a-f]*: fd ee 22 1e eor lr,lr,lr>>0x1 ++ *[0-9a-f]*: eb e5 23 65 eor r5,r5,r5>>0x16 ++ *[0-9a-f]*: e3 ee 22 3a eor r10,r1,lr>>0x3 ++ *[0-9a-f]*: fd ed 23 a7 eor r7,lr,sp>>0x1a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef 8f 0f sthh\.w pc\[pc\],pc:b,pc:b ++ *[0-9a-f]*: f9 ec bc 3c sthh\.w r12\[r12<<0x3\],r12:t,r12:t ++ *[0-9a-f]*: eb e5 b5 25 sthh\.w r5\[r5<<0x2\],r5:t,r5:t ++ *[0-9a-f]*: e9 e4 84 14 sthh\.w r4\[r4<<0x1\],r4:b,r4:b ++ *[0-9a-f]*: fd ee be 1e sthh\.w lr\[lr<<0x1\],lr:t,lr:t ++ *[0-9a-f]*: e3 ec b6 3d sthh\.w sp\[r6<<0x3\],r1:t,r12:t ++ *[0-9a-f]*: f3 e9 b6 06 sthh\.w r6\[r6\],r9:t,r9:t ++ *[0-9a-f]*: e1 eb 93 0a sthh\.w r10\[r3\],r0:b,r11:t ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ef c0 0f sthh\.w pc\[0x0\],pc:b,pc:b ++ *[0-9a-f]*: f9 ec ff fc sthh\.w r12\[0x3fc\],r12:t,r12:t ++ *[0-9a-f]*: eb e5 f8 05 sthh\.w r5\[0x200\],r5:t,r5:t ++ *[0-9a-f]*: e9 e4 c7 f4 sthh\.w r4\[0x1fc\],r4:b,r4:b ++ *[0-9a-f]*: fd ee f0 1e sthh\.w lr\[0x4\],lr:t,lr:t ++ *[0-9a-f]*: f3 e0 e6 54 sthh\.w r4\[0x194\],r9:t,r0:b ++ *[0-9a-f]*: e5 ea e5 78 sthh\.w r8\[0x15c\],r2:t,r10:b ++ *[0-9a-f]*: f3 e2 c2 bd sthh\.w sp\[0xac\],r9:b,r2:b ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 00 00 cop cp0,cr0,cr0,cr0,0x0 ++ *[0-9a-f]*: e7 af ff ff cop cp7,cr15,cr15,cr15,0x7f ++ *[0-9a-f]*: e3 a8 75 55 cop cp3,cr5,cr5,cr5,0x31 ++ *[0-9a-f]*: e3 a8 44 44 cop cp2,cr4,cr4,cr4,0x30 ++ *[0-9a-f]*: e5 ad a8 37 cop cp5,cr8,cr3,cr7,0x5a ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 a0 00 00 ldc\.w cp0,cr0,r0\[0x0\] ++ *[0-9a-f]*: e9 af ef ff ldc\.w cp7,cr15,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a5 65 80 ldc\.w cp3,cr5,r5\[0x200\] ++ *[0-9a-f]*: e9 a4 44 7f ldc\.w cp2,cr4,r4\[0x1fc\] ++ *[0-9a-f]*: e9 ad 89 24 ldc\.w cp4,cr9,sp\[0x90\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 40 ldc\.w cp0,cr0,--r0 ++ *[0-9a-f]*: ef af ef 40 ldc\.w cp7,cr15,--pc ++ *[0-9a-f]*: ef a5 65 40 ldc\.w cp3,cr5,--r5 ++ *[0-9a-f]*: ef a4 44 40 ldc\.w cp2,cr4,--r4 ++ *[0-9a-f]*: ef ad 89 40 ldc\.w cp4,cr9,--sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 00 ldc\.w cp0,cr0,r0\[r0\] ++ *[0-9a-f]*: ef af ff 3f ldc\.w cp7,cr15,pc\[pc<<0x3\] ++ *[0-9a-f]*: ef a5 75 24 ldc\.w cp3,cr5,r5\[r4<<0x2\] ++ *[0-9a-f]*: ef a4 54 13 ldc\.w cp2,cr4,r4\[r3<<0x1\] ++ *[0-9a-f]*: ef ad 99 0c ldc\.w cp4,cr9,sp\[r12\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 a0 10 00 ldc\.d cp0,cr0,r0\[0x0\] ++ *[0-9a-f]*: e9 af fe ff ldc\.d cp7,cr14,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a5 76 80 ldc\.d cp3,cr6,r5\[0x200\] ++ *[0-9a-f]*: e9 a4 54 7f ldc\.d cp2,cr4,r4\[0x1fc\] ++ *[0-9a-f]*: e9 ad 98 24 ldc\.d cp4,cr8,sp\[0x90\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 50 ldc\.d cp0,cr0,--r0 ++ *[0-9a-f]*: ef af ee 50 ldc\.d cp7,cr14,--pc ++ *[0-9a-f]*: ef a5 66 50 ldc\.d cp3,cr6,--r5 ++ *[0-9a-f]*: ef a4 44 50 ldc\.d cp2,cr4,--r4 ++ *[0-9a-f]*: ef ad 88 50 ldc\.d cp4,cr8,--sp ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 40 ldc\.d cp0,cr0,r0\[r0\] ++ *[0-9a-f]*: ef af fe 7f ldc\.d cp7,cr14,pc\[pc<<0x3\] ++ *[0-9a-f]*: ef a5 76 64 ldc\.d cp3,cr6,r5\[r4<<0x2\] ++ *[0-9a-f]*: ef a4 54 53 ldc\.d cp2,cr4,r4\[r3<<0x1\] ++ *[0-9a-f]*: ef ad 98 4c ldc\.d cp4,cr8,sp\[r12\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb a0 00 00 stc\.w cp0,r0\[0x0\],cr0 ++ *[0-9a-f]*: eb af ef ff stc\.w cp7,pc\[0x3fc\],cr15 ++ *[0-9a-f]*: eb a5 65 80 stc\.w cp3,r5\[0x200\],cr5 ++ *[0-9a-f]*: eb a4 44 7f stc\.w cp2,r4\[0x1fc\],cr4 ++ *[0-9a-f]*: eb ad 89 24 stc\.w cp4,sp\[0x90\],cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 60 stc\.w cp0,r0\+\+,cr0 ++ *[0-9a-f]*: ef af ef 60 stc\.w cp7,pc\+\+,cr15 ++ *[0-9a-f]*: ef a5 65 60 stc\.w cp3,r5\+\+,cr5 ++ *[0-9a-f]*: ef a4 44 60 stc\.w cp2,r4\+\+,cr4 ++ *[0-9a-f]*: ef ad 89 60 stc\.w cp4,sp\+\+,cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 80 stc\.w cp0,r0\[r0\],cr0 ++ *[0-9a-f]*: ef af ff bf stc\.w cp7,pc\[pc<<0x3\],cr15 ++ *[0-9a-f]*: ef a5 75 a4 stc\.w cp3,r5\[r4<<0x2\],cr5 ++ *[0-9a-f]*: ef a4 54 93 stc\.w cp2,r4\[r3<<0x1\],cr4 ++ *[0-9a-f]*: ef ad 99 8c stc\.w cp4,sp\[r12\],cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb a0 10 00 stc\.d cp0,r0\[0x0\],cr0 ++ *[0-9a-f]*: eb af fe ff stc\.d cp7,pc\[0x3fc\],cr14 ++ *[0-9a-f]*: eb a5 76 80 stc\.d cp3,r5\[0x200\],cr6 ++ *[0-9a-f]*: eb a4 54 7f stc\.d cp2,r4\[0x1fc\],cr4 ++ *[0-9a-f]*: eb ad 98 24 stc\.d cp4,sp\[0x90\],cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 00 70 stc\.d cp0,r0\+\+,cr0 ++ *[0-9a-f]*: ef af ee 70 stc\.d cp7,pc\+\+,cr14 ++ *[0-9a-f]*: ef a5 66 70 stc\.d cp3,r5\+\+,cr6 ++ *[0-9a-f]*: ef a4 44 70 stc\.d cp2,r4\+\+,cr4 ++ *[0-9a-f]*: ef ad 88 70 stc\.d cp4,sp\+\+,cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef a0 10 c0 stc\.d cp0,r0\[r0\],cr0 ++ *[0-9a-f]*: ef af fe ff stc\.d cp7,pc\[pc<<0x3\],cr14 ++ *[0-9a-f]*: ef a5 76 e4 stc\.d cp3,r5\[r4<<0x2\],cr6 ++ *[0-9a-f]*: ef a4 54 d3 stc\.d cp2,r4\[r3<<0x1\],cr4 ++ *[0-9a-f]*: ef ad 98 cc stc\.d cp4,sp\[r12\],cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f1 a0 00 00 ldc0\.w cr0,r0\[0x0\] ++ *[0-9a-f]*: f1 af ff ff ldc0\.w cr15,pc\[0x3ffc\] ++ *[0-9a-f]*: f1 a5 85 00 ldc0\.w cr5,r5\[0x2000\] ++ *[0-9a-f]*: f1 a4 74 ff ldc0\.w cr4,r4\[0x1ffc\] ++ *[0-9a-f]*: f1 ad 09 93 ldc0\.w cr9,sp\[0x24c\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f3 a0 00 00 ldc0\.d cr0,r0\[0x0\] ++ *[0-9a-f]*: f3 af fe ff ldc0\.d cr14,pc\[0x3ffc\] ++ *[0-9a-f]*: f3 a5 86 00 ldc0\.d cr6,r5\[0x2000\] ++ *[0-9a-f]*: f3 a4 74 ff ldc0\.d cr4,r4\[0x1ffc\] ++ *[0-9a-f]*: f3 ad 08 93 ldc0\.d cr8,sp\[0x24c\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f5 a0 00 00 stc0\.w r0\[0x0\],cr0 ++ *[0-9a-f]*: f5 af ff ff stc0\.w pc\[0x3ffc\],cr15 ++ *[0-9a-f]*: f5 a5 85 00 stc0\.w r5\[0x2000\],cr5 ++ *[0-9a-f]*: f5 a4 74 ff stc0\.w r4\[0x1ffc\],cr4 ++ *[0-9a-f]*: f5 ad 09 93 stc0\.w sp\[0x24c\],cr9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f7 a0 00 00 stc0\.d r0\[0x0\],cr0 ++ *[0-9a-f]*: f7 af fe ff stc0\.d pc\[0x3ffc\],cr14 ++ *[0-9a-f]*: f7 a5 86 00 stc0\.d r5\[0x2000\],cr6 ++ *[0-9a-f]*: f7 a4 74 ff stc0\.d r4\[0x1ffc\],cr4 ++ *[0-9a-f]*: f7 ad 08 93 stc0\.d sp\[0x24c\],cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f6 10 00 00 memc 0,0x0 ++ *[0-9a-f]*: f6 1f ff ff memc -4,0x1f ++ *[0-9a-f]*: f6 18 40 00 memc -65536,0x10 ++ *[0-9a-f]*: f6 17 bf ff memc 65532,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: f8 10 00 00 mems 0,0x0 ++ *[0-9a-f]*: f8 1f ff ff mems -4,0x1f ++ *[0-9a-f]*: f8 18 40 00 mems -65536,0x10 ++ *[0-9a-f]*: f8 17 bf ff mems 65532,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fa 10 00 00 memt 0,0x0 ++ *[0-9a-f]*: fa 1f ff ff memt -4,0x1f ++ *[0-9a-f]*: fa 18 40 00 memt -65536,0x10 ++ *[0-9a-f]*: fa 17 bf ff memt 65532,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 70 00 00 stcond r0\[0\],r0 ++ *[0-9a-f]*: ff 7f ff ff stcond pc\[-1\],pc ++ *[0-9a-f]*: f1 77 80 00 stcond r8\[-32768\],r7 ++ *[0-9a-f]*: ef 78 7f ff stcond r7\[32767\],r8 ++ *[0-9a-f]*: eb 7a 12 34 stcond r5\[4660\],r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 00 ff ldcm\.w cp0,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 e0 01 ldcm\.w cp7,r0,cr0 ++ *[0-9a-f]*: ed a4 90 7f ldcm\.w cp4,r4\+\+,cr0-cr6 ++ *[0-9a-f]*: ed a7 60 80 ldcm\.w cp3,r7,cr7 ++ *[0-9a-f]*: ed ac 30 72 ldcm\.w cp1,r12\+\+,cr1,cr4-cr6 ++ *[0-9a-f]*: ed af 01 ff ldcm\.w cp0,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 e1 01 ldcm\.w cp7,r0,cr8 ++ *[0-9a-f]*: ed a4 91 7f ldcm\.w cp4,r4\+\+,cr8-cr14 ++ *[0-9a-f]*: ed a7 61 80 ldcm\.w cp3,r7,cr15 ++ *[0-9a-f]*: ed ac 31 72 ldcm\.w cp1,r12\+\+,cr9,cr12-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 04 ff ldcm\.d cp0,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 e4 01 ldcm\.d cp7,r0,cr0-cr1 ++ *[0-9a-f]*: ed a4 94 7f ldcm\.d cp4,r4\+\+,cr0-cr13 ++ *[0-9a-f]*: ed a7 64 80 ldcm\.d cp3,r7,cr14-cr15 ++ *[0-9a-f]*: ed ac 54 93 ldcm\.d cp2,r12\+\+,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 02 ff stcm\.w cp0,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 e2 01 stcm\.w cp7,r0,cr0 ++ *[0-9a-f]*: ed a4 92 7f stcm\.w cp4,--r4,cr0-cr6 ++ *[0-9a-f]*: ed a7 62 80 stcm\.w cp3,r7,cr7 ++ *[0-9a-f]*: ed ac 32 72 stcm\.w cp1,--r12,cr1,cr4-cr6 ++ *[0-9a-f]*: ed af 03 ff stcm\.w cp0,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 e3 01 stcm\.w cp7,r0,cr8 ++ *[0-9a-f]*: ed a4 93 7f stcm\.w cp4,--r4,cr8-cr14 ++ *[0-9a-f]*: ed a7 63 80 stcm\.w cp3,r7,cr15 ++ *[0-9a-f]*: ed ac 33 72 stcm\.w cp1,--r12,cr9,cr12-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 05 ff stcm\.d cp0,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 e5 01 stcm\.d cp7,r0,cr0-cr1 ++ *[0-9a-f]*: ed a4 95 7f stcm\.d cp4,--r4,cr0-cr13 ++ *[0-9a-f]*: ed a7 65 80 stcm\.d cp3,r7,cr14-cr15 ++ *[0-9a-f]*: ed ac 55 93 stcm\.d cp2,--r12,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef af ef 00 mvcr\.w cp7,pc,cr15 ++ *[0-9a-f]*: ef a0 00 00 mvcr\.w cp0,r0,cr0 ++ *[0-9a-f]*: ef af 0f 00 mvcr\.w cp0,pc,cr15 ++ *[0-9a-f]*: ef a0 ef 00 mvcr\.w cp7,r0,cr15 ++ *[0-9a-f]*: ef af e0 00 mvcr\.w cp7,pc,cr0 ++ *[0-9a-f]*: ef a7 88 00 mvcr\.w cp4,r7,cr8 ++ *[0-9a-f]*: ef a8 67 00 mvcr\.w cp3,r8,cr7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef ae ee 10 mvcr\.d cp7,lr,cr14 ++ *[0-9a-f]*: ef a0 00 10 mvcr\.d cp0,r0,cr0 ++ *[0-9a-f]*: ef ae 0e 10 mvcr\.d cp0,lr,cr14 ++ *[0-9a-f]*: ef a0 ee 10 mvcr\.d cp7,r0,cr14 ++ *[0-9a-f]*: ef ae e0 10 mvcr\.d cp7,lr,cr0 ++ *[0-9a-f]*: ef a6 88 10 mvcr\.d cp4,r6,cr8 ++ *[0-9a-f]*: ef a8 66 10 mvcr\.d cp3,r8,cr6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef af ef 20 mvrc\.w cp7,cr15,pc ++ *[0-9a-f]*: ef a0 00 20 mvrc\.w cp0,cr0,r0 ++ *[0-9a-f]*: ef af 0f 20 mvrc\.w cp0,cr15,pc ++ *[0-9a-f]*: ef a0 ef 20 mvrc\.w cp7,cr15,r0 ++ *[0-9a-f]*: ef af e0 20 mvrc\.w cp7,cr0,pc ++ *[0-9a-f]*: ef a7 88 20 mvrc\.w cp4,cr8,r7 ++ *[0-9a-f]*: ef a8 67 20 mvrc\.w cp3,cr7,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef ae ee 30 mvrc\.d cp7,cr14,lr ++ *[0-9a-f]*: ef a0 00 30 mvrc\.d cp0,cr0,r0 ++ *[0-9a-f]*: ef ae 0e 30 mvrc\.d cp0,cr14,lr ++ *[0-9a-f]*: ef a0 ee 30 mvrc\.d cp7,cr14,r0 ++ *[0-9a-f]*: ef ae e0 30 mvrc\.d cp7,cr0,lr ++ *[0-9a-f]*: ef a6 88 30 mvrc\.d cp4,cr8,r6 ++ *[0-9a-f]*: ef a8 66 30 mvrc\.d cp3,cr6,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df b3 ff bfexts pc,pc,0x1f,0x1f ++ *[0-9a-f]*: e1 d0 b0 00 bfexts r0,r0,0x0,0x0 ++ *[0-9a-f]*: e1 df b3 ff bfexts r0,pc,0x1f,0x1f ++ *[0-9a-f]*: ff d0 b3 ff bfexts pc,r0,0x1f,0x1f ++ *[0-9a-f]*: ff df b0 1f bfexts pc,pc,0x0,0x1f ++ *[0-9a-f]*: ff df b3 e0 bfexts pc,pc,0x1f,0x0 ++ *[0-9a-f]*: ef d8 b1 f0 bfexts r7,r8,0xf,0x10 ++ *[0-9a-f]*: f1 d7 b2 0f bfexts r8,r7,0x10,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df c3 ff bfextu pc,pc,0x1f,0x1f ++ *[0-9a-f]*: e1 d0 c0 00 bfextu r0,r0,0x0,0x0 ++ *[0-9a-f]*: e1 df c3 ff bfextu r0,pc,0x1f,0x1f ++ *[0-9a-f]*: ff d0 c3 ff bfextu pc,r0,0x1f,0x1f ++ *[0-9a-f]*: ff df c0 1f bfextu pc,pc,0x0,0x1f ++ *[0-9a-f]*: ff df c3 e0 bfextu pc,pc,0x1f,0x0 ++ *[0-9a-f]*: ef d8 c1 f0 bfextu r7,r8,0xf,0x10 ++ *[0-9a-f]*: f1 d7 c2 0f bfextu r8,r7,0x10,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df d3 ff bfins pc,pc,0x1f,0x1f ++ *[0-9a-f]*: e1 d0 d0 00 bfins r0,r0,0x0,0x0 ++ *[0-9a-f]*: e1 df d3 ff bfins r0,pc,0x1f,0x1f ++ *[0-9a-f]*: ff d0 d3 ff bfins pc,r0,0x1f,0x1f ++ *[0-9a-f]*: ff df d0 1f bfins pc,pc,0x0,0x1f ++ *[0-9a-f]*: ff df d3 e0 bfins pc,pc,0x1f,0x0 ++ *[0-9a-f]*: ef d8 d1 f0 bfins r7,r8,0xf,0x10 ++ *[0-9a-f]*: f1 d7 d2 0f bfins r8,r7,0x10,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fb bf 00 00 rsubeq pc,0 ++ *[0-9a-f]*: fb bc 0f ff rsubal r12,-1 ++ *[0-9a-f]*: fb b5 08 80 rsubls r5,-128 ++ *[0-9a-f]*: fb b4 07 7f rsubpl r4,127 ++ *[0-9a-f]*: fb be 01 01 rsubne lr,1 ++ *[0-9a-f]*: fb bc 08 76 rsubls r12,118 ++ *[0-9a-f]*: fb be 0d f4 rsubvc lr,-12 ++ *[0-9a-f]*: fb b4 06 f3 rsubmi r4,-13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 0f addeq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 0c addal r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 05 addls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 04 addpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 0e addne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 0a addls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 0c addvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 0a addmi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 1f subeq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 1c subal r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 15 subls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 14 subpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 1e subne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 1a subls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 1c subvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 1a submi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 2f andeq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 2c andal r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 25 andls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 24 andpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 2e andne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 2a andls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 2c andvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 2a andmi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 3f oreq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 3c oral r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 35 orls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 34 orpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 3e orne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 3a orls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 3c orvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 3a ormi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff df e0 4f eoreq pc,pc,pc ++ *[0-9a-f]*: f9 dc ef 4c eoral r12,r12,r12 ++ *[0-9a-f]*: eb d5 e8 45 eorls r5,r5,r5 ++ *[0-9a-f]*: e9 d4 e7 44 eorpl r4,r4,r4 ++ *[0-9a-f]*: fd de e1 4e eorne lr,lr,lr ++ *[0-9a-f]*: e5 d1 e8 4a eorls r10,r2,r1 ++ *[0-9a-f]*: f1 db ed 4c eorvc r12,r8,r11 ++ *[0-9a-f]*: ef d0 e6 4a eormi r10,r7,r0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ff 01 ff ld.weq pc,pc[0x7fc] ++ *[0-9a-f]*: f9 fc f3 ff ld.shal r12,r12[0x3fe] ++ *[0-9a-f]*: eb f5 84 00 ld.shls r5,r5[0x0] ++ *[0-9a-f]*: e9 f4 79 ff ld.ubpl r4,r4[0x1ff] ++ *[0-9a-f]*: fd fe 16 00 ld.sbne lr,lr[0x0] ++ *[0-9a-f]*: e5 fa 80 00 ld.wls r10,r2[0x0] ++ *[0-9a-f]*: f1 fc d3 ff ld.shvc r12,r8[0x3fe] ++ *[0-9a-f]*: ef fa 68 01 ld.ubmi r10,r7[0x1] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ff ff 0b ff st.weq pc[0x7fc],pc ++ *[0-9a-f]*: f9 fc fd ff st.hal r12[0x3fe],r12 ++ *[0-9a-f]*: eb f5 8c 00 st.hls r5[0x0],r5 ++ *[0-9a-f]*: e9 f4 7f ff st.bpl r4[0x1ff],r4 ++ *[0-9a-f]*: fd fe 1e 00 st.bne lr[0x0],lr ++ *[0-9a-f]*: e5 fa 8a 00 st.wls r2[0x0],r10 ++ *[0-9a-f]*: f1 fc dd ff st.hvc r8[0x3fe],r12 ++ *[0-9a-f]*: ef fa 6e 01 st.bmi r7[0x1],r10 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: fc 1f ff ff movh pc,0xffff ++ *[0-9a-f]*: fc 10 00 00 movh r0,0x0 ++ *[0-9a-f]*: fc 15 00 01 movh r5,0x1 ++ *[0-9a-f]*: fc 1c 7f ff movh r12,0x7fff ++ +--- /dev/null ++++ b/gas/testsuite/gas/avr32/allinsn.exp +@@ -0,0 +1,5 @@ ++# AVR32 assembler testsuite. -*- Tcl -*- ++ ++if [istarget avr32-*-*] { ++ run_dump_test "allinsn" ++} +--- /dev/null ++++ b/gas/testsuite/gas/avr32/allinsn.s +@@ -0,0 +1,3330 @@ ++ .data ++foodata: .word 42 ++ .text ++footext: ++ .text ++ .global ld_d5 ++ld_d5: ++ ld.d lr,pc[pc<<3] ++ ld.d r0,r0[r0<<0] ++ ld.d r6,r5[r5<<2] ++ ld.d r4,r4[r4<<1] ++ ld.d lr,lr[lr<<1] ++ ld.d r10,r3[sp<<2] ++ ld.d r8,r10[r6<<2] ++ ld.d r2,r7[r9<<0] ++ .text ++ .global ld_w5 ++ld_w5: ++ ld.w pc,pc[pc<<0] ++ ld.w r12,r12[r12<<3] ++ ld.w r5,r5[r5<<2] ++ ld.w r4,r4[r4<<1] ++ ld.w lr,lr[lr<<1] ++ ld.w r2,r9[r9<<0] ++ ld.w r11,r2[r6<<0] ++ ld.w r0,r2[sp<<3] ++ .text ++ .global ld_sh5 ++ld_sh5: ++ ld.sh pc,pc[pc<<0] ++ ld.sh r12,r12[r12<<3] ++ ld.sh r5,r5[r5<<2] ++ ld.sh r4,r4[r4<<1] ++ ld.sh lr,lr[lr<<1] ++ ld.sh r11,r0[pc<<2] ++ ld.sh r10,sp[r6<<2] ++ ld.sh r12,r2[r2<<0] ++ .text ++ .global ld_uh5 ++ld_uh5: ++ ld.uh pc,pc[pc<<0] ++ ld.uh r12,r12[r12<<3] ++ ld.uh r5,r5[r5<<2] ++ ld.uh r4,r4[r4<<1] ++ ld.uh lr,lr[lr<<1] ++ ld.uh r8,pc[lr<<3] ++ ld.uh r6,r1[pc<<1] ++ ld.uh r6,lr[sp<<1] ++ .text ++ .global ld_sb2 ++ld_sb2: ++ ld.sb pc,pc[pc<<0] ++ ld.sb r12,r12[r12<<3] ++ ld.sb r5,r5[r5<<2] ++ ld.sb r4,r4[r4<<1] ++ ld.sb lr,lr[lr<<1] ++ ld.sb r9,r1[pc<<3] ++ ld.sb r0,r3[r11<<1] ++ ld.sb r10,r5[r5<<1] ++ .text ++ .global ld_ub5 ++ld_ub5: ++ ld.ub pc,pc[pc<<0] ++ ld.ub r12,r12[r12<<3] ++ ld.ub r5,r5[r5<<2] ++ ld.ub r4,r4[r4<<1] ++ ld.ub lr,lr[lr<<1] ++ ld.ub r6,r12[r7<<3] ++ ld.ub r2,r6[r12<<0] ++ ld.ub r0,r7[r11<<1] ++ .text ++ .global st_d5 ++st_d5: ++ st.d pc[pc<<0],r14 ++ st.d r12[r12<<3],r12 ++ st.d r5[r5<<2],r6 ++ st.d r4[r4<<1],r4 ++ st.d lr[lr<<1],lr ++ st.d r1[r9<<1],r4 ++ st.d r10[r2<<1],r4 ++ st.d r12[r6<<0],lr ++ .text ++ .global st_w5 ++st_w5: ++ st.w pc[pc<<0],pc ++ st.w r12[r12<<3],r12 ++ st.w r5[r5<<2],r5 ++ st.w r4[r4<<1],r4 ++ st.w lr[lr<<1],lr ++ st.w r1[r10<<0],r3 ++ st.w r0[r10<<1],r9 ++ st.w r4[r5<<3],pc ++ .text ++ .global st_h5 ++st_h5: ++ st.h pc[pc<<0],pc ++ st.h r12[r12<<3],r12 ++ st.h r5[r5<<2],r5 ++ st.h r4[r4<<1],r4 ++ st.h lr[lr<<1],lr ++ st.h r2[r9<<0],r11 ++ st.h r5[r1<<2],r12 ++ st.h pc[r8<<2],r3 ++ .text ++ .global st_b5 ++st_b5: ++ st.b pc[pc<<0],pc ++ st.b r12[r12<<3],r12 ++ st.b r5[r5<<2],r5 ++ st.b r4[r4<<1],r4 ++ st.b lr[lr<<1],lr ++ st.b r1[r8<<1],r6 ++ st.b lr[lr<<3],r1 ++ st.b r5[r0<<2],pc ++ .text ++ .global divs ++divs: ++ divs pc,pc,pc ++ divs r12,r12,r12 ++ divs r5,r5,r5 ++ divs r4,r4,r4 ++ divs lr,lr,lr ++ divs r3,pc,pc ++ divs r9,r12,r2 ++ divs r7,r4,r1 ++ .text ++ .global add1 ++add1: ++ add pc,pc ++ add r12,r12 ++ add r5,r5 ++ add r4,r4 ++ add lr,lr ++ add r12,r9 ++ add r6,r3 ++ add r10,r12 ++ .text ++ .global sub1 ++sub1: ++ sub pc,pc ++ sub r12,r12 ++ sub r5,r5 ++ sub r4,r4 ++ sub lr,lr ++ sub lr,r6 ++ sub r0,sp ++ sub r6,r12 ++ .text ++ .global rsub1 ++rsub1: ++ rsub pc,pc ++ rsub r12,r12 ++ rsub r5,r5 ++ rsub r4,r4 ++ rsub lr,lr ++ rsub r11,sp ++ rsub r7,r4 ++ rsub r9,r1 ++ .text ++ .global cp1 ++cp1: ++ cp pc,pc ++ cp r12,r12 ++ cp r5,r5 ++ cp r4,r4 ++ cp lr,lr ++ cp r6,r2 ++ cp r0,r9 ++ cp r3,sp ++ .text ++ .global or1 ++or1: ++ or pc,pc ++ or r12,r12 ++ or r5,r5 ++ or r4,r4 ++ or lr,lr ++ or r4,r9 ++ or r11,r4 ++ or r4,r0 ++ .text ++ .global eor1 ++eor1: ++ eor pc,pc ++ eor r12,r12 ++ eor r5,r5 ++ eor r4,r4 ++ eor lr,lr ++ eor r12,r11 ++ eor r0,r1 ++ eor r5,pc ++ .text ++ .global and1 ++and1: ++ and pc,pc ++ and r12,r12 ++ and r5,r5 ++ and r4,r4 ++ and lr,lr ++ and r8,r1 ++ and r0,sp ++ and r10,r5 ++ .text ++ .global tst ++tst: ++ tst pc,pc ++ tst r12,r12 ++ tst r5,r5 ++ tst r4,r4 ++ tst lr,lr ++ tst r0,r12 ++ tst r10,r6 ++ tst sp,r4 ++ .text ++ .global andn ++andn: ++ andn pc,pc ++ andn r12,r12 ++ andn r5,r5 ++ andn r4,r4 ++ andn lr,lr ++ andn r9,r12 ++ andn r11,sp ++ andn r12,r5 ++ .text ++ .global mov3 ++mov3: ++ mov pc,pc ++ mov r12,r12 ++ mov r5,r5 ++ mov r4,r4 ++ mov lr,lr ++ mov r5,r9 ++ mov r11,r11 ++ mov r2,lr ++ .text ++ .global st_w1 ++st_w1: ++ st.w pc++,pc ++ st.w r12++,r12 ++ st.w r5++,r5 ++ st.w r4++,r4 ++ st.w lr++,lr ++ st.w r1++,r11 ++ st.w sp++,r0 ++ st.w sp++,r1 ++ .text ++ .global st_h1 ++st_h1: ++ st.h pc++,pc ++ st.h r12++,r12 ++ st.h r5++,r5 ++ st.h r4++,r4 ++ st.h lr++,lr ++ st.h r12++,sp ++ st.h r7++,lr ++ st.h r7++,r4 ++ .text ++ .global st_b1 ++st_b1: ++ st.b pc++,pc ++ st.b r12++,r12 ++ st.b r5++,r5 ++ st.b r4++,r4 ++ st.b lr++,lr ++ st.b r9++,sp ++ st.b r1++,sp ++ st.b r0++,r4 ++ .text ++ .global st_w2 ++st_w2: ++ st.w --pc,pc ++ st.w --r12,r12 ++ st.w --r5,r5 ++ st.w --r4,r4 ++ st.w --lr,lr ++ st.w --r1,r7 ++ st.w --r3,r9 ++ st.w --r5,r5 ++ .text ++ .global st_h2 ++st_h2: ++ st.h --pc,pc ++ st.h --r12,r12 ++ st.h --r5,r5 ++ st.h --r4,r4 ++ st.h --lr,lr ++ st.h --r5,r7 ++ st.h --r8,r8 ++ st.h --r7,r2 ++ .text ++ .global st_b2 ++st_b2: ++ st.b --pc,pc ++ st.b --r12,r12 ++ st.b --r5,r5 ++ st.b --r4,r4 ++ st.b --lr,lr ++ st.b --sp,sp ++ st.b --sp,r11 ++ st.b --r4,r5 ++ .text ++ .global ld_w1 ++ld_w1: ++ ld.w pc,pc++ ++ ld.w r12,r12++ ++ ld.w r5,r5++ ++ ld.w r4,r4++ ++ ld.w lr,lr++ ++ ld.w r3,r7++ ++ ld.w r3,lr++ ++ ld.w r12,r5++ ++ .text ++ .global ld_sh1 ++ld_sh1: ++ ld.sh pc,pc++ ++ ld.sh r12,r12++ ++ ld.sh r5,r5++ ++ ld.sh r4,r4++ ++ ld.sh lr,lr++ ++ ld.sh r11,r2++ ++ ld.sh r2,r8++ ++ ld.sh r7,r6++ ++ .text ++ .global ld_uh1 ++ld_uh1: ++ ld.uh pc,pc++ ++ ld.uh r12,r12++ ++ ld.uh r5,r5++ ++ ld.uh r4,r4++ ++ ld.uh lr,lr++ ++ ld.uh r6,r7++ ++ ld.uh r10,r11++ ++ ld.uh lr,r4++ ++ .text ++ .global ld_ub1 ++ld_ub1: ++ ld.ub pc,pc++ ++ ld.ub r12,r12++ ++ ld.ub r5,r5++ ++ ld.ub r4,r4++ ++ ld.ub lr,lr++ ++ ld.ub r8,lr++ ++ ld.ub r12,r12++ ++ ld.ub r11,r10++ ++ .text ++ .global ld_w2 ++ld_w2: ++ ld.w pc,--pc ++ ld.w r12,--r12 ++ ld.w r5,--r5 ++ ld.w r4,--r4 ++ ld.w lr,--lr ++ ld.w r10,--lr ++ ld.w r12,--r9 ++ ld.w r6,--r5 ++ .text ++ .global ld_sh2 ++ld_sh2: ++ ld.sh pc,--pc ++ ld.sh r12,--r12 ++ ld.sh r5,--r5 ++ ld.sh r4,--r4 ++ ld.sh lr,--lr ++ ld.sh pc,--r10 ++ ld.sh r6,--r3 ++ ld.sh r4,--r6 ++ .text ++ .global ld_uh2 ++ld_uh2: ++ ld.uh pc,--pc ++ ld.uh r12,--r12 ++ ld.uh r5,--r5 ++ ld.uh r4,--r4 ++ ld.uh lr,--lr ++ ld.uh r3,--r2 ++ ld.uh r1,--r0 ++ ld.uh r2,--r9 ++ .text ++ .global ld_ub2 ++ld_ub2: ++ ld.ub pc,--pc ++ ld.ub r12,--r12 ++ ld.ub r5,--r5 ++ ld.ub r4,--r4 ++ ld.ub lr,--lr ++ ld.ub r1,--r1 ++ ld.ub r0,--r6 ++ ld.ub r2,--r7 ++ .text ++ .global ld_ub3 ++ld_ub3: ++ ld.ub pc,pc[0] ++ ld.ub r12,r12[7] ++ ld.ub r5,r5[4] ++ ld.ub r4,r4[3] ++ ld.ub lr,lr[1] ++ ld.ub r6,r9[6] ++ ld.ub r2,lr[4] ++ ld.ub r1,r8[0] ++ .text ++ .global sub3_sp ++sub3_sp: ++ sub sp,0 ++ sub sp,-4 ++ sub sp,-512 ++ sub sp,508 ++ sub sp,4 ++ sub sp,44 ++ sub sp,8 ++ sub sp,348 ++ .text ++ .global sub3 ++sub3: ++ sub pc,0 ++ sub r12,-1 ++ sub r5,-128 ++ sub r4,127 ++ sub lr,1 ++ sub r6,-41 ++ sub r4,37 ++ sub r12,56 ++ .text ++ .global mov1 ++mov1: ++ mov pc,0 ++ mov r12,-1 ++ mov r5,-128 ++ mov r4,127 ++ mov lr,1 ++ mov pc,14 ++ mov r6,-100 ++ mov lr,-122 ++ .text ++ .global lddsp ++lddsp: ++ lddsp pc,sp[0] ++ lddsp r12,sp[508] ++ lddsp r5,sp[256] ++ lddsp r4,sp[252] ++ lddsp lr,sp[4] ++ lddsp lr,sp[256] ++ lddsp r12,sp[20] ++ lddsp r9,sp[472] ++ .text ++ .global lddpc ++lddpc: ++ lddpc pc,pc[0] ++ lddpc r0,pc[508] ++ lddpc r8,pc[256] ++ lddpc r7,pc[252] ++ lddpc lr,pc[4] ++ lddpc sp,pc[472] ++ lddpc r6,pc[120] ++ lddpc r11,pc[28] ++ .text ++ .global stdsp ++stdsp: ++ stdsp sp[0],pc ++ stdsp sp[508],r12 ++ stdsp sp[256],r5 ++ stdsp sp[252],r4 ++ stdsp sp[4],lr ++ stdsp sp[304],pc ++ stdsp sp[256],r0 ++ stdsp sp[336],r5 ++ .text ++ .global cp2 ++cp2: ++ cp pc,0 ++ cp r12,-1 ++ cp r5,-32 ++ cp r4,31 ++ cp lr,1 ++ cp r8,3 ++ cp lr,16 ++ cp r7,-26 ++ .text ++ .global acr ++acr: ++ acr pc ++ acr r12 ++ acr r5 ++ acr r4 ++ acr lr ++ acr r2 ++ acr r12 ++ acr pc ++ .text ++ .global scr ++scr: ++ scr pc ++ scr r12 ++ scr r5 ++ scr r4 ++ scr lr ++ scr pc ++ scr r6 ++ scr r1 ++ .text ++ .global cpc0 ++cpc0: ++ cpc pc ++ cpc r12 ++ cpc r5 ++ cpc r4 ++ cpc lr ++ cpc pc ++ cpc r4 ++ cpc r9 ++ .text ++ .global neg ++neg: ++ neg pc ++ neg r12 ++ neg r5 ++ neg r4 ++ neg lr ++ neg r7 ++ neg r1 ++ neg r9 ++ .text ++ .global abs ++abs: ++ abs pc ++ abs r12 ++ abs r5 ++ abs r4 ++ abs lr ++ abs r6 ++ abs r6 ++ abs r4 ++ .text ++ .global castu_b ++castu_b: ++ castu.b pc ++ castu.b r12 ++ castu.b r5 ++ castu.b r4 ++ castu.b lr ++ castu.b r7 ++ castu.b sp ++ castu.b r9 ++ .text ++ .global casts_b ++casts_b: ++ casts.b pc ++ casts.b r12 ++ casts.b r5 ++ casts.b r4 ++ casts.b lr ++ casts.b r11 ++ casts.b r1 ++ casts.b r10 ++ .text ++ .global castu_h ++castu_h: ++ castu.h pc ++ castu.h r12 ++ castu.h r5 ++ castu.h r4 ++ castu.h lr ++ castu.h r10 ++ castu.h r11 ++ castu.h r1 ++ .text ++ .global casts_h ++casts_h: ++ casts.h pc ++ casts.h r12 ++ casts.h r5 ++ casts.h r4 ++ casts.h lr ++ casts.h r0 ++ casts.h r5 ++ casts.h r9 ++ .text ++ .global brev ++brev: ++ brev pc ++ brev r12 ++ brev r5 ++ brev r4 ++ brev lr ++ brev r5 ++ brev r10 ++ brev r8 ++ .text ++ .global swap_h ++swap_h: ++ swap.h pc ++ swap.h r12 ++ swap.h r5 ++ swap.h r4 ++ swap.h lr ++ swap.h r7 ++ swap.h r0 ++ swap.h r8 ++ .text ++ .global swap_b ++swap_b: ++ swap.b pc ++ swap.b r12 ++ swap.b r5 ++ swap.b r4 ++ swap.b lr ++ swap.b r10 ++ swap.b r12 ++ swap.b r1 ++ .text ++ .global swap_bh ++swap_bh: ++ swap.bh pc ++ swap.bh r12 ++ swap.bh r5 ++ swap.bh r4 ++ swap.bh lr ++ swap.bh r9 ++ swap.bh r4 ++ swap.bh r1 ++ .text ++ .global One_s_compliment ++One_s_compliment: ++ com pc ++ com r12 ++ com r5 ++ com r4 ++ com lr ++ com r2 ++ com r2 ++ com r7 ++ .text ++ .global tnbz ++tnbz: ++ tnbz pc ++ tnbz r12 ++ tnbz r5 ++ tnbz r4 ++ tnbz lr ++ tnbz r8 ++ tnbz r12 ++ tnbz pc ++ .text ++ .global rol ++rol: ++ rol pc ++ rol r12 ++ rol r5 ++ rol r4 ++ rol lr ++ rol r10 ++ rol r9 ++ rol r5 ++ .text ++ .global ror ++ror: ++ ror pc ++ ror r12 ++ ror r5 ++ ror r4 ++ ror lr ++ ror r8 ++ ror r4 ++ ror r7 ++ .text ++ .global icall ++icall: ++ icall pc ++ icall r12 ++ icall r5 ++ icall r4 ++ icall lr ++ icall r3 ++ icall r1 ++ icall r3 ++ .text ++ .global mustr ++mustr: ++ mustr pc ++ mustr r12 ++ mustr r5 ++ mustr r4 ++ mustr lr ++ mustr r1 ++ mustr r4 ++ mustr r12 ++ .text ++ .global musfr ++musfr: ++ musfr pc ++ musfr r12 ++ musfr r5 ++ musfr r4 ++ musfr lr ++ musfr r11 ++ musfr r12 ++ musfr r2 ++ .text ++ .global ret_cond ++ret_cond: ++ reteq pc ++ retal r12 ++ retls r5 ++ retpl r4 ++ retne lr ++ retgt r0 ++ retgt r12 ++ retge r10 ++ .text ++ .global sr_cond ++sr_cond: ++ sreq pc ++ sral r12 ++ srls r5 ++ srpl r4 ++ srne lr ++ srlt r0 ++ sral sp ++ srge r9 ++ .text ++ .global ld_w3 ++ld_w3: ++ ld.w pc,pc[0] ++ ld.w r12,r12[124] ++ ld.w r5,r5[64] ++ ld.w r4,r4[60] ++ ld.w lr,lr[4] ++ ld.w sp,r2[52] ++ ld.w r9,r1[8] ++ ld.w r5,sp[60] ++ .text ++ .global ld_sh3 ++ld_sh3: ++ ld.sh pc,pc[0] ++ ld.sh r12,r12[14] ++ ld.sh r5,r5[8] ++ ld.sh r4,r4[6] ++ ld.sh lr,lr[2] ++ ld.sh r4,r2[8] ++ ld.sh sp,lr[10] ++ ld.sh r2,r11[2] ++ .text ++ .global ld_uh3 ++ld_uh3: ++ ld.uh pc,pc[0] ++ ld.uh r12,r12[14] ++ ld.uh r5,r5[8] ++ ld.uh r4,r4[6] ++ ld.uh lr,lr[2] ++ ld.uh r10,r0[10] ++ ld.uh r8,r11[8] ++ ld.uh r10,r2[12] ++ .text ++ .global st_w3 ++st_w3: ++ st.w pc[0],pc ++ st.w r12[60],r12 ++ st.w r5[32],r5 ++ st.w r4[28],r4 ++ st.w lr[4],lr ++ st.w r7[44],r11 ++ st.w r2[24],r6 ++ st.w r4[12],r9 ++ .text ++ .global st_h3 ++st_h3: ++ st.h pc[0],pc ++ st.h r12[14],r12 ++ st.h r5[8],r5 ++ st.h r4[6],r4 ++ st.h lr[2],lr ++ st.h lr[10],r12 ++ st.h r6[4],r0 ++ st.h r5[12],sp ++ .text ++ .global st_b3 ++st_b3: ++ st.b pc[0],pc ++ st.b r12[7],r12 ++ st.b r5[4],r5 ++ st.b r4[3],r4 ++ st.b lr[1],lr ++ st.b r12[6],r9 ++ st.b r2[3],lr ++ st.b r1[3],r11 ++ .text ++ .global ldd ++ldd: ++ ld.d r0,pc ++ ld.d r14,r12 ++ ld.d r8,r5 ++ ld.d r6,r4 ++ ld.d r2,lr ++ ld.d r14,r7 ++ ld.d r4,r4 ++ ld.d r14,pc ++ .text ++ .global ldd_postinc ++ldd_postinc: ++ ld.d r0,pc++ ++ ld.d r14,r12++ ++ ld.d r8,r5++ ++ ld.d r6,r4++ ++ ld.d r2,lr++ ++ ld.d r14,r5++ ++ ld.d r12,r11++ ++ ld.d r2,r12++ ++ .text ++ .global ldd_predec ++ldd_predec: ++ ld.d r0,--pc ++ ld.d r14,--r12 ++ ld.d r8,--r5 ++ ld.d r6,--r4 ++ ld.d r2,--lr ++ ld.d r8,--r0 ++ ld.d r10,--pc ++ ld.d r2,--r4 ++ .text ++ .global std ++std: ++ st.d pc,r0 ++ st.d r12,r14 ++ st.d r5,r8 ++ st.d r4,r6 ++ st.d lr,r2 ++ st.d r0,r12 ++ st.d sp,r4 ++ st.d r12,r12 ++ .text ++ .global std_postinc ++std_postinc: ++ st.d pc++,r0 ++ st.d r12++,r14 ++ st.d r5++,r8 ++ st.d r4++,r6 ++ st.d lr++,r2 ++ st.d sp++,r6 ++ st.d r10++,r6 ++ st.d r7++,r2 ++ .text ++ .global std_predec ++std_predec: ++ st.d --pc,r0 ++ st.d --r12,r14 ++ st.d --r5,r8 ++ st.d --r4,r6 ++ st.d --lr,r2 ++ st.d --r3,r6 ++ st.d --lr,r2 ++ st.d --r0,r4 ++ .text ++ .global mul ++mul: ++ mul pc,pc ++ mul r12,r12 ++ mul r5,r5 ++ mul r4,r4 ++ mul lr,lr ++ mul r10,lr ++ mul r0,r8 ++ mul r8,r5 ++ .text ++ .global asr_imm5 ++asr_imm5: ++ asr pc,0 ++ asr r12,31 ++ asr r5,16 ++ asr r4,15 ++ asr lr,1 ++ asr r6,23 ++ asr r6,18 ++ asr r5,8 ++ .text ++ .global lsl_imm5 ++lsl_imm5: ++ lsl pc,0 ++ lsl r12,31 ++ lsl r5,16 ++ lsl r4,15 ++ lsl lr,1 ++ lsl r12,13 ++ lsl r6,16 ++ lsl r1,25 ++ .text ++ .global lsr_imm5 ++lsr_imm5: ++ lsr pc,0 ++ lsr r12,31 ++ lsr r5,16 ++ lsr r4,15 ++ lsr lr,1 ++ lsr r0,1 ++ lsr r8,10 ++ lsr r7,26 ++ .text ++ .global sbr ++sbr: ++ sbr pc,0 ++ sbr r12,31 ++ sbr r5,16 ++ sbr r4,15 ++ sbr lr,1 ++ sbr r8,31 ++ sbr r6,22 ++ sbr r1,23 ++ .text ++ .global cbr ++cbr: ++ cbr pc,0 ++ cbr r12,31 ++ cbr r5,16 ++ cbr r4,15 ++ cbr lr,1 ++ cbr r12,10 ++ cbr r7,22 ++ cbr r8,9 ++ .text ++ .global brc1 ++brc1: ++ breq 0 ++ brpl -2 ++ brge -256 ++ brcs 254 ++ brne 2 ++ brcs 230 ++ breq -18 ++ breq 12 ++ .text ++ .global rjmp ++rjmp: ++ rjmp 0 ++ rjmp -2 ++ rjmp -1024 ++ rjmp 1022 ++ rjmp 2 ++ rjmp -962 ++ rjmp 14 ++ rjmp -516 ++ .text ++ .global rcall1 ++rcall1: ++ rcall 0 ++ rcall -2 ++ rcall -1024 ++ rcall 1022 ++ rcall 2 ++ rcall 216 ++ rcall -530 ++ rcall -972 ++ .text ++ .global acall ++acall: ++ acall 0 ++ acall 1020 ++ acall 512 ++ acall 508 ++ acall 4 ++ acall 356 ++ acall 304 ++ acall 172 ++ .text ++ .global scall ++scall: ++ scall ++ scall ++ scall ++ scall ++ scall ++ scall ++ scall ++ scall ++ .text ++ .global popm ++popm: ++ /* popm with no argument fails currently */ ++ popm pc ++ popm r0-r11,pc,r12=-1 ++ popm lr ++ popm r0-r11,pc,r12=1 ++ popm r0-r3 ++ popm r4-r10,pc ++ popm r0-r3,r11,pc,r12=0 ++ popm r0-r7,r10-r12,lr ++ .text ++ .global pushm ++pushm: ++ pushm pc ++ pushm r0-r12,lr,pc ++ pushm pc ++ pushm r0-r12,lr ++ pushm r0-r3 ++ pushm r8-r10,lr,pc ++ pushm r0-r3,r10 ++ pushm r8-r9,r12 ++ .text ++ .global popm_n ++popm_n: ++ popm pc ++ popm r0-r11,pc,r12=-1 ++ popm lr ++ popm r0-r11,pc,r12=1 ++ popm r0-r3 ++ popm r4-r10,pc ++ popm r0-r3,r11,pc,r12=0 ++ popm r0-r7,r10-r12,lr ++ .text ++ .global pushm_n ++pushm_n: ++ pushm pc ++ pushm r0-r12,lr,pc ++ pushm pc ++ pushm r0-r12,lr ++ pushm r0-r3 ++ pushm r8-r10,lr,pc ++ pushm r0-r3,r10 ++ pushm r8-r9,r12 ++ .text ++ .global csrfcz ++csrfcz: ++ csrfcz 0 ++ csrfcz 31 ++ csrfcz 16 ++ csrfcz 15 ++ csrfcz 1 ++ csrfcz 5 ++ csrfcz 13 ++ csrfcz 23 ++ .text ++ .global ssrf ++ssrf: ++ ssrf 0 ++ ssrf 31 ++ ssrf 16 ++ ssrf 15 ++ ssrf 1 ++ ssrf 29 ++ ssrf 13 ++ ssrf 13 ++ .text ++ .global csrf ++csrf: ++ csrf 0 ++ csrf 31 ++ csrf 16 ++ csrf 15 ++ csrf 1 ++ csrf 10 ++ csrf 15 ++ csrf 11 ++ .text ++ .global rete ++rete: ++ rete ++ .text ++ .global rets ++rets: ++ rets ++ .text ++ .global retd ++retd: ++ retd ++ .text ++ .global retj ++retj: ++ retj ++ .text ++ .global tlbr ++tlbr: ++ tlbr ++ .text ++ .global tlbs ++tlbs: ++ tlbs ++ .text ++ .global tlbw ++tlbw: ++ tlbw ++ .text ++ .global breakpoint ++breakpoint: ++ breakpoint ++ .text ++ .global incjosp ++incjosp: ++ incjosp 1 ++ incjosp 2 ++ incjosp 3 ++ incjosp 4 ++ incjosp -4 ++ incjosp -3 ++ incjosp -2 ++ incjosp -1 ++ .text ++ .global nop ++nop: ++ nop ++ .text ++ .global popjc ++popjc: ++ popjc ++ .text ++ .global pushjc ++pushjc: ++ pushjc ++ .text ++ .global add2 ++add2: ++ add pc,pc,pc<<0 ++ add r12,r12,r12<<3 ++ add r5,r5,r5<<2 ++ add r4,r4,r4<<1 ++ add lr,lr,lr<<1 ++ add r0,r12,r0<<1 ++ add r9,r12,r4<<0 ++ add r12,r12,r7<<2 ++ .text ++ .global sub2 ++sub2: ++ sub pc,pc,pc<<0 ++ sub r12,r12,r12<<3 ++ sub r5,r5,r5<<2 ++ sub r4,r4,r4<<1 ++ sub lr,lr,lr<<1 ++ sub sp,r3,r4<<0 ++ sub r3,r7,r3<<0 ++ sub sp,r10,sp<<1 ++ .text ++ .global divu ++divu: ++ divu pc,pc,pc ++ divu r12,r12,r12 ++ divu r5,r5,r5 ++ divu r4,r4,r4 ++ divu lr,lr,lr ++ divu sp,r4,pc ++ divu r5,r5,sp ++ divu r10,sp,r0 ++ .text ++ .global addhh_w ++addhh_w: ++ addhh.w pc,pc:b,pc:b ++ addhh.w r12,r12:t,r12:t ++ addhh.w r5,r5:t,r5:t ++ addhh.w r4,r4:b,r4:b ++ addhh.w lr,lr:t,lr:t ++ addhh.w r0,r0:b,r3:b ++ addhh.w lr,r12:t,r7:b ++ addhh.w r3,r10:t,r2:b ++ .text ++ .global subhh_w ++subhh_w: ++ subhh.w pc,pc:b,pc:b ++ subhh.w r12,r12:t,r12:t ++ subhh.w r5,r5:t,r5:t ++ subhh.w r4,r4:b,r4:b ++ subhh.w lr,lr:t,lr:t ++ subhh.w r10,r1:t,r7:b ++ subhh.w pc,r10:t,lr:t ++ subhh.w r3,r0:t,r12:b ++ .text ++ .global adc ++adc: ++ adc pc,pc,pc ++ adc r12,r12,r12 ++ adc r5,r5,r5 ++ adc r4,r4,r4 ++ adc lr,lr,lr ++ adc r4,r0,r7 ++ adc sp,r4,r3 ++ adc r2,r12,r0 ++ .text ++ .global sbc ++sbc: ++ sbc pc,pc,pc ++ sbc r12,r12,r12 ++ sbc r5,r5,r5 ++ sbc r4,r4,r4 ++ sbc lr,lr,lr ++ sbc r6,r7,r9 ++ sbc r0,r8,r5 ++ sbc r1,r0,r4 ++ .text ++ .global mul_2 ++mul_2: ++ mul pc,pc,pc ++ mul r12,r12,r12 ++ mul r5,r5,r5 ++ mul r4,r4,r4 ++ mul lr,lr,lr ++ mul pc,r0,r0 ++ mul r8,pc,lr ++ mul r4,r12,pc ++ .text ++ .global mac ++mac: ++ mac pc,pc,pc ++ mac r12,r12,r12 ++ mac r5,r5,r5 ++ mac r4,r4,r4 ++ mac lr,lr,lr ++ mac r10,r4,r0 ++ mac r7,lr,r0 ++ mac r2,r9,r12 ++ .text ++ .global mulsd ++mulsd: ++ muls.d pc,pc,pc ++ muls.d r12,r12,r12 ++ muls.d r5,r5,r5 ++ muls.d r4,r4,r4 ++ muls.d lr,lr,lr ++ muls.d r2,r8,lr ++ muls.d r4,r0,r11 ++ muls.d r5,lr,r6 ++ .text ++ .global macsd ++macsd: ++ macs.d r0,pc,pc ++ macs.d r14,r12,r12 ++ macs.d r8,r5,r5 ++ macs.d r6,r4,r4 ++ macs.d r2,lr,lr ++ macs.d r8,r1,r9 ++ macs.d r14,r8,r8 ++ macs.d r4,r3,r12 ++ .text ++ .global mulud ++mulud: ++ mulu.d r0,pc,pc ++ mulu.d r14,r12,r12 ++ mulu.d r8,r5,r5 ++ mulu.d r6,r4,r4 ++ mulu.d r2,lr,lr ++ mulu.d r6,r5,r0 ++ mulu.d r4,r6,r1 ++ mulu.d r8,r8,r2 ++ .text ++ .global macud ++macud: ++ macu.d r0,pc,pc ++ macu.d r14,r12,r12 ++ macu.d r8,r5,r5 ++ macu.d r6,r4,r4 ++ macu.d r2,lr,lr ++ macu.d r6,sp,r11 ++ macu.d r2,r4,r8 ++ macu.d r6,r10,r9 ++ .text ++ .global asr_1 ++asr_1: ++ asr pc,pc,pc ++ asr r12,r12,r12 ++ asr r5,r5,r5 ++ asr r4,r4,r4 ++ asr lr,lr,lr ++ asr pc,r6,pc ++ asr r0,r6,r12 ++ asr r4,sp,r0 ++ .text ++ .global lsl_1 ++lsl_1: ++ lsl pc,pc,pc ++ lsl r12,r12,r12 ++ lsl r5,r5,r5 ++ lsl r4,r4,r4 ++ lsl lr,lr,lr ++ lsl lr,r5,lr ++ lsl r5,pc,r3 ++ lsl r1,pc,r9 ++ .text ++ .global lsr_1 ++lsr_1: ++ lsr pc,pc,pc ++ lsr r12,r12,r12 ++ lsr r5,r5,r5 ++ lsr r4,r4,r4 ++ lsr lr,lr,lr ++ lsr r2,r4,r1 ++ lsr r5,r1,r6 ++ lsr sp,r6,r7 ++ .text ++ .global xchg ++xchg: ++ xchg pc,pc,pc ++ xchg r12,r12,r12 ++ xchg r5,r5,r5 ++ xchg r4,r4,r4 ++ xchg lr,lr,lr ++ xchg lr,r4,sp ++ xchg r1,r5,r12 ++ xchg lr,r12,r0 ++ .text ++ .global max ++max: ++ max pc,pc,pc ++ max r12,r12,r12 ++ max r5,r5,r5 ++ max r4,r4,r4 ++ max lr,lr,lr ++ max lr,r2,sp ++ max r4,r10,r9 ++ max lr,r9,lr ++ .text ++ .global min ++min: ++ min pc,pc,pc ++ min r12,r12,r12 ++ min r5,r5,r5 ++ min r4,r4,r4 ++ min lr,lr,lr ++ min r9,r7,r8 ++ min sp,r5,r5 ++ min r4,r1,r4 ++ .text ++ .global addabs ++addabs: ++ addabs pc,pc,pc ++ addabs r12,r12,r12 ++ addabs r5,r5,r5 ++ addabs r4,r4,r4 ++ addabs lr,lr,lr ++ addabs r7,r10,r0 ++ addabs r9,r9,r7 ++ addabs r2,r8,r12 ++ .text ++ .global mulnhh_w ++mulnhh_w: ++ mulnhh.w pc,pc:b,pc:b ++ mulnhh.w r12,r12:t,r12:t ++ mulnhh.w r5,r5:t,r5:t ++ mulnhh.w r4,r4:b,r4:b ++ mulnhh.w lr,lr:t,lr:t ++ mulnhh.w r11,sp:t,r9:b ++ mulnhh.w sp,r4:b,lr:t ++ mulnhh.w r12,r2:t,r11:b ++ .text ++ .global mulnwh_d ++mulnwh_d: ++ mulnwh.d r0,pc,pc:b ++ mulnwh.d r14,r12,r12:t ++ mulnwh.d r8,r5,r5:t ++ mulnwh.d r6,r4,r4:b ++ mulnwh.d r2,lr,lr:t ++ mulnwh.d r14,r3,r2:t ++ mulnwh.d r4,r5,r9:b ++ mulnwh.d r12,r4,r4:t ++ .text ++ .global machh_w ++machh_w: ++ machh.w pc,pc:b,pc:b ++ machh.w r12,r12:t,r12:t ++ machh.w r5,r5:t,r5:t ++ machh.w r4,r4:b,r4:b ++ machh.w lr,lr:t,lr:t ++ machh.w lr,r5:b,r1:t ++ machh.w r9,r6:b,r7:b ++ machh.w r5,lr:t,r12:b ++ .text ++ .global machh_d ++machh_d: ++ machh.d r0,pc:b,pc:b ++ machh.d r14,r12:t,r12:t ++ machh.d r8,r5:t,r5:t ++ machh.d r6,r4:b,r4:b ++ machh.d r2,lr:t,lr:t ++ machh.d r10,r0:b,r8:b ++ machh.d r14,r4:b,r5:t ++ machh.d r8,r0:b,r4:t ++ .text ++ .global macsathh_w ++macsathh_w: ++ macsathh.w pc,pc:b,pc:b ++ macsathh.w r12,r12:t,r12:t ++ macsathh.w r5,r5:t,r5:t ++ macsathh.w r4,r4:b,r4:b ++ macsathh.w lr,lr:t,lr:t ++ macsathh.w r7,r7:t,pc:t ++ macsathh.w r4,r2:t,r4:b ++ macsathh.w r4,r8:t,r3:t ++ .text ++ .global mulhh_w ++mulhh_w: ++ mulhh.w pc,pc:b,pc:b ++ mulhh.w r12,r12:t,r12:t ++ mulhh.w r5,r5:t,r5:t ++ mulhh.w r4,r4:b,r4:b ++ mulhh.w lr,lr:t,lr:t ++ mulhh.w r7,r4:t,r9:b ++ mulhh.w pc,r3:t,r7:t ++ mulhh.w pc,r4:b,r9:t ++ .text ++ .global mulsathh_h ++mulsathh_h: ++ mulsathh.h pc,pc:b,pc:b ++ mulsathh.h r12,r12:t,r12:t ++ mulsathh.h r5,r5:t,r5:t ++ mulsathh.h r4,r4:b,r4:b ++ mulsathh.h lr,lr:t,lr:t ++ mulsathh.h r3,r1:b,sp:b ++ mulsathh.h r11,lr:t,r11:b ++ mulsathh.h r8,r8:b,r11:t ++ .text ++ .global mulsathh_w ++mulsathh_w: ++ mulsathh.w pc,pc:b,pc:b ++ mulsathh.w r12,r12:t,r12:t ++ mulsathh.w r5,r5:t,r5:t ++ mulsathh.w r4,r4:b,r4:b ++ mulsathh.w lr,lr:t,lr:t ++ mulsathh.w lr,r11:t,r6:b ++ mulsathh.w r6,r6:b,r7:t ++ mulsathh.w r10,r2:b,r3:b ++ .text ++ .global mulsatrndhh_h ++mulsatrndhh_h: ++ mulsatrndhh.h pc,pc:b,pc:b ++ mulsatrndhh.h r12,r12:t,r12:t ++ mulsatrndhh.h r5,r5:t,r5:t ++ mulsatrndhh.h r4,r4:b,r4:b ++ mulsatrndhh.h lr,lr:t,lr:t ++ mulsatrndhh.h r11,r6:b,r9:b ++ mulsatrndhh.h r11,r3:b,r8:t ++ mulsatrndhh.h r5,sp:t,r7:t ++ .text ++ .global mulsatrndwh_w ++mulsatrndwh_w: ++ mulsatrndwh.w pc,pc,pc:b ++ mulsatrndwh.w r12,r12,r12:t ++ mulsatrndwh.w r5,r5,r5:t ++ mulsatrndwh.w r4,r4,r4:b ++ mulsatrndwh.w lr,lr,lr:t ++ mulsatrndwh.w r5,r12,r0:b ++ mulsatrndwh.w r7,r10,pc:b ++ mulsatrndwh.w r10,r8,r5:t ++ .text ++ .global macwh_d ++macwh_d: ++ macwh.d r0,pc,pc:b ++ macwh.d r14,r12,r12:t ++ macwh.d r8,r5,r5:t ++ macwh.d r6,r4,r4:b ++ macwh.d r2,lr,lr:t ++ macwh.d r4,r10,r12:t ++ macwh.d r4,r7,sp:b ++ macwh.d r14,r9,r11:b ++ .text ++ .global mulwh_d ++mulwh_d: ++ mulwh.d r0,pc,pc:b ++ mulwh.d r14,r12,r12:t ++ mulwh.d r8,r5,r5:t ++ mulwh.d r6,r4,r4:b ++ mulwh.d r2,lr,lr:t ++ mulwh.d r12,r5,r1:b ++ mulwh.d r0,r1,r3:t ++ mulwh.d r0,r9,r2:b ++ .text ++ .global mulsatwh_w ++mulsatwh_w: ++ mulsatwh.w pc,pc,pc:b ++ mulsatwh.w r12,r12,r12:t ++ mulsatwh.w r5,r5,r5:t ++ mulsatwh.w r4,r4,r4:b ++ mulsatwh.w lr,lr,lr:t ++ mulsatwh.w r11,pc,r10:t ++ mulsatwh.w sp,r12,r9:t ++ mulsatwh.w r0,r3,r2:t ++ .text ++ .global ldw7 ++ldw7: ++ ld.w pc,pc[pc:b<<2] ++ ld.w r12,r12[r12:t<<2] ++ ld.w r5,r5[r5:u<<2] ++ ld.w r4,r4[r4:l<<2] ++ ld.w lr,lr[lr:l<<2] ++ ld.w r9,r10[r6:l<<2] ++ ld.w r2,r10[r10:b<<2] ++ ld.w r11,r5[pc:b<<2] ++ .text ++ .global satadd_w ++satadd_w: ++ satadd.w pc,pc,pc ++ satadd.w r12,r12,r12 ++ satadd.w r5,r5,r5 ++ satadd.w r4,r4,r4 ++ satadd.w lr,lr,lr ++ satadd.w r4,r8,r11 ++ satadd.w r3,r12,r6 ++ satadd.w r3,lr,r9 ++ .text ++ .global satsub_w1 ++satsub_w1: ++ satsub.w pc,pc,pc ++ satsub.w r12,r12,r12 ++ satsub.w r5,r5,r5 ++ satsub.w r4,r4,r4 ++ satsub.w lr,lr,lr ++ satsub.w r8,sp,r0 ++ satsub.w r9,r8,r4 ++ satsub.w pc,lr,r2 ++ .text ++ .global satadd_h ++satadd_h: ++ satadd.h pc,pc,pc ++ satadd.h r12,r12,r12 ++ satadd.h r5,r5,r5 ++ satadd.h r4,r4,r4 ++ satadd.h lr,lr,lr ++ satadd.h r7,r3,r9 ++ satadd.h r1,r0,r2 ++ satadd.h r1,r4,lr ++ .text ++ .global satsub_h ++satsub_h: ++ satsub.h pc,pc,pc ++ satsub.h r12,r12,r12 ++ satsub.h r5,r5,r5 ++ satsub.h r4,r4,r4 ++ satsub.h lr,lr,lr ++ satsub.h lr,lr,r3 ++ satsub.h r11,r6,r5 ++ satsub.h r3,sp,r0 ++ .text ++ .global mul3 ++mul3: ++ mul pc,pc,0 ++ mul r12,r12,-1 ++ mul r5,r5,-128 ++ mul r4,r4,127 ++ mul lr,lr,1 ++ mul r12,r2,-7 ++ mul r1,pc,95 ++ mul r4,r6,19 ++ .text ++ .global rsub2 ++rsub2: ++ rsub pc,pc,0 ++ rsub r12,r12,-1 ++ rsub r5,r5,-128 ++ rsub r4,r4,127 ++ rsub lr,lr,1 ++ rsub r9,lr,96 ++ rsub r11,r1,56 ++ rsub r0,r7,-87 ++ .text ++ .global clz ++clz: ++ clz pc,pc ++ clz r12,r12 ++ clz r5,r5 ++ clz r4,r4 ++ clz lr,lr ++ clz r2,r3 ++ clz r5,r11 ++ clz pc,r3 ++ .text ++ .global cpc1 ++cpc1: ++ cpc pc,pc ++ cpc r12,r12 ++ cpc r5,r5 ++ cpc r4,r4 ++ cpc lr,lr ++ cpc pc,r4 ++ cpc r5,r9 ++ cpc r6,r7 ++ .text ++ .global asr3 ++asr3: ++ asr pc,pc,0 ++ asr r12,r12,31 ++ asr r5,r5,16 ++ asr r4,r4,15 ++ asr lr,lr,1 ++ asr r4,r11,19 ++ asr sp,pc,26 ++ asr r11,sp,8 ++ .text ++ .global lsl3 ++lsl3: ++ lsl pc,pc,0 ++ lsl r12,r12,31 ++ lsl r5,r5,16 ++ lsl r4,r4,15 ++ lsl lr,lr,1 ++ lsl r8,r10,17 ++ lsl r2,lr,3 ++ lsl lr,r11,14 ++ .text ++ .global lsr3 ++lsr3: ++ lsr pc,pc,0 ++ lsr r12,r12,31 ++ lsr r5,r5,16 ++ lsr r4,r4,15 ++ lsr lr,lr,1 ++ lsr r4,r3,31 ++ lsr pc,r9,14 ++ lsr r3,r0,6 ++/* .text ++ .global extract_b ++extract_b: ++ extract.b pc,pc:b ++ extract.b r12,r12:t ++ extract.b r5,r5:u ++ extract.b r4,r4:l ++ extract.b lr,lr:l ++ extract.b r2,r5:l ++ extract.b r12,r3:l ++ extract.b sp,r3:l ++ .text ++ .global insert_b ++insert_b: ++ insert.b pc:b,pc ++ insert.b r12:t,r12 ++ insert.b r5:u,r5 ++ insert.b r4:l,r4 ++ insert.b lr:l,lr ++ insert.b r12:u,r3 ++ insert.b r10:l,lr ++ insert.b r11:l,r12 ++ .text ++ .global extract_h ++extract_h: ++ extract.h pc,pc:b ++ extract.h r12,r12:t ++ extract.h r5,r5:t ++ extract.h r4,r4:b ++ extract.h lr,lr:t ++ extract.h r11,lr:b ++ extract.h r10,r0:b ++ extract.h r11,r12:b ++ .text ++ .global insert_h ++insert_h: ++ insert.h pc:b,pc ++ insert.h r12:t,r12 ++ insert.h r5:t,r5 ++ insert.h r4:b,r4 ++ insert.h lr:t,lr ++ insert.h r12:t,r11 ++ insert.h r7:b,r6 ++ insert.h r1:t,r11 */ ++ .text ++ .global movc1 ++movc1: ++ moveq pc,pc ++ moval r12,r12 ++ movls r5,r5 ++ movpl r4,r4 ++ movne lr,lr ++ movne pc,r11 ++ movmi r10,r2 ++ movls r8,r12 ++ .text ++ .global padd_h ++padd_h: ++ padd.h pc,pc,pc ++ padd.h r12,r12,r12 ++ padd.h r5,r5,r5 ++ padd.h r4,r4,r4 ++ padd.h lr,lr,lr ++ padd.h r8,r2,r7 ++ padd.h r0,r0,r3 ++ padd.h sp,r11,r6 ++ .text ++ .global psub_h ++psub_h: ++ psub.h pc,pc,pc ++ psub.h r12,r12,r12 ++ psub.h r5,r5,r5 ++ psub.h r4,r4,r4 ++ psub.h lr,lr,lr ++ psub.h lr,r6,r8 ++ psub.h r0,r1,sp ++ psub.h pc,pc,sp ++ .text ++ .global paddx_h ++paddx_h: ++ paddx.h pc,pc,pc ++ paddx.h r12,r12,r12 ++ paddx.h r5,r5,r5 ++ paddx.h r4,r4,r4 ++ paddx.h lr,lr,lr ++ paddx.h pc,pc,r1 ++ paddx.h r10,r4,r5 ++ paddx.h r5,pc,r2 ++ .text ++ .global psubx_h ++psubx_h: ++ psubx.h pc,pc,pc ++ psubx.h r12,r12,r12 ++ psubx.h r5,r5,r5 ++ psubx.h r4,r4,r4 ++ psubx.h lr,lr,lr ++ psubx.h r5,r12,r5 ++ psubx.h r3,r8,r3 ++ psubx.h r5,r2,r3 ++ .text ++ .global padds_sh ++padds_sh: ++ padds.sh pc,pc,pc ++ padds.sh r12,r12,r12 ++ padds.sh r5,r5,r5 ++ padds.sh r4,r4,r4 ++ padds.sh lr,lr,lr ++ padds.sh r9,lr,r2 ++ padds.sh r6,r8,r1 ++ padds.sh r6,r4,r10 ++ .text ++ .global psubs_sh ++psubs_sh: ++ psubs.sh pc,pc,pc ++ psubs.sh r12,r12,r12 ++ psubs.sh r5,r5,r5 ++ psubs.sh r4,r4,r4 ++ psubs.sh lr,lr,lr ++ psubs.sh r6,lr,r11 ++ psubs.sh r2,r12,r4 ++ psubs.sh r0,r9,r0 ++ .text ++ .global paddxs_sh ++paddxs_sh: ++ paddxs.sh pc,pc,pc ++ paddxs.sh r12,r12,r12 ++ paddxs.sh r5,r5,r5 ++ paddxs.sh r4,r4,r4 ++ paddxs.sh lr,lr,lr ++ paddxs.sh r0,r3,r9 ++ paddxs.sh pc,r10,r11 ++ paddxs.sh pc,r10,pc ++ .text ++ .global psubxs_sh ++psubxs_sh: ++ psubxs.sh pc,pc,pc ++ psubxs.sh r12,r12,r12 ++ psubxs.sh r5,r5,r5 ++ psubxs.sh r4,r4,r4 ++ psubxs.sh lr,lr,lr ++ psubxs.sh r7,r4,r4 ++ psubxs.sh r7,r8,r3 ++ psubxs.sh pc,r6,r5 ++ .text ++ .global padds_uh ++padds_uh: ++ padds.uh pc,pc,pc ++ padds.uh r12,r12,r12 ++ padds.uh r5,r5,r5 ++ padds.uh r4,r4,r4 ++ padds.uh lr,lr,lr ++ padds.uh r12,r11,r7 ++ padds.uh r7,r8,lr ++ padds.uh r6,r9,r7 ++ .text ++ .global psubs_uh ++psubs_uh: ++ psubs.uh pc,pc,pc ++ psubs.uh r12,r12,r12 ++ psubs.uh r5,r5,r5 ++ psubs.uh r4,r4,r4 ++ psubs.uh lr,lr,lr ++ psubs.uh lr,r10,r6 ++ psubs.uh sp,r2,pc ++ psubs.uh r2,r9,r2 ++ .text ++ .global paddxs_uh ++paddxs_uh: ++ paddxs.uh pc,pc,pc ++ paddxs.uh r12,r12,r12 ++ paddxs.uh r5,r5,r5 ++ paddxs.uh r4,r4,r4 ++ paddxs.uh lr,lr,lr ++ paddxs.uh r7,r9,r5 ++ paddxs.uh r9,r1,r4 ++ paddxs.uh r5,r2,r3 ++ .text ++ .global psubxs_uh ++psubxs_uh: ++ psubxs.uh pc,pc,pc ++ psubxs.uh r12,r12,r12 ++ psubxs.uh r5,r5,r5 ++ psubxs.uh r4,r4,r4 ++ psubxs.uh lr,lr,lr ++ psubxs.uh sp,r5,sp ++ psubxs.uh sp,r6,r6 ++ psubxs.uh r3,r11,r8 ++ .text ++ .global paddh_sh ++paddh_sh: ++ paddh.sh pc,pc,pc ++ paddh.sh r12,r12,r12 ++ paddh.sh r5,r5,r5 ++ paddh.sh r4,r4,r4 ++ paddh.sh lr,lr,lr ++ paddh.sh r12,sp,r3 ++ paddh.sh pc,r5,r3 ++ paddh.sh r8,r8,sp ++ .text ++ .global psubh_sh ++psubh_sh: ++ psubh.sh pc,pc,pc ++ psubh.sh r12,r12,r12 ++ psubh.sh r5,r5,r5 ++ psubh.sh r4,r4,r4 ++ psubh.sh lr,lr,lr ++ psubh.sh r1,r5,r8 ++ psubh.sh r7,r3,r6 ++ psubh.sh r4,r3,r3 ++ .text ++ .global paddxh_sh ++paddxh_sh: ++ paddxh.sh pc,pc,pc ++ paddxh.sh r12,r12,r12 ++ paddxh.sh r5,r5,r5 ++ paddxh.sh r4,r4,r4 ++ paddxh.sh lr,lr,lr ++ paddxh.sh r6,r0,r4 ++ paddxh.sh r9,r8,r9 ++ paddxh.sh r3,r0,sp ++ .text ++ .global psubxh_sh ++psubxh_sh: ++ psubxh.sh pc,pc,pc ++ psubxh.sh r12,r12,r12 ++ psubxh.sh r5,r5,r5 ++ psubxh.sh r4,r4,r4 ++ psubxh.sh lr,lr,lr ++ psubxh.sh r4,pc,r12 ++ psubxh.sh r8,r4,r6 ++ psubxh.sh r12,r9,r4 ++ .text ++ .global paddsub_h ++paddsub_h: ++ paddsub.h pc,pc:b,pc:b ++ paddsub.h r12,r12:t,r12:t ++ paddsub.h r5,r5:t,r5:t ++ paddsub.h r4,r4:b,r4:b ++ paddsub.h lr,lr:t,lr:t ++ paddsub.h r5,r2:t,lr:b ++ paddsub.h r7,r1:b,r8:b ++ paddsub.h r6,r10:t,r5:t ++ .text ++ .global psubadd_h ++psubadd_h: ++ psubadd.h pc,pc:b,pc:b ++ psubadd.h r12,r12:t,r12:t ++ psubadd.h r5,r5:t,r5:t ++ psubadd.h r4,r4:b,r4:b ++ psubadd.h lr,lr:t,lr:t ++ psubadd.h r9,r11:t,r8:t ++ psubadd.h r10,r7:t,lr:t ++ psubadd.h r6,pc:t,pc:b ++ .text ++ .global paddsubs_sh ++paddsubs_sh: ++ paddsubs.sh pc,pc:b,pc:b ++ paddsubs.sh r12,r12:t,r12:t ++ paddsubs.sh r5,r5:t,r5:t ++ paddsubs.sh r4,r4:b,r4:b ++ paddsubs.sh lr,lr:t,lr:t ++ paddsubs.sh r0,lr:t,r0:b ++ paddsubs.sh r9,r2:t,r4:t ++ paddsubs.sh r12,r9:t,sp:t ++ .text ++ .global psubadds_sh ++psubadds_sh: ++ psubadds.sh pc,pc:b,pc:b ++ psubadds.sh r12,r12:t,r12:t ++ psubadds.sh r5,r5:t,r5:t ++ psubadds.sh r4,r4:b,r4:b ++ psubadds.sh lr,lr:t,lr:t ++ psubadds.sh pc,lr:b,r1:t ++ psubadds.sh r11,r3:b,r12:b ++ psubadds.sh r10,r2:t,r8:t ++ .text ++ .global paddsubs_uh ++paddsubs_uh: ++ paddsubs.uh pc,pc:b,pc:b ++ paddsubs.uh r12,r12:t,r12:t ++ paddsubs.uh r5,r5:t,r5:t ++ paddsubs.uh r4,r4:b,r4:b ++ paddsubs.uh lr,lr:t,lr:t ++ paddsubs.uh r9,r2:b,r3:b ++ paddsubs.uh sp,sp:b,r7:t ++ paddsubs.uh lr,r0:b,r10:t ++ .text ++ .global psubadds_uh ++psubadds_uh: ++ psubadds.uh pc,pc:b,pc:b ++ psubadds.uh r12,r12:t,r12:t ++ psubadds.uh r5,r5:t,r5:t ++ psubadds.uh r4,r4:b,r4:b ++ psubadds.uh lr,lr:t,lr:t ++ psubadds.uh r12,r9:t,pc:t ++ psubadds.uh r8,r6:b,r8:b ++ psubadds.uh r8,r8:b,r4:b ++ .text ++ .global paddsubh_sh ++paddsubh_sh: ++ paddsubh.sh pc,pc:b,pc:b ++ paddsubh.sh r12,r12:t,r12:t ++ paddsubh.sh r5,r5:t,r5:t ++ paddsubh.sh r4,r4:b,r4:b ++ paddsubh.sh lr,lr:t,lr:t ++ paddsubh.sh r8,r9:t,r9:b ++ paddsubh.sh r0,sp:t,r1:t ++ paddsubh.sh r3,r1:b,r0:t ++ .text ++ .global psubaddh_sh ++psubaddh_sh: ++ psubaddh.sh pc,pc:b,pc:b ++ psubaddh.sh r12,r12:t,r12:t ++ psubaddh.sh r5,r5:t,r5:t ++ psubaddh.sh r4,r4:b,r4:b ++ psubaddh.sh lr,lr:t,lr:t ++ psubaddh.sh r7,r3:t,r10:b ++ psubaddh.sh r7,r2:t,r1:t ++ psubaddh.sh r11,r3:b,r6:b ++ .text ++ .global padd_b ++padd_b: ++ padd.b pc,pc,pc ++ padd.b r12,r12,r12 ++ padd.b r5,r5,r5 ++ padd.b r4,r4,r4 ++ padd.b lr,lr,lr ++ padd.b r2,r6,pc ++ padd.b r8,r9,r12 ++ padd.b r5,r12,r3 ++ .text ++ .global psub_b ++psub_b: ++ psub.b pc,pc,pc ++ psub.b r12,r12,r12 ++ psub.b r5,r5,r5 ++ psub.b r4,r4,r4 ++ psub.b lr,lr,lr ++ psub.b r0,r12,pc ++ psub.b r7,sp,r10 ++ psub.b r5,sp,r12 ++ .text ++ .global padds_sb ++padds_sb: ++ padds.sb pc,pc,pc ++ padds.sb r12,r12,r12 ++ padds.sb r5,r5,r5 ++ padds.sb r4,r4,r4 ++ padds.sb lr,lr,lr ++ padds.sb sp,r11,r4 ++ padds.sb r11,r10,r11 ++ padds.sb r5,r12,r6 ++ .text ++ .global psubs_sb ++psubs_sb: ++ psubs.sb pc,pc,pc ++ psubs.sb r12,r12,r12 ++ psubs.sb r5,r5,r5 ++ psubs.sb r4,r4,r4 ++ psubs.sb lr,lr,lr ++ psubs.sb r7,r6,r8 ++ psubs.sb r12,r10,r9 ++ psubs.sb pc,r11,r0 ++ .text ++ .global padds_ub ++padds_ub: ++ padds.ub pc,pc,pc ++ padds.ub r12,r12,r12 ++ padds.ub r5,r5,r5 ++ padds.ub r4,r4,r4 ++ padds.ub lr,lr,lr ++ padds.ub r3,r2,r11 ++ padds.ub r10,r8,r1 ++ padds.ub r11,r8,r10 ++ .text ++ .global psubs_ub ++psubs_ub: ++ psubs.ub pc,pc,pc ++ psubs.ub r12,r12,r12 ++ psubs.ub r5,r5,r5 ++ psubs.ub r4,r4,r4 ++ psubs.ub lr,lr,lr ++ psubs.ub r0,r2,r7 ++ psubs.ub lr,r5,r3 ++ psubs.ub r6,r7,r9 ++ .text ++ .global paddh_ub ++paddh_ub: ++ paddh.ub pc,pc,pc ++ paddh.ub r12,r12,r12 ++ paddh.ub r5,r5,r5 ++ paddh.ub r4,r4,r4 ++ paddh.ub lr,lr,lr ++ paddh.ub lr,r1,r0 ++ paddh.ub r2,r7,r7 ++ paddh.ub r2,r1,r2 ++ .text ++ .global psubh_ub ++psubh_ub: ++ psubh.ub pc,pc,pc ++ psubh.ub r12,r12,r12 ++ psubh.ub r5,r5,r5 ++ psubh.ub r4,r4,r4 ++ psubh.ub lr,lr,lr ++ psubh.ub r0,r1,r6 ++ psubh.ub r4,lr,r10 ++ psubh.ub r9,r8,r1 ++ .text ++ .global pmax_ub ++pmax_ub: ++ pmax.ub pc,pc,pc ++ pmax.ub r12,r12,r12 ++ pmax.ub r5,r5,r5 ++ pmax.ub r4,r4,r4 ++ pmax.ub lr,lr,lr ++ pmax.ub pc,r2,r11 ++ pmax.ub r12,r1,r1 ++ pmax.ub r5,r2,r0 ++ .text ++ .global pmax_sh ++pmax_sh: ++ pmax.sh pc,pc,pc ++ pmax.sh r12,r12,r12 ++ pmax.sh r5,r5,r5 ++ pmax.sh r4,r4,r4 ++ pmax.sh lr,lr,lr ++ pmax.sh lr,r6,r12 ++ pmax.sh r2,pc,r5 ++ pmax.sh pc,r2,r7 ++ .text ++ .global pmin_ub ++pmin_ub: ++ pmin.ub pc,pc,pc ++ pmin.ub r12,r12,r12 ++ pmin.ub r5,r5,r5 ++ pmin.ub r4,r4,r4 ++ pmin.ub lr,lr,lr ++ pmin.ub r8,r1,r5 ++ pmin.ub r1,r8,r3 ++ pmin.ub r0,r2,r7 ++ .text ++ .global pmin_sh ++pmin_sh: ++ pmin.sh pc,pc,pc ++ pmin.sh r12,r12,r12 ++ pmin.sh r5,r5,r5 ++ pmin.sh r4,r4,r4 ++ pmin.sh lr,lr,lr ++ pmin.sh r8,r4,r10 ++ pmin.sh lr,r10,r12 ++ pmin.sh r2,r6,r2 ++ .text ++ .global pavg_ub ++pavg_ub: ++ pavg.ub pc,pc,pc ++ pavg.ub r12,r12,r12 ++ pavg.ub r5,r5,r5 ++ pavg.ub r4,r4,r4 ++ pavg.ub lr,lr,lr ++ pavg.ub r0,r1,r6 ++ pavg.ub r8,r3,r6 ++ pavg.ub pc,r12,r10 ++ .text ++ .global pavg_sh ++pavg_sh: ++ pavg.sh pc,pc,pc ++ pavg.sh r12,r12,r12 ++ pavg.sh r5,r5,r5 ++ pavg.sh r4,r4,r4 ++ pavg.sh lr,lr,lr ++ pavg.sh r9,pc,sp ++ pavg.sh pc,sp,r3 ++ pavg.sh r6,r1,r9 ++ .text ++ .global pabs_sb ++pabs_sb: ++ pabs.sb pc,pc ++ pabs.sb r12,r12 ++ pabs.sb r5,r5 ++ pabs.sb r4,r4 ++ pabs.sb lr,lr ++ pabs.sb r11,r6 ++ pabs.sb lr,r9 ++ pabs.sb sp,r7 ++ .text ++ .global pabs_sh ++pabs_sh: ++ pabs.sh pc,pc ++ pabs.sh r12,r12 ++ pabs.sh r5,r5 ++ pabs.sh r4,r4 ++ pabs.sh lr,lr ++ pabs.sh pc,r3 ++ pabs.sh r5,r7 ++ pabs.sh r4,r0 ++ .text ++ .global psad ++psad: ++ psad pc,pc,pc ++ psad r12,r12,r12 ++ psad r5,r5,r5 ++ psad r4,r4,r4 ++ psad lr,lr,lr ++ psad r9,r11,r11 ++ psad lr,r4,sp ++ psad lr,r4,r5 ++ .text ++ .global pasr_b ++pasr_b: ++ pasr.b pc,pc,0 ++ pasr.b r12,r12,7 ++ pasr.b r5,r5,4 ++ pasr.b r4,r4,3 ++ pasr.b lr,lr,1 ++ pasr.b pc,r7,1 ++ pasr.b sp,lr,6 ++ pasr.b sp,r3,2 ++ .text ++ .global plsl_b ++plsl_b: ++ plsl.b pc,pc,0 ++ plsl.b r12,r12,7 ++ plsl.b r5,r5,4 ++ plsl.b r4,r4,3 ++ plsl.b lr,lr,1 ++ plsl.b r2,r11,4 ++ plsl.b r8,r5,7 ++ plsl.b pc,r0,2 ++ .text ++ .global plsr_b ++plsr_b: ++ plsr.b pc,pc,0 ++ plsr.b r12,r12,7 ++ plsr.b r5,r5,4 ++ plsr.b r4,r4,3 ++ plsr.b lr,lr,1 ++ plsr.b r12,r1,2 ++ plsr.b r6,pc,7 ++ plsr.b r12,r11,2 ++ .text ++ .global pasr_h ++pasr_h: ++ pasr.h pc,pc,0 ++ pasr.h r12,r12,15 ++ pasr.h r5,r5,8 ++ pasr.h r4,r4,7 ++ pasr.h lr,lr,1 ++ pasr.h r0,r11,10 ++ pasr.h r4,r6,8 ++ pasr.h r6,r2,4 ++ .text ++ .global plsl_h ++plsl_h: ++ plsl.h pc,pc,0 ++ plsl.h r12,r12,15 ++ plsl.h r5,r5,8 ++ plsl.h r4,r4,7 ++ plsl.h lr,lr,1 ++ plsl.h r5,r10,9 ++ plsl.h sp,lr,8 ++ plsl.h r0,lr,7 ++ .text ++ .global plsr_h ++plsr_h: ++ plsr.h pc,pc,0 ++ plsr.h r12,r12,15 ++ plsr.h r5,r5,8 ++ plsr.h r4,r4,7 ++ plsr.h lr,lr,1 ++ plsr.h r11,r0,15 ++ plsr.h lr,r3,3 ++ plsr.h r8,lr,10 ++ .text ++ .global packw_sh ++packw_sh: ++ packw.sh pc,pc,pc ++ packw.sh r12,r12,r12 ++ packw.sh r5,r5,r5 ++ packw.sh r4,r4,r4 ++ packw.sh lr,lr,lr ++ packw.sh sp,r11,r10 ++ packw.sh r8,r2,r12 ++ packw.sh r8,r1,r5 ++ .text ++ .global punpckub_h ++punpckub_h: ++ punpckub.h pc,pc:b ++ punpckub.h r12,r12:t ++ punpckub.h r5,r5:t ++ punpckub.h r4,r4:b ++ punpckub.h lr,lr:t ++ punpckub.h r6,r1:t ++ punpckub.h lr,r5:b ++ punpckub.h lr,r2:t ++ .text ++ .global punpcksb_h ++punpcksb_h: ++ punpcksb.h pc,pc:b ++ punpcksb.h r12,r12:t ++ punpcksb.h r5,r5:t ++ punpcksb.h r4,r4:b ++ punpcksb.h lr,lr:t ++ punpcksb.h r4,r7:t ++ punpcksb.h r6,lr:b ++ punpcksb.h r12,r12:t ++ .text ++ .global packsh_ub ++packsh_ub: ++ packsh.ub pc,pc,pc ++ packsh.ub r12,r12,r12 ++ packsh.ub r5,r5,r5 ++ packsh.ub r4,r4,r4 ++ packsh.ub lr,lr,lr ++ packsh.ub r3,r6,r3 ++ packsh.ub r8,r0,r3 ++ packsh.ub r9,r3,lr ++ .text ++ .global packsh_sb ++packsh_sb: ++ packsh.sb pc,pc,pc ++ packsh.sb r12,r12,r12 ++ packsh.sb r5,r5,r5 ++ packsh.sb r4,r4,r4 ++ packsh.sb lr,lr,lr ++ packsh.sb r6,r8,r1 ++ packsh.sb lr,r9,r8 ++ packsh.sb sp,r6,r6 ++ .text ++ .global andl ++andl: ++ andl pc,0 ++ andl r12,65535 ++ andl r5,32768 ++ andl r4,32767 ++ andl lr,1 ++ andl pc,23128 ++ andl r8,47262 ++ andl r7,13719 ++ .text ++ .global andl_coh ++andl_coh: ++ andl pc,0,COH ++ andl r12,65535,COH ++ andl r5,32768,COH ++ andl r4,32767,COH ++ andl lr,1,COH ++ andl r6,22753,COH ++ andl r0,40653,COH ++ andl r4,48580,COH ++ .text ++ .global andh ++andh: ++ andh pc,0 ++ andh r12,65535 ++ andh r5,32768 ++ andh r4,32767 ++ andh lr,1 ++ andh r12,52312 ++ andh r3,8675 ++ andh r2,42987 ++ .text ++ .global andh_coh ++andh_coh: ++ andh pc,0,COH ++ andh r12,65535,COH ++ andh r5,32768,COH ++ andh r4,32767,COH ++ andh lr,1,COH ++ andh r11,34317,COH ++ andh r8,52982,COH ++ andh r10,23683,COH ++ .text ++ .global orl ++orl: ++ orl pc,0 ++ orl r12,65535 ++ orl r5,32768 ++ orl r4,32767 ++ orl lr,1 ++ orl sp,16766 ++ orl r0,21181 ++ orl pc,44103 ++ .text ++ .global orh ++orh: ++ orh pc,0 ++ orh r12,65535 ++ orh r5,32768 ++ orh r4,32767 ++ orh lr,1 ++ orh r8,28285 ++ orh r12,30492 ++ orh r1,59930 ++ .text ++ .global eorl ++eorl: ++ eorl pc,0 ++ eorl r12,65535 ++ eorl r5,32768 ++ eorl r4,32767 ++ eorl lr,1 ++ eorl r4,51129 ++ eorl r6,64477 ++ eorl r1,20913 ++ .text ++ .global eorh ++eorh: ++ eorh pc,0 ++ eorh r12,65535 ++ eorh r5,32768 ++ eorh r4,32767 ++ eorh lr,1 ++ eorh r0,11732 ++ eorh r10,38069 ++ eorh r9,57130 ++ .text ++ .global mcall ++mcall: ++ mcall pc[0] ++ mcall r12[-4] ++ mcall r5[-131072] ++ mcall r4[131068] ++ mcall lr[4] ++ mcall sp[61180] ++ mcall r4[-35000] ++ mcall r0[9924] ++ .text ++ .global pref ++pref: ++ pref pc[0] ++ pref r12[-1] ++ pref r5[-32768] ++ pref r4[32767] ++ pref lr[1] ++ pref r7[7748] ++ pref r7[-7699] ++ pref r2[-25892] ++ .text ++ .global cache ++cache: ++ cache pc[0],0 ++ cache r12[-1],31 ++ cache r5[-1024],16 ++ cache r4[1023],15 ++ cache lr[1],1 ++ cache r3[-964],17 ++ cache r4[-375],22 ++ cache r3[-888],17 ++ .text ++ .global sub4 ++sub4: ++ sub pc,0 ++ sub r12,-1 ++ sub r5,-1048576 ++ sub r4,1048575 ++ sub lr,1 ++ sub r2,-619156 ++ sub lr,461517 ++ sub r8,-185051 ++ .text ++ .global cp3 ++cp3: ++ cp pc,0 ++ cp r12,-1 ++ cp r5,-1048576 ++ cp r4,1048575 ++ cp lr,1 ++ cp r1,124078 ++ cp r0,-378909 ++ cp r4,-243180 ++ .text ++ .global mov2 ++mov2: ++ mov pc,0 ++ mov r12,-1 ++ mov r5,-1048576 ++ mov r4,1048575 ++ mov lr,1 ++ mov r5,-317021 ++ mov sp,-749164 ++ mov r5,940179 ++ .text ++ .global brc2 ++brc2: ++ breq 0 ++ bral -2 ++ brls -2097152 ++ brpl 2097150 ++ brne 2 ++ brhi -1796966 ++ brqs 1321368 ++ brls -577434 ++ .text ++ .global rcall2 ++rcall2: ++ rcall 0 ++ rcall -2 ++ rcall -2097152 ++ rcall 2097150 ++ rcall 2 ++ rcall 496820 ++ rcall 1085092 ++ rcall -1058 ++ .text ++ .global sub5 ++sub5: ++ sub pc,pc,0 ++ sub r12,r12,-1 ++ sub r5,r5,-32768 ++ sub r4,r4,32767 ++ sub lr,lr,1 ++ sub pc,pc,-12744 ++ sub r7,r7,-27365 ++ sub r2,r9,-17358 ++ .text ++ .global satsub_w2 ++satsub_w2: ++ satsub.w pc,pc,0 ++ satsub.w r12,r12,-1 ++ satsub.w r5,r5,-32768 ++ satsub.w r4,r4,32767 ++ satsub.w lr,lr,1 ++ satsub.w r2,lr,-2007 ++ satsub.w r7,r12,-784 ++ satsub.w r4,r7,23180 ++ .text ++ .global ld_d4 ++ld_d4: ++ ld.d r0,pc[0] ++ ld.d r14,r12[-1] ++ ld.d r8,r5[-32768] ++ ld.d r6,r4[32767] ++ ld.d r2,lr[1] ++ ld.d r14,r11[14784] ++ ld.d r6,r9[-18905] ++ ld.d r2,r3[-6355] ++ .text ++ .global ld_w4 ++ld_w4: ++ ld.w pc,pc[0] ++ ld.w r12,r12[-1] ++ ld.w r5,r5[-32768] ++ ld.w r4,r4[32767] ++ ld.w lr,lr[1] ++ ld.w r0,r12[-22133] ++ ld.w sp,pc[-20521] ++ /* ld.w r3,r5[29035] */ ++ nop ++ .text ++ .global ld_sh4 ++ld_sh4: ++ ld.sh pc,pc[0] ++ ld.sh r12,r12[-1] ++ ld.sh r5,r5[-32768] ++ ld.sh r4,r4[32767] ++ ld.sh lr,lr[1] ++ ld.sh r6,r10[30930] ++ ld.sh r6,r10[21973] ++ /* ld.sh r11,r10[-2058] */ ++ nop ++ .text ++ .global ld_uh4 ++ld_uh4: ++ ld.uh pc,pc[0] ++ ld.uh r12,r12[-1] ++ ld.uh r5,r5[-32768] ++ ld.uh r4,r4[32767] ++ ld.uh lr,lr[1] ++ ld.uh r1,r9[-13354] ++ ld.uh lr,r11[21337] ++ /* ld.uh r2,lr[-25370] */ ++ nop ++ .text ++ .global ld_sb1 ++ld_sb1: ++ ld.sb pc,pc[0] ++ ld.sb r12,r12[-1] ++ ld.sb r5,r5[-32768] ++ ld.sb r4,r4[32767] ++ ld.sb lr,lr[1] ++ ld.sb r7,sp[-28663] ++ ld.sb r2,r1[-5879] ++ ld.sb r12,r3[18734] ++ .text ++ .global ld_ub4 ++ld_ub4: ++ ld.ub pc,pc[0] ++ ld.ub r12,r12[-1] ++ ld.ub r5,r5[-32768] ++ ld.ub r4,r4[32767] ++ ld.ub lr,lr[1] ++ ld.ub pc,r4[8277] ++ ld.ub r5,r12[19172] ++ ld.ub r10,lr[26347] ++ .text ++ .global st_d4 ++st_d4: ++ st.d pc[0],r0 ++ st.d r12[-1],r14 ++ st.d r5[-32768],r8 ++ st.d r4[32767],r6 ++ st.d lr[1],r2 ++ st.d r5[13200],r10 ++ st.d r5[9352],r10 ++ st.d r5[32373],r4 ++ .text ++ .global st_w4 ++st_w4: ++ st.w pc[0],pc ++ st.w r12[-1],r12 ++ st.w r5[-32768],r5 ++ st.w r4[32767],r4 ++ st.w lr[1],lr ++ st.w sp[6136],r7 ++ st.w r6[27087],r12 ++ /* st.w r3[20143],r7 */ ++ nop ++ .text ++ .global st_h4 ++st_h4: ++ st.h pc[0],pc ++ st.h r12[-1],r12 ++ st.h r5[-32768],r5 ++ st.h r4[32767],r4 ++ st.h lr[1],lr ++ st.h r4[-9962],r7 ++ st.h r9[-16250],r3 ++ /* st.h r8[-28810],r7 */ ++ nop ++ .text ++ .global st_b4 ++st_b4: ++ st.b pc[0],pc ++ st.b r12[-1],r12 ++ st.b r5[-32768],r5 ++ st.b r4[32767],r4 ++ st.b lr[1],lr ++ st.b r12[30102],r6 ++ st.b r5[28977],r1 ++ st.b r0[5470],r1 ++ .text ++ .global mfsr ++mfsr: ++ mfsr pc,0 ++ mfsr r12,1020 ++ mfsr r5,512 ++ mfsr r4,508 ++ mfsr lr,4 ++ mfsr r2,696 ++ mfsr r4,260 ++ mfsr r10,1016 ++ .text ++ .global mtsr ++mtsr: ++ mtsr 0,pc ++ mtsr 1020,r12 ++ mtsr 512,r5 ++ mtsr 508,r4 ++ mtsr 4,lr ++ mtsr 224,r10 ++ mtsr 836,r12 ++ mtsr 304,r9 ++ .text ++ .global mfdr ++mfdr: ++ mfdr pc,0 ++ mfdr r12,1020 ++ mfdr r5,512 ++ mfdr r4,508 ++ mfdr lr,4 ++ mfdr r6,932 ++ mfdr r5,36 ++ mfdr r9,300 ++ .text ++ .global mtdr ++mtdr: ++ mtdr 0,pc ++ mtdr 1020,r12 ++ mtdr 512,r5 ++ mtdr 508,r4 ++ mtdr 4,lr ++ mtdr 180,r8 ++ mtdr 720,r10 ++ mtdr 408,lr ++ .text ++ .global sleep ++sleep: ++ sleep 0 ++ sleep 255 ++ sleep 128 ++ sleep 127 ++ sleep 1 ++ sleep 254 ++ sleep 15 ++ sleep 43 ++ .text ++ .global sync ++sync: ++ sync 0 ++ sync 255 ++ sync 128 ++ sync 127 ++ sync 1 ++ sync 166 ++ sync 230 ++ sync 180 ++ .text ++ .global bld ++bld: ++ bld pc,0 ++ bld r12,31 ++ bld r5,16 ++ bld r4,15 ++ bld lr,1 ++ bld r9,15 ++ bld r0,4 ++ bld lr,26 ++ .text ++ .global bst ++bst: ++ bst pc,0 ++ bst r12,31 ++ bst r5,16 ++ bst r4,15 ++ bst lr,1 ++ bst r10,28 ++ bst r0,3 ++ bst sp,2 ++ .text ++ .global sats ++sats: ++ sats pc>>0,0 ++ sats r12>>31,31 ++ sats r5>>16,16 ++ sats r4>>15,15 ++ sats lr>>1,1 ++ sats r10>>3,19 ++ sats r10>>2,26 ++ sats r1>>20,1 ++ .text ++ .global satu ++satu: ++ satu pc>>0,0 ++ satu r12>>31,31 ++ satu r5>>16,16 ++ satu r4>>15,15 ++ satu lr>>1,1 ++ satu pc>>5,7 ++ satu r7>>5,5 ++ satu r2>>26,19 ++ .text ++ .global satrnds ++satrnds: ++ satrnds pc>>0,0 ++ satrnds r12>>31,31 ++ satrnds r5>>16,16 ++ satrnds r4>>15,15 ++ satrnds lr>>1,1 ++ satrnds r0>>21,19 ++ satrnds sp>>0,2 ++ satrnds r7>>6,29 ++ .text ++ .global satrndu ++satrndu: ++ satrndu pc>>0,0 ++ satrndu r12>>31,31 ++ satrndu r5>>16,16 ++ satrndu r4>>15,15 ++ satrndu lr>>1,1 ++ satrndu r12>>0,26 ++ satrndu r4>>21,3 ++ satrndu r10>>3,16 ++ .text ++ .global subfc ++subfc: ++ subfeq pc,0 ++ subfal r12,-1 ++ subfls r5,-128 ++ subfpl r4,127 ++ subfne lr,1 ++ subfls r10,8 ++ subfvc r11,99 ++ subfvs r2,73 ++ .text ++ .global subc ++subc: ++ subeq pc,0 ++ subal r12,-1 ++ subls r5,-128 ++ subpl r4,127 ++ subne lr,1 ++ subls r12,118 ++ subvc lr,-12 ++ submi r4,-13 ++ .text ++ .global movc2 ++movc2: ++ moveq pc,0 ++ moval r12,-1 ++ movls r5,-128 ++ movpl r4,127 ++ movne lr,1 ++ movlt r3,-122 ++ movvc r8,2 ++ movne r7,-111 ++ .text ++ .global cp_b ++cp_b: ++ cp.b pc,r0 ++ cp.b r0,pc ++ cp.b r7,r8 ++ cp.b r8,r7 ++ .text ++ .global cp_h ++cp_h: ++ cp.h pc,r0 ++ cp.h r0,pc ++ cp.h r7,r8 ++ cp.h r8,r7 ++ .text ++ .global ldm ++ldm: ++ ldm pc,r1-r6 ++ ldm r12,r0-r15 ++ ldm r5,r15 ++ ldm r4,r0-r14 ++ ldm lr,r0 ++ ldm r9,r1,r5,r14 ++ ldm r11,r2-r3,r5-r8,r15 ++ ldm r6,r0,r3,r9,r13,r15 ++ .text ++ .global ldm_pu ++ldm_pu: ++ ldm pc++,r6-r9 ++ ldm r12++,r0-r15 ++ ldm r5++,r15 ++ ldm r4++,r0-r14 ++ ldm lr++,r0 ++ ldm r12++,r3-r5,r8,r10,r12,r14-r15 ++ ldm r10++,r2,r4-r6,r14-r15 ++ ldm r6++,r1,r3-r4,r9-r14 ++ .text ++ .global ldmts ++ldmts: ++ ldmts pc,r7-r8 ++ ldmts r12,r0-r15 ++ ldmts r5,r15 ++ ldmts r4,r0-r14 ++ ldmts lr,r0 ++ ldmts r0,r1-r2,r11-r12 ++ ldmts lr,r0-r2,r4,r7-r8,r13-r14 ++ ldmts r12,r0-r1,r3-r5,r9,r14-r15 ++ .text ++ .global ldmts_pu ++ldmts_pu: ++ ldmts pc++,r9 ++ ldmts r12++,r0-r15 ++ ldmts r5++,r15 ++ ldmts r4++,r0-r14 ++ ldmts lr++,r0 ++ ldmts sp++,r0,r2-r5,r7,r9,r11 ++ ldmts r5++,r1-r3,r7,r10-r11 ++ ldmts r8++,r2-r4,r7-r8,r13,r15 ++ .text ++ .global stm ++stm: ++ stm pc,r7 ++ stm r12,r0-r15 ++ stm r5,r15 ++ stm r4,r0-r14 ++ stm lr,r0 ++ stm sp,r2-r3,r5,r8,r11,r14 ++ stm r4,r0-r4,r6,r10-r11,r14 ++ stm r9,r1,r5,r9,r12-r15 ++ .text ++ .global stm_pu ++stm_pu: ++ stm --pc,r4-r6 ++ stm --r12,r0-r15 ++ stm --r5,r15 ++ stm --r4,r0-r14 ++ stm --lr,r0 ++ stm --r11,r0,r4-r9,r11-r15 ++ stm --r11,r0,r3,r9-r10,r12,r14 ++ stm --r6,r2,r8-r9,r13-r14 ++ .text ++ .global stmts ++stmts: ++ stmts pc,r8 ++ stmts r12,r0-r15 ++ stmts r5,r15 ++ stmts r4,r0-r14 ++ stmts lr,r0 ++ stmts r1,r0-r1,r3-r4,r6,r9-r10,r14-r15 ++ stmts r3,r0,r6-r8,r10-r12 ++ stmts r11,r0,r4,r6-r7,r9-r10,r12,r14-r15 ++ .text ++ .global stmts_pu ++stmts_pu: ++ stmts --pc,r6-r8 ++ stmts --r12,r0-r15 ++ stmts --r5,r15 ++ stmts --r4,r0-r14 ++ stmts --lr,r0 ++ stmts --r2,r0,r3-r4,r9-r10,r12-r13 ++ stmts --r3,r0-r1,r14-r15 ++ stmts --r0,r0,r2-r6,r10,r14 ++ .text ++ .global ldins_h ++ldins_h: ++ ldins.h pc:b,pc[0] ++ ldins.h r12:t,r12[-2] ++ ldins.h r5:t,r5[-4096] ++ ldins.h r4:b,r4[4094] ++ ldins.h lr:t,lr[2] ++ ldins.h r0:t,lr[1930] ++ ldins.h r3:b,r7[-534] ++ ldins.h r2:b,r12[-2252] ++ .text ++ .global ldins_b ++ldins_b: ++ ldins.b pc:b,pc[0] ++ ldins.b r12:t,r12[-1] ++ ldins.b r5:u,r5[-2048] ++ ldins.b r4:l,r4[2047] ++ ldins.b lr:l,lr[1] ++ ldins.b r6:t,r4[-662] ++ ldins.b r5:b,r1[-151] ++ ldins.b r10:t,r11[-1923] ++ .text ++ .global ldswp_sh ++ldswp_sh: ++ ldswp.sh pc,pc[0] ++ ldswp.sh r12,r12[-2] ++ ldswp.sh r5,r5[-4096] ++ ldswp.sh r4,r4[4094] ++ ldswp.sh lr,lr[2] ++ ldswp.sh r9,r10[3848] ++ ldswp.sh r4,r12[-2040] ++ ldswp.sh r10,r2[3088] ++ .text ++ .global ldswp_uh ++ldswp_uh: ++ ldswp.uh pc,pc[0] ++ ldswp.uh r12,r12[-2] ++ ldswp.uh r5,r5[-4096] ++ ldswp.uh r4,r4[4094] ++ ldswp.uh lr,lr[2] ++ ldswp.uh r4,r9[3724] ++ ldswp.uh lr,sp[-1672] ++ ldswp.uh r8,r12[-3846] ++ .text ++ .global ldswp_w ++ldswp_w: ++ ldswp.w pc,pc[0] ++ ldswp.w r12,r12[-4] ++ ldswp.w r5,r5[-8192] ++ ldswp.w r4,r4[8188] ++ ldswp.w lr,lr[4] ++ ldswp.w sp,r7[1860] ++ ldswp.w pc,r5[-3324] ++ ldswp.w r12,r10[-3296] ++ .text ++ .global stswp_h ++stswp_h: ++ stswp.h pc[0],pc ++ stswp.h r12[-2],r12 ++ stswp.h r5[-4096],r5 ++ stswp.h r4[4094],r4 ++ stswp.h lr[2],lr ++ stswp.h r7[64],r10 ++ stswp.h r10[3024],r2 ++ stswp.h r0[-2328],r10 ++ .text ++ .global stswp_w ++stswp_w: ++ stswp.w pc[0],pc ++ stswp.w r12[-4],r12 ++ stswp.w r5[-8192],r5 ++ stswp.w r4[8188],r4 ++ stswp.w lr[4],lr ++ stswp.w pc[1156],r8 ++ stswp.w sp[7992],r10 ++ stswp.w r8[-1172],r5 ++ .text ++ .global and2 ++and2: ++ and pc,pc,pc<<0 ++ and r12,r12,r12<<31 ++ and r5,r5,r5<<16 ++ and r4,r4,r4<<15 ++ and lr,lr,lr<<1 ++ and r10,r2,r1<<1 ++ and r12,r8,r11<<27 ++ and r10,r7,r0<<3 ++ .text ++ .global and3 ++and3: ++ and pc,pc,pc>>0 ++ and r12,r12,r12>>31 ++ and r5,r5,r5>>16 ++ and r4,r4,r4>>15 ++ and lr,lr,lr>>1 ++ and r12,r8,r7>>17 ++ and pc,r4,r9>>20 ++ and r10,r9,r10>>12 ++ .text ++ .global or2 ++or2: ++ or pc,pc,pc<<0 ++ or r12,r12,r12<<31 ++ or r5,r5,r5<<16 ++ or r4,r4,r4<<15 ++ or lr,lr,lr<<1 ++ or r8,sp,r11<<29 ++ or pc,r9,r2<<28 ++ or r5,r1,r2<<3 ++ .text ++ .global or3 ++or3: ++ or pc,pc,pc>>0 ++ or r12,r12,r12>>31 ++ or r5,r5,r5>>16 ++ or r4,r4,r4>>15 ++ or lr,lr,lr>>1 ++ or r1,sp,sp>>2 ++ or r0,r1,r1>>29 ++ or r4,r12,r8>>8 ++ .text ++ .global eor2 ++eor2: ++ eor pc,pc,pc<<0 ++ eor r12,r12,r12<<31 ++ eor r5,r5,r5<<16 ++ eor r4,r4,r4<<15 ++ eor lr,lr,lr<<1 ++ eor r10,r9,r4<<11 ++ eor r4,r0,r1<<31 ++ eor r6,r2,r12<<13 ++ .text ++ .global eor3 ++eor3: ++ eor pc,pc,pc>>0 ++ eor r12,r12,r12>>31 ++ eor r5,r5,r5>>16 ++ eor r4,r4,r4>>15 ++ eor lr,lr,lr>>1 ++ eor r5,r5,r5>>22 ++ eor r10,r1,lr>>3 ++ eor r7,lr,sp>>26 ++ .text ++ .global sthh_w2 ++sthh_w2: ++ sthh.w pc[pc<<0],pc:b,pc:b ++ sthh.w r12[r12<<3],r12:t,r12:t ++ sthh.w r5[r5<<2],r5:t,r5:t ++ sthh.w r4[r4<<1],r4:b,r4:b ++ sthh.w lr[lr<<1],lr:t,lr:t ++ sthh.w sp[r6<<3],r1:t,r12:t ++ sthh.w r6[r6<<0],r9:t,r9:t ++ sthh.w r10[r3<<0],r0:b,r11:t ++ .text ++ .global sthh_w1 ++sthh_w1: ++ sthh.w pc[0],pc:b,pc:b ++ sthh.w r12[1020],r12:t,r12:t ++ sthh.w r5[512],r5:t,r5:t ++ sthh.w r4[508],r4:b,r4:b ++ sthh.w lr[4],lr:t,lr:t ++ sthh.w r4[404],r9:t,r0:b ++ sthh.w r8[348],r2:t,r10:b ++ sthh.w sp[172],r9:b,r2:b ++ .text ++ .global cop ++cop: ++ cop cp0,cr0,cr0,cr0,0 ++ cop cp7,cr15,cr15,cr15,0x7f ++ cop cp3,cr5,cr5,cr5,0x31 ++ cop cp2,cr4,cr4,cr4,0x30 ++ cop cp5,cr8,cr3,cr7,0x5a ++ .text ++ .global ldc_w1 ++ldc_w1: ++ ldc.w cp0,cr0,r0[0] ++ ldc.w cp7,cr15,pc[255<<2] ++ ldc.w cp3,cr5,r5[128<<2] ++ ldc.w cp2,cr4,r4[127<<2] ++ ldc.w cp4,cr9,r13[36<<2] ++ .text ++ .global ldc_w2 ++ldc_w2: ++ ldc.w cp0,cr0,--r0 ++ ldc.w cp7,cr15,--pc ++ ldc.w cp3,cr5,--r5 ++ ldc.w cp2,cr4,--r4 ++ ldc.w cp4,cr9,--r13 ++ .text ++ .global ldc_w3 ++ldc_w3: ++ ldc.w cp0,cr0,r0[r0] ++ ldc.w cp7,cr15,pc[pc<<3] ++ ldc.w cp3,cr5,r5[r4<<2] ++ ldc.w cp2,cr4,r4[r3<<1] ++ ldc.w cp4,cr9,r13[r12<<0] ++ .text ++ .global ldc_d1 ++ldc_d1: ++ ldc.d cp0,cr0,r0[0] ++ ldc.d cp7,cr14,pc[255<<2] ++ ldc.d cp3,cr6,r5[128<<2] ++ ldc.d cp2,cr4,r4[127<<2] ++ ldc.d cp4,cr8,r13[36<<2] ++ .text ++ .global ldc_d2 ++ldc_d2: ++ ldc.d cp0,cr0,--r0 ++ ldc.d cp7,cr14,--pc ++ ldc.d cp3,cr6,--r5 ++ ldc.d cp2,cr4,--r4 ++ ldc.d cp4,cr8,--r13 ++ .text ++ .global ldc_d3 ++ldc_d3: ++ ldc.d cp0,cr0,r0[r0] ++ ldc.d cp7,cr14,pc[pc<<3] ++ ldc.d cp3,cr6,r5[r4<<2] ++ ldc.d cp2,cr4,r4[r3<<1] ++ ldc.d cp4,cr8,r13[r12<<0] ++ .text ++ .global stc_w1 ++stc_w1: ++ stc.w cp0,r0[0],cr0 ++ stc.w cp7,pc[255<<2],cr15 ++ stc.w cp3,r5[128<<2],cr5 ++ stc.w cp2,r4[127<<2],cr4 ++ stc.w cp4,r13[36<<2],cr9 ++ .text ++ .global stc_w2 ++stc_w2: ++ stc.w cp0,r0++,cr0 ++ stc.w cp7,pc++,cr15 ++ stc.w cp3,r5++,cr5 ++ stc.w cp2,r4++,cr4 ++ stc.w cp4,r13++,cr9 ++ .text ++ .global stc_w3 ++stc_w3: ++ stc.w cp0,r0[r0],cr0 ++ stc.w cp7,pc[pc<<3],cr15 ++ stc.w cp3,r5[r4<<2],cr5 ++ stc.w cp2,r4[r3<<1],cr4 ++ stc.w cp4,r13[r12<<0],cr9 ++ .text ++ .global stc_d1 ++stc_d1: ++ stc.d cp0,r0[0],cr0 ++ stc.d cp7,pc[255<<2],cr14 ++ stc.d cp3,r5[128<<2],cr6 ++ stc.d cp2,r4[127<<2],cr4 ++ stc.d cp4,r13[36<<2],cr8 ++ .text ++ .global stc_d2 ++stc_d2: ++ stc.d cp0,r0++,cr0 ++ stc.d cp7,pc++,cr14 ++ stc.d cp3,r5++,cr6 ++ stc.d cp2,r4++,cr4 ++ stc.d cp4,r13++,cr8 ++ .text ++ .global stc_d3 ++stc_d3: ++ stc.d cp0,r0[r0],cr0 ++ stc.d cp7,pc[pc<<3],cr14 ++ stc.d cp3,r5[r4<<2],cr6 ++ stc.d cp2,r4[r3<<1],cr4 ++ stc.d cp4,r13[r12<<0],cr8 ++ .text ++ .global ldc0_w ++ldc0_w: ++ ldc0.w cr0,r0[0] ++ ldc0.w cr15,pc[4095<<2] ++ ldc0.w cr5,r5[2048<<2] ++ ldc0.w cr4,r4[2047<<2] ++ ldc0.w cr9,r13[147<<2] ++ .text ++ .global ldc0_d ++ldc0_d: ++ ldc0.d cr0,r0[0] ++ ldc0.d cr14,pc[4095<<2] ++ ldc0.d cr6,r5[2048<<2] ++ ldc0.d cr4,r4[2047<<2] ++ ldc0.d cr8,r13[147<<2] ++ .text ++ .global stc0_w ++stc0_w: ++ stc0.w r0[0],cr0 ++ stc0.w pc[4095<<2],cr15 ++ stc0.w r5[2048<<2],cr5 ++ stc0.w r4[2047<<2],cr4 ++ stc0.w r13[147<<2],cr9 ++ .text ++ .global stc0_d ++stc0_d: ++ stc0.d r0[0],cr0 ++ stc0.d pc[4095<<2],cr14 ++ stc0.d r5[2048<<2],cr6 ++ stc0.d r4[2047<<2],cr4 ++ stc0.d r13[147<<2],cr8 ++ .text ++ .global memc ++memc: ++ memc 0, 0 ++ memc -4, 31 ++ memc -65536, 16 ++ memc 65532, 15 ++ .text ++ .global mems ++mems: ++ mems 0, 0 ++ mems -4, 31 ++ mems -65536, 16 ++ mems 65532, 15 ++ .text ++ .global memt ++memt: ++ memt 0, 0 ++ memt -4, 31 ++ memt -65536, 16 ++ memt 65532, 15 ++ ++ .text ++ .global stcond ++stcond: ++ stcond r0[0], r0 ++ stcond pc[-1], pc ++ stcond r8[-32768], r7 ++ stcond r7[32767], r8 ++ stcond r5[0x1234], r10 ++ ++ldcm_w: ++ ldcm.w cp0,pc,cr0-cr7 ++ ldcm.w cp7,r0,cr0 ++ ldcm.w cp4,r4++,cr0-cr6 ++ ldcm.w cp3,r7,cr7 ++ ldcm.w cp1,r12++,cr1,cr4-cr6 ++ ldcm.w cp0,pc,cr8-cr15 ++ ldcm.w cp7,r0,cr8 ++ ldcm.w cp4,r4++,cr8-cr14 ++ ldcm.w cp3,r7,cr15 ++ ldcm.w cp1,r12++,cr9,cr12-cr14 ++ ++ldcm_d: ++ ldcm.d cp0,pc,cr0-cr15 ++ ldcm.d cp7,r0,cr0,cr1 ++ ldcm.d cp4,r4++,cr0-cr13 ++ ldcm.d cp3,r7,cr14-cr15 ++ ldcm.d cp2,r12++,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++stcm_w: ++ stcm.w cp0,pc,cr0-cr7 ++ stcm.w cp7,r0,cr0 ++ stcm.w cp4,--r4,cr0-cr6 ++ stcm.w cp3,r7,cr7 ++ stcm.w cp1,--r12,cr1,cr4-cr6 ++ stcm.w cp0,pc,cr8-cr15 ++ stcm.w cp7,r0,cr8 ++ stcm.w cp4,--r4,cr8-cr14 ++ stcm.w cp3,r7,cr15 ++ stcm.w cp1,--r12,cr9,cr12-cr14 ++ ++stcm_d: ++ stcm.d cp0,pc,cr0-cr15 ++ stcm.d cp7,r0,cr0,cr1 ++ stcm.d cp4,--r4,cr0-cr13 ++ stcm.d cp3,r7,cr14-cr15 ++ stcm.d cp2,--r12,cr0-cr3,cr8-cr9,cr14-cr15 ++ ++mvcr_w: ++ mvcr.w cp7,pc,cr15 ++ mvcr.w cp0,r0,cr0 ++ mvcr.w cp0,pc,cr15 ++ mvcr.w cp7,r0,cr15 ++ mvcr.w cp7,pc,cr0 ++ mvcr.w cp4,r7,cr8 ++ mvcr.w cp3,r8,cr7 ++ ++mvcr_d: ++ mvcr.d cp7,lr,cr14 ++ mvcr.d cp0,r0,cr0 ++ mvcr.d cp0,lr,cr14 ++ mvcr.d cp7,r0,cr14 ++ mvcr.d cp7,lr,cr0 ++ mvcr.d cp4,r6,cr8 ++ mvcr.d cp3,r8,cr6 ++ ++mvrc_w: ++ mvrc.w cp7,cr15,pc ++ mvrc.w cp0,cr0,r0 ++ mvrc.w cp0,cr15,pc ++ mvrc.w cp7,cr15,r0 ++ mvrc.w cp7,cr0,pc ++ mvrc.w cp4,cr8,r7 ++ mvrc.w cp3,cr7,r8 ++ ++mvrc_d: ++ mvrc.d cp7,cr14,lr ++ mvrc.d cp0,cr0,r0 ++ mvrc.d cp0,cr14,lr ++ mvrc.d cp7,cr14,r0 ++ mvrc.d cp7,cr0,lr ++ mvrc.d cp4,cr8,r6 ++ mvrc.d cp3,cr6,r8 ++ ++bfexts: ++ bfexts pc,pc,31,31 ++ bfexts r0,r0,0,0 ++ bfexts r0,pc,31,31 ++ bfexts pc,r0,31,31 ++ bfexts pc,pc,0,31 ++ bfexts pc,pc,31,0 ++ bfexts r7,r8,15,16 ++ bfexts r8,r7,16,15 ++ ++bfextu: ++ bfextu pc,pc,31,31 ++ bfextu r0,r0,0,0 ++ bfextu r0,pc,31,31 ++ bfextu pc,r0,31,31 ++ bfextu pc,pc,0,31 ++ bfextu pc,pc,31,0 ++ bfextu r7,r8,15,16 ++ bfextu r8,r7,16,15 ++ ++bfins: ++ bfins pc,pc,31,31 ++ bfins r0,r0,0,0 ++ bfins r0,pc,31,31 ++ bfins pc,r0,31,31 ++ bfins pc,pc,0,31 ++ bfins pc,pc,31,0 ++ bfins r7,r8,15,16 ++ bfins r8,r7,16,15 ++ ++rsubc: ++ rsubeq pc,0 ++ rsubal r12,-1 ++ rsubls r5,-128 ++ rsubpl r4,127 ++ rsubne lr,1 ++ rsubls r12,118 ++ rsubvc lr,-12 ++ rsubmi r4,-13 ++ ++addc: ++ addeq pc,pc,pc ++ addal r12,r12,r12 ++ addls r5,r5,r5 ++ addpl r4,r4,r4 ++ addne lr,lr,lr ++ addls r10,r2,r1 ++ addvc r12,r8,r11 ++ addmi r10,r7,r0 ++ ++subc2: ++ subeq pc,pc,pc ++ subal r12,r12,r12 ++ subls r5,r5,r5 ++ subpl r4,r4,r4 ++ subne lr,lr,lr ++ subls r10,r2,r1 ++ subvc r12,r8,r11 ++ submi r10,r7,r0 ++ ++andc: ++ andeq pc,pc,pc ++ andal r12,r12,r12 ++ andls r5,r5,r5 ++ andpl r4,r4,r4 ++ andne lr,lr,lr ++ andls r10,r2,r1 ++ andvc r12,r8,r11 ++ andmi r10,r7,r0 ++ ++orc: ++ oreq pc,pc,pc ++ oral r12,r12,r12 ++ orls r5,r5,r5 ++ orpl r4,r4,r4 ++ orne lr,lr,lr ++ orls r10,r2,r1 ++ orvc r12,r8,r11 ++ ormi r10,r7,r0 ++ ++eorc: ++ eoreq pc,pc,pc ++ eoral r12,r12,r12 ++ eorls r5,r5,r5 ++ eorpl r4,r4,r4 ++ eorne lr,lr,lr ++ eorls r10,r2,r1 ++ eorvc r12,r8,r11 ++ eormi r10,r7,r0 ++ ++ldcond: ++ ld.weq pc,pc[2044] ++ ld.shal r12,r12[1022] ++ ld.uhls r5,r5[0] ++ ld.ubpl r4,r4[511] ++ ld.sbne lr,lr[0] ++ ld.wls r10,r2[0] ++ ld.shvc r12,r8[0x3fe] ++ ld.ubmi r10,r7[1] ++ ++stcond2: ++ st.weq pc[2044],pc ++ st.hal r12[1022],r12 ++ st.hls r5[0],r5 ++ st.bpl r4[511],r4 ++ st.bne lr[0],lr ++ st.wls r2[0],r10 ++ st.hvc r8[0x3fe],r12 ++ st.bmi r7[1],r10 ++ ++movh: ++ movh pc, 65535 ++ movh r0, 0 ++ movh r5, 1 ++ movh r12, 32767 ++ ++ +--- /dev/null ++++ b/gas/testsuite/gas/avr32/avr32.exp +@@ -0,0 +1,23 @@ ++# AVR32 assembler testsuite. -*- Tcl -*- ++ ++if [istarget avr32-*-*] { ++ run_dump_test "hwrd-lwrd" ++ run_dump_test "pcrel" ++ run_dump_test "aliases" ++ run_dump_test "dwarf2" ++ run_dump_test "pic_reloc" ++ run_dump_test "fpinsn" ++ run_dump_test "pico" ++ run_dump_test "lda_pic" ++ run_dump_test "lda_pic_linkrelax" ++ run_dump_test "lda_nopic" ++ run_dump_test "lda_nopic_linkrelax" ++ run_dump_test "call_pic" ++ run_dump_test "call_pic_linkrelax" ++ run_dump_test "call_nopic" ++ run_dump_test "call_nopic_linkrelax" ++ run_dump_test "jmptable" ++ run_dump_test "jmptable_linkrelax" ++ run_dump_test "symdiff" ++ run_dump_test "symdiff_linkrelax" ++} +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_nopic.d +@@ -0,0 +1,36 @@ ++#source: call.s ++#as: ++#objdump: -dr ++#name: call_nopic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: f0 a0 00 00 rcall 0 ++ 200004: f0 1f 00 0c mcall 200034 ++ 200008: f0 1f 00 0c mcall 200038 ++ 20000c: f0 1f 00 0c mcall 20003c ++ 200010: f0 1f 00 0c mcall 200040 ++ \.\.\. ++ 200030: ee b0 ff ff rcall 40002e ++ \.\.\. ++ 200034: R_AVR32_32_CPENT \.text\+0x2 ++ 200038: R_AVR32_32_CPENT \.text\.init ++ 20003c: R_AVR32_32_CPENT undefined ++ 200040: R_AVR32_32_CPENT \.text\+0x40002c ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_nopic_linkrelax.d +@@ -0,0 +1,43 @@ ++#source: call.s ++#as: --linkrelax ++#objdump: -dr ++#name: call_nopic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: e0 a0 00 00 rcall 200000 ++ 200000: R_AVR32_22H_PCREL \.text ++ 200004: f0 1f 00 00 mcall 200004 ++ 200004: R_AVR32_CPCALL \.text\+0x200034 ++ 200008: f0 1f 00 00 mcall 200008 ++ 200008: R_AVR32_CPCALL \.text\+0x200038 ++ 20000c: f0 1f 00 00 mcall 20000c ++ 20000c: R_AVR32_CPCALL \.text\+0x20003c ++ 200010: f0 1f 00 00 mcall 200010 ++ 200010: R_AVR32_CPCALL \.text\+0x200040 ++ \.\.\. ++ 200030: e0 a0 00 00 rcall 200030 ++ 200030: R_AVR32_22H_PCREL \.text\+0x40002e ++ \.\.\. ++ 200034: R_AVR32_ALIGN \*ABS\*\+0x2 ++ 200034: R_AVR32_32_CPENT \.text\+0x2 ++ 200038: R_AVR32_32_CPENT \.text\.init ++ 20003c: R_AVR32_32_CPENT undefined ++ 200040: R_AVR32_32_CPENT \.text\+0x40002c ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_pic.d +@@ -0,0 +1,36 @@ ++#source: call.s ++#as: --pic ++#objdump: -dr ++#name: call_pic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: f0 a0 00 00 rcall 0 ++ 200004: f0 16 00 00 mcall r6\[0\] ++ 200004: R_AVR32_GOT18SW toofar_negative ++ 200008: f0 16 00 00 mcall r6\[0\] ++ 200008: R_AVR32_GOT18SW different_section ++ 20000c: f0 16 00 00 mcall r6\[0\] ++ 20000c: R_AVR32_GOT18SW undefined ++ 200010: f0 16 00 00 mcall r6\[0\] ++ 200010: R_AVR32_GOT18SW toofar_positive ++ \.\.\. ++ 200030: ee b0 ff ff rcall 40002e ++ \.\.\. ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call_pic_linkrelax.d +@@ -0,0 +1,47 @@ ++#source: call.s ++#as: --pic --linkrelax ++#objdump: -dr ++#name: call_pic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ ++00000002 : ++ \.\.\. ++ 1ffffe: 00 00 add r0,r0 ++ 200000: e0 a0 00 00 rcall 200000 ++ 200000: R_AVR32_22H_PCREL \.text ++ 200004: e0 6e 00 00 mov lr,0 ++ 200004: R_AVR32_GOTCALL toofar_negative ++ 200008: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 20000c: 5d 1e icall lr ++ 20000e: e0 6e 00 00 mov lr,0 ++ 20000e: R_AVR32_GOTCALL different_section ++ 200012: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 200016: 5d 1e icall lr ++ 200018: e0 6e 00 00 mov lr,0 ++ 200018: R_AVR32_GOTCALL undefined ++ 20001c: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 200020: 5d 1e icall lr ++ 200022: e0 6e 00 00 mov lr,0 ++ 200022: R_AVR32_GOTCALL toofar_positive ++ 200026: ec 0e 03 2e ld\.w lr,r6\[lr<<0x2\] ++ 20002a: 5d 1e icall lr ++ 20002c: 00 00 add r0,r0 ++ 20002e: 00 00 add r0,r0 ++ 200030: e0 a0 00 00 rcall 200030 ++ 200030: R_AVR32_22H_PCREL \.text\+0x40002e ++ \.\.\. ++ ++0040002c : ++ 40002c: d7 03 nop ++0040002e : ++ 40002e: d7 03 nop ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e2 c0 00 00 sub r0,r1,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/call.s +@@ -0,0 +1,30 @@ ++ ++ .text ++ .global call_test ++call_test: ++far_negative: ++ nop ++toofar_negative: ++ ++ .org 0x200000 ++ ++ call far_negative ++ call toofar_negative ++ call different_section ++ call undefined ++ call toofar_positive ++ .org 0x200030 ++ call far_positive ++ ++ .cpool ++ ++ .org 0x40002c ++ ++toofar_positive: ++ nop ++far_positive: ++ nop ++ ++ .section .text.init,"ax",@progbits ++different_section: ++ sub r0, r1, 0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/dwarf2.d +@@ -0,0 +1,42 @@ ++#readelf: -wl ++#name: dwarf2 ++#source: dwarf2.s ++ ++Dump of debug contents of section \.debug_line: ++ ++ Length: 53 ++ DWARF Version: 2 ++ Prologue Length: 26 ++ Minimum Instruction Length: 1 ++ Initial value of 'is_stmt': 1 ++ Line Base: -5 ++ Line Range: 14 ++ Opcode Base: 10 ++ \(Pointer size: 4\) ++ ++ Opcodes: ++ Opcode 1 has 0 args ++ Opcode 2 has 1 args ++ Opcode 3 has 1 args ++ Opcode 4 has 1 args ++ Opcode 5 has 1 args ++ Opcode 6 has 0 args ++ Opcode 7 has 0 args ++ Opcode 8 has 0 args ++ Opcode 9 has 1 args ++ ++ The Directory Table is empty\. ++ ++ The File Name Table: ++ Entry Dir Time Size Name ++ 1 0 0 0 main\.c ++ ++ Line Number Statements: ++ Extended opcode 2: set Address to 0x0 ++ Advance Line by 87 to 88 ++ Copy ++ Advance Line by 23 to 111 ++ Special opcode .*: advance Address by 4 to 0x4 and Line by 0 to 111 ++ Special opcode .*: advance Address by 10 to 0xe and Line by 1 to 112 ++ Advance PC by 530 to 220 ++ Extended opcode 1: End of Sequence +--- /dev/null ++++ b/gas/testsuite/gas/avr32/dwarf2.s +@@ -0,0 +1,67 @@ ++# Source file used to test DWARF2 information for AVR32. ++ ++ .file "main.c" ++ ++ .section .debug_abbrev,"",@progbits ++.Ldebug_abbrev0: ++ .section .debug_info,"",@progbits ++.Ldebug_info0: ++ .section .debug_line,"",@progbits ++.Ldebug_line0: ++ ++ .text ++ .align 1 ++ .globl main ++ .type main, @function ++.Ltext0: ++main: ++ .file 1 "main.c" ++ .loc 1 88 0 ++ pushm r0-r7,lr ++ sub sp, 4 ++ .loc 1 111 0 ++ lddpc r12, .LC1 ++ lddpc r7, .LC1 ++ icall r7 ++ .loc 1 112 0 ++ lddpc r6, .LC4 ++ ++ .align 2 ++.LC4: .int 0 ++ ++ .fill 256, 2, 0 ++ ++ .align 2 ++.LC1: ++ .int 0 ++.LC2: ++ .int 0 ++.LC3: ++ .int 0 ++ .size main, . - main ++ ++.Letext0: ++ ++ .section .debug_info ++ .int .Ledebug_info0 - .Ldebug_info0 // size ++ .short 2 // version ++ .int .Ldebug_abbrev0 // abbrev offset ++ .byte 4 // bytes per addr ++ ++ .uleb128 1 // abbrev 1 ++ .int .Ldebug_line0 // DW_AT_stmt_list ++ .int .Letext0 // DW_AT_high_pc ++ .int .Ltext0 // DW_AT_low_pc ++ ++.Ledebug_info0: ++ ++ .section .debug_abbrev ++ .uleb128 0x01 ++ .uleb128 0x11 // DW_TAG_compile_unit ++ .byte 0 // DW_CHILDREN_no ++ .uleb128 0x10, 0x6 // DW_AT_stmt_list ++ .uleb128 0x12, 0x1 // DW_AT_high_pc ++ .uleb128 0x11, 0x1 // DW_AT_low_pc ++ .uleb128 0, 0 ++ ++ .byte 0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/fpinsn.d +@@ -0,0 +1,271 @@ ++#as: ++#objdump: -dr ++#name: fpinsn ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a2 0f ff cop cp0,cr15,cr15,cr15,0x4 ++ *[0-9a-f]*: e1 a2 00 00 cop cp0,cr0,cr0,cr0,0x4 ++ *[0-9a-f]*: e1 a2 00 ff cop cp0,cr0,cr15,cr15,0x4 ++ *[0-9a-f]*: e1 a2 0f 0f cop cp0,cr15,cr0,cr15,0x4 ++ *[0-9a-f]*: e1 a2 0f f0 cop cp0,cr15,cr15,cr0,0x4 ++ *[0-9a-f]*: e1 a2 07 88 cop cp0,cr7,cr8,cr8,0x4 ++ *[0-9a-f]*: e1 a2 08 78 cop cp0,cr8,cr7,cr8,0x4 ++ *[0-9a-f]*: e1 a2 08 87 cop cp0,cr8,cr8,cr7,0x4 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a2 1f ff cop cp0,cr15,cr15,cr15,0x5 ++ *[0-9a-f]*: e1 a2 10 00 cop cp0,cr0,cr0,cr0,0x5 ++ *[0-9a-f]*: e1 a2 10 ff cop cp0,cr0,cr15,cr15,0x5 ++ *[0-9a-f]*: e1 a2 1f 0f cop cp0,cr15,cr0,cr15,0x5 ++ *[0-9a-f]*: e1 a2 1f f0 cop cp0,cr15,cr15,cr0,0x5 ++ *[0-9a-f]*: e1 a2 17 88 cop cp0,cr7,cr8,cr8,0x5 ++ *[0-9a-f]*: e1 a2 18 78 cop cp0,cr8,cr7,cr8,0x5 ++ *[0-9a-f]*: e1 a2 18 87 cop cp0,cr8,cr8,cr7,0x5 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 0f ff cop cp0,cr15,cr15,cr15,0x0 ++ *[0-9a-f]*: e1 a0 00 00 cop cp0,cr0,cr0,cr0,0x0 ++ *[0-9a-f]*: e1 a0 00 ff cop cp0,cr0,cr15,cr15,0x0 ++ *[0-9a-f]*: e1 a0 0f 0f cop cp0,cr15,cr0,cr15,0x0 ++ *[0-9a-f]*: e1 a0 0f f0 cop cp0,cr15,cr15,cr0,0x0 ++ *[0-9a-f]*: e1 a0 07 88 cop cp0,cr7,cr8,cr8,0x0 ++ *[0-9a-f]*: e1 a0 08 78 cop cp0,cr8,cr7,cr8,0x0 ++ *[0-9a-f]*: e1 a0 08 87 cop cp0,cr8,cr8,cr7,0x0 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 1f ff cop cp0,cr15,cr15,cr15,0x1 ++ *[0-9a-f]*: e1 a0 10 00 cop cp0,cr0,cr0,cr0,0x1 ++ *[0-9a-f]*: e1 a0 10 ff cop cp0,cr0,cr15,cr15,0x1 ++ *[0-9a-f]*: e1 a0 1f 0f cop cp0,cr15,cr0,cr15,0x1 ++ *[0-9a-f]*: e1 a0 1f f0 cop cp0,cr15,cr15,cr0,0x1 ++ *[0-9a-f]*: e1 a0 17 88 cop cp0,cr7,cr8,cr8,0x1 ++ *[0-9a-f]*: e1 a0 18 78 cop cp0,cr8,cr7,cr8,0x1 ++ *[0-9a-f]*: e1 a0 18 87 cop cp0,cr8,cr8,cr7,0x1 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a1 0f ff cop cp0,cr15,cr15,cr15,0x2 ++ *[0-9a-f]*: e1 a1 00 00 cop cp0,cr0,cr0,cr0,0x2 ++ *[0-9a-f]*: e1 a1 00 ff cop cp0,cr0,cr15,cr15,0x2 ++ *[0-9a-f]*: e1 a1 0f 0f cop cp0,cr15,cr0,cr15,0x2 ++ *[0-9a-f]*: e1 a1 0f f0 cop cp0,cr15,cr15,cr0,0x2 ++ *[0-9a-f]*: e1 a1 07 88 cop cp0,cr7,cr8,cr8,0x2 ++ *[0-9a-f]*: e1 a1 08 78 cop cp0,cr8,cr7,cr8,0x2 ++ *[0-9a-f]*: e1 a1 08 87 cop cp0,cr8,cr8,cr7,0x2 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a1 1f ff cop cp0,cr15,cr15,cr15,0x3 ++ *[0-9a-f]*: e1 a1 10 00 cop cp0,cr0,cr0,cr0,0x3 ++ *[0-9a-f]*: e1 a1 10 ff cop cp0,cr0,cr15,cr15,0x3 ++ *[0-9a-f]*: e1 a1 1f 0f cop cp0,cr15,cr0,cr15,0x3 ++ *[0-9a-f]*: e1 a1 1f f0 cop cp0,cr15,cr15,cr0,0x3 ++ *[0-9a-f]*: e1 a1 17 88 cop cp0,cr7,cr8,cr8,0x3 ++ *[0-9a-f]*: e1 a1 18 78 cop cp0,cr8,cr7,cr8,0x3 ++ *[0-9a-f]*: e1 a1 18 87 cop cp0,cr8,cr8,cr7,0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a3 0f ff cop cp0,cr15,cr15,cr15,0x6 ++ *[0-9a-f]*: e1 a3 00 00 cop cp0,cr0,cr0,cr0,0x6 ++ *[0-9a-f]*: e1 a3 00 ff cop cp0,cr0,cr15,cr15,0x6 ++ *[0-9a-f]*: e1 a3 0f 0f cop cp0,cr15,cr0,cr15,0x6 ++ *[0-9a-f]*: e1 a3 0f f0 cop cp0,cr15,cr15,cr0,0x6 ++ *[0-9a-f]*: e1 a3 07 88 cop cp0,cr7,cr8,cr8,0x6 ++ *[0-9a-f]*: e1 a3 08 78 cop cp0,cr8,cr7,cr8,0x6 ++ *[0-9a-f]*: e1 a3 08 87 cop cp0,cr8,cr8,cr7,0x6 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a3 1f ff cop cp0,cr15,cr15,cr15,0x7 ++ *[0-9a-f]*: e1 a3 10 00 cop cp0,cr0,cr0,cr0,0x7 ++ *[0-9a-f]*: e1 a3 10 ff cop cp0,cr0,cr15,cr15,0x7 ++ *[0-9a-f]*: e1 a3 1f 0f cop cp0,cr15,cr0,cr15,0x7 ++ *[0-9a-f]*: e1 a3 1f f0 cop cp0,cr15,cr15,cr0,0x7 ++ *[0-9a-f]*: e1 a3 17 88 cop cp0,cr7,cr8,cr8,0x7 ++ *[0-9a-f]*: e1 a3 18 78 cop cp0,cr8,cr7,cr8,0x7 ++ *[0-9a-f]*: e1 a3 18 87 cop cp0,cr8,cr8,cr7,0x7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a4 0f f0 cop cp0,cr15,cr15,cr0,0x8 ++ *[0-9a-f]*: e1 a4 00 00 cop cp0,cr0,cr0,cr0,0x8 ++ *[0-9a-f]*: e1 a4 00 f0 cop cp0,cr0,cr15,cr0,0x8 ++ *[0-9a-f]*: e1 a4 0f 00 cop cp0,cr15,cr0,cr0,0x8 ++ *[0-9a-f]*: e1 a4 07 80 cop cp0,cr7,cr8,cr0,0x8 ++ *[0-9a-f]*: e1 a4 08 70 cop cp0,cr8,cr7,cr0,0x8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a4 1f f0 cop cp0,cr15,cr15,cr0,0x9 ++ *[0-9a-f]*: e1 a4 10 00 cop cp0,cr0,cr0,cr0,0x9 ++ *[0-9a-f]*: e1 a4 10 f0 cop cp0,cr0,cr15,cr0,0x9 ++ *[0-9a-f]*: e1 a4 1f 00 cop cp0,cr15,cr0,cr0,0x9 ++ *[0-9a-f]*: e1 a4 17 80 cop cp0,cr7,cr8,cr0,0x9 ++ *[0-9a-f]*: e1 a4 18 70 cop cp0,cr8,cr7,cr0,0x9 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a6 10 ff cop cp0,cr0,cr15,cr15,0xd ++ *[0-9a-f]*: e1 a6 10 00 cop cp0,cr0,cr0,cr0,0xd ++ *[0-9a-f]*: e1 a6 10 0f cop cp0,cr0,cr0,cr15,0xd ++ *[0-9a-f]*: e1 a6 10 f0 cop cp0,cr0,cr15,cr0,0xd ++ *[0-9a-f]*: e1 a6 10 78 cop cp0,cr0,cr7,cr8,0xd ++ *[0-9a-f]*: e1 a6 10 87 cop cp0,cr0,cr8,cr7,0xd ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a2 0e ee cop cp0,cr14,cr14,cr14,0x44 ++ *[0-9a-f]*: e5 a2 00 00 cop cp0,cr0,cr0,cr0,0x44 ++ *[0-9a-f]*: e5 a2 00 ee cop cp0,cr0,cr14,cr14,0x44 ++ *[0-9a-f]*: e5 a2 0e 0e cop cp0,cr14,cr0,cr14,0x44 ++ *[0-9a-f]*: e5 a2 0e e0 cop cp0,cr14,cr14,cr0,0x44 ++ *[0-9a-f]*: e5 a2 06 88 cop cp0,cr6,cr8,cr8,0x44 ++ *[0-9a-f]*: e5 a2 08 68 cop cp0,cr8,cr6,cr8,0x44 ++ *[0-9a-f]*: e5 a2 08 86 cop cp0,cr8,cr8,cr6,0x44 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a2 1e ee cop cp0,cr14,cr14,cr14,0x45 ++ *[0-9a-f]*: e5 a2 10 00 cop cp0,cr0,cr0,cr0,0x45 ++ *[0-9a-f]*: e5 a2 10 ee cop cp0,cr0,cr14,cr14,0x45 ++ *[0-9a-f]*: e5 a2 1e 0e cop cp0,cr14,cr0,cr14,0x45 ++ *[0-9a-f]*: e5 a2 1e e0 cop cp0,cr14,cr14,cr0,0x45 ++ *[0-9a-f]*: e5 a2 16 88 cop cp0,cr6,cr8,cr8,0x45 ++ *[0-9a-f]*: e5 a2 18 68 cop cp0,cr8,cr6,cr8,0x45 ++ *[0-9a-f]*: e5 a2 18 86 cop cp0,cr8,cr8,cr6,0x45 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a0 0e ee cop cp0,cr14,cr14,cr14,0x40 ++ *[0-9a-f]*: e5 a0 00 00 cop cp0,cr0,cr0,cr0,0x40 ++ *[0-9a-f]*: e5 a0 00 ee cop cp0,cr0,cr14,cr14,0x40 ++ *[0-9a-f]*: e5 a0 0e 0e cop cp0,cr14,cr0,cr14,0x40 ++ *[0-9a-f]*: e5 a0 0e e0 cop cp0,cr14,cr14,cr0,0x40 ++ *[0-9a-f]*: e5 a0 06 88 cop cp0,cr6,cr8,cr8,0x40 ++ *[0-9a-f]*: e5 a0 08 68 cop cp0,cr8,cr6,cr8,0x40 ++ *[0-9a-f]*: e5 a0 08 86 cop cp0,cr8,cr8,cr6,0x40 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a0 1e ee cop cp0,cr14,cr14,cr14,0x41 ++ *[0-9a-f]*: e5 a0 10 00 cop cp0,cr0,cr0,cr0,0x41 ++ *[0-9a-f]*: e5 a0 10 ee cop cp0,cr0,cr14,cr14,0x41 ++ *[0-9a-f]*: e5 a0 1e 0e cop cp0,cr14,cr0,cr14,0x41 ++ *[0-9a-f]*: e5 a0 1e e0 cop cp0,cr14,cr14,cr0,0x41 ++ *[0-9a-f]*: e5 a0 16 88 cop cp0,cr6,cr8,cr8,0x41 ++ *[0-9a-f]*: e5 a0 18 68 cop cp0,cr8,cr6,cr8,0x41 ++ *[0-9a-f]*: e5 a0 18 86 cop cp0,cr8,cr8,cr6,0x41 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a1 0e ee cop cp0,cr14,cr14,cr14,0x42 ++ *[0-9a-f]*: e5 a1 00 00 cop cp0,cr0,cr0,cr0,0x42 ++ *[0-9a-f]*: e5 a1 00 ee cop cp0,cr0,cr14,cr14,0x42 ++ *[0-9a-f]*: e5 a1 0e 0e cop cp0,cr14,cr0,cr14,0x42 ++ *[0-9a-f]*: e5 a1 0e e0 cop cp0,cr14,cr14,cr0,0x42 ++ *[0-9a-f]*: e5 a1 06 88 cop cp0,cr6,cr8,cr8,0x42 ++ *[0-9a-f]*: e5 a1 08 68 cop cp0,cr8,cr6,cr8,0x42 ++ *[0-9a-f]*: e5 a1 08 86 cop cp0,cr8,cr8,cr6,0x42 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a1 1e ee cop cp0,cr14,cr14,cr14,0x43 ++ *[0-9a-f]*: e5 a1 10 00 cop cp0,cr0,cr0,cr0,0x43 ++ *[0-9a-f]*: e5 a1 10 ee cop cp0,cr0,cr14,cr14,0x43 ++ *[0-9a-f]*: e5 a1 1e 0e cop cp0,cr14,cr0,cr14,0x43 ++ *[0-9a-f]*: e5 a1 1e e0 cop cp0,cr14,cr14,cr0,0x43 ++ *[0-9a-f]*: e5 a1 16 88 cop cp0,cr6,cr8,cr8,0x43 ++ *[0-9a-f]*: e5 a1 18 68 cop cp0,cr8,cr6,cr8,0x43 ++ *[0-9a-f]*: e5 a1 18 86 cop cp0,cr8,cr8,cr6,0x43 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a3 0e ee cop cp0,cr14,cr14,cr14,0x46 ++ *[0-9a-f]*: e5 a3 00 00 cop cp0,cr0,cr0,cr0,0x46 ++ *[0-9a-f]*: e5 a3 00 ee cop cp0,cr0,cr14,cr14,0x46 ++ *[0-9a-f]*: e5 a3 0e 0e cop cp0,cr14,cr0,cr14,0x46 ++ *[0-9a-f]*: e5 a3 0e e0 cop cp0,cr14,cr14,cr0,0x46 ++ *[0-9a-f]*: e5 a3 06 88 cop cp0,cr6,cr8,cr8,0x46 ++ *[0-9a-f]*: e5 a3 08 68 cop cp0,cr8,cr6,cr8,0x46 ++ *[0-9a-f]*: e5 a3 08 86 cop cp0,cr8,cr8,cr6,0x46 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a3 1e ee cop cp0,cr14,cr14,cr14,0x47 ++ *[0-9a-f]*: e5 a3 10 00 cop cp0,cr0,cr0,cr0,0x47 ++ *[0-9a-f]*: e5 a3 10 ee cop cp0,cr0,cr14,cr14,0x47 ++ *[0-9a-f]*: e5 a3 1e 0e cop cp0,cr14,cr0,cr14,0x47 ++ *[0-9a-f]*: e5 a3 1e e0 cop cp0,cr14,cr14,cr0,0x47 ++ *[0-9a-f]*: e5 a3 16 88 cop cp0,cr6,cr8,cr8,0x47 ++ *[0-9a-f]*: e5 a3 18 68 cop cp0,cr8,cr6,cr8,0x47 ++ *[0-9a-f]*: e5 a3 18 86 cop cp0,cr8,cr8,cr6,0x47 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a4 0e e0 cop cp0,cr14,cr14,cr0,0x48 ++ *[0-9a-f]*: e5 a4 00 00 cop cp0,cr0,cr0,cr0,0x48 ++ *[0-9a-f]*: e5 a4 00 e0 cop cp0,cr0,cr14,cr0,0x48 ++ *[0-9a-f]*: e5 a4 0e 00 cop cp0,cr14,cr0,cr0,0x48 ++ *[0-9a-f]*: e5 a4 06 80 cop cp0,cr6,cr8,cr0,0x48 ++ *[0-9a-f]*: e5 a4 08 60 cop cp0,cr8,cr6,cr0,0x48 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a4 1e e0 cop cp0,cr14,cr14,cr0,0x49 ++ *[0-9a-f]*: e5 a4 10 00 cop cp0,cr0,cr0,cr0,0x49 ++ *[0-9a-f]*: e5 a4 10 e0 cop cp0,cr0,cr14,cr0,0x49 ++ *[0-9a-f]*: e5 a4 1e 00 cop cp0,cr14,cr0,cr0,0x49 ++ *[0-9a-f]*: e5 a4 16 80 cop cp0,cr6,cr8,cr0,0x49 ++ *[0-9a-f]*: e5 a4 18 60 cop cp0,cr8,cr6,cr0,0x49 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a6 10 ee cop cp0,cr0,cr14,cr14,0x4d ++ *[0-9a-f]*: e5 a6 10 00 cop cp0,cr0,cr0,cr0,0x4d ++ *[0-9a-f]*: e5 a6 10 0e cop cp0,cr0,cr0,cr14,0x4d ++ *[0-9a-f]*: e5 a6 10 e0 cop cp0,cr0,cr14,cr0,0x4d ++ *[0-9a-f]*: e5 a6 10 68 cop cp0,cr0,cr6,cr8,0x4d ++ *[0-9a-f]*: e5 a6 10 86 cop cp0,cr0,cr8,cr6,0x4d ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a5 0f f0 cop cp0,cr15,cr15,cr0,0xa ++ *[0-9a-f]*: e1 a5 00 00 cop cp0,cr0,cr0,cr0,0xa ++ *[0-9a-f]*: e1 a5 0f 00 cop cp0,cr15,cr0,cr0,0xa ++ *[0-9a-f]*: e1 a5 00 f0 cop cp0,cr0,cr15,cr0,0xa ++ *[0-9a-f]*: e1 a5 08 70 cop cp0,cr8,cr7,cr0,0xa ++ *[0-9a-f]*: e1 a5 07 80 cop cp0,cr7,cr8,cr0,0xa ++ *[0-9a-f]*: ef af 0f 00 mvcr.w cp0,pc,cr15 ++ *[0-9a-f]*: ef a0 00 00 mvcr.w cp0,r0,cr0 ++ *[0-9a-f]*: ef af 00 00 mvcr.w cp0,pc,cr0 ++ *[0-9a-f]*: ef a0 0f 00 mvcr.w cp0,r0,cr15 ++ *[0-9a-f]*: ef a8 07 00 mvcr.w cp0,r8,cr7 ++ *[0-9a-f]*: ef a7 08 00 mvcr.w cp0,r7,cr8 ++ *[0-9a-f]*: ef af 0f 20 mvrc.w cp0,cr15,pc ++ *[0-9a-f]*: ef a0 00 20 mvrc.w cp0,cr0,r0 ++ *[0-9a-f]*: ef a0 0f 20 mvrc.w cp0,cr15,r0 ++ *[0-9a-f]*: ef af 00 20 mvrc.w cp0,cr0,pc ++ *[0-9a-f]*: ef a7 08 20 mvrc.w cp0,cr8,r7 ++ *[0-9a-f]*: ef a8 07 20 mvrc.w cp0,cr7,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e5 a5 0e e0 cop cp0,cr14,cr14,cr0,0x4a ++ *[0-9a-f]*: e5 a5 00 00 cop cp0,cr0,cr0,cr0,0x4a ++ *[0-9a-f]*: e5 a5 0e 00 cop cp0,cr14,cr0,cr0,0x4a ++ *[0-9a-f]*: e5 a5 00 e0 cop cp0,cr0,cr14,cr0,0x4a ++ *[0-9a-f]*: e5 a5 08 60 cop cp0,cr8,cr6,cr0,0x4a ++ *[0-9a-f]*: e5 a5 06 80 cop cp0,cr6,cr8,cr0,0x4a ++ *[0-9a-f]*: ef ae 0e 10 mvcr.d cp0,lr,cr14 ++ *[0-9a-f]*: ef a0 00 10 mvcr.d cp0,r0,cr0 ++ *[0-9a-f]*: ef ae 00 10 mvcr.d cp0,lr,cr0 ++ *[0-9a-f]*: ef a0 0e 10 mvcr.d cp0,r0,cr14 ++ *[0-9a-f]*: ef a8 06 10 mvcr.d cp0,r8,cr6 ++ *[0-9a-f]*: ef a6 08 10 mvcr.d cp0,r6,cr8 ++ *[0-9a-f]*: ef ae 0e 30 mvrc.d cp0,cr14,lr ++ *[0-9a-f]*: ef a0 00 30 mvrc.d cp0,cr0,r0 ++ *[0-9a-f]*: ef a0 0e 30 mvrc.d cp0,cr14,r0 ++ *[0-9a-f]*: ef ae 00 30 mvrc.d cp0,cr0,lr ++ *[0-9a-f]*: ef a6 08 30 mvrc.d cp0,cr8,r6 ++ *[0-9a-f]*: ef a8 06 30 mvrc.d cp0,cr6,r8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a7 1f e0 cop cp0,cr15,cr14,cr0,0xf ++ *[0-9a-f]*: e1 a7 10 00 cop cp0,cr0,cr0,cr0,0xf ++ *[0-9a-f]*: e1 a7 1f 00 cop cp0,cr15,cr0,cr0,0xf ++ *[0-9a-f]*: e1 a7 10 e0 cop cp0,cr0,cr14,cr0,0xf ++ *[0-9a-f]*: e1 a7 18 60 cop cp0,cr8,cr6,cr0,0xf ++ *[0-9a-f]*: e1 a7 17 80 cop cp0,cr7,cr8,cr0,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a8 0e f0 cop cp0,cr14,cr15,cr0,0x10 ++ *[0-9a-f]*: e1 a8 00 00 cop cp0,cr0,cr0,cr0,0x10 ++ *[0-9a-f]*: e1 a8 0e 00 cop cp0,cr14,cr0,cr0,0x10 ++ *[0-9a-f]*: e1 a8 00 f0 cop cp0,cr0,cr15,cr0,0x10 ++ *[0-9a-f]*: e1 a8 08 70 cop cp0,cr8,cr7,cr0,0x10 ++ *[0-9a-f]*: e1 a8 06 80 cop cp0,cr6,cr8,cr0,0x10 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/fpinsn.s +@@ -0,0 +1,266 @@ ++ ++ .text ++ .global fadd_s ++fadd_s: ++ fadd.s fr15, fr15, fr15 ++ fadd.s fr0, fr0, fr0 ++ fadd.s fr0, fr15, fr15 ++ fadd.s fr15, fr0, fr15 ++ fadd.s fr15, fr15, fr0 ++ fadd.s fr7, fr8, fr8 ++ fadd.s fr8, fr7, fr8 ++ fadd.s fr8, fr8, fr7 ++ .global fsub_s ++fsub_s: ++ fsub.s fr15, fr15, fr15 ++ fsub.s fr0, fr0, fr0 ++ fsub.s fr0, fr15, fr15 ++ fsub.s fr15, fr0, fr15 ++ fsub.s fr15, fr15, fr0 ++ fsub.s fr7, fr8, fr8 ++ fsub.s fr8, fr7, fr8 ++ fsub.s fr8, fr8, fr7 ++ .global fmac_s ++fmac_s: ++ fmac.s fr15, fr15, fr15 ++ fmac.s fr0, fr0, fr0 ++ fmac.s fr0, fr15, fr15 ++ fmac.s fr15, fr0, fr15 ++ fmac.s fr15, fr15, fr0 ++ fmac.s fr7, fr8, fr8 ++ fmac.s fr8, fr7, fr8 ++ fmac.s fr8, fr8, fr7 ++ .global fnmac_s ++fnmac_s: ++ fnmac.s fr15, fr15, fr15 ++ fnmac.s fr0, fr0, fr0 ++ fnmac.s fr0, fr15, fr15 ++ fnmac.s fr15, fr0, fr15 ++ fnmac.s fr15, fr15, fr0 ++ fnmac.s fr7, fr8, fr8 ++ fnmac.s fr8, fr7, fr8 ++ fnmac.s fr8, fr8, fr7 ++ .global fmsc_s ++fmsc_s: ++ fmsc.s fr15, fr15, fr15 ++ fmsc.s fr0, fr0, fr0 ++ fmsc.s fr0, fr15, fr15 ++ fmsc.s fr15, fr0, fr15 ++ fmsc.s fr15, fr15, fr0 ++ fmsc.s fr7, fr8, fr8 ++ fmsc.s fr8, fr7, fr8 ++ fmsc.s fr8, fr8, fr7 ++ .global fnmsc_s ++fnmsc_s: ++ fnmsc.s fr15, fr15, fr15 ++ fnmsc.s fr0, fr0, fr0 ++ fnmsc.s fr0, fr15, fr15 ++ fnmsc.s fr15, fr0, fr15 ++ fnmsc.s fr15, fr15, fr0 ++ fnmsc.s fr7, fr8, fr8 ++ fnmsc.s fr8, fr7, fr8 ++ fnmsc.s fr8, fr8, fr7 ++ .global fmul_s ++fmul_s: ++ fmul.s fr15, fr15, fr15 ++ fmul.s fr0, fr0, fr0 ++ fmul.s fr0, fr15, fr15 ++ fmul.s fr15, fr0, fr15 ++ fmul.s fr15, fr15, fr0 ++ fmul.s fr7, fr8, fr8 ++ fmul.s fr8, fr7, fr8 ++ fmul.s fr8, fr8, fr7 ++ .global fnmul_s ++fnmul_s: ++ fnmul.s fr15, fr15, fr15 ++ fnmul.s fr0, fr0, fr0 ++ fnmul.s fr0, fr15, fr15 ++ fnmul.s fr15, fr0, fr15 ++ fnmul.s fr15, fr15, fr0 ++ fnmul.s fr7, fr8, fr8 ++ fnmul.s fr8, fr7, fr8 ++ fnmul.s fr8, fr8, fr7 ++ .global fneg_s ++fneg_s: ++ fneg.s fr15, fr15 ++ fneg.s fr0, fr0 ++ fneg.s fr0, fr15 ++ fneg.s fr15, fr0 ++ fneg.s fr7, fr8 ++ fneg.s fr8, fr7 ++ .global fabs_s ++fabs_s: ++ fabs.s fr15, fr15 ++ fabs.s fr0, fr0 ++ fabs.s fr0, fr15 ++ fabs.s fr15, fr0 ++ fabs.s fr7, fr8 ++ fabs.s fr8, fr7 ++ .global fcmp_s ++fcmp_s: ++ fcmp.s fr15, fr15 ++ fcmp.s fr0, fr0 ++ fcmp.s fr0, fr15 ++ fcmp.s fr15, fr0 ++ fcmp.s fr7, fr8 ++ fcmp.s fr8, fr7 ++ .global fadd_d ++fadd_d: ++ fadd.d fr14, fr14, fr14 ++ fadd.d fr0, fr0, fr0 ++ fadd.d fr0, fr14, fr14 ++ fadd.d fr14, fr0, fr14 ++ fadd.d fr14, fr14, fr0 ++ fadd.d fr6, fr8, fr8 ++ fadd.d fr8, fr6, fr8 ++ fadd.d fr8, fr8, fr6 ++ .global fsub_d ++fsub_d: ++ fsub.d fr14, fr14, fr14 ++ fsub.d fr0, fr0, fr0 ++ fsub.d fr0, fr14, fr14 ++ fsub.d fr14, fr0, fr14 ++ fsub.d fr14, fr14, fr0 ++ fsub.d fr6, fr8, fr8 ++ fsub.d fr8, fr6, fr8 ++ fsub.d fr8, fr8, fr6 ++ .global fmac_d ++fmac_d: ++ fmac.d fr14, fr14, fr14 ++ fmac.d fr0, fr0, fr0 ++ fmac.d fr0, fr14, fr14 ++ fmac.d fr14, fr0, fr14 ++ fmac.d fr14, fr14, fr0 ++ fmac.d fr6, fr8, fr8 ++ fmac.d fr8, fr6, fr8 ++ fmac.d fr8, fr8, fr6 ++ .global fnmac_d ++fnmac_d: ++ fnmac.d fr14, fr14, fr14 ++ fnmac.d fr0, fr0, fr0 ++ fnmac.d fr0, fr14, fr14 ++ fnmac.d fr14, fr0, fr14 ++ fnmac.d fr14, fr14, fr0 ++ fnmac.d fr6, fr8, fr8 ++ fnmac.d fr8, fr6, fr8 ++ fnmac.d fr8, fr8, fr6 ++ .global fmsc_d ++fmsc_d: ++ fmsc.d fr14, fr14, fr14 ++ fmsc.d fr0, fr0, fr0 ++ fmsc.d fr0, fr14, fr14 ++ fmsc.d fr14, fr0, fr14 ++ fmsc.d fr14, fr14, fr0 ++ fmsc.d fr6, fr8, fr8 ++ fmsc.d fr8, fr6, fr8 ++ fmsc.d fr8, fr8, fr6 ++ .global fnmsc_d ++fnmsc_d: ++ fnmsc.d fr14, fr14, fr14 ++ fnmsc.d fr0, fr0, fr0 ++ fnmsc.d fr0, fr14, fr14 ++ fnmsc.d fr14, fr0, fr14 ++ fnmsc.d fr14, fr14, fr0 ++ fnmsc.d fr6, fr8, fr8 ++ fnmsc.d fr8, fr6, fr8 ++ fnmsc.d fr8, fr8, fr6 ++ .global fmul_d ++fmul_d: ++ fmul.d fr14, fr14, fr14 ++ fmul.d fr0, fr0, fr0 ++ fmul.d fr0, fr14, fr14 ++ fmul.d fr14, fr0, fr14 ++ fmul.d fr14, fr14, fr0 ++ fmul.d fr6, fr8, fr8 ++ fmul.d fr8, fr6, fr8 ++ fmul.d fr8, fr8, fr6 ++ .global fnmul_d ++fnmul_d: ++ fnmul.d fr14, fr14, fr14 ++ fnmul.d fr0, fr0, fr0 ++ fnmul.d fr0, fr14, fr14 ++ fnmul.d fr14, fr0, fr14 ++ fnmul.d fr14, fr14, fr0 ++ fnmul.d fr6, fr8, fr8 ++ fnmul.d fr8, fr6, fr8 ++ fnmul.d fr8, fr8, fr6 ++ .global fneg_d ++fneg_d: ++ fneg.d fr14, fr14 ++ fneg.d fr0, fr0 ++ fneg.d fr0, fr14 ++ fneg.d fr14, fr0 ++ fneg.d fr6, fr8 ++ fneg.d fr8, fr6 ++ .global fabs_d ++fabs_d: ++ fabs.d fr14, fr14 ++ fabs.d fr0, fr0 ++ fabs.d fr0, fr14 ++ fabs.d fr14, fr0 ++ fabs.d fr6, fr8 ++ fabs.d fr8, fr6 ++ .global fcmp_d ++fcmp_d: ++ fcmp.d fr14, fr14 ++ fcmp.d fr0, fr0 ++ fcmp.d fr0, fr14 ++ fcmp.d fr14, fr0 ++ fcmp.d fr6, fr8 ++ fcmp.d fr8, fr6 ++ .global fmov_s ++fmov_s: ++ fmov.s fr15, fr15 ++ fmov.s fr0, fr0 ++ fmov.s fr15, fr0 ++ fmov.s fr0, fr15 ++ fmov.s fr8, fr7 ++ fmov.s fr7, fr8 ++ fmov.s pc, fr15 ++ fmov.s r0, fr0 ++ fmov.s pc, fr0 ++ fmov.s r0, fr15 ++ fmov.s r8, fr7 ++ fmov.s r7, fr8 ++ fmov.s fr15, pc ++ fmov.s fr0, r0 ++ fmov.s fr15, r0 ++ fmov.s fr0, pc ++ fmov.s fr8, r7 ++ fmov.s fr7, r8 ++ .global fmov_d ++fmov_d: ++ fmov.d fr14, fr14 ++ fmov.d fr0, fr0 ++ fmov.d fr14, fr0 ++ fmov.d fr0, fr14 ++ fmov.d fr8, fr6 ++ fmov.d fr6, fr8 ++ fmov.d lr, fr14 ++ fmov.d r0, fr0 ++ fmov.d lr, fr0 ++ fmov.d r0, fr14 ++ fmov.d r8, fr6 ++ fmov.d r6, fr8 ++ fmov.d fr14, lr ++ fmov.d fr0, r0 ++ fmov.d fr14, r0 ++ fmov.d fr0, lr ++ fmov.d fr8, r6 ++ fmov.d fr6, r8 ++ .global fcasts_d ++fcasts_d: ++ fcasts.d fr15, fr14 ++ fcasts.d fr0, fr0 ++ fcasts.d fr15, fr0 ++ fcasts.d fr0, fr14 ++ fcasts.d fr8, fr6 ++ fcasts.d fr7, fr8 ++ .global fcastd_s ++fcastd_s: ++ fcastd.s fr14, fr15 ++ fcastd.s fr0, fr0 ++ fcastd.s fr14, fr0 ++ fcastd.s fr0, fr15 ++ fcastd.s fr8, fr7 ++ fcastd.s fr6, fr8 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/hwrd-lwrd.d +@@ -0,0 +1,47 @@ ++#as: ++#objdump: -dr ++#name: hwrd-lwrd ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: e0 60 87 65 mov r0,34661 ++ 4: e0 60 12 34 mov r0,4660 ++ 8: e0 60 00 00 mov r0,0 ++ 8: R_AVR32_HI16 \.text\+0x60 ++ c: e0 60 00 00 mov r0,0 ++ c: R_AVR32_HI16 extsym1 ++ 10: ea 10 87 65 orh r0,0x8765 ++ 14: ea 10 12 34 orh r0,0x1234 ++ 18: ea 10 00 00 orh r0,0x0 ++ 18: R_AVR32_HI16 \.text\+0x60 ++ 1c: ea 10 00 00 orh r0,0x0 ++ 1c: R_AVR32_HI16 extsym1 ++ 20: e4 10 87 65 andh r0,0x8765 ++ 24: e4 10 12 34 andh r0,0x1234 ++ 28: e4 10 00 00 andh r0,0x0 ++ 28: R_AVR32_HI16 \.text\+0x60 ++ 2c: e4 10 00 00 andh r0,0x0 ++ 2c: R_AVR32_HI16 extsym1 ++ ++00000030 : ++ 30: e0 60 43 21 mov r0,17185 ++ 34: e0 60 56 78 mov r0,22136 ++ 38: e0 60 00 00 mov r0,0 ++ 38: R_AVR32_LO16 \.text\+0x60 ++ 3c: e0 60 00 00 mov r0,0 ++ 3c: R_AVR32_LO16 extsym1 ++ 40: e8 10 43 21 orl r0,0x4321 ++ 44: e8 10 56 78 orl r0,0x5678 ++ 48: e8 10 00 00 orl r0,0x0 ++ 48: R_AVR32_LO16 \.text\+0x60 ++ 4c: e8 10 00 00 orl r0,0x0 ++ 4c: R_AVR32_LO16 extsym1 ++ 50: e0 10 43 21 andl r0,0x4321 ++ 54: e0 10 56 78 andl r0,0x5678 ++ 58: e0 10 00 00 andl r0,0x0 ++ 58: R_AVR32_LO16 \.text\+0x60 ++ 5c: e0 10 00 00 andl r0,0x0 ++ 5c: R_AVR32_LO16 extsym1 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/hwrd-lwrd.s +@@ -0,0 +1,39 @@ ++ ++ .equ sym1, 0x12345678 ++ ++ .text ++ .global test_hwrd ++test_hwrd: ++ mov r0, hi(0x87654321) ++ mov r0, hi(sym1) ++ mov r0, hi(sym2) ++ mov r0, hi(extsym1) ++ ++ orh r0, hi(0x87654321) ++ orh r0, hi(sym1) ++ orh r0, hi(sym2) ++ orh r0, hi(extsym1) ++ ++ andh r0, hi(0x87654321) ++ andh r0, hi(sym1) ++ andh r0, hi(sym2) ++ andh r0, hi(extsym1) ++ ++ .global test_lwrd ++test_lwrd: ++ mov r0, lo(0x87654321) ++ mov r0, lo(sym1) ++ mov r0, lo(sym2) ++ mov r0, lo(extsym1) ++ ++ orl r0, lo(0x87654321) ++ orl r0, lo(sym1) ++ orl r0, lo(sym2) ++ orl r0, lo(extsym1) ++ ++ andl r0, lo(0x87654321) ++ andl r0, lo(sym1) ++ andl r0, lo(sym2) ++ andl r0, lo(extsym1) ++ ++sym2: +--- /dev/null ++++ b/gas/testsuite/gas/avr32/jmptable.d +@@ -0,0 +1,20 @@ ++#source: jmptable.s ++#as: ++#objdump: -dr ++#name: jmptable ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: fe c8 ff f4 sub r8,pc,-12 ++ 4: f0 00 00 2f add pc,r8,r0<<0x2 ++ 8: d7 03 nop ++ a: 00 00 add r0,r0 ++ c: c0 38 rjmp 12 ++ e: c0 38 rjmp 14 ++ 10: c0 38 rjmp 16 ++ 12: d7 03 nop ++ 14: d7 03 nop ++ 16: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/jmptable_linkrelax.d +@@ -0,0 +1,25 @@ ++#source: jmptable.s ++#as: --linkrelax ++#objdump: -dr ++#name: jmptable_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: fe c8 00 00 sub r8,pc,0 ++ 0: R_AVR32_16N_PCREL \.text\+0xc ++ 4: f0 00 00 2f add pc,r8,r0<<0x2 ++ 8: d7 03 nop ++ a: 00 00 add r0,r0 ++ a: R_AVR32_ALIGN \*ABS\*\+0x2 ++ c: c0 08 rjmp c ++ c: R_AVR32_11H_PCREL \.text\+0x12 ++ e: c0 08 rjmp e ++ e: R_AVR32_11H_PCREL \.text\+0x14 ++ 10: c0 08 rjmp 10 ++ 10: R_AVR32_11H_PCREL \.text\+0x16 ++ 12: d7 03 nop ++ 14: d7 03 nop ++ 16: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/jmptable.s +@@ -0,0 +1,14 @@ ++ ++ .text ++ .global jmptable_test ++jmptable_test: ++ sub r8, pc, -(.L1 - .) ++ add pc, r8, r0 << 2 ++ nop ++ .align 2 ++.L1: rjmp 1f ++ rjmp 2f ++ rjmp 3f ++1: nop ++2: nop ++3: nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_nopic.d +@@ -0,0 +1,32 @@ ++#source: lda.s ++#as: ++#objdump: -dr ++#name: lda_nopic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ ... ++ 8000: fe c0 7f fc sub r0,pc,32764 ++ 8004: 48 31 lddpc r1,8010 ++ 8006: 48 42 lddpc r2,8014 ++ 8008: 48 43 lddpc r3,8018 ++ 800a: 48 54 lddpc r4,801c ++ 800c: fe c5 80 04 sub r5,pc,-32764 ++ ... ++ 8010: R_AVR32_32_CPENT \.text ++ 8014: R_AVR32_32_CPENT \.data ++ 8018: R_AVR32_32_CPENT undefined ++ 801c: R_AVR32_32_CPENT \.text\+0x1001c ++ ++00010008 : ++ 10008: fa cc 00 00 sub r12,sp,0 ++ ... ++0001001c : ++ 1001c: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_nopic_linkrelax.d +@@ -0,0 +1,41 @@ ++#source: lda.s ++#as: --linkrelax ++#objdump: -dr ++#name: lda_nopic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ \.\.\. ++ 8000: 48 00 lddpc r0,8000 ++ 8000: R_AVR32_9W_CP \.text\+0x800c ++ 8002: 48 01 lddpc r1,8000 ++ 8002: R_AVR32_9W_CP \.text\+0x8010 ++ 8004: 48 02 lddpc r2,8004 ++ 8004: R_AVR32_9W_CP \.text\+0x8014 ++ 8006: 48 03 lddpc r3,8004 ++ 8006: R_AVR32_9W_CP \.text\+0x8018 ++ 8008: 48 04 lddpc r4,8008 ++ 8008: R_AVR32_9W_CP \.text\+0x801c ++ 800a: 48 05 lddpc r5,8008 ++ 800a: R_AVR32_9W_CP \.text\+0x8020 ++ \.\.\. ++ 800c: R_AVR32_ALIGN \*ABS\*\+0x2 ++ 800c: R_AVR32_32_CPENT \.text\+0x4 ++ 8010: R_AVR32_32_CPENT \.text ++ 8014: R_AVR32_32_CPENT \.data ++ 8018: R_AVR32_32_CPENT undefined ++ 801c: R_AVR32_32_CPENT \.text\+0x10020 ++ 8020: R_AVR32_32_CPENT \.text\+0x1000c ++ ++0001000c : ++ 1000c: fa cc 00 00 sub r12,sp,0 ++ \.\.\. ++00010020 : ++ 10020: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_pic.d +@@ -0,0 +1,32 @@ ++#source: lda.s ++#as: --pic ++#objdump: -dr ++#name: lda_pic ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ ... ++ 8000: fe c0 7f fc sub r0,pc,32764 ++ 8004: ec f1 00 00 ld.w r1,r6\[0\] ++ 8004: R_AVR32_GOT16S toofar_negative ++ 8008: ec f2 00 00 ld.w r2,r6\[0\] ++ 8008: R_AVR32_GOT16S different_section ++ 800c: ec f3 00 00 ld.w r3,r6\[0\] ++ 800c: R_AVR32_GOT16S undefined ++ 8010: ec f4 00 00 ld.w r4,r6\[0\] ++ 8010: R_AVR32_GOT16S toofar_positive ++ 8014: fe c5 80 14 sub r5,pc,-32748 ++ ... ++ ++00010000 : ++ 10000: fa cc 00 00 sub r12,sp,0 ++ ... ++00010014 : ++ 10014: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda_pic_linkrelax.d +@@ -0,0 +1,40 @@ ++#source: lda.s ++#as: --pic --linkrelax ++#objdump: -dr ++#name: lda_pic_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f2 c8 00 00 sub r8,r9,0 ++ ++00000004 : ++ 4: f6 ca 00 00 sub r10,r11,0 ++ ... ++ 8000: e0 60 00 00 mov r0,0 ++ 8000: R_AVR32_LDA_GOT far_negative ++ 8004: ec 00 03 20 ld\.w r0,r6\[r0<<0x2\] ++ 8008: e0 61 00 00 mov r1,0 ++ 8008: R_AVR32_LDA_GOT toofar_negative ++ 800c: ec 01 03 21 ld\.w r1,r6\[r1<<0x2\] ++ 8010: e0 62 00 00 mov r2,0 ++ 8010: R_AVR32_LDA_GOT different_section ++ 8014: ec 02 03 22 ld\.w r2,r6\[r2<<0x2\] ++ 8018: e0 63 00 00 mov r3,0 ++ 8018: R_AVR32_LDA_GOT undefined ++ 801c: ec 03 03 23 ld\.w r3,r6\[r3<<0x2\] ++ 8020: e0 64 00 00 mov r4,0 ++ 8020: R_AVR32_LDA_GOT toofar_positive ++ 8024: ec 04 03 24 ld\.w r4,r6\[r4<<0x2\] ++ 8028: e0 65 00 00 mov r5,0 ++ 8028: R_AVR32_LDA_GOT far_positive ++ 802c: ec 05 03 25 ld\.w r5,r6\[r5<<0x2\] ++ ... ++ ++00010018 : ++ 10018: fa cc 00 00 sub r12,sp,0 ++ ... ++0001002c : ++ 1002c: fe ce 00 00 sub lr,pc,0 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/lda.s +@@ -0,0 +1,30 @@ ++ ++ .text ++ .global lda_test ++lda_test: ++toofar_negative: ++ sub r8, r9, 0 ++far_negative: ++ sub r10, r11, 0 ++ ++ .fill 32760, 1, 0x00 ++ ++ lda.w r0, far_negative ++ lda.w r1, toofar_negative ++ lda.w r2, different_section ++ lda.w r3, undefined ++ lda.w r4, toofar_positive ++ lda.w r5, far_positive ++ ++ .cpool ++ ++ .fill 32744, 1, 0x00 ++far_positive: ++ sub r12, sp, 0 ++ .fill 16, 1, 0x00 ++toofar_positive: ++ sub lr, pc, 0 ++ ++ .data ++different_section: ++ .long 0x12345678 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pcrel.d +@@ -0,0 +1,64 @@ ++#as: ++#objdump: -dr ++#name: pcrel ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: d7 03 nop ++ 2: c0 28 rjmp 6 ++ 4: d7 03 nop ++ 6: e0 8f 00 00 bral 6 ++ 6: R_AVR32_22H_PCREL extsym10 ++ ++0000000a : ++ a: d7 03 nop ++0000000c : ++ c: c0 2c rcall 10 ++ e: d7 03 nop ++ 10: e0 a0 00 00 rcall 10 ++ 10: R_AVR32_22H_PCREL extsym21 ++ ++00000014 : ++ 14: c0 31 brne 1a ++ 16: e0 8f 00 00 bral 16 ++ 16: R_AVR32_22H_PCREL test_branch ++ 1a: e0 80 00 00 breq 1a ++ 1a: R_AVR32_22H_PCREL extsym21 ++ ++0000001e : ++ 1e: 48 30 lddpc r0,28 ++ 20: 48 20 lddpc r0,28 ++ 22: fe f0 00 00 ld.w r0,pc\[0\] ++ 22: R_AVR32_16B_PCREL extsym16 ++ \.\.\. ++ ++00000028 : ++ 28: d7 03 nop ++ 2a: d7 03 nop ++ ++0000002c : ++ 2c: 48 20 lddpc r0,34 ++ 2e: 48 30 lddpc r0,38 ++ 30: 48 20 lddpc r0,38 ++ 32: 00 00 add r0,r0 ++ 34: d7 03 nop ++ 36: d7 03 nop ++ 38: d7 03 nop ++ 3a: d7 03 nop ++ ++Disassembly of section \.text\.init: ++ ++00000000 : ++ 0: e0 a0 .. .. rcall [0-9a-f]+ <.*> ++ 0: R_AVR32_22H_PCREL test_rcall ++ 4: d7 03 nop ++ 6: e0 a0 .. .. rcall [0-9a-f]+ <.*> ++ 6: R_AVR32_22H_PCREL test_rcall ++ a: e0 a0 .. .. rcall [0-9a-z]+ <.*> ++ a: R_AVR32_22H_PCREL \.text\+0xc ++ e: d7 03 nop ++ 10: e0 a0 .. .. rcall [0-9a-f]+ <.*> ++ 10: R_AVR32_22H_PCREL \.text\+0xc +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pcrel.s +@@ -0,0 +1,57 @@ ++ ++ .text ++ .global test_rjmp ++test_rjmp: ++ nop ++ rjmp 0f ++ nop ++0: rjmp extsym10 ++ ++ .global test_rcall ++test_rcall: ++ nop ++test_rcall2: ++ rcall 0f ++ nop ++0: rcall extsym21 ++ ++ .global test_branch ++test_branch: ++ brne 0f ++ /* This will generate a reloc since test_branch is global */ ++ bral test_branch ++0: breq extsym21 ++ ++ .global test_lddpc ++test_lddpc: ++ lddpc r0,sym1 ++ lddpc r0,sym1 ++ lddpc r0,extsym16 ++ ++ .align 2 ++sym1: nop ++ nop ++ ++ .global test_local ++test_local: ++ lddpc r0, .LC1 ++ lddpc r0, .LC2 ++ lddpc r0, .LC1 + 0x4 ++ ++ .align 2 ++.LC1: ++ nop ++ nop ++.LC2: ++ nop ++ nop ++ ++ .section .text.init,"ax" ++ .global test_inter_section ++test_inter_section: ++ rcall test_rcall ++ nop ++ rcall test_rcall ++ rcall test_rcall2 ++ nop ++ rcall test_rcall2 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pico.d +@@ -0,0 +1,149 @@ ++#as: ++#objdump: -dr ++#name: pico ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a6 20 00 cop cp1,cr0,cr0,cr0,0xc ++ *[0-9a-f]*: e1 a7 2b bb cop cp1,cr11,cr11,cr11,0xe ++ *[0-9a-f]*: e1 a6 3a 05 cop cp1,cr10,cr0,cr5,0xd ++ *[0-9a-f]*: e1 a7 36 90 cop cp1,cr6,cr9,cr0,0xf ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a4 20 00 cop cp1,cr0,cr0,cr0,0x8 ++ *[0-9a-f]*: e1 a5 2b bb cop cp1,cr11,cr11,cr11,0xa ++ *[0-9a-f]*: e1 a4 3a 05 cop cp1,cr10,cr0,cr5,0x9 ++ *[0-9a-f]*: e1 a5 36 90 cop cp1,cr6,cr9,cr0,0xb ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a2 20 00 cop cp1,cr0,cr0,cr0,0x4 ++ *[0-9a-f]*: e1 a3 2b bb cop cp1,cr11,cr11,cr11,0x6 ++ *[0-9a-f]*: e1 a2 3a 05 cop cp1,cr10,cr0,cr5,0x5 ++ *[0-9a-f]*: e1 a3 36 90 cop cp1,cr6,cr9,cr0,0x7 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e1 a0 20 00 cop cp1,cr0,cr0,cr0,0x0 ++ *[0-9a-f]*: e1 a1 2b bb cop cp1,cr11,cr11,cr11,0x2 ++ *[0-9a-f]*: e1 a0 3a 05 cop cp1,cr10,cr0,cr5,0x1 ++ *[0-9a-f]*: e1 a1 36 90 cop cp1,cr6,cr9,cr0,0x3 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 af 3e ff ldc\.d cp1,cr14,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a0 30 ff ldc\.d cp1,cr0,r0\[0x3fc\] ++ *[0-9a-f]*: e9 a0 30 00 ldc\.d cp1,cr0,r0\[0x0\] ++ *[0-9a-f]*: ef a8 26 50 ldc\.d cp1,cr6,--r8 ++ *[0-9a-f]*: ef a7 28 50 ldc\.d cp1,cr8,--r7 ++ *[0-9a-f]*: ef aa 32 65 ldc\.d cp1,cr2,r10\[r5<<0x2\] ++ *[0-9a-f]*: ef a3 3c 46 ldc\.d cp1,cr12,r3\[r6\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: e9 af 2f ff ldc\.w cp1,cr15,pc\[0x3fc\] ++ *[0-9a-f]*: e9 a0 20 ff ldc\.w cp1,cr0,r0\[0x3fc\] ++ *[0-9a-f]*: e9 a0 20 00 ldc\.w cp1,cr0,r0\[0x0\] ++ *[0-9a-f]*: ef a8 27 40 ldc\.w cp1,cr7,--r8 ++ *[0-9a-f]*: ef a7 28 40 ldc\.w cp1,cr8,--r7 ++ *[0-9a-f]*: ef aa 31 25 ldc\.w cp1,cr1,r10\[r5<<0x2\] ++ *[0-9a-f]*: ef a3 3d 06 ldc\.w cp1,cr13,r3\[r6\] ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 24 ff ldcm\.d cp1,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 24 01 ldcm\.d cp1,r0,cr0-cr1 ++ *[0-9a-f]*: ed a7 24 80 ldcm\.d cp1,r7,cr14-cr15 ++ *[0-9a-f]*: ed a8 24 7f ldcm\.d cp1,r8,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 34 ff ldcm\.d cp1,pc\+\+,cr0-cr15 ++ *[0-9a-f]*: ed a0 34 01 ldcm\.d cp1,r0\+\+,cr0-cr1 ++ *[0-9a-f]*: ed a7 34 80 ldcm\.d cp1,r7\+\+,cr14-cr15 ++ *[0-9a-f]*: ed a8 34 7f ldcm\.d cp1,r8\+\+,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 20 ff ldcm\.w cp1,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 20 01 ldcm\.w cp1,r0,cr0 ++ *[0-9a-f]*: ed a7 20 80 ldcm\.w cp1,r7,cr7 ++ *[0-9a-f]*: ed a8 20 7f ldcm\.w cp1,r8,cr0-cr6 ++ *[0-9a-f]*: ed af 21 ff ldcm\.w cp1,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 21 01 ldcm\.w cp1,r0,cr8 ++ *[0-9a-f]*: ed a7 21 80 ldcm\.w cp1,r7,cr15 ++ *[0-9a-f]*: ed a8 21 7f ldcm\.w cp1,r8,cr8-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 30 ff ldcm\.w cp1,pc\+\+,cr0-cr7 ++ *[0-9a-f]*: ed a0 30 01 ldcm\.w cp1,r0\+\+,cr0 ++ *[0-9a-f]*: ed a7 30 80 ldcm\.w cp1,r7\+\+,cr7 ++ *[0-9a-f]*: ed a8 30 7f ldcm\.w cp1,r8\+\+,cr0-cr6 ++ *[0-9a-f]*: ed af 31 ff ldcm\.w cp1,pc\+\+,cr8-cr15 ++ *[0-9a-f]*: ed a0 31 01 ldcm\.w cp1,r0\+\+,cr8 ++ *[0-9a-f]*: ed a7 31 80 ldcm\.w cp1,r7\+\+,cr15 ++ *[0-9a-f]*: ed a8 31 7f ldcm\.w cp1,r8\+\+,cr8-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef ae 2e 30 mvrc\.d cp1,cr14,lr ++ *[0-9a-f]*: ef a0 20 30 mvrc\.d cp1,cr0,r0 ++ *[0-9a-f]*: ef a8 26 30 mvrc\.d cp1,cr6,r8 ++ *[0-9a-f]*: ef a6 28 30 mvrc\.d cp1,cr8,r6 ++ *[0-9a-f]*: ef ae 2e 10 mvcr\.d cp1,lr,cr14 ++ *[0-9a-f]*: ef a0 20 10 mvcr\.d cp1,r0,cr0 ++ *[0-9a-f]*: ef a8 26 10 mvcr\.d cp1,r8,cr6 ++ *[0-9a-f]*: ef a6 28 10 mvcr\.d cp1,r6,cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ef af 2f 20 mvrc\.w cp1,cr15,pc ++ *[0-9a-f]*: ef a0 20 20 mvrc\.w cp1,cr0,r0 ++ *[0-9a-f]*: ef a8 27 20 mvrc\.w cp1,cr7,r8 ++ *[0-9a-f]*: ef a7 28 20 mvrc\.w cp1,cr8,r7 ++ *[0-9a-f]*: ef af 2f 00 mvcr\.w cp1,pc,cr15 ++ *[0-9a-f]*: ef a0 20 00 mvcr\.w cp1,r0,cr0 ++ *[0-9a-f]*: ef a8 27 00 mvcr\.w cp1,r8,cr7 ++ *[0-9a-f]*: ef a7 28 00 mvcr\.w cp1,r7,cr8 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb af 3e ff stc\.d cp1,pc\[0x3fc\],cr14 ++ *[0-9a-f]*: eb a0 30 00 stc\.d cp1,r0\[0x0\],cr0 ++ *[0-9a-f]*: ef a8 26 70 stc\.d cp1,r8\+\+,cr6 ++ *[0-9a-f]*: ef a7 28 70 stc\.d cp1,r7\+\+,cr8 ++ *[0-9a-f]*: ef aa 32 e5 stc\.d cp1,r10\[r5<<0x2\],cr2 ++ *[0-9a-f]*: ef a3 3c c6 stc\.d cp1,r3\[r6\],cr12 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: eb af 2f ff stc\.w cp1,pc\[0x3fc\],cr15 ++ *[0-9a-f]*: eb a0 20 00 stc\.w cp1,r0\[0x0\],cr0 ++ *[0-9a-f]*: ef a8 27 60 stc\.w cp1,r8\+\+,cr7 ++ *[0-9a-f]*: ef a7 28 60 stc\.w cp1,r7\+\+,cr8 ++ *[0-9a-f]*: ef aa 31 a5 stc\.w cp1,r10\[r5<<0x2\],cr1 ++ *[0-9a-f]*: ef a3 3d 86 stc\.w cp1,r3\[r6\],cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 25 ff stcm\.d cp1,pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 25 01 stcm\.d cp1,r0,cr0-cr1 ++ *[0-9a-f]*: ed a7 25 80 stcm\.d cp1,r7,cr14-cr15 ++ *[0-9a-f]*: ed a8 25 7f stcm\.d cp1,r8,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 35 ff stcm\.d cp1,--pc,cr0-cr15 ++ *[0-9a-f]*: ed a0 35 01 stcm\.d cp1,--r0,cr0-cr1 ++ *[0-9a-f]*: ed a7 35 80 stcm\.d cp1,--r7,cr14-cr15 ++ *[0-9a-f]*: ed a8 35 7f stcm\.d cp1,--r8,cr0-cr13 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 22 ff stcm\.w cp1,pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 22 01 stcm\.w cp1,r0,cr0 ++ *[0-9a-f]*: ed a7 22 80 stcm\.w cp1,r7,cr7 ++ *[0-9a-f]*: ed a8 22 7f stcm\.w cp1,r8,cr0-cr6 ++ *[0-9a-f]*: ed af 23 ff stcm\.w cp1,pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 23 01 stcm\.w cp1,r0,cr8 ++ *[0-9a-f]*: ed a7 23 80 stcm\.w cp1,r7,cr15 ++ *[0-9a-f]*: ed a8 23 7f stcm\.w cp1,r8,cr8-cr14 ++ ++[0-9a-f]* : ++ *[0-9a-f]*: ed af 32 ff stcm\.w cp1,--pc,cr0-cr7 ++ *[0-9a-f]*: ed a0 32 01 stcm\.w cp1,--r0,cr0 ++ *[0-9a-f]*: ed a7 32 80 stcm\.w cp1,--r7,cr7 ++ *[0-9a-f]*: ed a8 32 7f stcm\.w cp1,--r8,cr0-cr6 ++ *[0-9a-f]*: ed af 33 ff stcm\.w cp1,--pc,cr8-cr15 ++ *[0-9a-f]*: ed a0 33 01 stcm\.w cp1,--r0,cr8 ++ *[0-9a-f]*: ed a7 33 80 stcm\.w cp1,--r7,cr15 ++ *[0-9a-f]*: ed a8 33 7f stcm\.w cp1,--r8,cr8-cr14 +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pico.s +@@ -0,0 +1,144 @@ ++ ++ .text ++ .global picosvmac ++picosvmac: ++ picosvmac out0, in0, in0, in0 ++ picosvmac out2, in11, in11, in11 ++ picosvmac out1, in10, in0, in5 ++ picosvmac out3, in6, in9, in0 ++ .global picosvmul ++picosvmul: ++ picosvmul out0, in0, in0, in0 ++ picosvmul out2, in11, in11, in11 ++ picosvmul out1, in10, in0, in5 ++ picosvmul out3, in6, in9, in0 ++ .global picovmac ++picovmac: ++ picovmac out0, in0, in0, in0 ++ picovmac out2, in11, in11, in11 ++ picovmac out1, in10, in0, in5 ++ picovmac out3, in6, in9, in0 ++ .global picovmul ++picovmul: ++ picovmul out0, in0, in0, in0 ++ picovmul out2, in11, in11, in11 ++ picovmul out1, in10, in0, in5 ++ picovmul out3, in6, in9, in0 ++ .global picold_d ++picold_d: ++ picold.d vmu2_out, pc[1020] ++ picold.d inpix2, r0[1020] ++ picold.d inpix2, r0[0] ++ picold.d coeff0_a, --r8 ++ picold.d coeff1_a, --r7 ++ picold.d inpix0, r10[r5 << 2] ++ picold.d vmu0_out, r3[r6 << 0] ++ .global picold_w ++picold_w: ++ picold.w config, pc[1020] ++ picold.w inpix2, r0[1020] ++ picold.w inpix2, r0[0] ++ picold.w coeff0_b, --r8 ++ picold.w coeff1_a, --r7 ++ picold.w inpix1, r10[r5 << 2] ++ picold.w vmu1_out, r3[r6 << 0] ++ .global picoldm_d ++picoldm_d: ++ picoldm.d pc, inpix2-config ++ picoldm.d r0, inpix2, inpix1 ++ picoldm.d r7, vmu2_out, config ++ picoldm.d r8, inpix2-vmu1_out ++ .global picoldm_d_pu ++picoldm_d_pu: ++ picoldm.d pc++, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out, vmu2_out, config ++ picoldm.d r0++, inpix2, inpix1 ++ picoldm.d r7++, vmu2_out, config ++ picoldm.d r8++, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out ++ .global picoldm_w ++picoldm_w: ++ picoldm.w pc, inpix2-coeff0_b ++ picoldm.w r0, inpix2 ++ picoldm.w r7, coeff0_b ++ picoldm.w r8, inpix2-coeff0_a ++ picoldm.w pc, coeff1_a-config ++ picoldm.w r0, coeff1_a ++ picoldm.w r7, config ++ picoldm.w r8, coeff1_a-vmu2_out ++ .global picoldm_w_pu ++picoldm_w_pu: ++ picoldm.w pc++, inpix2-coeff0_b ++ picoldm.w r0++, inpix2 ++ picoldm.w r7++, coeff0_b ++ picoldm.w r8++, inpix2-coeff0_a ++ picoldm.w pc++, coeff1_a-config ++ picoldm.w r0++, coeff1_a ++ picoldm.w r7++, config ++ picoldm.w r8++, coeff1_a-vmu2_out ++ .global picomv_d ++picomv_d: ++ picomv.d vmu2_out, lr ++ picomv.d inpix2, r0 ++ picomv.d coeff0_a, r8 ++ picomv.d coeff1_a, r6 ++ picomv.d pc, vmu2_out ++ picomv.d r0, inpix2 ++ picomv.d r8, coeff0_a ++ picomv.d r6, coeff1_a ++ .global picomv_w ++picomv_w: ++ picomv.w config, pc ++ picomv.w inpix2, r0 ++ picomv.w coeff0_b, r8 ++ picomv.w coeff1_a, r7 ++ picomv.w pc, config ++ picomv.w r0, inpix2 ++ picomv.w r8, coeff0_b ++ picomv.w r7, coeff1_a ++ .global picost_d ++picost_d: ++ picost.d pc[1020], vmu2_out ++ picost.d r0[0], inpix2 ++ picost.d r8++, coeff0_a ++ picost.d r7++, coeff1_a ++ picost.d r10[r5 << 2], inpix0 ++ picost.d r3[r6 << 0], vmu0_out ++ .global picost_w ++picost_w: ++ picost.w pc[1020], config ++ picost.w r0[0], inpix2 ++ picost.w r8++, coeff0_b ++ picost.w r7++, coeff1_a ++ picost.w r10[r5 << 2], inpix1 ++ picost.w r3[r6 << 0], vmu1_out ++ .global picostm_d ++picostm_d: ++ picostm.d pc, inpix2-config ++ picostm.d r0, inpix2, inpix1 ++ picostm.d r7, vmu2_out, config ++ picostm.d r8, inpix2-vmu1_out ++ .global picostm_d_pu ++picostm_d_pu: ++ picostm.d --pc, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out, vmu2_out, config ++ picostm.d --r0, inpix2, inpix1 ++ picostm.d --r7, vmu2_out, config ++ picostm.d --r8, inpix2, inpix1, inpix0, outpix2, outpix1, outpix0, coeff0_a, coeff0_b, coeff1_a, coeff1_b, coeff2_a, coeff2_b, vmu0_out, vmu1_out ++ .global picostm_w ++picostm_w: ++ picostm.w pc, inpix2-coeff0_b ++ picostm.w r0, inpix2 ++ picostm.w r7, coeff0_b ++ picostm.w r8, inpix2-coeff0_a ++ picostm.w pc, coeff1_a-config ++ picostm.w r0, coeff1_a ++ picostm.w r7, config ++ picostm.w r8, coeff1_a-vmu2_out ++ .global picostm_w_pu ++picostm_w_pu: ++ picostm.w --pc, inpix2-coeff0_b ++ picostm.w --r0, inpix2 ++ picostm.w --r7, coeff0_b ++ picostm.w --r8, inpix2-coeff0_a ++ picostm.w --pc, coeff1_a-config ++ picostm.w --r0, coeff1_a ++ picostm.w --r7, config ++ picostm.w --r8, coeff1_a-vmu2_out +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pic_reloc.d +@@ -0,0 +1,27 @@ ++#as: ++#objdump: -dr ++#name: pic_reloc ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: f0 16 00 00 mcall r6\[0\] ++ 0: R_AVR32_GOT18SW extfunc ++ 4: f0 16 00 00 mcall r6\[0\] ++ 4: R_AVR32_GOT18SW \.L1 ++ 8: f0 16 00 00 mcall r6\[0\] ++ 8: R_AVR32_GOT18SW \.L2 ++ c: f0 16 00 00 mcall r6\[0\] ++ c: R_AVR32_GOT18SW mcall_got ++ ++00000010 : ++ 10: ec f0 00 00 ld.w r0,r6\[0\] ++ 10: R_AVR32_GOT16S extvar ++ 14: ec f0 00 00 ld.w r0,r6\[0\] ++ 14: R_AVR32_GOT16S \.L3 ++ 18: ec f0 00 00 ld.w r0,r6\[0\] ++ 18: R_AVR32_GOT16S \.L4 ++ 1c: ec f0 00 00 ld.w r0,r6\[0\] ++ 1c: R_AVR32_GOT16S ldw_got +--- /dev/null ++++ b/gas/testsuite/gas/avr32/pic_reloc.s +@@ -0,0 +1,18 @@ ++ ++ .text ++ .global mcall_got ++mcall_got: ++.L1: ++ mcall r6[extfunc@got] ++ mcall r6[.L1@got] ++ mcall r6[.L2@got] ++ mcall r6[mcall_got@got] ++.L2: ++ ++ .global ldw_got ++ldw_got: ++.L3: ld.w r0,r6[extvar@got] ++ ld.w r0,r6[.L3@got] ++ ld.w r0,r6[.L4@got] ++ ld.w r0,r6[ldw_got@got] ++.L4: +--- /dev/null ++++ b/gas/testsuite/gas/avr32/symdiff.d +@@ -0,0 +1,24 @@ ++#source: symdiff.s ++#as: ++#objdump: -dr ++#name: symdiff ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: 00 00 add r0,r0 ++ 2: 00 04 add r4,r0 ++ ++00000004 : ++ 4: 00 04 add r4,r0 ++ ++00000006 : ++ 6: 04 00 add r0,r2 ++ ++00000008 : ++ 8: d7 03 nop ++ a: d7 03 nop ++ c: d7 03 nop ++ e: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/symdiff_linkrelax.d +@@ -0,0 +1,28 @@ ++#source: symdiff.s ++#as: --linkrelax ++#objdump: -dr ++#name: symdiff_linkrelax ++ ++.*: +file format .* ++ ++Disassembly of section \.text: ++ ++00000000 : ++ 0: 00 00 add r0,r0 ++ 0: R_AVR32_DIFF32 \.text\+0xa ++ 2: 00 04 add r4,r0 ++ ++00000004 : ++ 4: 00 04 add r4,r0 ++ 4: R_AVR32_DIFF16 \.text\+0xa ++ ++00000006 : ++ 6: 04 00 add r0,r2 ++ 6: R_AVR32_DIFF8 \.text\+0xa ++ 7: R_AVR32_ALIGN \*ABS\*\+0x1 ++ ++00000008 : ++ 8: d7 03 nop ++ a: d7 03 nop ++ c: d7 03 nop ++ e: d7 03 nop +--- /dev/null ++++ b/gas/testsuite/gas/avr32/symdiff.s +@@ -0,0 +1,19 @@ ++ ++ .text ++ .global diff32 ++diff32: ++ .long .L2 - .L1 ++ .global diff16 ++diff16: ++ .short .L2 - .L1 ++ .global diff8 ++diff8: ++ .byte .L2 - .L1 ++ ++ .global symdiff_test ++ .align 1 ++symdiff_test: ++ nop ++.L1: nop ++ nop ++.L2: nop +--- a/gas/write.c ++++ b/gas/write.c +@@ -2221,6 +2221,10 @@ relax_frag (segT segment, fragS *fragP, + + #endif /* defined (TC_GENERIC_RELAX_TABLE) */ + ++#ifdef TC_RELAX_ALIGN ++#define RELAX_ALIGN(SEG, FRAG, ADDR) TC_RELAX_ALIGN(SEG, FRAG, ADDR) ++#else ++#define RELAX_ALIGN(SEG, FRAG, ADDR) relax_align(ADDR, (FRAG)->fr_offset) + /* Relax_align. Advance location counter to next address that has 'alignment' + lowest order bits all 0s, return size of adjustment made. */ + static relax_addressT +@@ -2240,6 +2244,7 @@ relax_align (register relax_addressT add + #endif + return (new_address - address); + } ++#endif + + /* Now we have a segment, not a crowd of sub-segments, we can make + fr_address values. +@@ -2286,7 +2291,7 @@ relax_segment (struct frag *segment_frag + case rs_align_code: + case rs_align_test: + { +- addressT offset = relax_align (address, (int) fragP->fr_offset); ++ addressT offset = RELAX_ALIGN(segment, fragP, address); + + if (fragP->fr_subtype != 0 && offset > fragP->fr_subtype) + offset = 0; +@@ -2497,10 +2502,10 @@ relax_segment (struct frag *segment_frag + { + addressT oldoff, newoff; + +- oldoff = relax_align (was_address + fragP->fr_fix, +- (int) offset); +- newoff = relax_align (address + fragP->fr_fix, +- (int) offset); ++ oldoff = RELAX_ALIGN (segment, fragP, ++ was_address + fragP->fr_fix); ++ newoff = RELAX_ALIGN (segment, fragP, ++ address + fragP->fr_fix); + + if (fragP->fr_subtype != 0) + { +--- a/include/dis-asm.h ++++ b/include/dis-asm.h +@@ -222,6 +222,7 @@ typedef int (*disassembler_ftype) (bfd_v + + extern int print_insn_alpha (bfd_vma, disassemble_info *); + extern int print_insn_avr (bfd_vma, disassemble_info *); ++extern int print_insn_avr32 (bfd_vma, disassemble_info *); + extern int print_insn_bfin (bfd_vma, disassemble_info *); + extern int print_insn_big_arm (bfd_vma, disassemble_info *); + extern int print_insn_big_mips (bfd_vma, disassemble_info *); +@@ -304,7 +305,9 @@ extern void print_i386_disassembler_opti + extern void print_mips_disassembler_options (FILE *); + extern void print_ppc_disassembler_options (FILE *); + extern void print_arm_disassembler_options (FILE *); ++extern void print_avr32_disassembler_options (FILE *); + extern void parse_arm_disassembler_option (char *); ++extern void parse_avr32_disassembler_option (char *); + extern void print_s390_disassembler_options (FILE *); + extern int get_arm_regname_num_options (void); + extern int set_arm_regname_option (int); +--- /dev/null ++++ b/include/elf/avr32.h +@@ -0,0 +1,98 @@ ++/* AVR32 ELF support for BFD. ++ Copyright 2003,2004,2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of BFD, the Binary File Descriptor library. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include "elf/reloc-macros.h" ++ ++/* CPU-specific flags for the ELF header e_flags field */ ++#define EF_AVR32_LINKRELAX 0x01 ++#define EF_AVR32_PIC 0x02 ++ ++START_RELOC_NUMBERS (elf_avr32_reloc_type) ++ RELOC_NUMBER (R_AVR32_NONE, 0) ++ ++ /* Data Relocations */ ++ RELOC_NUMBER (R_AVR32_32, 1) ++ RELOC_NUMBER (R_AVR32_16, 2) ++ RELOC_NUMBER (R_AVR32_8, 3) ++ RELOC_NUMBER (R_AVR32_32_PCREL, 4) ++ RELOC_NUMBER (R_AVR32_16_PCREL, 5) ++ RELOC_NUMBER (R_AVR32_8_PCREL, 6) ++ RELOC_NUMBER (R_AVR32_DIFF32, 7) ++ RELOC_NUMBER (R_AVR32_DIFF16, 8) ++ RELOC_NUMBER (R_AVR32_DIFF8, 9) ++ RELOC_NUMBER (R_AVR32_GOT32, 10) ++ RELOC_NUMBER (R_AVR32_GOT16, 11) ++ RELOC_NUMBER (R_AVR32_GOT8, 12) ++ ++ /* Normal Code Relocations */ ++ RELOC_NUMBER (R_AVR32_21S, 13) ++ RELOC_NUMBER (R_AVR32_16U, 14) ++ RELOC_NUMBER (R_AVR32_16S, 15) ++ RELOC_NUMBER (R_AVR32_8S, 16) ++ RELOC_NUMBER (R_AVR32_8S_EXT, 17) ++ ++ /* PC-Relative Code Relocations */ ++ RELOC_NUMBER (R_AVR32_22H_PCREL, 18) ++ RELOC_NUMBER (R_AVR32_18W_PCREL, 19) ++ RELOC_NUMBER (R_AVR32_16B_PCREL, 20) ++ RELOC_NUMBER (R_AVR32_16N_PCREL, 21) ++ RELOC_NUMBER (R_AVR32_14UW_PCREL, 22) ++ RELOC_NUMBER (R_AVR32_11H_PCREL, 23) ++ RELOC_NUMBER (R_AVR32_10UW_PCREL, 24) ++ RELOC_NUMBER (R_AVR32_9H_PCREL, 25) ++ RELOC_NUMBER (R_AVR32_9UW_PCREL, 26) ++ ++ /* Special Code Relocations */ ++ RELOC_NUMBER (R_AVR32_HI16, 27) ++ RELOC_NUMBER (R_AVR32_LO16, 28) ++ ++ /* PIC Relocations */ ++ RELOC_NUMBER (R_AVR32_GOTPC, 29) ++ RELOC_NUMBER (R_AVR32_GOTCALL, 30) ++ RELOC_NUMBER (R_AVR32_LDA_GOT, 31) ++ RELOC_NUMBER (R_AVR32_GOT21S, 32) ++ RELOC_NUMBER (R_AVR32_GOT18SW, 33) ++ RELOC_NUMBER (R_AVR32_GOT16S, 34) ++ RELOC_NUMBER (R_AVR32_GOT7UW, 35) ++ ++ /* Constant Pool Relocations */ ++ RELOC_NUMBER (R_AVR32_32_CPENT, 36) ++ RELOC_NUMBER (R_AVR32_CPCALL, 37) ++ RELOC_NUMBER (R_AVR32_16_CP, 38) ++ RELOC_NUMBER (R_AVR32_9W_CP, 39) ++ ++ /* Dynamic Relocations */ ++ RELOC_NUMBER (R_AVR32_RELATIVE, 40) ++ RELOC_NUMBER (R_AVR32_GLOB_DAT, 41) ++ RELOC_NUMBER (R_AVR32_JMP_SLOT, 42) ++ ++ /* Linkrelax Information */ ++ RELOC_NUMBER (R_AVR32_ALIGN, 43) ++ ++ RELOC_NUMBER (R_AVR32_15S, 44) ++ ++END_RELOC_NUMBERS (R_AVR32_max) ++ ++/* Processor specific dynamic array tags. */ ++ ++/* The total size in bytes of the Global Offset Table */ ++#define DT_AVR32_GOTSZ 0x70000001 +--- a/include/elf/common.h ++++ b/include/elf/common.h +@@ -289,7 +289,7 @@ + #define EM_INTEL182 182 /* Reserved by Intel */ + #define EM_res183 183 /* Reserved by ARM */ + #define EM_res184 184 /* Reserved by ARM */ +-#define EM_AVR32 185 /* Atmel Corporation 32-bit microprocessor family */ ++#define EM_AVR32_OLD 185 /* Atmel Corporation 32-bit microprocessor family */ + #define EM_STM8 186 /* STMicroeletronics STM8 8-bit microcontroller */ + #define EM_TILE64 187 /* Tilera TILE64 multicore architecture family */ + #define EM_TILEPRO 188 /* Tilera TILEPro multicore architecture family */ +@@ -369,6 +369,9 @@ + /* V850 backend magic number. Written in the absense of an ABI. */ + #define EM_CYGNUS_V850 0x9080 + ++/* AVR32 magic number, picked by IAR Systems. */ ++#define EM_AVR32 0x18ad ++ + /* old S/390 backend magic number. Written in the absence of an ABI. */ + #define EM_S390_OLD 0xa390 + +--- a/ld/configdoc.texi ++++ b/ld/configdoc.texi +@@ -7,6 +7,7 @@ + @set H8300 + @set HPPA + @set I960 ++@set AVR32 + @set M68HC11 + @set M68K + @set MMIX +--- a/ld/configure.tgt ++++ b/ld/configure.tgt +@@ -113,6 +113,9 @@ xscale-*-elf) targ_emul=armelf + avr-*-*) targ_emul=avr2 + targ_extra_emuls="avr1 avr25 avr3 avr31 avr35 avr4 avr5 avr51 avr6" + ;; ++avr32-*-none) targ_emul=avr32elf_ap7000 ++ targ_extra_emuls="avr32elf_ap7001 avr32elf_ap7002 avr32elf_ap7200 avr32elf_uc3a0128 avr32elf_uc3a0256 avr32elf_uc3a0512 avr32elf_uc3a0512es avr32elf_uc3a1128 avr32elf_uc3a1256 avr32elf_uc3a1512es avr32elf_uc3a1512 avr32elf_uc3a364 avr32elf_uc3a364s avr32elf_uc3a3128 avr32elf_uc3a3128s avr32elf_uc3a3256 avr32elf_uc3a3256s avr32elf_uc3b064 avr32elf_uc3b0128 avr32elf_uc3b0256es avr32elf_uc3b0256 avr32elf_uc3b0512 avr32elf_uc3b0512revc avr32elf_uc3b164 avr32elf_uc3b1128 avr32elf_uc3b1256es avr32elf_uc3b1256 avr32elf_uc3b1512 avr32elf_uc3b1512revc avr32elf_uc3c0512crevc avr32elf_uc3c1512crevc avr32elf_uc3c2512crevc avr32elf_atuc3l0256 avr32elf_mxt768e avr32elf_uc3l064 avr32elf_uc3l032 avr32elf_uc3l016 avr32elf_uc3l064revb avr32elf_uc3c064c avr32elf_uc3c0128c avr32elf_uc3c0256c avr32elf_uc3c0512c avr32elf_uc3c164c avr32elf_uc3c1128c avr32elf_uc3c1256c avr32elf_uc3c1512c avr32elf_uc3c264c avr32elf_uc3c2128c avr32elf_uc3c2256c avr32elf_uc3c2512c" ;; ++avr32-*-linux*) targ_emul=avr32linux ;; + bfin-*-elf) targ_emul=elf32bfin; + targ_extra_emuls="elf32bfinfd" + targ_extra_libpath=$targ_extra_emuls +--- /dev/null ++++ b/ld/emulparams/avr32elf.sh +@@ -0,0 +1,402 @@ ++# This script is called from ld/genscript.sh ++# There is a difference on how 'bash' and POSIX handles ++# the '.' (source) command in a script. ++# genscript.sh calls this script with argument ${EMULATION_NAME} ++# but that will fail on POSIX compilant shells like 'sh' or 'dash' ++# therefor I use the variable directly instead of $1 ++EMULATION=${EMULATION_NAME} ++SCRIPT_NAME=avr32 ++TEMPLATE_NAME=elf32 ++EXTRA_EM_FILE=avr32elf ++OUTPUT_FORMAT="elf32-avr32" ++ARCH=avr32 ++MAXPAGESIZE=4096 ++ENTRY=_start ++EMBEDDED=yes ++NO_SMALL_DATA=yes ++NOP=0xd703d703 ++ ++DATA_SEGMENT_ALIGN=8 ++BSS_ALIGNMENT=8 ++ ++RO_LMA_REGION="FLASH" ++RO_VMA_REGION="FLASH" ++RW_LMA_REGION="FLASH" ++RW_VMA_REGION="CPUSRAM" ++ ++STACK_SIZE=_stack_size ++STACK_ADDR="ORIGIN(CPUSRAM) + LENGTH(CPUSRAM) - ${STACK_SIZE}" ++ ++DATA_SEGMENT_END=" ++ __heap_start__ = ALIGN(8); ++ . = ${STACK_ADDR}; ++ __heap_end__ = .; ++" ++ ++case "$EMULATION" in ++avr32elf_ap*) ++ MACHINE=ap ++ INITIAL_READONLY_SECTIONS=" ++ .reset : { *(.reset) } >FLASH AT>FLASH ++ . = . & 0x9fffffff; ++" ++ TEXT_START_ADDR=0xa0000000 ++ case "$EMULATION" in ++ avr32elf_ap700[0-2]) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai) : ORIGIN = 0x00000000, LENGTH = 64M ++ CPUSRAM (rwxa) : ORIGIN = 0x24000000, LENGTH = 32K ++} ++" ++ ;; ++ avr32elf_ap7200) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai) : ORIGIN = 0x00000000, LENGTH = 64M ++ CPUSRAM (rwxa) : ORIGIN = 0x08000000, LENGTH = 64K ++} ++" ++ ;; ++ esac ++ ;; ++ ++avr32elf_mxt768e) ++ MACHINE=uc ++ INITIAL_READONLY_SECTIONS=".reset : { *(.reset) } >FLASH AT>FLASH" ++ TEXT_START_ADDR=0x80000000 ++ OTHER_SECTIONS=" ++ .userpage : { *(.userpage .userpage.*) } >USERPAGE AT>USERPAGE ++ .factorypage : { *(.factorypage .factorypage.*) } >FACTORYPAGE AT>FACTORYPAGE ++" ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++avr32elf_atuc3*) ++ MACHINE=uc ++ INITIAL_READONLY_SECTIONS=".reset : { *(.reset) } >FLASH AT>FLASH" ++ TEXT_START_ADDR=0x80000000 ++ OTHER_SECTIONS=" ++ .userpage : { *(.userpage .userpage.*) } >USERPAGE AT>USERPAGE ++ .factorypage : { *(.factorypage .factorypage.*) } >FACTORYPAGE AT>FACTORYPAGE ++" ++ case "$EMULATION" in ++ avr32elf_atuc3l0256) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ esac ++ ;; ++ ++avr32elf_uc3*) ++ MACHINE=uc ++ INITIAL_READONLY_SECTIONS=".reset : { *(.reset) } >FLASH AT>FLASH" ++ TEXT_START_ADDR=0x80000000 ++ OTHER_SECTIONS=" ++ .userpage : { *(.userpage .userpage.*) } >USERPAGE AT>USERPAGE ++ .factorypage : { *(.factorypage .factorypage.*) } >FACTORYPAGE AT>FACTORYPAGE ++" ++ ++ case "$EMULATION" in ++ avr32elf_uc3c[012]512c) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 512K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3c[012]256c) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3c[012]128c) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 128K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x7FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3c[012]64c) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3[ac][012]512*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 512K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3a[012]256*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3b[01]512revc) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 512K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x17FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ PADDING=" ++ .padding : { ++ QUAD(0) ++ QUAD(0) ++ QUAD(0) ++ QUAD(0) ++ } >FLASH AT>FLASH ++" ++ ;; ++ ++ avr32elf_uc3b[01]512) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 512K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x17FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3b[01]256*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x7FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3[ab][012]128*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 128K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x7FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3b[0123]64*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ ;; ++ ++ avr32elf_uc3a3256*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ HSBSRAM (wxa!ri) : ORIGIN = 0xFF000000, LENGTH = 64K ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .hsbsram : { *(.hsbsram .hsbsram.*) } >HSBSRAM AT>FLASH :FLASH ++" ++ ++ ;; ++ ++ avr32elf_uc3a3128*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 128K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ HSBSRAM (wxa!ri) : ORIGIN = 0xFF000000, LENGTH = 64K ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .hsbsram : { *(.hsbsram .hsbsram.*) } >HSBSRAM AT>FLASH :FLASH ++" ++ ;; ++ ++ avr32elf_uc3a364*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0xFFFC ++ HSBSRAM (wxa!ri) : ORIGIN = 0xFF000000, LENGTH = 64K ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .hsbsram : { *(.hsbsram .hsbsram.*) } >HSBSRAM AT>FLASH :FLASH ++" ++ ;; ++ ++ ++ avr32elf_uc3l[0123]64*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 64K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3l[0123]32*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 32K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x3FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ avr32elf_uc3l[0123]16*) ++ MEMORY=" ++MEMORY ++{ ++ FLASH (rxai!w) : ORIGIN = 0x80000000, LENGTH = 16K ++ CPUSRAM (wxa!ri) : ORIGIN = 0x00000004, LENGTH = 0x1FFC ++ USERPAGE : ORIGIN = 0x80800000, LENGTH = 512 ++ FACTORYPAGE : ORIGIN = 0x80800200, LENGTH = 512 ++ FLASHVAULT_FLASH_SIZE (r) : ORIGIN = 0x80800400, LENGTH = 8 ++ FLASHVAULT_RAM_SIZE (r) : ORIGIN = 0x80800408, LENGTH = 8 ++} ++" ++ OTHER_SECTIONS="${OTHER_SECTIONS} ++ .flashvault_flash_size : { KEEP(*(.flashvault_flash_size .flashvault_flash_size.*)) } > FLASHVAULT_FLASH_SIZE ++ .flashvault_ram_size : { KEEP(*(.flashvault_ram_size .flashvault_ram_size.*)) } > FLASHVAULT_RAM_SIZE ++" ++ ;; ++ ++ ++ esac ++ ;; ++ ++esac +--- /dev/null ++++ b/ld/emulparams/avr32linux.sh +@@ -0,0 +1,14 @@ ++ARCH=avr32 ++SCRIPT_NAME=elf ++TEMPLATE_NAME=elf32 ++EXTRA_EM_FILE=avr32elf ++OUTPUT_FORMAT="elf32-avr32" ++GENERATE_SHLIB_SCRIPT=yes ++MAXPAGESIZE=0x1000 ++TEXT_START_ADDR=0x00001000 ++NOP=0xd703d703 ++ ++# This appears to place the GOT before the data section, which is ++# essential for uClinux. We don't use those .s* sections on AVR32 ++# anyway, so it shouldn't hurt for regular Linux either... ++NO_SMALL_DATA=yes +--- /dev/null ++++ b/ld/emultempl/avr32elf.em +@@ -0,0 +1,162 @@ ++# This shell script emits a C file. -*- C -*- ++# Copyright (C) 2007,2008,2009 Atmel Corporation ++# ++# This file is part of GLD, the Gnu Linker. ++# ++# This program is free software; you can redistribute it and/or modify ++# it under the terms of the GNU General Public License as published by ++# the Free Software Foundation; either version 2 of the License, or ++# (at your option) any later version. ++# ++# This program is distributed in the hope that it will be useful, ++# but WITHOUT ANY WARRANTY; without even the implied warranty of ++# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++# GNU General Public License for more details. ++# ++# You should have received a copy of the GNU General Public License ++# along with this program; if not, write to the Free Software ++# Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. ++# ++ ++# This file is sourced from elf32.em, and defines extra avr32-elf ++# specific routines. ++# ++ ++# Generate linker script for writable rodata ++LD_FLAG=rodata-writable ++DATA_ALIGNMENT=${DATA_ALIGNMENT_} ++RELOCATING=" " ++WRITABLE_RODATA=" " ++( echo "/* Linker script for writable rodata */" ++ . ${CUSTOMIZER_SCRIPT} ${EMULATION_NAME} ++ . ${srcdir}/scripttempl/${SCRIPT_NAME}.sc ++) | sed -e '/^ *$/d;s/[ ]*$//' > ldscripts/${EMULATION_NAME}.xwr ++ ++ ++cat >> e${EMULATION_NAME}.c <children); ++ ++ lang_add_assignment (exp_assop ('=', "_stack_size", ++ exp_intop (stack_size))); ++ ++ stat_ptr = save; ++} ++ ++static char * gld${EMULATION_NAME}_get_script (int *isfile); ++ ++static char * avr32_elf_get_script (int *isfile) ++{ ++ if ( rodata_writable ) ++ { ++EOF ++if test -n "$COMPILE_IN" ++then ++# Scripts compiled in. ++ ++# sed commands to quote an ld script as a C string. ++sc="-f stringify.sed" ++ ++cat >>e${EMULATION_NAME}.c <> e${EMULATION_NAME}.c ++echo ';' >> e${EMULATION_NAME}.c ++else ++# Scripts read from the filesystem. ++ ++cat >>e${EMULATION_NAME}.c <>e${EMULATION_NAME}.c <: ++a0000000: d7 03 nop ++a0000002: d7 03 nop ++ ++a0000004 : ++a0000004: d7 03 nop ++a0000006: c0 28 rjmp a000000a ++a0000008: d7 03 nop ++a000000a: e0 8f 01 fb bral a0000400 ++ ++a000000e : ++a000000e: d7 03 nop ++a0000010 : ++a0000010: c0 2c rcall a0000014 ++a0000012: d7 03 nop ++a0000014: ee b0 ff f6 rcall a0200000 ++ ++a0000018 : ++a0000018: c0 31 brne a000001e ++a000001a: fe 9f ff ff bral a0000018 ++a000001e: ee 90 ff f1 breq a0200000 ++ ++a0000022 : ++a0000022: 48 30 lddpc r0,a000002c ++a0000024: 48 20 lddpc r0,a000002c ++a0000026: fe f0 7f da ld.w r0,pc\[32730\] ++ ... ++ ++a000002c : ++a000002c: d7 03 nop ++a000002e: d7 03 nop ++ ++a0000030 : ++a0000030: 48 20 lddpc r0,a0000038 ++a0000032: 48 30 lddpc r0,a000003c ++a0000034: 48 20 lddpc r0,a000003c ++a0000036: 00 00 add r0,r0 ++a0000038: d7 03 nop ++a000003a: d7 03 nop ++a000003c: d7 03 nop ++a000003e: d7 03 nop ++ ++Disassembly of section \.text\.init: ++a0000040 : ++a0000040: fe b0 ff e7 rcall a000000e ++a0000044: d7 03 nop ++a0000046: fe b0 ff e4 rcall a000000e ++a000004a: fe b0 ff e3 rcall a0000010 ++a000004e: d7 03 nop ++a0000050: fe b0 ff e0 rcall a0000010 ++ ++Disassembly of section \.text\.pcrel10: ++ ++a0000400 : ++a0000400: d7 03 nop ++ ++Disassembly of section \.text\.pcrel16: ++ ++a0008000 : ++a0008000: d7 03 nop ++ ++Disassembly of section \.text\.pcrel21: ++a0200000 : ++a0200000: d7 03 nop +--- /dev/null ++++ b/ld/testsuite/ld-avr32/pcrel.ld +@@ -0,0 +1,23 @@ ++ENTRY(_start) ++SECTIONS ++{ ++ .text 0xa0000000: ++ { ++ *(.text) ++ } ++ ++ .text.pcrel10 0xa0000400: ++ { ++ *(.text.pcrel10) ++ } ++ ++ .text.pcrel16 0xa0008000: ++ { ++ *(.text.pcrel16) ++ } ++ ++ .text.pcrel21 0xa0200000: ++ { ++ *(.text.pcrel21) ++ } ++} +--- /dev/null ++++ b/ld/testsuite/ld-avr32/symbols.s +@@ -0,0 +1,20 @@ ++ .text ++ .global _start ++_start: ++ nop ++ nop ++ ++ .section .text.pcrel10,"ax" ++ .global extsym10 ++extsym10: ++ nop ++ ++ .section .text.pcrel16,"ax" ++ .global extsym16 ++extsym16: ++ nop ++ ++ .section .text.pcrel21,"ax" ++ .global extsym21 ++extsym21: ++ nop +--- /dev/null ++++ b/opcodes/avr32-asm.c +@@ -0,0 +1,244 @@ ++/* Assembler interface for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include ++ ++#include "avr32-opc.h" ++#include "avr32-asm.h" ++ ++/* Structure for a register hash table entry. */ ++struct reg_entry ++{ ++ const char *name; ++ int number; ++}; ++ ++/* Integer Registers. */ ++static const struct reg_entry reg_table[] = ++ { ++ /* Primary names (used by the disassembler) */ ++ { "r0", 0 }, { "r1", 1 }, { "r2", 2 }, { "r3", 3 }, ++ { "r4", 4 }, { "r5", 5 }, { "r6", 6 }, { "r7", 7 }, ++ { "r8", 8 }, { "r9", 9 }, { "r10", 10 }, { "r11", 11 }, ++ { "r12", 12 }, { "sp", 13 }, { "lr", 14 }, { "pc", 15 }, ++ /* Alternatives to sp, lr and pc. */ ++ { "r13", 13 }, { "r14", 14 }, { "r15", 15 }, ++ }; ++#define AVR32_NR_INTREGS (sizeof(reg_table)/sizeof(reg_table[0])) ++ ++/* Coprocessor Registers. */ ++static const struct reg_entry cr_table[] = ++ { ++ { "cr0", 0 }, { "cr1", 1 }, { "cr2", 2 }, { "cr3", 3 }, ++ { "cr4", 4 }, { "cr5", 5 }, { "cr6", 6 }, { "cr7", 7 }, ++ { "cr8", 8 }, { "cr9", 9 }, { "cr10", 10 }, { "cr11", 11 }, ++ { "cr12", 12 }, { "cr13", 13 }, { "cr14", 14 }, { "cr15", 15 }, ++ }; ++#define AVR32_NR_CPREGS (sizeof(cr_table)/sizeof(cr_table[0])) ++ ++#define AVR32_NR_FPREGS (sizeof(fr_table)/sizeof(fr_table[0])) ++ ++/* PiCo Registers. */ ++static const struct reg_entry pico_table[] = ++ { ++ { "inpix2", 0 }, { "inpix1", 1 }, { "inpix0", 2 }, ++ { "outpix2", 3 }, { "outpix1", 4 }, { "outpix0", 5 }, ++ { "coeff0_a", 6 }, { "coeff0_b", 7 }, { "coeff1_a", 8 }, ++ { "coeff1_b", 9 }, { "coeff2_a", 10 }, { "coeff2_b", 11 }, ++ { "vmu0_out", 12 }, { "vmu1_out", 13 }, { "vmu2_out", 14 }, ++ { "config", 15 }, ++ }; ++#define AVR32_NR_PICOREGS (sizeof(pico_table)/sizeof(pico_table[0])) ++ ++int ++avr32_parse_intreg(const char *str) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < AVR32_NR_INTREGS; i++) ++ { ++ if (strcasecmp(reg_table[i].name, str) == 0) ++ return reg_table[i].number; ++ } ++ ++ return -1; ++} ++ ++int ++avr32_parse_cpreg(const char *str) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < AVR32_NR_CPREGS; i++) ++ { ++ if (strcasecmp(cr_table[i].name, str) == 0) ++ return cr_table[i].number; ++ } ++ ++ return -1; ++} ++ ++ ++int avr32_parse_picoreg(const char *str) ++{ ++ unsigned int i; ++ ++ for (i = 0; i < AVR32_NR_PICOREGS; i++) ++ { ++ if (strcasecmp(pico_table[i].name, str) == 0) ++ return pico_table[i].number; ++ } ++ ++ return -1; ++} ++ ++static unsigned long ++parse_reglist(char *str, char **endptr, int (*parse_reg)(const char *)) ++{ ++ int reg_from, reg_to; ++ unsigned long result = 0; ++ char *p1, *p2, c; ++ ++ while (*str) ++ { ++ for (p1 = str; *p1; p1++) ++ if (*p1 == ',' || *p1 == '-') ++ break; ++ ++ c = *p1, *p1 = 0; ++ reg_from = parse_reg(str); ++ *p1 = c; ++ ++ if (reg_from < 0) ++ break; ++ ++ if (*p1 == '-') ++ { ++ for (p2 = ++p1; *p2; p2++) ++ if (*p2 == ',') ++ break; ++ ++ c = *p2, *p2 = 0; ++ /* printf("going to parse reg_to from `%s'\n", p1); */ ++ reg_to = parse_reg(p1); ++ *p2 = c; ++ ++ if (reg_to < 0) ++ break; ++ ++ while (reg_from <= reg_to) ++ result |= (1 << reg_from++); ++ p1 = p2; ++ } ++ else ++ result |= (1 << reg_from); ++ ++ str = p1; ++ if (*str) ++str; ++ } ++ ++ if (endptr) ++ *endptr = str; ++ ++ return result; ++} ++ ++unsigned long ++avr32_parse_reglist(char *str, char **endptr) ++{ ++ return parse_reglist(str, endptr, avr32_parse_intreg); ++} ++ ++unsigned long ++avr32_parse_cpreglist(char *str, char **endptr) ++{ ++ return parse_reglist(str, endptr, avr32_parse_cpreg); ++} ++ ++unsigned long ++avr32_parse_pico_reglist(char *str, char **endptr) ++{ ++ return parse_reglist(str, endptr, avr32_parse_picoreg); ++} ++ ++int ++avr32_make_regmask8(unsigned long regmask16, unsigned long *regmask8) ++{ ++ unsigned long result = 0; ++ ++ /* printf("convert regmask16 0x%04lx\n", regmask16); */ ++ ++ if (regmask16 & 0xf) ++ { ++ if ((regmask16 & 0xf) == 0xf) ++ result |= 1 << 0; ++ else ++ return -1; ++ } ++ if (regmask16 & 0xf0) ++ { ++ if ((regmask16 & 0xf0) == 0xf0) ++ result |= 1 << 1; ++ else ++ return -1; ++ } ++ if (regmask16 & 0x300) ++ { ++ if ((regmask16 & 0x300) == 0x300) ++ result |= 1 << 2; ++ else ++ return -1; ++ } ++ if (regmask16 & (1 << 13)) ++ return -1; ++ ++ if (regmask16 & (1 << 10)) ++ result |= 1 << 3; ++ if (regmask16 & (1 << 11)) ++ result |= 1 << 4; ++ if (regmask16 & (1 << 12)) ++ result |= 1 << 5; ++ if (regmask16 & (1 << 14)) ++ result |= 1 << 6; ++ if (regmask16 & (1 << 15)) ++ result |= 1 << 7; ++ ++ *regmask8 = result; ++ ++ return 0; ++} ++ ++#if 0 ++struct reg_map ++{ ++ const struct reg_entry *names; ++ int nr_regs; ++ struct hash_control *htab; ++ const char *errmsg; ++}; ++ ++struct reg_map all_reg_maps[] = ++ { ++ { reg_table, AVR32_NR_INTREGS, NULL, N_("integral register expected") }, ++ { cr_table, AVR32_NR_CPREGS, NULL, N_("coprocessor register expected") }, ++ }; ++#endif +--- /dev/null ++++ b/opcodes/avr32-asm.h +@@ -0,0 +1,40 @@ ++/* Assembler interface for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++#ifndef __OPCODES_AVR32_ASM_H ++#define __OPCODES_AVR32_ASM_H ++ ++extern int ++avr32_parse_intreg(const char *str); ++extern int ++avr32_parse_cpreg(const char *str); ++extern int ++avr32_parse_picoreg(const char *str); ++extern unsigned long ++avr32_parse_reglist(char *str, char **endptr); ++extern unsigned long ++avr32_parse_cpreglist(char *str, char **endptr); ++extern unsigned long ++avr32_parse_pico_reglist(char *str, char **endptr); ++extern int ++avr32_make_regmask8(unsigned long regmask16, unsigned long *regmask8); ++ ++#endif /* __OPCODES_AVR32_ASM_H */ +--- /dev/null ++++ b/opcodes/avr32-dis.c +@@ -0,0 +1,916 @@ ++/* Print AVR32 instructions for GDB and objdump. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include "sysdep.h" ++#include "dis-asm.h" ++#include "avr32-opc.h" ++#include "opintl.h" ++#include "safe-ctype.h" ++ ++/* TODO: Share this with -asm */ ++ ++/* Structure for a register hash table entry. */ ++struct reg_entry ++{ ++ const char *name; ++ int number; ++}; ++ ++#ifndef strneq ++#define strneq(a,b,n) (strncmp ((a), (b), (n)) == 0) ++#endif ++ ++static char avr32_opt_decode_fpu = 0; ++ ++static const struct reg_entry reg_table[] = ++ { ++ /* Primary names (used by the disassembler) */ ++ { "r0", 0 }, { "r1", 1 }, { "r2", 2 }, { "r3", 3 }, ++ { "r4", 4 }, { "r5", 5 }, { "r6", 6 }, { "r7", 7 }, ++ { "r8", 8 }, { "r9", 9 }, { "r10", 10 }, { "r11", 11 }, ++ { "r12", 12 }, { "sp", 13 }, { "lr", 14 }, { "pc", 15 }, ++ /* Alternatives to sp, lr and pc. */ ++ { "r13", 13 }, { "r14", 14 }, { "r15", 15 }, ++ }; ++#define AVR32_NR_INTREGS (sizeof(reg_table)/sizeof(reg_table[0])) ++ ++/* Coprocessor Registers. */ ++static const struct reg_entry cr_table[] = ++ { ++ { "cr0", 0 }, { "cr1", 1 }, { "cr2", 2 }, { "cr3", 3 }, ++ { "cr4", 4 }, { "cr5", 5 }, { "cr6", 6 }, { "cr7", 7 }, ++ { "cr8", 8 }, { "cr9", 9 }, { "cr10", 10 }, { "cr11", 11 }, ++ { "cr12", 12 }, { "cr13", 13 }, { "cr14", 14 }, { "cr15", 15 }, ++ }; ++#define AVR32_NR_CPREGS (sizeof(cr_table)/sizeof(cr_table[0])) ++ ++static const char bparts[4] = { 'b', 'l', 'u', 't' }; ++static bfd_vma current_pc; ++ ++struct avr32_field_value ++{ ++ const struct avr32_ifield *ifield; ++ unsigned long value; ++}; ++ ++struct avr32_operand ++{ ++ int id; ++ int is_pcrel; ++ int align_order; ++ int (*print)(struct avr32_operand *op, struct disassemble_info *info, ++ struct avr32_field_value *ifields); ++}; ++ ++static signed long ++get_signed_value(const struct avr32_field_value *fv) ++{ ++ signed long value = fv->value; ++ ++ if (fv->value & (1 << (fv->ifield->bitsize - 1))) ++ value |= (~0UL << fv->ifield->bitsize); ++ ++ return value; ++} ++ ++static void ++print_reglist_range(unsigned int first, unsigned int last, ++ const struct reg_entry *reg_names, ++ int need_comma, ++ struct disassemble_info *info) ++{ ++ if (need_comma) ++ info->fprintf_func(info->stream, ","); ++ ++ if (first == last) ++ info->fprintf_func(info->stream, "%s", ++ reg_names[first].name); ++ else ++ info->fprintf_func(info->stream, "%s-%s", ++ reg_names[first].name, reg_names[last].name); ++} ++ ++static int ++print_intreg(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regid = ifields[0].value << op->align_order; ++ ++ info->fprintf_func(info->stream, "%s", ++ reg_table[regid].name); ++ return 1; ++} ++ ++static int ++print_intreg_predec(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "--%s", ++ reg_table[ifields[0].value].name); ++ return 1; ++} ++ ++static int ++print_intreg_postinc(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s++", ++ reg_table[ifields[0].value].name); ++ return 1; ++} ++ ++static int ++print_intreg_lsl(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ const char *rp = reg_table[ifields[0].value].name; ++ unsigned long sa = ifields[1].value; ++ ++ if (sa) ++ info->fprintf_func(info->stream, "%s<<0x%lx", rp, sa); ++ else ++ info->fprintf_func(info->stream, "%s", rp); ++ ++ return 2; ++} ++ ++static int ++print_intreg_lsr(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ const char *rp = reg_table[ifields[0].value].name; ++ unsigned long sa = ifields[1].value; ++ ++ if (sa) ++ info->fprintf_func(info->stream, "%s>>0x%lx", rp, sa); ++ else ++ info->fprintf_func(info->stream, "%s", rp); ++ ++ return 2; ++} ++ ++static int ++print_intreg_bpart(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s:%c", ++ reg_table[ifields[0].value].name, ++ bparts[ifields[1].value]); ++ return 2; ++} ++ ++static int ++print_intreg_hpart(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s:%c", ++ reg_table[ifields[0].value].name, ++ ifields[1].value ? 't' : 'b'); ++ return 2; ++} ++ ++static int ++print_intreg_sdisp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ signed long disp; ++ ++ disp = get_signed_value(&ifields[1]) << op->align_order; ++ ++ info->fprintf_func(info->stream, "%s[%ld]", ++ reg_table[ifields[0].value].name, disp); ++ return 2; ++} ++ ++static int ++print_intreg_udisp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s[0x%lx]", ++ reg_table[ifields[0].value].name, ++ ifields[1].value << op->align_order); ++ return 2; ++} ++ ++static int ++print_intreg_index(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ const char *rb, *ri; ++ unsigned long sa = ifields[2].value; ++ ++ rb = reg_table[ifields[0].value].name; ++ ri = reg_table[ifields[1].value].name; ++ ++ if (sa) ++ info->fprintf_func(info->stream, "%s[%s<<0x%lx]", rb, ri, sa); ++ else ++ info->fprintf_func(info->stream, "%s[%s]", rb, ri); ++ ++ return 3; ++} ++ ++static int ++print_intreg_xindex(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%s[%s:%c<<2]", ++ reg_table[ifields[0].value].name, ++ reg_table[ifields[1].value].name, ++ bparts[ifields[2].value]); ++ return 3; ++} ++ ++static int ++print_jmplabel(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ bfd_vma address, offset; ++ ++ offset = get_signed_value(ifields) << op->align_order; ++ address = (current_pc & (~0UL << op->align_order)) + offset; ++ ++ info->print_address_func(address, info); ++ ++ return 1; ++} ++ ++static int ++print_pc_disp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ bfd_vma address, offset; ++ ++ offset = ifields[0].value << op->align_order; ++ address = (current_pc & (~0UL << op->align_order)) + offset; ++ ++ info->print_address_func(address, info); ++ ++ return 1; ++} ++ ++static int ++print_sp(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields ATTRIBUTE_UNUSED) ++{ ++ info->fprintf_func(info->stream, "sp"); ++ return 1; ++} ++ ++static int ++print_sp_disp(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "sp[0x%lx]", ++ ifields[0].value << op->align_order); ++ return 1; ++} ++ ++static int ++print_cpno(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "cp%lu", ifields[0].value); ++ return 1; ++} ++ ++static int ++print_cpreg(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "cr%lu", ++ ifields[0].value << op->align_order); ++ return 1; ++} ++ ++static int ++print_uconst(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "0x%lx", ++ ifields[0].value << op->align_order); ++ return 1; ++} ++ ++static int ++print_sconst(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ info->fprintf_func(info->stream, "%ld", ++ get_signed_value(ifields) << op->align_order); ++ return 1; ++} ++ ++static int ++print_reglist8_head(unsigned long regmask, int *commap, ++ struct disassemble_info *info) ++{ ++ int first = -1, last, i = 0; ++ int need_comma = 0; ++ ++ while (i < 12) ++ { ++ if (first == -1 && (regmask & 1)) ++ { ++ first = i; ++ } ++ else if (first != -1 && !(regmask & 1)) ++ { ++ last = i - 1; ++ ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ first = -1; ++ } ++ ++ if (i < 8) ++ i += 4; ++ else if (i < 10) ++ i += 2; ++ else ++ i++; ++ regmask >>= 1; ++ } ++ ++ *commap = need_comma; ++ return first; ++} ++ ++static void ++print_reglist8_tail(unsigned long regmask, int first, int need_comma, ++ struct disassemble_info *info) ++{ ++ int last = 11; ++ ++ if (regmask & 0x20) ++ { ++ if (first == -1) ++ first = 12; ++ last = 12; ++ } ++ ++ if (first != -1) ++ { ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ first = -1; ++ } ++ ++ if (regmask & 0x40) ++ { ++ if (first == -1) ++ first = 14; ++ last = 14; ++ } ++ ++ if (regmask & 0x80) ++ { ++ if (first == -1) ++ first = 15; ++ last = 15; ++ } ++ ++ if (first != -1) ++ print_reglist_range(first, last, reg_table, need_comma, info); ++} ++ ++static int ++print_reglist8(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ int first, need_comma; ++ ++ first = print_reglist8_head(regmask, &need_comma, info); ++ print_reglist8_tail(regmask, first, need_comma, info); ++ ++ return 1; ++} ++ ++static int ++print_reglist9(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value >> 1; ++ int first, last, need_comma; ++ ++ first = print_reglist8_head(regmask, &need_comma, info); ++ ++ if ((ifields[0].value & 0x101) == 0x101) ++ { ++ if (first != -1) ++ { ++ last = 11; ++ ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ first = -1; ++ } ++ ++ print_reglist_range(15, 15, reg_table, need_comma, info); ++ ++ regmask >>= 5; ++ ++ if ((regmask & 3) == 0) ++ info->fprintf_func(info->stream, ",r12=0"); ++ else if ((regmask & 3) == 1) ++ info->fprintf_func(info->stream, ",r12=1"); ++ else ++ info->fprintf_func(info->stream, ",r12=-1"); ++ } ++ else ++ print_reglist8_tail(regmask, first, need_comma, info); ++ ++ return 1; ++} ++ ++static int ++print_reglist16(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ unsigned int i = 0, first, last; ++ int need_comma = 0; ++ ++ while (i < 16) ++ { ++ if (regmask & 1) ++ { ++ first = i; ++ while (i < 16) ++ { ++ i++; ++ regmask >>= 1; ++ if (!(regmask & 1)) ++ break; ++ } ++ last = i - 1; ++ print_reglist_range(first, last, reg_table, need_comma, info); ++ need_comma = 1; ++ } ++ else ++ { ++ i++; ++ regmask >>= 1; ++ } ++ } ++ ++ return 1; ++} ++ ++static int ++print_reglist_ldm(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ int rp, w_bit; ++ int i, first, last; ++ unsigned long regmask; ++ ++ rp = ifields[0].value; ++ w_bit = ifields[1].value; ++ regmask = ifields[2].value; ++ ++ if (regmask & (1 << AVR32_REG_PC) && rp == AVR32_REG_PC) ++ { ++ if (w_bit) ++ info->fprintf_func(info->stream, "sp++"); ++ else ++ info->fprintf_func(info->stream, "sp"); ++ ++ for (i = 0; i < 12; ) ++ { ++ if (regmask & (1 << i)) ++ { ++ first = i; ++ while (i < 12) ++ { ++ i++; ++ if (!(regmask & (1 << i))) ++ break; ++ } ++ last = i - 1; ++ print_reglist_range(first, last, reg_table, 1, info); ++ } ++ else ++ i++; ++ } ++ ++ info->fprintf_func(info->stream, ",pc"); ++ if (regmask & (1 << AVR32_REG_LR)) ++ info->fprintf_func(info->stream, ",r12=-1"); ++ else if (regmask & (1 << AVR32_REG_R12)) ++ info->fprintf_func(info->stream, ",r12=1"); ++ else ++ info->fprintf_func(info->stream, ",r12=0"); ++ } ++ else ++ { ++ if (w_bit) ++ info->fprintf_func(info->stream, "%s++,", reg_table[rp].name); ++ else ++ info->fprintf_func(info->stream, "%s,", reg_table[rp].name); ++ ++ print_reglist16(op, info, ifields + 2); ++ } ++ ++ return 3; ++} ++ ++static int ++print_reglist_cp8(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ unsigned int i = 0, first, last, offset = 0; ++ int need_comma = 0; ++ ++ if (ifields[1].value) ++ offset = 8; ++ ++ while (i < 8) ++ { ++ if (regmask & 1) ++ { ++ first = i; ++ while (i < 8) ++ { ++ i++; ++ regmask >>= 1; ++ if (!(regmask & 1)) ++ break; ++ } ++ last = i - 1; ++ print_reglist_range(offset + first, offset + last, ++ cr_table, need_comma, info); ++ need_comma = 1; ++ } ++ else ++ { ++ i++; ++ regmask >>= 1; ++ } ++ } ++ ++ return 2; ++} ++ ++static int ++print_reglist_cpd8(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regmask = ifields[0].value; ++ unsigned int i = 0, first, last; ++ int need_comma = 0; ++ ++ while (i < 8) ++ { ++ if (regmask & 1) ++ { ++ first = 2 * i; ++ while (i < 8) ++ { ++ i++; ++ regmask >>= 1; ++ if (!(regmask & 1)) ++ break; ++ } ++ last = 2 * (i - 1) + 1; ++ print_reglist_range(first, last, cr_table, need_comma, info); ++ need_comma = 1; ++ } ++ else ++ { ++ i++; ++ regmask >>= 1; ++ } ++ } ++ ++ return 1; ++} ++ ++static int ++print_retval(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regid = ifields[0].value; ++ const char *retval; ++ ++ if (regid < AVR32_REG_SP) ++ retval = reg_table[regid].name; ++ else if (regid == AVR32_REG_SP) ++ retval = "0"; ++ else if (regid == AVR32_REG_LR) ++ retval = "-1"; ++ else ++ retval = "1"; ++ ++ info->fprintf_func(info->stream, "%s", retval); ++ ++ return 1; ++} ++ ++static int ++print_mcall(struct avr32_operand *op, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ unsigned long regid = ifields[0].value; ++ ++ if (regid == AVR32_REG_PC) ++ print_jmplabel(op, info, ifields + 1); ++ else ++ print_intreg_sdisp(op, info, ifields); ++ ++ return 2; ++} ++ ++static int ++print_jospinc(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields) ++{ ++ signed long value = ifields[0].value; ++ ++ if (value >= 4) ++ value -= 8; ++ else ++ value += 1; ++ ++ info->fprintf_func(info->stream, "%ld", value); ++ ++ return 1; ++} ++ ++static int ++print_coh(struct avr32_operand *op ATTRIBUTE_UNUSED, ++ struct disassemble_info *info, ++ struct avr32_field_value *ifields ATTRIBUTE_UNUSED) ++{ ++ info->fprintf_func(info->stream, "COH"); ++ return 0; ++} ++ ++#define OP(name, sgn, pcrel, align, func) \ ++ { AVR32_OPERAND_##name, pcrel, align, print_##func } ++ ++struct avr32_operand operand[AVR32_NR_OPERANDS] = ++ { ++ OP(INTREG, 0, 0, 0, intreg), ++ OP(INTREG_PREDEC, 0, 0, 0, intreg_predec), ++ OP(INTREG_POSTINC, 0, 0, 0, intreg_postinc), ++ OP(INTREG_LSL, 0, 0, 0, intreg_lsl), ++ OP(INTREG_LSR, 0, 0, 0, intreg_lsr), ++ OP(INTREG_BSEL, 0, 0, 0, intreg_bpart), ++ OP(INTREG_HSEL, 0, 0, 1, intreg_hpart), ++ OP(INTREG_SDISP, 1, 0, 0, intreg_sdisp), ++ OP(INTREG_SDISP_H, 1, 0, 1, intreg_sdisp), ++ OP(INTREG_SDISP_W, 1, 0, 2, intreg_sdisp), ++ OP(INTREG_UDISP, 0, 0, 0, intreg_udisp), ++ OP(INTREG_UDISP_H, 0, 0, 1, intreg_udisp), ++ OP(INTREG_UDISP_W, 0, 0, 2, intreg_udisp), ++ OP(INTREG_INDEX, 0, 0, 0, intreg_index), ++ OP(INTREG_XINDEX, 0, 0, 0, intreg_xindex), ++ OP(DWREG, 0, 0, 1, intreg), ++ OP(PC_UDISP_W, 0, 1, 2, pc_disp), ++ OP(SP, 0, 0, 0, sp), ++ OP(SP_UDISP_W, 0, 0, 2, sp_disp), ++ OP(CPNO, 0, 0, 0, cpno), ++ OP(CPREG, 0, 0, 0, cpreg), ++ OP(CPREG_D, 0, 0, 1, cpreg), ++ OP(UNSIGNED_CONST, 0, 0, 0, uconst), ++ OP(UNSIGNED_CONST_W, 0, 0, 2, uconst), ++ OP(SIGNED_CONST, 1, 0, 0, sconst), ++ OP(SIGNED_CONST_W, 1, 0, 2, sconst), ++ OP(JMPLABEL, 1, 1, 1, jmplabel), ++ OP(UNSIGNED_NUMBER, 0, 0, 0, uconst), ++ OP(UNSIGNED_NUMBER_W, 0, 0, 2, uconst), ++ OP(REGLIST8, 0, 0, 0, reglist8), ++ OP(REGLIST9, 0, 0, 0, reglist9), ++ OP(REGLIST16, 0, 0, 0, reglist16), ++ OP(REGLIST_LDM, 0, 0, 0, reglist_ldm), ++ OP(REGLIST_CP8, 0, 0, 0, reglist_cp8), ++ OP(REGLIST_CPD8, 0, 0, 0, reglist_cpd8), ++ OP(RETVAL, 0, 0, 0, retval), ++ OP(MCALL, 1, 0, 2, mcall), ++ OP(JOSPINC, 0, 0, 0, jospinc), ++ OP(COH, 0, 0, 0, coh), ++ }; ++ ++static void ++print_opcode(bfd_vma insn_word, const struct avr32_opcode *opc, ++ bfd_vma pc, struct disassemble_info *info) ++{ ++ const struct avr32_syntax *syntax = opc->syntax; ++ struct avr32_field_value fields[AVR32_MAX_FIELDS]; ++ unsigned int i, next_field = 0, nr_operands; ++ ++ for (i = 0; i < opc->nr_fields; i++) ++ { ++ opc->fields[i]->extract(opc->fields[i], &insn_word, &fields[i].value); ++ fields[i].ifield = opc->fields[i]; ++ } ++ ++ current_pc = pc; ++ info->fprintf_func(info->stream, "%s", syntax->mnemonic->name); ++ ++ if (syntax->nr_operands < 0) ++ nr_operands = (unsigned int) -syntax->nr_operands; ++ else ++ nr_operands = (unsigned int) syntax->nr_operands; ++ ++ for (i = 0; i < nr_operands; i++) ++ { ++ struct avr32_operand *op = &operand[syntax->operand[i]]; ++ ++ if (i) ++ info->fprintf_func(info->stream, ","); ++ else ++ info->fprintf_func(info->stream, "\t"); ++ next_field += op->print(op, info, &fields[next_field]); ++ } ++} ++ ++#define is_fpu_insn(iw) ((iw&0xf9f0e000)==0xe1a00000) ++ ++static const struct avr32_opcode * ++find_opcode(bfd_vma insn_word) ++{ ++ int i; ++ ++ for (i = 0; i < AVR32_NR_OPCODES; i++) ++ { ++ const struct avr32_opcode *opc = &avr32_opc_table[i]; ++ ++ if ((insn_word & opc->mask) == opc->value) ++ { ++ if (avr32_opt_decode_fpu) ++ { ++ if (is_fpu_insn(insn_word)) ++ { ++ if (opc->id != AVR32_OPC_COP) ++ return opc; ++ } ++ else ++ return opc; ++ } ++ else ++ return opc; ++ } ++ } ++ ++ return NULL; ++} ++ ++static int ++read_insn_word(bfd_vma pc, bfd_vma *valuep, ++ struct disassemble_info *info) ++{ ++ bfd_byte b[4]; ++ int status; ++ ++ status = info->read_memory_func(pc, b, 4, info); ++ if (status) ++ { ++ status = info->read_memory_func(pc, b, 2, info); ++ if (status) ++ { ++ info->memory_error_func(status, pc, info); ++ return -1; ++ } ++ b[3] = b[2] = 0; ++ } ++ ++ *valuep = (b[0] << 24) | (b[1] << 16) | (b[2] << 8) | b[3]; ++ return 0; ++} ++ ++/* Parse an individual disassembler option. */ ++ ++void ++parse_avr32_disassembler_option (option) ++ char * option; ++{ ++ if (option == NULL) ++ return; ++ ++ if (!strcmp(option,"decode-fpu")) ++ { ++ avr32_opt_decode_fpu = 1; ++ return; ++ } ++ ++ printf("\n%s--",option); ++ /* XXX - should break 'option' at following delimiter. */ ++ fprintf (stderr, _("Unrecognised disassembler option: %s\n"), option); ++ ++ return; ++} ++ ++/* Parse the string of disassembler options, spliting it at whitespaces ++ or commas. (Whitespace separators supported for backwards compatibility). */ ++ ++static void ++parse_disassembler_options (char *options) ++{ ++ if (options == NULL) ++ return; ++ ++ while (*options) ++ { ++ parse_avr32_disassembler_option (options); ++ ++ /* Skip forward to next seperator. */ ++ while ((*options) && (! ISSPACE (*options)) && (*options != ',')) ++ ++ options; ++ /* Skip forward past seperators. */ ++ while (ISSPACE (*options) || (*options == ',')) ++ ++ options; ++ } ++} ++ ++int ++print_insn_avr32(bfd_vma pc, struct disassemble_info *info) ++{ ++ bfd_vma insn_word; ++ const struct avr32_opcode *opc; ++ ++ if (info->disassembler_options) ++ { ++ parse_disassembler_options (info->disassembler_options); ++ ++ /* To avoid repeated parsing of these options, we remove them here. */ ++ info->disassembler_options = NULL; ++ } ++ ++ info->bytes_per_chunk = 1; ++ info->display_endian = BFD_ENDIAN_BIG; ++ ++ if (read_insn_word(pc, &insn_word, info)) ++ return -1; ++ ++ opc = find_opcode(insn_word); ++ if (opc) ++ { ++ print_opcode(insn_word, opc, pc, info); ++ return opc->size; ++ } ++ else ++ { ++ info->fprintf_func(info->stream, _("*unknown*")); ++ return 2; ++ } ++ ++} ++ ++void ++print_avr32_disassembler_options (FILE *stream ATTRIBUTE_UNUSED) ++{ ++ fprintf(stream, "\n AVR32 Specific Disassembler Options:\n"); ++ fprintf(stream, " -M decode-fpu Print FPU instructions instead of 'cop' \n"); ++} ++ +--- /dev/null ++++ b/opcodes/avr32-opc.c +@@ -0,0 +1,6906 @@ ++/* Opcode tables for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include ++#include ++ ++#include "avr32-opc.h" ++ ++#define PICO_CPNO 1 ++ ++void ++avr32_insert_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ word |= (value << field->shift) & field->mask; ++ bfd_putb32(word, buf); ++} ++ ++void ++avr32_insert_bit5c(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long value) ++{ ++ char *opcode = buf; ++ ++ opcode[0] = (opcode[0] & 0xe1) | (value & 0x1e); ++ opcode[1] = (opcode[1] & 0xef) | ((value & 1) << 4); ++} ++ ++void ++avr32_insert_k10(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long value) ++{ ++ char *opcode = buf; ++ ++ opcode[0] = (opcode[0] & 0xf0) | ((value & 0xf0) >> 4); ++ opcode[1] = ((opcode[1] & 0x0c) | ((value & 0x0f) << 4) ++ | ((value & 0x300) >> 8)); ++} ++ ++ ++void ++avr32_insert_k21(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ bfd_vma k21; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ k21 = ((value & 0xffff) | ((value & 0x10000) << 4) ++ | ((value & 0x1e0000) << 8)); ++ assert(!(k21 & ~field->mask)); ++ word |= k21; ++ bfd_putb32(word, buf); ++} ++ ++void ++avr32_insert_cpop(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ word |= (((value & 0x1e) << 15) | ((value & 0x60) << 20) ++ | ((value & 0x01) << 12)); ++ bfd_putb32(word, buf); ++} ++ ++void ++avr32_insert_k12cp(const struct avr32_ifield *field, ++ void *buf, unsigned long value) ++{ ++ bfd_vma word; ++ ++ word = bfd_getb32(buf); ++ word &= ~field->mask; ++ word |= ((value & 0xf00) << 4) | (value & 0xff); ++ bfd_putb32(word, buf); ++} ++ ++void avr32_extract_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long *value) ++{ ++ /* XXX: The disassembler has done any necessary byteswapping already */ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = (word & field->mask) >> field->shift; ++} ++ ++void avr32_extract_bit5c(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word >> 20) & 1) | ((word >> 24) & 0x1e); ++} ++ ++void avr32_extract_k10(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word >> 8) & 0x300) | ((word >> 20) & 0xff); ++} ++ ++void avr32_extract_k21(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word & 0xffff) | ((word >> 4) & 0x10000) ++ | ((word >> 8) & 0x1e0000)); ++} ++ ++void avr32_extract_cpop(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = (((word >> 12) & 1) | ((word >> 15) & 0x1e) ++ | ((word >> 20) & 0x60)); ++} ++ ++void avr32_extract_k12cp(const struct avr32_ifield *field ATTRIBUTE_UNUSED, ++ void *buf, unsigned long *value) ++{ ++ bfd_vma word = *(bfd_vma *)buf; ++ ++ *value = ((word >> 4) & 0xf00) | (word & 0xff); ++} ++ ++ ++#define IFLD(id, bitsz, shift, mask, func) \ ++ { AVR32_IFIELD_##id, bitsz, shift, mask, \ ++ avr32_insert_##func, avr32_extract_##func } ++ ++const struct avr32_ifield avr32_ifield_table[] = ++ { ++ IFLD(RX, 4, 25, 0x1e000000, simple), ++ IFLD(RY, 4, 16, 0x000f0000, simple), ++ IFLD(COND4C, 4, 20, 0x00f00000, simple), ++ IFLD(K8C, 8, 20, 0x0ff00000, simple), ++ IFLD(K7C, 7, 20, 0x07f00000, simple), ++ IFLD(K5C, 5, 20, 0x01f00000, simple), ++ IFLD(K3, 3, 20, 0x00700000, simple), ++ IFLD(RY_DW, 3, 17, 0x000e0000, simple), ++ IFLD(COND4E, 4, 8, 0x00000f00, simple), ++ IFLD(K8E, 8, 0, 0x000000ff, simple), ++ IFLD(BIT5C, 5, 20, 0x1e100000, bit5c), ++ IFLD(COND3, 3, 16, 0x00070000, simple), ++ IFLD(K10, 10, 16, 0x0ff30000, k10), ++ IFLD(POPM, 9, 19, 0x0ff80000, simple), ++ IFLD(K2, 2, 4, 0x00000030, simple), ++ IFLD(RD_E, 4, 0, 0x0000000f, simple), ++ IFLD(RD_DW, 3, 1, 0x0000000e, simple), ++ IFLD(X, 1, 5, 0x00000020, simple), ++ IFLD(Y, 1, 4, 0x00000010, simple), ++ IFLD(X2, 1, 13, 0x00002000, simple), ++ IFLD(Y2, 1, 12, 0x00001000, simple), ++ IFLD(K5E, 5, 0, 0x0000001f, simple), ++ IFLD(PART2, 2, 0, 0x00000003, simple), ++ IFLD(PART1, 1, 0, 0x00000001, simple), ++ IFLD(K16, 16, 0, 0x0000ffff, simple), ++ IFLD(CACHEOP, 5, 11, 0x0000f800, simple), ++ IFLD(K11, 11, 0, 0x000007ff, simple), ++ IFLD(K21, 21, 0, 0x1e10ffff, k21), ++ IFLD(CPOP, 7, 12, 0x060f1000, cpop), ++ IFLD(CPNO, 3, 13, 0x0000e000, simple), ++ IFLD(CRD_RI, 4, 8, 0x00000f00, simple), ++ IFLD(CRX, 4, 4, 0x000000f0, simple), ++ IFLD(CRY, 4, 0, 0x0000000f, simple), ++ IFLD(K7E, 7, 0, 0x0000007f, simple), ++ IFLD(CRD_DW, 3, 9, 0x00000e00, simple), ++ IFLD(PART1_K12, 1, 12, 0x00001000, simple), ++ IFLD(PART2_K12, 2, 12, 0x00003000, simple), ++ IFLD(K12, 12, 0, 0x00000fff, simple), ++ IFLD(S5, 5, 5, 0x000003e0, simple), ++ IFLD(K5E2, 5, 4, 0x000001f0, simple), ++ IFLD(K4, 4, 20, 0x00f00000, simple), ++ IFLD(COND4E2, 4, 4, 0x000000f0, simple), ++ IFLD(K8E2, 8, 4, 0x00000ff0, simple), ++ IFLD(K6, 6, 20, 0x03f00000, simple), ++ IFLD(MEM15, 15, 0, 0x00007fff, simple), ++ IFLD(MEMB5, 5, 15, 0x000f8000, simple), ++ IFLD(W, 1, 25, 0x02000000, simple), ++ /* Coprocessor Multiple High/Low */ ++ IFLD(CM_HL, 1, 8, 0x00000100, simple), ++ IFLD(K12CP, 12 ,0, 0x0000f0ff, k12cp), ++ IFLD(K9E, 9 ,0, 0x000001ff, simple), ++ IFLD (FP_RX, 4, 4, 0x000000F0, simple), ++ IFLD (FP_RY, 4, 0, 0x0000000F, simple), ++ IFLD (FP_RD, 4, 8, 0x00000F00, simple), ++ IFLD (FP_RA, 4, 16, 0x000F0000, simple) ++ }; ++#undef IFLD ++ ++ ++struct avr32_opcode avr32_opc_table[] = ++ { ++ { ++ AVR32_OPC_ABS, 2, 0x5c400000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ABS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_ACALL, 2, 0xd0000000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_ACALL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_ACR, 2, 0x5c000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ACR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ADC, 4, 0xe0000040, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADC], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ADD1, 2, 0x00000000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ADD1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_ADD2, 4, 0xe0000000, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADD2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_ADDABS, 4, 0xe0000e40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADDABS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ADDHH_W, 4, 0xe0000e00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ADDHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_AND1, 2, 0x00600000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_AND1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_AND2, 4, 0xe1e00000, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_AND2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_AND3, 4, 0xe1e00200, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_AND3], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDH, 4, 0xe4100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDH_COH, 4, 0xe6100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDH_COH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDL, 4, 0xe0100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDL], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDL_COH, 4, 0xe2100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDL_COH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ANDN, 2, 0x00800000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ANDN], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_ASR1, 4, 0xe0000840, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_ASR1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ASR3, 4, 0xe0001400, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_ASR3], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_ASR2, 2, 0xa1400000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ASR2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_BLD, 4, 0xedb00000, 0xfff0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_BLD], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_BREQ1, 2, 0xc0000000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREQ1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRNE1, 2, 0xc0010000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRNE1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCC1, 2, 0xc0020000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRCC1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCS1, 2, 0xc0030000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRCS1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRGE1, 2, 0xc0040000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRGE1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLT1, 2, 0xc0050000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLT1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRMI1, 2, 0xc0060000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRMI1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BRPL1, 2, 0xc0070000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRPL1], ++ BFD_RELOC_AVR32_9H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_BREQ2, 4, 0xe0800000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREQ2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRNE2, 4, 0xe0810000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRNE2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCC2, 4, 0xe0820000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRHS2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRCS2, 4, 0xe0830000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLO2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRGE2, 4, 0xe0840000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRGE2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLT2, 4, 0xe0850000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLT2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRMI2, 4, 0xe0860000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRMI2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRPL2, 4, 0xe0870000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRPL2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLS, 4, 0xe0880000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLS], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRGT, 4, 0xe0890000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRGT], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRLE, 4, 0xe08a0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRLE], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRHI, 4, 0xe08b0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRHI], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRVS, 4, 0xe08c0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRVS], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRVC, 4, 0xe08d0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRVC], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRQS, 4, 0xe08e0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRQS], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BRAL, 4, 0xe08f0000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BRAL], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_BREAKPOINT, 2, 0xd6730000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREAKPOINT], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_BREV, 2, 0x5c900000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_BREV], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_BST, 4, 0xefb00000, 0xfff0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_BST], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_CACHE, 4, 0xf4100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CACHE], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K11], ++ &avr32_ifield_table[AVR32_IFIELD_CACHEOP], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTS_B, 2, 0x5c600000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTS_B], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTS_H, 2, 0x5c800000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTS_H], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTU_B, 2, 0x5c500000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTU_B], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CASTU_H, 2, 0x5c700000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CASTU_H], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CBR, 2, 0xa1c00000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CBR], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_CLZ, 4, 0xe0001200, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CLZ], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_COM, 2, 0x5cd00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_COM], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_COP, 4, 0xe1a00000, 0xf9f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_COP], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_CRX], ++ &avr32_ifield_table[AVR32_IFIELD_CRY], ++ &avr32_ifield_table[AVR32_IFIELD_CPOP], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_B, 4, 0xe0001800, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_B], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_H, 4, 0xe0001900, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_H], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_W1, 2, 0x00300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_W1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_W2, 2, 0x58000000, 0xfc000000, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_W2], ++ BFD_RELOC_AVR32_6S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K6], ++ }, ++ }, ++ { ++ AVR32_OPC_CP_W3, 4, 0xe0400000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CP_W3], ++ BFD_RELOC_AVR32_21S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_CPC1, 4, 0xe0001300, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_CPC1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_CPC2, 2, 0x5c200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_CPC2], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_CSRF, 2, 0xd4030000, 0xfe0f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_CSRF], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_CSRFCZ, 2, 0xd0030000, 0xfe0f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_CSRFCZ], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_DIVS, 4, 0xe0000c00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_DIVS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_DIVU, 4, 0xe0000d00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_DIVU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_EOR1, 2, 0x00500000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_EOR1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_EOR2, 4, 0xe1e02000, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_EOR2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ } ++ }, ++ { ++ AVR32_OPC_EOR3, 4, 0xe1e02200, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_EOR3], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ } ++ }, ++ { ++ AVR32_OPC_EORL, 4, 0xec100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_EORL], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_EORH, 4, 0xee100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_EORH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_FRS, 2, 0xd7430000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_FRS], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_ICALL, 2, 0x5d100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ICALL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_INCJOSP, 2, 0xd6830000, 0xff8f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_INCJOSP], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D1, 2, 0xa1010000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D2, 2, 0xa1100000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D3, 2, 0xa1000000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D3], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D5, 4, 0xe0000200, 0xe1f0ffc1, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_D4, 4, 0xe0e00000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_D4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SB2, 4, 0xe0000600, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SB2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SB1, 4, 0xe1200000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SB1], ++ BFD_RELOC_AVR32_16S, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB1, 2, 0x01300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB2, 2, 0x01700000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB5, 4, 0xe0000700, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB3, 2, 0x01800000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB3], ++ BFD_RELOC_AVR32_3U, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UB4, 4, 0xe1300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UB4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH1, 2, 0x01100000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH2, 2, 0x01500000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH5, 4, 0xe0000400, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH3, 2, 0x80000000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH3], ++ BFD_RELOC_AVR32_4UH, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_SH4, 4, 0xe1000000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_SH4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH1, 2, 0x01200000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH2, 2, 0x01600000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH5, 4, 0xe0000500, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH3, 2, 0x80800000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH3], ++ BFD_RELOC_AVR32_4UH, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_UH4, 4, 0xe1100000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_UH4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W1, 2, 0x01000000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W2, 2, 0x01400000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W5, 4, 0xe0000300, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W6, 4, 0xe0000f80, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W6], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W3, 2, 0x60000000, 0xe0000000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W3], ++ BFD_RELOC_AVR32_7UW, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_LD_W4, 4, 0xe0f00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LD_W4], ++ BFD_RELOC_AVR32_16S, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_D1, 4, 0xe9a01000, 0xfff01100, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_D1], ++ BFD_RELOC_AVR32_10UW, 4, 3, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_D2, 4, 0xefa00050, 0xfff011ff, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_D2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_D3, 4, 0xefa01040, 0xfff011c0, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_D3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_W1, 4, 0xe9a00000, 0xfff01000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_W1], ++ BFD_RELOC_AVR32_10UW, 4, 3, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_W2, 4, 0xefa00040, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_W2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC_W3, 4, 0xefa01000, 0xfff010c0, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC_W3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC0_D, 4, 0xf3a00000, 0xfff00100, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC0_D], ++ BFD_RELOC_AVR32_14UW, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ }, ++ }, ++ { ++ AVR32_OPC_LDC0_W, 4, 0xf1a00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDC0_W], ++ BFD_RELOC_AVR32_14UW, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_D, 4, 0xeda00400, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_D_PU, 4, 0xeda01400, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_D_PU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_W, 4, 0xeda00000, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_LDCM_W_PU, 4, 0xeda01000, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_LDCM_W_PU], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_LDDPC, 2, 0x48000000, 0xf8000000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDDPC], ++ BFD_RELOC_AVR32_9UW_PCREL, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K7C], ++ }, ++ }, ++ { ++ AVR32_OPC_LDDPC_EXT, 4, 0xfef00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDDPC_EXT], ++ BFD_RELOC_AVR32_16B_PCREL, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDDSP, 2, 0x40000000, 0xf8000000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDDSP], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K7C], ++ }, ++ }, ++ { ++ AVR32_OPC_LDINS_B, 4, 0xe1d04000, 0xe1f0c000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDINS_B], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_PART2_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDINS_H, 4, 0xe1d00000, 0xe1f0e000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDINS_H], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_PART1_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDM, 4, 0xe1c00000, 0xfdf00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDM], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_W], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDMTS, 4, 0xe5c00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDMTS], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDMTS_PU, 4, 0xe7c00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDMTS_PU], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_LDSWP_SH, 4, 0xe1d02000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDSWP_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDSWP_UH, 4, 0xe1d03000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDSWP_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LDSWP_W, 4, 0xe1d08000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_LDSWP_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ }, ++ }, ++ { ++ AVR32_OPC_LSL1, 4, 0xe0000940, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSL1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LSL3, 4, 0xe0001500, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSL3], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_LSL2, 2, 0xa1600000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LSL2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_LSR1, 4, 0xe0000a40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSR1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_LSR3, 4, 0xe0001600, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_LSR3], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_LSR2, 2, 0xa1800000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_LSR2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_MAC, 4, 0xe0000340, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MAC], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MACHH_D, 4, 0xe0000580, 0xe1f0ffc1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACHH_D], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MACHH_W, 4, 0xe0000480, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MACHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MACS_D, 4, 0xe0000540, 0xe1f0fff1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACS_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MACSATHH_W, 4, 0xe0000680, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MACSATHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MACUD, 4, 0xe0000740, 0xe1f0fff1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACUD], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MACWH_D, 4, 0xe0000c80, 0xe1f0ffe1, ++ &avr32_syntax_table[AVR32_SYNTAX_MACWH_D], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MAX, 4, 0xe0000c40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MAX], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MCALL, 4, 0xf0100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MCALL], ++ BFD_RELOC_AVR32_18W_PCREL, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_MFDR, 4, 0xe5b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MFDR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MFSR, 4, 0xe1b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MFSR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MIN, 4, 0xe0000d40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MIN], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MOV3, 2, 0x00900000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOV3], ++ BFD_RELOC_NONE, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOV1, 2, 0x30000000, 0xf0000000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOV1], ++ BFD_RELOC_AVR32_8S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_MOV2, 4, 0xe0600000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOV2], ++ BFD_RELOC_AVR32_21S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVEQ1, 4, 0xe0001700, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVEQ1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVNE1, 4, 0xe0001710, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVNE1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCC1, 4, 0xe0001720, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCS1, 4, 0xe0001730, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLO1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGE1, 4, 0xe0001740, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGE1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLT1, 4, 0xe0001750, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLT1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVMI1, 4, 0xe0001760, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVMI1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVPL1, 4, 0xe0001770, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVPL1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLS1, 4, 0xe0001780, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGT1, 4, 0xe0001790, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGT1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLE1, 4, 0xe00017a0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLE1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVHI1, 4, 0xe00017b0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHI1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVS1, 4, 0xe00017c0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVC1, 4, 0xe00017d0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVC1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVQS1, 4, 0xe00017e0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVQS1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVAL1, 4, 0xe00017f0, 0xe1f0ffff, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVAL1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVEQ2, 4, 0xf9b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVEQ2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVNE2, 4, 0xf9b00100, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVNE2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCC2, 4, 0xf9b00200, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVCS2, 4, 0xf9b00300, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLO2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGE2, 4, 0xf9b00400, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGE2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLT2, 4, 0xf9b00500, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLT2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVMI2, 4, 0xf9b00600, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVMI2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVPL2, 4, 0xf9b00700, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVPL2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLS2, 4, 0xf9b00800, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVGT2, 4, 0xf9b00900, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVGT2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVLE2, 4, 0xf9b00a00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVLE2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVHI2, 4, 0xf9b00b00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVHI2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVS2, 4, 0xf9b00c00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVVC2, 4, 0xf9b00d00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVVC2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVQS2, 4, 0xf9b00e00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVQS2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MOVAL2, 4, 0xf9b00f00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVAL2], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MTDR, 4, 0xe7b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MTDR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MTSR, 4, 0xe3b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MTSR], ++ BFD_RELOC_AVR32_8S_EXT, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MUL1, 2, 0xa1300000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MUL1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_MUL2, 4, 0xe0000240, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MUL2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MUL3, 4, 0xe0001000, 0xe1f0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_MUL3], ++ BFD_RELOC_AVR32_8S_EXT, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_MULHH_W, 4, 0xe0000780, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULNHH_W, 4, 0xe0000180, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULNHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULNWH_D, 4, 0xe0000280, 0xe1f0ffe1, ++ &avr32_syntax_table[AVR32_SYNTAX_MULNWH_D], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSD, 4, 0xe0000440, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSD], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATHH_H, 4, 0xe0000880, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATHH_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATHH_W, 4, 0xe0000980, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATRNDHH_H, 4, 0xe0000a80, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATRNDHH_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATRNDWH_W, 4, 0xe0000b80, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATRNDWH_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULSATWH_W, 4, 0xe0000e80, 0xe1f0ffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_MULSATWH_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MULU_D, 4, 0xe0000640, 0xe1f0fff1, ++ &avr32_syntax_table[AVR32_SYNTAX_MULU_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MULWH_D, 4, 0xe0000d80, 0xe1f0ffe1, ++ &avr32_syntax_table[AVR32_SYNTAX_MULWH_D], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_MUSFR, 2, 0x5d300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MUSFR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_MUSTR, 2, 0x5d200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MUSTR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_MVCR_D, 4, 0xefa00010, 0xfff111ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVCR_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_MVCR_W, 4, 0xefa00000, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVCR_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_MVRC_D, 4, 0xefa00030, 0xfff111ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVRC_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_MVRC_W, 4, 0xefa00020, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_MVRC_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_NEG, 2, 0x5c300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_NEG], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_NOP, 2, 0xd7030000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_NOP], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_OR1, 2, 0x00400000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_OR1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_OR2, 4, 0xe1e01000, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_OR2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_OR3, 4, 0xe1e01200, 0xe1f0fe00, ++ &avr32_syntax_table[AVR32_SYNTAX_OR3], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E2], ++ }, ++ }, ++ { ++ AVR32_OPC_ORH, 4, 0xea100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ORH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_ORL, 4, 0xe8100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ORL], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_PABS_SB, 4, 0xe00023e0, 0xfff0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PABS_SB], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PABS_SH, 4, 0xe00023f0, 0xfff0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PABS_SH], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PACKSH_SB, 4, 0xe00024d0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PACKSH_SB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PACKSH_UB, 4, 0xe00024c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PACKSH_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PACKW_SH, 4, 0xe0002470, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PACKW_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADD_B, 4, 0xe0002300, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADD_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADD_H, 4, 0xe0002000, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADD_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDH_SH, 4, 0xe00020c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDH_UB, 4, 0xe0002360, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDH_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_SB, 4, 0xe0002320, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_SB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_SH, 4, 0xe0002040, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_UB, 4, 0xe0002340, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDS_UH, 4, 0xe0002080, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUB_H, 4, 0xe0002100, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUB_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUBH_SH, 4, 0xe0002280, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUBH_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUBS_SH, 4, 0xe0002180, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUBS_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDSUBS_UH, 4, 0xe0002200, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDSUBS_UH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDX_H, 4, 0xe0002020, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDX_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDXH_SH, 4, 0xe00020e0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDXH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDXS_SH, 4, 0xe0002060, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDXS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PADDXS_UH, 4, 0xe00020a0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PADDXS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PASR_B, 4, 0xe0002410, 0xe1f8fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PASR_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_COND3], ++ }, ++ }, ++ { ++ AVR32_OPC_PASR_H, 4, 0xe0002440, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PASR_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PAVG_SH, 4, 0xe00023d0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PAVG_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PAVG_UB, 4, 0xe00023c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PAVG_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSL_B, 4, 0xe0002420, 0xe1f8fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSL_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_COND3], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSL_H, 4, 0xe0002450, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSL_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSR_B, 4, 0xe0002430, 0xe1f8fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSR_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_COND3], ++ }, ++ }, ++ { ++ AVR32_OPC_PLSR_H, 4, 0xe0002460, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PLSR_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMAX_SH, 4, 0xe0002390, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMAX_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMAX_UB, 4, 0xe0002380, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMAX_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMIN_SH, 4, 0xe00023b0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMIN_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PMIN_UB, 4, 0xe00023a0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PMIN_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_POPJC, 2, 0xd7130000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_POPJC], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_POPM, 2, 0xd0020000, 0xf0070000, ++ &avr32_syntax_table[AVR32_SYNTAX_POPM], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_POPM], ++ }, ++ }, ++ { ++ AVR32_OPC_POPM_E, 4, 0xe3cd0000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_POPM_E], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_PREF, 4, 0xf2100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_PREF], ++ BFD_RELOC_AVR32_16S, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_PSAD, 4, 0xe0002400, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSAD], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUB_B, 4, 0xe0002310, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUB_B], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUB_H, 4, 0xe0002010, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADD_H, 4, 0xe0002140, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADD_H], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADDH_SH, 4, 0xe00022c0, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADDH_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADDS_SH, 4, 0xe00021c0, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADDS_SH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBADDS_UH, 4, 0xe0002240, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBADDS_UH], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBH_SH, 4, 0xe00020d0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBH_UB, 4, 0xe0002370, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBH_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_SB, 4, 0xe0002330, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_SB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_SH, 4, 0xe0002050, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_UB, 4, 0xe0002350, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_UB], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBS_UH, 4, 0xe0002090, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBX_H, 4, 0xe0002030, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBX_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBXH_SH, 4, 0xe00020f0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBXH_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBXS_SH, 4, 0xe0002070, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBXS_SH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PSUBXS_UH, 4, 0xe00020b0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_PSUBXS_UH], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_PUNPCKSB_H, 4, 0xe00024a0, 0xe1ffffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_PUNPCKSB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PUNPCKUB_H, 4, 0xe0002480, 0xe1ffffe0, ++ &avr32_syntax_table[AVR32_SYNTAX_PUNPCKUB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_PUSHJC, 2, 0xd7230000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_PUSHJC], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_PUSHM, 2, 0xd0010000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_PUSHM], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_PUSHM_E, 4, 0xebcd0000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_PUSHM_E], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_RCALL1, 2, 0xc00c0000, 0xf00c0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RCALL1], ++ BFD_RELOC_AVR32_11H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K10], ++ }, ++ }, ++ { ++ AVR32_OPC_RCALL2, 4, 0xe0a00000, 0xe1ef0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RCALL2], ++ BFD_RELOC_AVR32_22H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_RETEQ, 2, 0x5e000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETEQ], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETNE, 2, 0x5e100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETNE], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETCC, 2, 0x5e200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETHS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETCS, 2, 0x5e300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLO], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETGE, 2, 0x5e400000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETGE], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETLT, 2, 0x5e500000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLT], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETMI, 2, 0x5e600000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETMI], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETPL, 2, 0x5e700000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETPL], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETLS, 2, 0x5e800000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETGT, 2, 0x5e900000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETGT], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETLE, 2, 0x5ea00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETLE], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETHI, 2, 0x5eb00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETHI], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETVS, 2, 0x5ec00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETVS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETVC, 2, 0x5ed00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETVC], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETQS, 2, 0x5ee00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETQS], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETAL, 2, 0x5ef00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETAL], ++ BFD_RELOC_NONE, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_RETD, 2, 0xd6230000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETD], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETE, 2, 0xd6030000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETE], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETJ, 2, 0xd6330000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETJ], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETS, 2, 0xd6130000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETS], ++ BFD_RELOC_NONE, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RJMP, 2, 0xc0080000, 0xf00c0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RJMP], ++ BFD_RELOC_AVR32_11H_PCREL, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K10], ++ }, ++ }, ++ { ++ AVR32_OPC_ROL, 2, 0x5cf00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ROL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_ROR, 2, 0x5d000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ROR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_RSUB1, 2, 0x00200000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_RSUB1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_RSUB2, 4, 0xe0001100, 0xe1f0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_RSUB2], ++ BFD_RELOC_AVR32_8S_EXT, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SATADD_H, 4, 0xe00002c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATADD_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATADD_W, 4, 0xe00000c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATADD_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATRNDS, 4, 0xf3b00000, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATRNDS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SATRNDU, 4, 0xf3b00400, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATRNDU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SATS, 4, 0xf1b00000, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATS], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SATSUB_H, 4, 0xe00003c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATSUB_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATSUB_W1, 4, 0xe00001c0, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SATSUB_W1], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SATSUB_W2, 4, 0xe0d00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SATSUB_W2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_SATU, 4, 0xf1b00400, 0xfff0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_SATU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ }, ++ }, ++ { ++ AVR32_OPC_SBC, 4, 0xe0000140, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_SBC], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SBR, 2, 0xa1a00000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SBR], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_BIT5C], ++ }, ++ }, ++ { ++ AVR32_OPC_SCALL, 2, 0xd7330000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SCALL], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_SCR, 2, 0x5c100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SCR], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SLEEP, 4, 0xe9b00000, 0xffffff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SLEEP], ++ BFD_RELOC_AVR32_8S_EXT, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SREQ, 2, 0x5f000000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SREQ], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRNE, 2, 0x5f100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRNE], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRCC, 2, 0x5f200000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRHS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRCS, 2, 0x5f300000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLO], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRGE, 2, 0x5f400000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRGE], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRLT, 2, 0x5f500000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLT], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRMI, 2, 0x5f600000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRMI], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRPL, 2, 0x5f700000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRPL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRLS, 2, 0x5f800000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRGT, 2, 0x5f900000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRGT], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRLE, 2, 0x5fa00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRLE], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRHI, 2, 0x5fb00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRHI], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRVS, 2, 0x5fc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRVS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRVC, 2, 0x5fd00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRVC], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRQS, 2, 0x5fe00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRQS], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SRAL, 2, 0x5ff00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SRAL], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SSRF, 2, 0xd2030000, 0xfe0f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SSRF], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K5C], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B1, 2, 0x00c00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B2, 2, 0x00f00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B5, 4, 0xe0000b00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B3, 2, 0xa0800000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B3], ++ BFD_RELOC_AVR32_3U, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_B4, 4, 0xe1600000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_B4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D1, 2, 0xa1200000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D2, 2, 0xa1210000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D3, 2, 0xa1110000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D3], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D5, 4, 0xe0000800, 0xe1f0ffc1, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_D4, 4, 0xe0e10000, 0xe1f10000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_D4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H1, 2, 0x00b00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H2, 2, 0x00e00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H5, 4, 0xe0000a00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H3, 2, 0xa0000000, 0xe1800000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H3], ++ BFD_RELOC_AVR32_4UH, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K3], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_H4, 4, 0xe1500000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_H4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W1, 2, 0x00a00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W2, 2, 0x00d00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W2], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W5, 4, 0xe0000900, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W5], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W3, 2, 0x81000000, 0xe1000000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W3], ++ BFD_RELOC_AVR32_6UW, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K4], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_ST_W4, 4, 0xe1400000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_ST_W4], ++ BFD_RELOC_AVR32_16S, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_D1, 4, 0xeba01000, 0xfff01100, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_D1], ++ BFD_RELOC_AVR32_10UW, 4, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_D2, 4, 0xefa00070, 0xfff011f0, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_D2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_D3, 4, 0xefa010c0, 0xfff011c0, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_D3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_W1, 4, 0xeba00000, 0xfff01000, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_W1], ++ BFD_RELOC_AVR32_10UW, 4, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_W2, 4, 0xefa00060, 0xfff010ff, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_W2], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STC_W3, 4, 0xefa01080, 0xfff010c0, ++ &avr32_syntax_table[AVR32_SYNTAX_STC_W3], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STC0_D, 4, 0xf7a00000, 0xfff00100, ++ &avr32_syntax_table[AVR32_SYNTAX_STC0_D], ++ BFD_RELOC_AVR32_14UW, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_DW], ++ }, ++ }, ++ { ++ AVR32_OPC_STC0_W, 4, 0xf5a00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STC0_W], ++ BFD_RELOC_AVR32_14UW, 3, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K12CP], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_D, 4, 0xeda00500, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_D], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_D_PU, 4, 0xeda01500, 0xfff01f00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_D_PU], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_W, 4, 0xeda00200, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_W], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_STCM_W_PU, 4, 0xeda01200, 0xfff01e00, ++ &avr32_syntax_table[AVR32_SYNTAX_STCM_W_PU], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_CPNO], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ &avr32_ifield_table[AVR32_IFIELD_CM_HL], ++ }, ++ }, ++ { ++ AVR32_OPC_STCOND, 4, 0xe1700000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STCOND], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STDSP, 2, 0x50000000, 0xf8000000, ++ &avr32_syntax_table[AVR32_SYNTAX_STDSP], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K7C], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STHH_W2, 4, 0xe1e08000, 0xe1f0c0c0, ++ &avr32_syntax_table[AVR32_SYNTAX_STHH_W2], ++ BFD_RELOC_UNUSED, 7, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_CRD_RI], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X2], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y2], ++ }, ++ }, ++ { ++ AVR32_OPC_STHH_W1, 4, 0xe1e0c000, 0xe1f0c000, ++ &avr32_syntax_table[AVR32_SYNTAX_STHH_W1], ++ BFD_RELOC_AVR32_STHH_W, 6, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_K8E2], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X2], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y2], ++ }, ++ }, ++ { ++ AVR32_OPC_STM, 4, 0xe9c00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STM], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STM_PU, 4, 0xebc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STM_PU], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STMTS, 4, 0xedc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STMTS], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STMTS_PU, 4, 0xefc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_STMTS_PU], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_STSWP_H, 4, 0xe1d09000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_STSWP_H], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_STSWP_W, 4, 0xe1d0a000, 0xe1f0f000, ++ &avr32_syntax_table[AVR32_SYNTAX_STSWP_W], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K12], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB1, 2, 0x00100000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB1], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB2, 4, 0xe0000100, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB2], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K2], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB5, 4, 0xe0c00000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB5], ++ BFD_RELOC_AVR32_SUB5, 3, 2, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB3_SP, 2, 0x200d0000, 0xf00f0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB3_SP], ++ BFD_RELOC_AVR32_10SW, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB3, 2, 0x20000000, 0xf0000000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB3], ++ BFD_RELOC_AVR32_8S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8C], ++ }, ++ }, ++ { ++ AVR32_OPC_SUB4, 4, 0xe0200000, 0xe1e00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SUB4], ++ BFD_RELOC_AVR32_21S, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K21], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBEQ, 4, 0xf7b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBEQ], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBNE, 4, 0xf7b00100, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBNE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBCC, 4, 0xf7b00200, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBHS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBCS, 4, 0xf7b00300, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLO], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBGE, 4, 0xf7b00400, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBGE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBLT, 4, 0xf7b00500, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBMI, 4, 0xf7b00600, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBMI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBPL, 4, 0xf7b00700, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBPL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBLS, 4, 0xf7b00800, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBGT, 4, 0xf7b00900, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBGT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBLE, 4, 0xf7b00a00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBLE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBHI, 4, 0xf7b00b00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBHI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBVS, 4, 0xf7b00c00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBVS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBVC, 4, 0xf7b00d00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBVC], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBQS, 4, 0xf7b00e00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBQS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBAL, 4, 0xf7b00f00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBAL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFEQ, 4, 0xf5b00000, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFEQ], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFNE, 4, 0xf5b00100, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFNE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFCC, 4, 0xf5b00200, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFHS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFCS, 4, 0xf5b00300, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLO], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFGE, 4, 0xf5b00400, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFGE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFLT, 4, 0xf5b00500, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFMI, 4, 0xf5b00600, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFMI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFPL, 4, 0xf5b00700, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFPL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFLS, 4, 0xf5b00800, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFGT, 4, 0xf5b00900, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFGT], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFLE, 4, 0xf5b00a00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFLE], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFHI, 4, 0xf5b00b00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFHI], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFVS, 4, 0xf5b00c00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFVS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFVC, 4, 0xf5b00d00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFVC], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFQS, 4, 0xf5b00e00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFQS], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBFAL, 4, 0xf5b00f00, 0xfff0ff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBFAL], ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ }, ++ }, ++ { ++ AVR32_OPC_SUBHH_W, 4, 0xe0000f00, 0xe1f0ffc0, ++ &avr32_syntax_table[AVR32_SYNTAX_SUBHH_W], ++ BFD_RELOC_UNUSED, 5, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_X], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_Y], ++ }, ++ }, ++ { ++ AVR32_OPC_SWAP_B, 2, 0x5cb00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SWAP_B], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_SWAP_BH, 2, 0x5cc00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SWAP_BH], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_SWAP_H, 2, 0x5ca00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_SWAP_H], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_SYNC, 4, 0xebb00000, 0xffffff00, ++ &avr32_syntax_table[AVR32_SYNTAX_SYNC], ++ BFD_RELOC_AVR32_8S_EXT, 1, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_K8E], ++ } ++ }, ++ { ++ AVR32_OPC_TLBR, 2, 0xd6430000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_TLBR], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_TLBS, 2, 0xd6530000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_TLBS], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_TLBW, 2, 0xd6630000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_TLBW], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_TNBZ, 2, 0x5ce00000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_TNBZ], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ } ++ }, ++ { ++ AVR32_OPC_TST, 2, 0x00700000, 0xe1f00000, ++ &avr32_syntax_table[AVR32_SYNTAX_TST], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ }, ++ }, ++ { ++ AVR32_OPC_XCHG, 4, 0xe0000b40, 0xe1f0fff0, ++ &avr32_syntax_table[AVR32_SYNTAX_XCHG], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ }, ++ }, ++ { ++ AVR32_OPC_MEMC, 4, 0xf6100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MEMC], ++ BFD_RELOC_AVR32_15S, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_MEM15], ++ &avr32_ifield_table[AVR32_IFIELD_MEMB5], ++ }, ++ }, ++ { ++ AVR32_OPC_MEMS, 4, 0xf8100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MEMS], ++ BFD_RELOC_AVR32_15S, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_MEM15], ++ &avr32_ifield_table[AVR32_IFIELD_MEMB5], ++ }, ++ }, ++ { ++ AVR32_OPC_MEMT, 4, 0xfa100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MEMT], ++ BFD_RELOC_AVR32_15S, 2, 0, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_MEM15], ++ &avr32_ifield_table[AVR32_IFIELD_MEMB5], ++ }, ++ }, ++ { ++ AVR32_OPC_BFEXTS, 4, 0xe1d0b000, 0xe1f0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_BFEXTS], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_BFEXTU, 4, 0xe1d0c000, 0xe1f0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_BFEXTU], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++ { ++ AVR32_OPC_BFINS, 4, 0xe1d0d000, 0xe1f0fc00, ++ &avr32_syntax_table[AVR32_SYNTAX_BFINS], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RX], ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_S5], ++ &avr32_ifield_table[AVR32_IFIELD_K5E], ++ }, ++ }, ++#define AVR32_OPCODE_RSUBCOND(cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_RSUB ## cond_name , 4, \ ++ 0xfbb00000 | (cond_field << 8), 0xfff0ff00, \ ++ &avr32_syntax_table[AVR32_SYNTAX_RSUB ## cond_name ], \ ++ BFD_RELOC_AVR32_8S_EXT, 2, 1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ &avr32_ifield_table[AVR32_IFIELD_K8E], \ ++ }, \ ++ }, ++ ++ AVR32_OPCODE_RSUBCOND (EQ, 0) ++ AVR32_OPCODE_RSUBCOND (NE, 1) ++ AVR32_OPCODE_RSUBCOND (CC, 2) ++ AVR32_OPCODE_RSUBCOND (CS, 3) ++ AVR32_OPCODE_RSUBCOND (GE, 4) ++ AVR32_OPCODE_RSUBCOND (LT, 5) ++ AVR32_OPCODE_RSUBCOND (MI, 6) ++ AVR32_OPCODE_RSUBCOND (PL, 7) ++ AVR32_OPCODE_RSUBCOND (LS, 8) ++ AVR32_OPCODE_RSUBCOND (GT, 9) ++ AVR32_OPCODE_RSUBCOND (LE, 10) ++ AVR32_OPCODE_RSUBCOND (HI, 11) ++ AVR32_OPCODE_RSUBCOND (VS, 12) ++ AVR32_OPCODE_RSUBCOND (VC, 13) ++ AVR32_OPCODE_RSUBCOND (QS, 14) ++ AVR32_OPCODE_RSUBCOND (AL, 15) ++ ++#define AVR32_OPCODE_OP3_COND(op_name, op_field, cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_ ## op_name ## cond_name , 4, \ ++ 0xe1d0e000 | (cond_field << 8) | (op_field << 4), 0xe1f0fff0, \ ++ &avr32_syntax_table[AVR32_SYNTAX_ ## op_name ## cond_name ], \ ++ BFD_RELOC_UNUSED, 3, -1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RD_E], \ ++ &avr32_ifield_table[AVR32_IFIELD_RX], \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ }, \ ++ }, ++ ++ AVR32_OPCODE_OP3_COND (ADD, 0, EQ, 0) ++ AVR32_OPCODE_OP3_COND (ADD, 0, NE, 1) ++ AVR32_OPCODE_OP3_COND (ADD, 0, CC, 2) ++ AVR32_OPCODE_OP3_COND (ADD, 0, CS, 3) ++ AVR32_OPCODE_OP3_COND (ADD, 0, GE, 4) ++ AVR32_OPCODE_OP3_COND (ADD, 0, LT, 5) ++ AVR32_OPCODE_OP3_COND (ADD, 0, MI, 6) ++ AVR32_OPCODE_OP3_COND (ADD, 0, PL, 7) ++ AVR32_OPCODE_OP3_COND (ADD, 0, LS, 8) ++ AVR32_OPCODE_OP3_COND (ADD, 0, GT, 9) ++ AVR32_OPCODE_OP3_COND (ADD, 0, LE, 10) ++ AVR32_OPCODE_OP3_COND (ADD, 0, HI, 11) ++ AVR32_OPCODE_OP3_COND (ADD, 0, VS, 12) ++ AVR32_OPCODE_OP3_COND (ADD, 0, VC, 13) ++ AVR32_OPCODE_OP3_COND (ADD, 0, QS, 14) ++ AVR32_OPCODE_OP3_COND (ADD, 0, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (SUB2, 1, EQ, 0) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, NE, 1) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, CC, 2) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, CS, 3) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, GE, 4) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, LT, 5) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, MI, 6) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, PL, 7) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, LS, 8) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, GT, 9) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, LE, 10) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, HI, 11) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, VS, 12) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, VC, 13) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, QS, 14) ++ AVR32_OPCODE_OP3_COND (SUB2, 1, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (AND, 2, EQ, 0) ++ AVR32_OPCODE_OP3_COND (AND, 2, NE, 1) ++ AVR32_OPCODE_OP3_COND (AND, 2, CC, 2) ++ AVR32_OPCODE_OP3_COND (AND, 2, CS, 3) ++ AVR32_OPCODE_OP3_COND (AND, 2, GE, 4) ++ AVR32_OPCODE_OP3_COND (AND, 2, LT, 5) ++ AVR32_OPCODE_OP3_COND (AND, 2, MI, 6) ++ AVR32_OPCODE_OP3_COND (AND, 2, PL, 7) ++ AVR32_OPCODE_OP3_COND (AND, 2, LS, 8) ++ AVR32_OPCODE_OP3_COND (AND, 2, GT, 9) ++ AVR32_OPCODE_OP3_COND (AND, 2, LE, 10) ++ AVR32_OPCODE_OP3_COND (AND, 2, HI, 11) ++ AVR32_OPCODE_OP3_COND (AND, 2, VS, 12) ++ AVR32_OPCODE_OP3_COND (AND, 2, VC, 13) ++ AVR32_OPCODE_OP3_COND (AND, 2, QS, 14) ++ AVR32_OPCODE_OP3_COND (AND, 2, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (OR, 3, EQ, 0) ++ AVR32_OPCODE_OP3_COND (OR, 3, NE, 1) ++ AVR32_OPCODE_OP3_COND (OR, 3, CC, 2) ++ AVR32_OPCODE_OP3_COND (OR, 3, CS, 3) ++ AVR32_OPCODE_OP3_COND (OR, 3, GE, 4) ++ AVR32_OPCODE_OP3_COND (OR, 3, LT, 5) ++ AVR32_OPCODE_OP3_COND (OR, 3, MI, 6) ++ AVR32_OPCODE_OP3_COND (OR, 3, PL, 7) ++ AVR32_OPCODE_OP3_COND (OR, 3, LS, 8) ++ AVR32_OPCODE_OP3_COND (OR, 3, GT, 9) ++ AVR32_OPCODE_OP3_COND (OR, 3, LE, 10) ++ AVR32_OPCODE_OP3_COND (OR, 3, HI, 11) ++ AVR32_OPCODE_OP3_COND (OR, 3, VS, 12) ++ AVR32_OPCODE_OP3_COND (OR, 3, VC, 13) ++ AVR32_OPCODE_OP3_COND (OR, 3, QS, 14) ++ AVR32_OPCODE_OP3_COND (OR, 3, AL, 15) ++ ++ AVR32_OPCODE_OP3_COND (EOR, 4, EQ, 0) ++ AVR32_OPCODE_OP3_COND (EOR, 4, NE, 1) ++ AVR32_OPCODE_OP3_COND (EOR, 4, CC, 2) ++ AVR32_OPCODE_OP3_COND (EOR, 4, CS, 3) ++ AVR32_OPCODE_OP3_COND (EOR, 4, GE, 4) ++ AVR32_OPCODE_OP3_COND (EOR, 4, LT, 5) ++ AVR32_OPCODE_OP3_COND (EOR, 4, MI, 6) ++ AVR32_OPCODE_OP3_COND (EOR, 4, PL, 7) ++ AVR32_OPCODE_OP3_COND (EOR, 4, LS, 8) ++ AVR32_OPCODE_OP3_COND (EOR, 4, GT, 9) ++ AVR32_OPCODE_OP3_COND (EOR, 4, LE, 10) ++ AVR32_OPCODE_OP3_COND (EOR, 4, HI, 11) ++ AVR32_OPCODE_OP3_COND (EOR, 4, VS, 12) ++ AVR32_OPCODE_OP3_COND (EOR, 4, VC, 13) ++ AVR32_OPCODE_OP3_COND (EOR, 4, QS, 14) ++ AVR32_OPCODE_OP3_COND (EOR, 4, AL, 15) ++ ++#define AVR32_OPCODE_LD_COND(op_name, op_field, cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_ ## op_name ## cond_name , 4, \ ++ 0xe1f00000 | (cond_field << 12) | (op_field << 9), 0xe1f0fe00, \ ++ &avr32_syntax_table[AVR32_SYNTAX_ ## op_name ## cond_name ], \ ++ BFD_RELOC_UNUSED, 3, -1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ &avr32_ifield_table[AVR32_IFIELD_RX], \ ++ &avr32_ifield_table[AVR32_IFIELD_K9E], \ ++ }, \ ++ }, ++ ++#define AVR32_OPCODE_ST_COND(op_name, op_field, cond_name, cond_field) \ ++ { \ ++ AVR32_OPC_ ## op_name ## cond_name , 4, \ ++ 0xe1f00000 | (cond_field << 12) | (op_field << 9), 0xe1f0fe00, \ ++ &avr32_syntax_table[AVR32_SYNTAX_ ## op_name ## cond_name ], \ ++ BFD_RELOC_UNUSED, 3, -1, \ ++ { \ ++ &avr32_ifield_table[AVR32_IFIELD_RX], \ ++ &avr32_ifield_table[AVR32_IFIELD_K9E], \ ++ &avr32_ifield_table[AVR32_IFIELD_RY], \ ++ }, \ ++ }, ++ ++ AVR32_OPCODE_LD_COND (LD_W, 0, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_W, 0, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_W, 0, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_W, 0, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_W, 0, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_W, 0, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_W, 0, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_W, 0, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_W, 0, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_W, 0, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_W, 0, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_W, 0, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_W, 0, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_W, 0, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_W, 0, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_W, 0, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_SH, 1, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_SH, 1, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_UH, 2, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_UH, 2, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_SH, 2, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_SB, 3, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_SB, 3, AL, 15) ++ ++ AVR32_OPCODE_LD_COND (LD_UB, 4, EQ, 0) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, NE, 1) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, CC, 2) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, CS, 3) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, GE, 4) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, LT, 5) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, MI, 6) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, PL, 7) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, LS, 8) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, GT, 9) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, LE, 10) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, HI, 11) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, VS, 12) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, VC, 13) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, QS, 14) ++ AVR32_OPCODE_LD_COND (LD_UB, 4, AL, 15) ++ ++ AVR32_OPCODE_ST_COND (ST_W, 5, EQ, 0) ++ AVR32_OPCODE_ST_COND (ST_W, 5, NE, 1) ++ AVR32_OPCODE_ST_COND (ST_W, 5, CC, 2) ++ AVR32_OPCODE_ST_COND (ST_W, 5, CS, 3) ++ AVR32_OPCODE_ST_COND (ST_W, 5, GE, 4) ++ AVR32_OPCODE_ST_COND (ST_W, 5, LT, 5) ++ AVR32_OPCODE_ST_COND (ST_W, 5, MI, 6) ++ AVR32_OPCODE_ST_COND (ST_W, 5, PL, 7) ++ AVR32_OPCODE_ST_COND (ST_W, 5, LS, 8) ++ AVR32_OPCODE_ST_COND (ST_W, 5, GT, 9) ++ AVR32_OPCODE_ST_COND (ST_W, 5, LE, 10) ++ AVR32_OPCODE_ST_COND (ST_W, 5, HI, 11) ++ AVR32_OPCODE_ST_COND (ST_W, 5, VS, 12) ++ AVR32_OPCODE_ST_COND (ST_W, 5, VC, 13) ++ AVR32_OPCODE_ST_COND (ST_W, 5, QS, 14) ++ AVR32_OPCODE_ST_COND (ST_W, 5, AL, 15) ++ ++ AVR32_OPCODE_ST_COND (ST_H, 6, EQ, 0) ++ AVR32_OPCODE_ST_COND (ST_H, 6, NE, 1) ++ AVR32_OPCODE_ST_COND (ST_H, 6, CC, 2) ++ AVR32_OPCODE_ST_COND (ST_H, 6, CS, 3) ++ AVR32_OPCODE_ST_COND (ST_H, 6, GE, 4) ++ AVR32_OPCODE_ST_COND (ST_H, 6, LT, 5) ++ AVR32_OPCODE_ST_COND (ST_H, 6, MI, 6) ++ AVR32_OPCODE_ST_COND (ST_H, 6, PL, 7) ++ AVR32_OPCODE_ST_COND (ST_H, 6, LS, 8) ++ AVR32_OPCODE_ST_COND (ST_H, 6, GT, 9) ++ AVR32_OPCODE_ST_COND (ST_H, 6, LE, 10) ++ AVR32_OPCODE_ST_COND (ST_H, 6, HI, 11) ++ AVR32_OPCODE_ST_COND (ST_H, 6, VS, 12) ++ AVR32_OPCODE_ST_COND (ST_H, 6, VC, 13) ++ AVR32_OPCODE_ST_COND (ST_H, 6, QS, 14) ++ AVR32_OPCODE_ST_COND (ST_H, 6, AL, 15) ++ ++ AVR32_OPCODE_ST_COND (ST_B, 7, EQ, 0) ++ AVR32_OPCODE_ST_COND (ST_B, 7, NE, 1) ++ AVR32_OPCODE_ST_COND (ST_B, 7, CC, 2) ++ AVR32_OPCODE_ST_COND (ST_B, 7, CS, 3) ++ AVR32_OPCODE_ST_COND (ST_B, 7, GE, 4) ++ AVR32_OPCODE_ST_COND (ST_B, 7, LT, 5) ++ AVR32_OPCODE_ST_COND (ST_B, 7, MI, 6) ++ AVR32_OPCODE_ST_COND (ST_B, 7, PL, 7) ++ AVR32_OPCODE_ST_COND (ST_B, 7, LS, 8) ++ AVR32_OPCODE_ST_COND (ST_B, 7, GT, 9) ++ AVR32_OPCODE_ST_COND (ST_B, 7, LE, 10) ++ AVR32_OPCODE_ST_COND (ST_B, 7, HI, 11) ++ AVR32_OPCODE_ST_COND (ST_B, 7, VS, 12) ++ AVR32_OPCODE_ST_COND (ST_B, 7, VC, 13) ++ AVR32_OPCODE_ST_COND (ST_B, 7, QS, 14) ++ AVR32_OPCODE_ST_COND (ST_B, 7, AL, 15) ++ ++ { ++ AVR32_OPC_MOVH, 4, 0xfc100000, 0xfff00000, ++ &avr32_syntax_table[AVR32_SYNTAX_MOVH], ++ BFD_RELOC_AVR32_16U, 2, 1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_RY], ++ &avr32_ifield_table[AVR32_IFIELD_K16], ++ }, ++ }, ++ { ++ AVR32_OPC_SSCALL, 2, 0xd7530000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_SSCALL], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ { ++ AVR32_OPC_RETSS, 2, 0xd7630000, 0xffff0000, ++ &avr32_syntax_table[AVR32_SYNTAX_RETSS], ++ BFD_RELOC_UNUSED, 0, -1, { NULL }, ++ }, ++ ++ { ++ AVR32_OPC_FMAC_S, 4, 0xE1A00000, 0xFFF0F000, ++ &avr32_syntax_table[AVR32_SYNTAX_FMAC_S], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RA], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FNMAC_S, 4, 0xE1A01000, 0xFFF0F000, ++ &avr32_syntax_table[AVR32_SYNTAX_FNMAC_S], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RA], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FMSC_S, 4, 0xE3A00000, 0xFFF0F000, ++ &avr32_syntax_table[AVR32_SYNTAX_FMSC_S], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RA], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FNMSC_S, 4, 0xE3A01000, 0xFFF0F000, ++ &avr32_syntax_table[AVR32_SYNTAX_FNMSC_S], ++ BFD_RELOC_UNUSED, 4, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RA], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FMUL_S, 4, 0xE5A20000, 0xFFFFF000, ++ &avr32_syntax_table[AVR32_SYNTAX_FMUL_S], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FNMUL_S, 4, 0xE5A30000, 0xFFFFF000, ++ &avr32_syntax_table[AVR32_SYNTAX_FNMUL_S], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FADD_S, 4, 0xE5A00000, 0xFFFFF000, ++ &avr32_syntax_table[AVR32_SYNTAX_FADD_S], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FSUB_S, 4, 0xE5A10000, 0xFFFFF000, ++ &avr32_syntax_table[AVR32_SYNTAX_FSUB_S], ++ BFD_RELOC_UNUSED, 3, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCASTRS_SW, 4, 0xE5AB0000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FCASTRS_SW], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCASTRS_UW, 4, 0xE5A90000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FCASTRS_UW], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCASTSW_S, 4, 0xE5A60000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FCASTSW_S], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCASTUW_S, 4, 0xE5A40000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FCASTUW_S], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCMP_S, 4, 0xE5AC0000, 0xFFFFFF00, ++ &avr32_syntax_table[AVR32_SYNTAX_FCMP_S], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RX], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FCHK_S, 4, 0xE5AD0000, 0xFFFFFFF0, ++ &avr32_syntax_table[AVR32_SYNTAX_FCHK_S], ++ BFD_RELOC_UNUSED, 1, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FRCPA_S, 4, 0xE5AE0000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FRCPA_S], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ }, ++ { ++ AVR32_OPC_FRSQRTA_S, 4, 0xE5AF0000, 0xFFFFF0F0, ++ &avr32_syntax_table[AVR32_SYNTAX_FRSQRTA_S], ++ BFD_RELOC_UNUSED, 2, -1, ++ { ++ &avr32_ifield_table[AVR32_IFIELD_FP_RD], ++ &avr32_ifield_table[AVR32_IFIELD_FP_RY] ++ } ++ } ++ ++}; ++ ++ ++const struct avr32_alias avr32_alias_table[] = ++ { ++ { ++ AVR32_ALIAS_PICOSVMAC0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0c }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMAC1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0d }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMAC2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0e }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMAC3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0f }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x08 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x09 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0a }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSVMUL3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x0b }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x04 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x05 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x06 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMAC3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x07 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL0, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x00 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL1, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x01 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL2, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x02 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOVMUL3, ++ &avr32_opc_table[AVR32_OPC_COP], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ { 0, 0x03 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_D1, ++ &avr32_opc_table[AVR32_OPC_LDC_D1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_D2, ++ &avr32_opc_table[AVR32_OPC_LDC_D2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_D3, ++ &avr32_opc_table[AVR32_OPC_LDC_D3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_W1, ++ &avr32_opc_table[AVR32_OPC_LDC_W1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_W2, ++ &avr32_opc_table[AVR32_OPC_LDC_W2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLD_W3, ++ &avr32_opc_table[AVR32_OPC_LDC_W3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_D, ++ &avr32_opc_table[AVR32_OPC_LDCM_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_D_PU, ++ &avr32_opc_table[AVR32_OPC_LDCM_D_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_W, ++ &avr32_opc_table[AVR32_OPC_LDCM_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOLDM_W_PU, ++ &avr32_opc_table[AVR32_OPC_LDCM_W_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_D1, ++ &avr32_opc_table[AVR32_OPC_MVCR_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_D2, ++ &avr32_opc_table[AVR32_OPC_MVRC_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_W1, ++ &avr32_opc_table[AVR32_OPC_MVCR_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOMV_W2, ++ &avr32_opc_table[AVR32_OPC_MVRC_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_D1, ++ &avr32_opc_table[AVR32_OPC_STC_D1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_D2, ++ &avr32_opc_table[AVR32_OPC_STC_D2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_D3, ++ &avr32_opc_table[AVR32_OPC_STC_D3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_W1, ++ &avr32_opc_table[AVR32_OPC_STC_W1], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_W2, ++ &avr32_opc_table[AVR32_OPC_STC_W2], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOST_W3, ++ &avr32_opc_table[AVR32_OPC_STC_W3], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, { 1, 3 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_D, ++ &avr32_opc_table[AVR32_OPC_STCM_D], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_D_PU, ++ &avr32_opc_table[AVR32_OPC_STCM_D_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_W, ++ &avr32_opc_table[AVR32_OPC_STCM_W], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ { ++ AVR32_ALIAS_PICOSTM_W_PU, ++ &avr32_opc_table[AVR32_OPC_STCM_W_PU], ++ { ++ { 0, PICO_CPNO }, ++ { 1, 0 }, { 1, 1 }, { 1, 2 }, ++ }, ++ }, ++ }; ++ ++ ++#define SYNTAX_NORMAL0(id, mne, opc, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 0, { } \ ++ } ++#define SYNTAX_NORMAL1(id, mne, opc, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMALM1(id, mne, opc, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, -1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMAL2(id, mne, opc, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMALM2(id, mne, opc, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, -2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMAL3(id, mne, opc, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++#define SYNTAX_NORMALM3(id, mne, opc, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, -3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++#define SYNTAX_NORMAL4(id, mne, opc, op0, op1, op2, op3, arch)\ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 4, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, AVR32_OPERAND_##op3, \ ++ } \ ++ } ++#define SYNTAX_NORMAL5(id, mne, opc, op0, op1, op2, op3, op4, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ NULL, 5, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, AVR32_OPERAND_##op3, \ ++ AVR32_OPERAND_##op4, \ ++ } \ ++ } ++ ++#define SYNTAX_NORMAL_C1(id, mne, opc, nxt, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], 1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_CM1(id, mne, opc, nxt, op0, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], -1, \ ++ { \ ++ AVR32_OPERAND_##op0, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_C2(id, mne, opc, nxt, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], 2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_CM2(id, mne, opc, nxt, op0, op1, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], -2, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_C3(id, mne, opc, nxt, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], 3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++#define SYNTAX_NORMAL_CM3(id, mne, opc, nxt, op0, op1, op2, arch) \ ++ { \ ++ AVR32_SYNTAX_##id, arch, \ ++ &avr32_mnemonic_table[AVR32_MNEMONIC_##mne], \ ++ AVR32_PARSER_NORMAL, \ ++ { &avr32_opc_table[AVR32_OPC_##opc], }, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##nxt], -3, \ ++ { \ ++ AVR32_OPERAND_##op0, AVR32_OPERAND_##op1, \ ++ AVR32_OPERAND_##op2, \ ++ } \ ++ } ++ ++ ++const struct avr32_syntax avr32_syntax_table[] = ++ { ++ SYNTAX_NORMAL1(ABS, ABS, ABS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(ACALL, ACALL, ACALL, UNSIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL1(ACR, ACR, ACR, INTREG,AVR32_V1), ++ SYNTAX_NORMAL3(ADC, ADC, ADC, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ADD1, ADD, ADD1, ADD2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(ADD2, ADD, ADD2, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(ADDABS, ADDABS, ADDABS, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(ADDHH_W, ADDHH_W, ADDHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL_C2(AND1, AND, AND1, AND2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(AND2, AND, AND2, AND3, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(AND3, AND, AND3, INTREG, INTREG, INTREG_LSR, AVR32_V1), ++ SYNTAX_NORMAL_C2(ANDH, ANDH, ANDH, ANDH_COH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(ANDH_COH, ANDH, ANDH_COH, INTREG, UNSIGNED_CONST, COH, AVR32_V1), ++ SYNTAX_NORMAL_C2(ANDL, ANDL, ANDL, ANDL_COH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(ANDL_COH, ANDL, ANDL_COH, INTREG, UNSIGNED_CONST, COH, AVR32_V1), ++ SYNTAX_NORMAL2(ANDN, ANDN, ANDN, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(ASR1, ASR, ASR1, ASR3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(ASR3, ASR, ASR3, ASR2, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(ASR2, ASR, ASR2, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL4(BFEXTS, BFEXTS, BFEXTS, INTREG, INTREG, UNSIGNED_NUMBER, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL4(BFEXTU, BFEXTU, BFEXTU, INTREG, INTREG, UNSIGNED_NUMBER, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL4(BFINS, BFINS, BFINS, INTREG, INTREG, UNSIGNED_NUMBER, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(BLD, BLD, BLD, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL_C1(BREQ1, BREQ, BREQ1, BREQ2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRNE1, BRNE, BRNE1, BRNE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRCC1, BRCC, BRCC1, BRCC2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRCS1, BRCS, BRCS1, BRCS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRGE1, BRGE, BRGE1, BRGE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRLT1, BRLT, BRLT1, BRLT2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRMI1, BRMI, BRMI1, BRMI2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRPL1, BRPL, BRPL1, BRPL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRHS1, BRHS, BRCC1, BRHS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL_C1(BRLO1, BRLO, BRCS1, BRLO2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BREQ2, BREQ, BREQ2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRNE2, BRNE, BRNE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRCC2, BRCC, BRCC2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRCS2, BRCS, BRCS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRGE2, BRGE, BRGE2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLT2, BRLT, BRLT2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRMI2, BRMI, BRMI2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRPL2, BRPL, BRPL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLS, BRLS, BRLS, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRGT, BRGT, BRGT, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLE, BRLE, BRLE, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRHI, BRHI, BRHI, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRVS, BRVS, BRVS, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRVC, BRVC, BRVC, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRQS, BRQS, BRQS, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRAL, BRAL, BRAL, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRHS2, BRHS, BRCC2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(BRLO2, BRLO, BRCS2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL0(BREAKPOINT, BREAKPOINT, BREAKPOINT, AVR32_V1), ++ SYNTAX_NORMAL1(BREV, BREV, BREV, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(BST, BST, BST, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(CACHE, CACHE, CACHE, INTREG_SDISP, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL1(CASTS_B, CASTS_B, CASTS_B, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CASTS_H, CASTS_H, CASTS_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CASTU_B, CASTU_B, CASTU_B, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CASTU_H, CASTU_H, CASTU_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(CBR, CBR, CBR, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(CLZ, CLZ, CLZ, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(COM, COM, COM, INTREG, AVR32_V1), ++ SYNTAX_NORMAL5(COP, COP, COP, CPNO, CPREG, CPREG, CPREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(CP_B, CP_B, CP_B, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(CP_H, CP_H, CP_H, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(CP_W1, CP_W, CP_W1, CP_W2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(CP_W2, CP_W, CP_W2, CP_W3, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(CP_W3, CP_W, CP_W3, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(CPC1, CPC, CPC1, CPC2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CPC2, CPC, CPC2, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(CSRF, CSRF, CSRF, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL1(CSRFCZ, CSRFCZ, CSRFCZ, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL3(DIVS, DIVS, DIVS, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(DIVU, DIVU, DIVU, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(EOR1, EOR, EOR1, EOR2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(EOR2, EOR, EOR2, EOR3, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(EOR3, EOR, EOR3, INTREG, INTREG, INTREG_LSR, AVR32_V1), ++ SYNTAX_NORMAL2(EORL, EORL, EORL, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(EORH, EORH, EORH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL0(FRS, FRS, FRS, AVR32_V1), ++ SYNTAX_NORMAL0(SSCALL, SSCALL, SSCALL, AVR32_V3), ++ SYNTAX_NORMAL0(RETSS, RETSS, RETSS, AVR32_V3), ++ SYNTAX_NORMAL1(ICALL, ICALL, ICALL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(INCJOSP, INCJOSP, INCJOSP, JOSPINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D1, LD_D, LD_D1, LD_D2, DWREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D2, LD_D, LD_D2, LD_D3, DWREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D3, LD_D, LD_D3, LD_D5, DWREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_D5, LD_D, LD_D5, LD_D4, DWREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL2(LD_D4, LD_D, LD_D4, DWREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SB2, LD_SB, LD_SB2, LD_SB1, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL2(LD_SB1, LD_SB, LD_SB1, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB1, LD_UB, LD_UB1, LD_UB2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB2, LD_UB, LD_UB2, LD_UB5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB5, LD_UB, LD_UB5, LD_UB3, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UB3, LD_UB, LD_UB3, LD_UB4, INTREG, INTREG_UDISP, AVR32_V1), ++ SYNTAX_NORMAL2(LD_UB4, LD_UB, LD_UB4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH1, LD_SH, LD_SH1, LD_SH2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH2, LD_SH, LD_SH2, LD_SH5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH5, LD_SH, LD_SH5, LD_SH3, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_SH3, LD_SH, LD_SH3, LD_SH4, INTREG, INTREG_UDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LD_SH4, LD_SH, LD_SH4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH1, LD_UH, LD_UH1, LD_UH2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH2, LD_UH, LD_UH2, LD_UH5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH5, LD_UH, LD_UH5, LD_UH3, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_UH3, LD_UH, LD_UH3, LD_UH4, INTREG, INTREG_UDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LD_UH4, LD_UH, LD_UH4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W1, LD_W, LD_W1, LD_W2, INTREG, INTREG_POSTINC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W2, LD_W, LD_W2, LD_W5, INTREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W5, LD_W, LD_W5, LD_W6, INTREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W6, LD_W, LD_W6, LD_W3, INTREG, INTREG_XINDEX, AVR32_V1), ++ SYNTAX_NORMAL_C2(LD_W3, LD_W, LD_W3, LD_W4, INTREG, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LD_W4, LD_W, LD_W4, INTREG, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL3(LDC_D1, LDC_D, LDC_D1, CPNO, CPREG_D, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_D2, LDC_D, LDC_D2, LDC_D1, CPNO, CPREG_D, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_D3, LDC_D, LDC_D3, LDC_D2, CPNO, CPREG_D, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL3(LDC_W1, LDC_W, LDC_W1, CPNO, CPREG, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_W2, LDC_W, LDC_W2, LDC_W1, CPNO, CPREG, INTREG_PREDEC, AVR32_V1), ++ SYNTAX_NORMAL_C3(LDC_W3, LDC_W, LDC_W3, LDC_W2, CPNO, CPREG, INTREG_INDEX, AVR32_V1), ++ SYNTAX_NORMAL2(LDC0_D, LDC0_D, LDC0_D, CPREG_D, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LDC0_W, LDC0_W, LDC0_W, CPREG, INTREG_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_CM3(LDCM_D, LDCM_D, LDCM_D, LDCM_D_PU, CPNO, INTREG, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMALM3(LDCM_D_PU, LDCM_D, LDCM_D_PU, CPNO, INTREG_POSTINC, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMAL_CM3(LDCM_W, LDCM_W, LDCM_W, LDCM_W_PU, CPNO, INTREG, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMALM3(LDCM_W_PU, LDCM_W, LDCM_W_PU, CPNO, INTREG_POSTINC, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMAL2(LDDPC, LDDPC, LDDPC, INTREG, PC_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LDDPC_EXT, LDDPC, LDDPC_EXT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(LDDSP, LDDSP, LDDSP, INTREG, SP_UDISP_W, AVR32_V1), ++ SYNTAX_NORMAL2(LDINS_B, LDINS_B, LDINS_B, INTREG_BSEL, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL2(LDINS_H, LDINS_H, LDINS_H, INTREG_HSEL, INTREG_SDISP_H, AVR32_V1), ++ SYNTAX_NORMALM1(LDM, LDM, LDM, REGLIST_LDM, AVR32_V1), ++ SYNTAX_NORMAL_CM2(LDMTS, LDMTS, LDMTS, LDMTS_PU, INTREG, REGLIST16, AVR32_V1), ++ SYNTAX_NORMALM2(LDMTS_PU, LDMTS, LDMTS_PU, INTREG_POSTINC, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL2(LDSWP_SH, LDSWP_SH, LDSWP_SH, INTREG, INTREG_SDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LDSWP_UH, LDSWP_UH, LDSWP_UH, INTREG, INTREG_SDISP_H, AVR32_V1), ++ SYNTAX_NORMAL2(LDSWP_W, LDSWP_W, LDSWP_W, INTREG, INTREG_SDISP_W, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSL1, LSL, LSL1, LSL3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSL3, LSL, LSL3, LSL2, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(LSL2, LSL, LSL2, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSR1, LSR, LSR1, LSR3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(LSR3, LSR, LSR3, LSR2, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL2(LSR2, LSR, LSR2, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL3(MAC, MAC, MAC, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MACHH_D, MACHH_D, MACHH_D, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MACHH_W, MACHH_W, MACHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MACS_D, MACS_D, MACS_D, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MACSATHH_W, MACSATHH_W, MACSATHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MACUD, MACU_D, MACUD, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MACWH_D, MACWH_D, MACWH_D, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MAX, MAX, MAX, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(MCALL, MCALL, MCALL, MCALL, AVR32_V1), ++ SYNTAX_NORMAL2(MFDR, MFDR, MFDR, INTREG, UNSIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL2(MFSR, MFSR, MFSR, INTREG, UNSIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL3(MIN, MIN, MIN, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOV3, MOV, MOV3, MOV1, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOV1, MOV, MOV1, MOV2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOV2, MOV, MOV2,INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVEQ1, MOVEQ, MOVEQ1, MOVEQ2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVNE1, MOVNE, MOVNE1, MOVNE2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVCC1, MOVCC, MOVCC1, MOVCC2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVCS1, MOVCS, MOVCS1, MOVCS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVGE1, MOVGE, MOVGE1, MOVGE2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLT1, MOVLT, MOVLT1, MOVLT2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVMI1, MOVMI, MOVMI1, MOVMI2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVPL1, MOVPL, MOVPL1, MOVPL2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLS1, MOVLS, MOVLS1, MOVLS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVGT1, MOVGT, MOVGT1, MOVGT2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLE1, MOVLE, MOVLE1, MOVLE2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVHI1, MOVHI, MOVHI1, MOVHI2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVVS1, MOVVS, MOVVS1, MOVVS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVVC1, MOVVC, MOVVC1, MOVVC2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVQS1, MOVQS, MOVQS1, MOVQS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVAL1, MOVAL, MOVAL1, MOVAL2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVHS1, MOVHS, MOVCC1, MOVHS2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MOVLO1, MOVLO, MOVCS1, MOVLO2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(MOVEQ2, MOVEQ, MOVEQ2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVNE2, MOVNE, MOVNE2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVCC2, MOVCC, MOVCC2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVCS2, MOVCS, MOVCS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVGE2, MOVGE, MOVGE2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLT2, MOVLT, MOVLT2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVMI2, MOVMI, MOVMI2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVPL2, MOVPL, MOVPL2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLS2, MOVLS, MOVLS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVGT2, MOVGT, MOVGT2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLE2, MOVLE, MOVLE2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVHI2, MOVHI, MOVHI2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVVS2, MOVVS, MOVVS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVVC2, MOVVC, MOVVC2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVQS2, MOVQS, MOVQS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVAL2, MOVAL, MOVAL2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVHS2, MOVHS, MOVCC2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MOVLO2, MOVLO, MOVCS2, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(MTDR, MTDR, MTDR, UNSIGNED_CONST_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(MTSR, MTSR, MTSR, UNSIGNED_CONST_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(MUL1, MUL, MUL1, MUL2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(MUL2, MUL, MUL2, MUL3, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MUL3, MUL, MUL3, INTREG, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(MULHH_W, MULHH_W, MULHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULNHH_W, MULNHH_W, MULNHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULNWH_D, MULNWH_D, MULNWH_D, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSD, MULS_D, MULSD, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MULSATHH_H, MULSATHH_H, MULSATHH_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATHH_W, MULSATHH_W, MULSATHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATRNDHH_H, MULSATRNDHH_H, MULSATRNDHH_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATRNDWH_W, MULSATRNDWH_W, MULSATRNDWH_W, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULSATWH_W, MULSATWH_W, MULSATWH_W, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL3(MULU_D, MULU_D, MULU_D, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MULWH_D, MULWH_D, MULWH_D, INTREG, INTREG, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL1(MUSFR, MUSFR, MUSFR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(MUSTR, MUSTR, MUSTR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(MVCR_D, MVCR_D, MVCR_D, CPNO, DWREG, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL3(MVCR_W, MVCR_W, MVCR_W, CPNO, INTREG, CPREG, AVR32_V1), ++ SYNTAX_NORMAL3(MVRC_D, MVRC_D, MVRC_D, CPNO, CPREG_D, DWREG, AVR32_V1), ++ SYNTAX_NORMAL3(MVRC_W, MVRC_W, MVRC_W, CPNO, CPREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(NEG, NEG, NEG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL0(NOP, NOP, NOP, AVR32_V1), ++ SYNTAX_NORMAL_C2(OR1, OR, OR1, OR2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(OR2, OR, OR2, OR3, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL3(OR3, OR, OR3, INTREG, INTREG, INTREG_LSR, AVR32_V1), ++ SYNTAX_NORMAL2(ORH, ORH, ORH, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(ORL, ORL, ORL, INTREG, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(PABS_SB, PABS_SB, PABS_SB, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL2(PABS_SH, PABS_SH, PABS_SH, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PACKSH_SB, PACKSH_SB, PACKSH_SB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PACKSH_UB, PACKSH_UB, PACKSH_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PACKW_SH, PACKW_SH, PACKW_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADD_B, PADD_B, PADD_B, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADD_H, PADD_H, PADD_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDH_SH, PADDH_SH, PADDH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDH_UB, PADDH_UB, PADDH_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_SB, PADDS_SB, PADDS_SB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_SH, PADDS_SH, PADDS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_UB, PADDS_UB, PADDS_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDS_UH, PADDS_UH, PADDS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUB_H, PADDSUB_H, PADDSUB_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUBH_SH, PADDSUBH_SH, PADDSUBH_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUBS_SH, PADDSUBS_SH, PADDSUBS_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDSUBS_UH, PADDSUBS_UH, PADDSUBS_UH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDX_H, PADDX_H, PADDX_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDXH_SH, PADDXH_SH, PADDXH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDXS_SH, PADDXS_SH, PADDXS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PADDXS_UH, PADDXS_UH, PADDXS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PASR_B, PASR_B, PASR_B, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PASR_H, PASR_H, PASR_H, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PAVG_SH, PAVG_SH, PAVG_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PAVG_UB, PAVG_UB, PAVG_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSL_B, PLSL_B, PLSL_B, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSL_H, PLSL_H, PLSL_H, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSR_B, PLSR_B, PLSR_B, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PLSR_H, PLSR_H, PLSR_H, INTREG, INTREG, UNSIGNED_NUMBER, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMAX_SH, PMAX_SH, PMAX_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMAX_UB, PMAX_UB, PMAX_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMIN_SH, PMIN_SH, PMIN_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PMIN_UB, PMIN_UB, PMIN_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL0(POPJC, POPJC, POPJC, AVR32_V1), ++ SYNTAX_NORMAL_CM1(POPM, POPM, POPM, POPM_E, REGLIST9, AVR32_V1), ++ SYNTAX_NORMALM1(POPM_E, POPM, POPM_E, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL1(PREF, PREF, PREF, INTREG_SDISP, AVR32_V1), ++ SYNTAX_NORMAL3(PSAD, PSAD, PSAD, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUB_B, PSUB_B, PSUB_B, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUB_H, PSUB_H, PSUB_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADD_H, PSUBADD_H, PSUBADD_H, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADDH_SH, PSUBADDH_SH, PSUBADDH_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADDS_SH, PSUBADDS_SH, PSUBADDS_SH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBADDS_UH, PSUBADDS_UH, PSUBADDS_UH, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBH_SH, PSUBH_SH, PSUBH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBH_UB, PSUBH_UB, PSUBH_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_SB, PSUBS_SB, PSUBS_SB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_SH, PSUBS_SH, PSUBS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_UB, PSUBS_UB, PSUBS_UB, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBS_UH, PSUBS_UH, PSUBS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBX_H, PSUBX_H, PSUBX_H, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBXH_SH, PSUBXH_SH, PSUBXH_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBXS_SH, PSUBXS_SH, PSUBXS_SH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL3(PSUBXS_UH, PSUBXS_UH, PSUBXS_UH, INTREG, INTREG, INTREG, AVR32_SIMD), ++ SYNTAX_NORMAL2(PUNPCKSB_H, PUNPCKSB_H, PUNPCKSB_H, INTREG, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL2(PUNPCKUB_H, PUNPCKUB_H, PUNPCKUB_H, INTREG, INTREG_HSEL, AVR32_SIMD), ++ SYNTAX_NORMAL0(PUSHJC, PUSHJC, PUSHJC, AVR32_V1), ++ SYNTAX_NORMAL_CM1(PUSHM, PUSHM, PUSHM, PUSHM_E, REGLIST8, AVR32_V1), ++ SYNTAX_NORMALM1(PUSHM_E, PUSHM, PUSHM_E, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL_C1(RCALL1, RCALL, RCALL1, RCALL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(RCALL2, RCALL, RCALL2, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(RETEQ, RETEQ, RETEQ, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETNE, RETNE, RETNE, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETCC, RETCC, RETCC, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETCS, RETCS, RETCS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETGE, RETGE, RETGE, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLT, RETLT, RETLT, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETMI, RETMI, RETMI, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETPL, RETPL, RETPL, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLS, RETLS, RETLS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETGT, RETGT, RETGT, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLE, RETLE, RETLE, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETHI, RETHI, RETHI, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETVS, RETVS, RETVS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETVC, RETVC, RETVC, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETQS, RETQS, RETQS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETAL, RETAL, RETAL, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETHS, RETHS, RETCC, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL1(RETLO, RETLO, RETCS, RETVAL, AVR32_V1), ++ SYNTAX_NORMAL0(RETD, RETD, RETD, AVR32_V1), ++ SYNTAX_NORMAL0(RETE, RETE, RETE, AVR32_V1), ++ SYNTAX_NORMAL0(RETJ, RETJ, RETJ, AVR32_V1), ++ SYNTAX_NORMAL0(RETS, RETS, RETS, AVR32_V1), ++ SYNTAX_NORMAL1(RJMP, RJMP, RJMP, JMPLABEL, AVR32_V1), ++ SYNTAX_NORMAL1(ROL, ROL, ROL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(ROR, ROR, ROR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(RSUB1, RSUB, RSUB1, RSUB2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(RSUB2, RSUB, RSUB2, INTREG, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(SATADD_H, SATADD_H, SATADD_H, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL3(SATADD_W, SATADD_W, SATADD_W, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL2(SATRNDS, SATRNDS, SATRNDS, INTREG_LSR, UNSIGNED_NUMBER, AVR32_DSP), ++ SYNTAX_NORMAL2(SATRNDU, SATRNDU, SATRNDU, INTREG_LSR, UNSIGNED_NUMBER, AVR32_DSP), ++ SYNTAX_NORMAL2(SATS, SATS, SATS, INTREG_LSR, UNSIGNED_NUMBER, AVR32_DSP), ++ SYNTAX_NORMAL3(SATSUB_H, SATSUB_H, SATSUB_H, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL_C3(SATSUB_W1, SATSUB_W, SATSUB_W1, SATSUB_W2, INTREG, INTREG, INTREG, AVR32_DSP), ++ SYNTAX_NORMAL3(SATSUB_W2, SATSUB_W, SATSUB_W2, INTREG, INTREG, SIGNED_CONST, AVR32_DSP), ++ SYNTAX_NORMAL2(SATU, SATU, SATU, INTREG_LSR, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL3(SBC, SBC, SBC, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(SBR, SBR, SBR, INTREG, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL0(SCALL, SCALL, SCALL, AVR32_V1), ++ SYNTAX_NORMAL1(SCR, SCR, SCR, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SLEEP, SLEEP, SLEEP, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL1(SREQ, SREQ, SREQ, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRNE, SRNE, SRNE, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRCC, SRCC, SRCC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRCS, SRCS, SRCS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRGE, SRGE, SRGE, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLT, SRLT, SRLT, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRMI, SRMI, SRMI, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRPL, SRPL, SRPL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLS, SRLS, SRLS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRGT, SRGT, SRGT, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLE, SRLE, SRLE, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRHI, SRHI, SRHI, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRVS, SRVS, SRVS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRVC, SRVC, SRVC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRQS, SRQS, SRQS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRAL, SRAL, SRAL, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRHS, SRHS, SRCC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SRLO, SRLO, SRCS, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SSRF, SSRF, SSRF, UNSIGNED_NUMBER, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B1, ST_B, ST_B1, ST_B2, INTREG_POSTINC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B2, ST_B, ST_B2, ST_B5, INTREG_PREDEC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B5, ST_B, ST_B5, ST_B3, INTREG_INDEX, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_B3, ST_B, ST_B3, ST_B4, INTREG_UDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_B4, ST_B, ST_B4, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D1, ST_D, ST_D1, ST_D2, INTREG_POSTINC, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D2, ST_D, ST_D2, ST_D3, INTREG_PREDEC, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D3, ST_D, ST_D3, ST_D5, INTREG, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_D5, ST_D, ST_D5, ST_D4, INTREG_INDEX, DWREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_D4, ST_D, ST_D4, INTREG_SDISP, DWREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H1, ST_H, ST_H1, ST_H2, INTREG_POSTINC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H2, ST_H, ST_H2, ST_H5, INTREG_PREDEC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H5, ST_H, ST_H5, ST_H3, INTREG_INDEX, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_H3, ST_H, ST_H3, ST_H4, INTREG_UDISP_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_H4, ST_H, ST_H4, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W1, ST_W, ST_W1, ST_W2, INTREG_POSTINC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W2, ST_W, ST_W2, ST_W5, INTREG_PREDEC, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W5, ST_W, ST_W5, ST_W3, INTREG_INDEX, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(ST_W3, ST_W, ST_W3, ST_W4, INTREG_UDISP_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(ST_W4, ST_W, ST_W4, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(STC_D1, STC_D, STC_D1, CPNO, INTREG_UDISP_W, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_D2, STC_D, STC_D2, STC_D1, CPNO, INTREG_POSTINC, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_D3, STC_D, STC_D3, STC_D2, CPNO, INTREG_INDEX, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL3(STC_W1, STC_W, STC_W1, CPNO, INTREG_UDISP_W, CPREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_W2, STC_W, STC_W2, STC_W1, CPNO, INTREG_POSTINC, CPREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(STC_W3, STC_W, STC_W3, STC_W2, CPNO, INTREG_INDEX, CPREG, AVR32_V1), ++ SYNTAX_NORMAL2(STC0_D, STC0_D, STC0_D, INTREG_UDISP_W, CPREG_D, AVR32_V1), ++ SYNTAX_NORMAL2(STC0_W, STC0_W, STC0_W, INTREG_UDISP_W, CPREG, AVR32_V1), ++ SYNTAX_NORMAL_CM3(STCM_D, STCM_D, STCM_D, STCM_D_PU, CPNO, INTREG, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMALM3(STCM_D_PU, STCM_D, STCM_D_PU, CPNO, INTREG_PREDEC, REGLIST_CPD8, AVR32_V1), ++ SYNTAX_NORMAL_CM3(STCM_W, STCM_W, STCM_W, STCM_W_PU, CPNO, INTREG, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMALM3(STCM_W_PU, STCM_W, STCM_W_PU, CPNO, INTREG_PREDEC, REGLIST_CP8, AVR32_V1), ++ SYNTAX_NORMAL2(STCOND, STCOND, STCOND, INTREG_SDISP, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(STDSP, STDSP, STDSP, SP_UDISP_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(STHH_W2, STHH_W, STHH_W2, STHH_W1, INTREG_INDEX, INTREG_HSEL, INTREG_HSEL, AVR32_V1), ++ SYNTAX_NORMAL3(STHH_W1, STHH_W, STHH_W1, INTREG_UDISP_W, INTREG_HSEL, INTREG_HSEL, AVR32_V1), ++ SYNTAX_NORMAL_CM2(STM, STM, STM, STM_PU, INTREG, REGLIST16, AVR32_V1), ++ SYNTAX_NORMALM2(STM_PU, STM, STM_PU, INTREG_PREDEC, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL_CM2(STMTS, STMTS, STMTS, STMTS_PU, INTREG, REGLIST16, AVR32_V1), ++ SYNTAX_NORMALM2(STMTS_PU, STMTS, STMTS_PU, INTREG_PREDEC, REGLIST16, AVR32_V1), ++ SYNTAX_NORMAL2(STSWP_H, STSWP_H, STSWP_H, INTREG_SDISP_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(STSWP_W, STSWP_W, STSWP_W, INTREG_SDISP_W, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUB1, SUB, SUB1, SUB2, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL_C3(SUB2, SUB, SUB2, SUB5, INTREG, INTREG, INTREG_LSL, AVR32_V1), ++ SYNTAX_NORMAL_C3(SUB5, SUB, SUB5, SUB3_SP, INTREG, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUB3_SP, SUB, SUB3_SP, SUB3, SP, SIGNED_CONST_W, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUB3, SUB, SUB3, SUB4, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUB4, SUB, SUB4, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBEQ, SUBEQ, SUBEQ, SUB2EQ, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBNE, SUBNE, SUBNE, SUB2NE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBCC, SUBCC, SUBCC, SUB2CC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBCS, SUBCS, SUBCS, SUB2CS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBGE, SUBGE, SUBGE, SUB2GE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLT, SUBLT, SUBLT, SUB2LT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBMI, SUBMI, SUBMI, SUB2MI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBPL, SUBPL, SUBPL, SUB2PL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLS, SUBLS, SUBLS, SUB2LS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBGT, SUBGT, SUBGT, SUB2GT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLE, SUBLE, SUBLE, SUB2LE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBHI, SUBHI, SUBHI, SUB2HI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBVS, SUBVS, SUBVS, SUB2VS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBVC, SUBVC, SUBVC, SUB2VC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBQS, SUBQS, SUBQS, SUB2QS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBAL, SUBAL, SUBAL, SUB2AL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBHS, SUBHS, SUBCC, SUB2CC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL_C2(SUBLO, SUBLO, SUBCS, SUB2CS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFEQ, SUBFEQ, SUBFEQ, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFNE, SUBFNE, SUBFNE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFCC, SUBFCC, SUBFCC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFCS, SUBFCS, SUBFCS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFGE, SUBFGE, SUBFGE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLT, SUBFLT, SUBFLT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFMI, SUBFMI, SUBFMI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFPL, SUBFPL, SUBFPL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLS, SUBFLS, SUBFLS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFGT, SUBFGT, SUBFGT, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLE, SUBFLE, SUBFLE, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFHI, SUBFHI, SUBFHI, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFVS, SUBFVS, SUBFVS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFVC, SUBFVC, SUBFVC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFQS, SUBFQS, SUBFQS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFAL, SUBFAL, SUBFAL, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFHS, SUBFHS, SUBFCC, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(SUBFLO, SUBFLO, SUBFCS, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL3(SUBHH_W, SUBHH_W, SUBHH_W, INTREG, INTREG_HSEL, INTREG_HSEL, AVR32_DSP), ++ SYNTAX_NORMAL1(SWAP_B, SWAP_B, SWAP_B, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SWAP_BH, SWAP_BH, SWAP_BH, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SWAP_H, SWAP_H, SWAP_H, INTREG, AVR32_V1), ++ SYNTAX_NORMAL1(SYNC, SYNC, SYNC, UNSIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL0(TLBR, TLBR, TLBR, AVR32_V1), ++ SYNTAX_NORMAL0(TLBS, TLBS, TLBS, AVR32_V1), ++ SYNTAX_NORMAL0(TLBW, TLBW, TLBW, AVR32_V1), ++ SYNTAX_NORMAL1(TNBZ, TNBZ, TNBZ, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(TST, TST, TST, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL3(XCHG, XCHG, XCHG, INTREG, INTREG, INTREG, AVR32_V1), ++ SYNTAX_NORMAL2(MEMC, MEMC, MEMC, SIGNED_CONST_W, UNSIGNED_NUMBER, AVR32_RMW), ++ SYNTAX_NORMAL2(MEMS, MEMS, MEMS, SIGNED_CONST_W, UNSIGNED_NUMBER, AVR32_RMW), ++ SYNTAX_NORMAL2(MEMT, MEMT, MEMT, SIGNED_CONST_W, UNSIGNED_NUMBER, AVR32_RMW), ++ SYNTAX_NORMAL4 (FMAC_S, FMAC_S, FMAC_S, INTREG, INTREG, INTREG, INTREG, ++ AVR32_V3FP), ++ SYNTAX_NORMAL4 (FNMAC_S, FNMAC_S, FNMAC_S, INTREG, INTREG, INTREG, INTREG, ++ AVR32_V3FP), ++ SYNTAX_NORMAL4 (FMSC_S, FMSC_S, FMSC_S, INTREG, INTREG, INTREG, INTREG, ++ AVR32_V3FP), ++ SYNTAX_NORMAL4 (FNMSC_S, FNMSC_S, FNMSC_S, INTREG, INTREG, INTREG, INTREG, ++ AVR32_V3FP), ++ SYNTAX_NORMAL3 (FMUL_S, FMUL_S, FMUL_S, INTREG, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL3 (FNMUL_S, FNMUL_S, FNMUL_S, INTREG, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL3 (FADD_S, FADD_S, FADD_S, INTREG, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL3 (FSUB_S, FSUB_S, FSUB_S, INTREG, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FCASTRS_SW, FCASTRS_SW, FCASTRS_SW, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FCASTRS_UW, FCASTRS_UW, FCASTRS_UW, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FCASTSW_S, FCASTSW_S, FCASTSW_S, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FCASTUW_S, FCASTUW_S, FCASTUW_S, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FCMP_S, FCMP_S, FCMP_S, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL1 (FCHK_S, FCHK_S, FCHK_S, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FRCPA_S, FRCPA_S, FRCPA_S, INTREG, INTREG, AVR32_V3FP), ++ SYNTAX_NORMAL2 (FRSQRTA_S, FRSQRTA_S, FRSQRTA_S, INTREG, INTREG, AVR32_V3FP), ++ { ++ AVR32_SYNTAX_LDA_W, ++ AVR32_V1, NULL, AVR32_PARSER_LDA, ++ { NULL }, NULL, ++ 2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_SIGNED_CONST, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_CALL, ++ AVR32_V1, NULL, AVR32_PARSER_CALL, ++ { NULL }, NULL, ++ 1, ++ { ++ AVR32_OPERAND_JMPLABEL, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMAC1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMAC2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMAC3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMAC3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMAC3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMUL1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMUL2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSVMUL3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSVMUL3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSVMUL3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMAC1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMAC2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMAC3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMAC3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMAC], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMAC3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL0, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL0] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMUL1], 4, ++ { ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMUL2], 4, ++ { ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOVMUL3], 4, ++ { ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOVMUL3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOVMUL], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOVMUL3] }, ++ NULL, 4, ++ { ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_IN, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_D2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_D2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_D3], 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_INTREG_PREDEC, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_D3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_D3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_D1], 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_INTREG_INDEX, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_D1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_D1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_INTREG_UDISP_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_W2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_W2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_W3], 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG_PREDEC, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_W3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_W3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLD_W1], 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG_INDEX, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLD_W1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLD_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLD_W1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG_UDISP_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_D, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_D] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLDM_D_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_D_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_D_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_W, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_W] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOLDM_W_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOLDM_W_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOLDM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOLDM_W_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_D1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_D1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOMV_D2], 2, ++ { ++ AVR32_OPERAND_DWREG, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_D2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_D2] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_DWREG, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_W1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_W1] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOMV_W2], 2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOMV_W2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOMV_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOMV_W2] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_INTREG, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_D2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_D2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_D3], 2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_D3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_D3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_D1], 2, ++ { ++ AVR32_OPERAND_INTREG_INDEX, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_D1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_D1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_INTREG_UDISP_W, ++ AVR32_OPERAND_PICO_REG_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_W2, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_W2] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_W3], 2, ++ { ++ AVR32_OPERAND_INTREG_POSTINC, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_W3, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_W3] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOST_W1], 2, ++ { ++ AVR32_OPERAND_INTREG_INDEX, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOST_W1, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOST_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOST_W1] }, ++ NULL, 2, ++ { ++ AVR32_OPERAND_INTREG_UDISP_W, ++ AVR32_OPERAND_PICO_REG_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_D, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_D] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSTM_D_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_D_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_D], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_D_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_PREDEC, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_W, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_W] }, ++ &avr32_syntax_table[AVR32_SYNTAX_PICOSTM_W_PU], -2, ++ { ++ AVR32_OPERAND_INTREG, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ { ++ AVR32_SYNTAX_PICOSTM_W_PU, ++ AVR32_PICO, &avr32_mnemonic_table[AVR32_MNEMONIC_PICOSTM_W], AVR32_PARSER_ALIAS, ++ { .alias = &avr32_alias_table[AVR32_ALIAS_PICOSTM_W_PU] }, ++ NULL, -2, ++ { ++ AVR32_OPERAND_INTREG_PREDEC, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ }, ++ }, ++ SYNTAX_NORMAL2(RSUBEQ, RSUBEQ, RSUBEQ, INTREG, SIGNED_CONST, AVR32_V1), ++ SYNTAX_NORMAL2(RSUBNE, RSUBNE, RSUBNE, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBCC, RSUBCC, RSUBCC, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBCS, RSUBCS, RSUBCS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBGE, RSUBGE, RSUBGE, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLT, RSUBLT, RSUBLT, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBMI, RSUBMI, RSUBMI, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBPL, RSUBPL, RSUBPL, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLS, RSUBLS, RSUBLS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBGT, RSUBGT, RSUBGT, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLE, RSUBLE, RSUBLE, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBHI, RSUBHI, RSUBHI, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBVS, RSUBVS, RSUBVS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBVC, RSUBVC, RSUBVC, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBQS, RSUBQS, RSUBQS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBAL, RSUBAL, RSUBAL, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBHS, RSUBHS, RSUBCC, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL2(RSUBLO, RSUBLO, RSUBCS, INTREG, SIGNED_CONST, AVR32_V2), ++ SYNTAX_NORMAL3(ADDEQ, ADDEQ, ADDEQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDNE, ADDNE, ADDNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDCC, ADDCC, ADDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDCS, ADDCS, ADDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDGE, ADDGE, ADDGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLT, ADDLT, ADDLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDMI, ADDMI, ADDMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDPL, ADDPL, ADDPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLS, ADDLS, ADDLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDGT, ADDGT, ADDGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLE, ADDLE, ADDLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDHI, ADDHI, ADDHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDVS, ADDVS, ADDVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDVC, ADDVC, ADDVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDQS, ADDQS, ADDQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDAL, ADDAL, ADDAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDHS, ADDHS, ADDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ADDLO, ADDLO, ADDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2EQ, SUBEQ, SUB2EQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2NE, SUBNE, SUB2NE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2CC, SUBCC, SUB2CC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2CS, SUBCS, SUB2CS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2GE, SUBGE, SUB2GE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LT, SUBLT, SUB2LT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2MI, SUBMI, SUB2MI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2PL, SUBPL, SUB2PL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LS, SUBLS, SUB2LS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2GT, SUBGT, SUB2GT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LE, SUBLE, SUB2LE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2HI, SUBHI, SUB2HI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2VS, SUBVS, SUB2VS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2VC, SUBVC, SUB2VC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2QS, SUBQS, SUB2QS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2AL, SUBAL, SUB2AL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2HS, SUBHS, SUB2CC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(SUB2LO, SUBLO, SUB2CS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDEQ, ANDEQ, ANDEQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDNE, ANDNE, ANDNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDCC, ANDCC, ANDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDCS, ANDCS, ANDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDGE, ANDGE, ANDGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLT, ANDLT, ANDLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDMI, ANDMI, ANDMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDPL, ANDPL, ANDPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLS, ANDLS, ANDLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDGT, ANDGT, ANDGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLE, ANDLE, ANDLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDHI, ANDHI, ANDHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDVS, ANDVS, ANDVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDVC, ANDVC, ANDVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDQS, ANDQS, ANDQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDAL, ANDAL, ANDAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDHS, ANDHS, ANDCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ANDLO, ANDLO, ANDCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(OREQ, OREQ, OREQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORNE, ORNE, ORNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORCC, ORCC, ORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORCS, ORCS, ORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORGE, ORGE, ORGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLT, ORLT, ORLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORMI, ORMI, ORMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORPL, ORPL, ORPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLS, ORLS, ORLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORGT, ORGT, ORGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLE, ORLE, ORLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORHI, ORHI, ORHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORVS, ORVS, ORVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORVC, ORVC, ORVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORQS, ORQS, ORQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORAL, ORAL, ORAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORHS, ORHS, ORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(ORLO, ORLO, ORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EOREQ, EOREQ, EOREQ, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORNE, EORNE, EORNE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORCC, EORCC, EORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORCS, EORCS, EORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORGE, EORGE, EORGE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLT, EORLT, EORLT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORMI, EORMI, EORMI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORPL, EORPL, EORPL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLS, EORLS, EORLS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORGT, EORGT, EORGT, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLE, EORLE, EORLE, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORHI, EORHI, EORHI, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORVS, EORVS, EORVS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORVC, EORVC, EORVC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORQS, EORQS, EORQS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORAL, EORAL, EORAL, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORHS, EORHS, EORCC, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL3(EORLO, EORLO, EORCS, INTREG, INTREG, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WEQ, LD_WEQ, LD_WEQ, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WNE, LD_WNE, LD_WNE, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WCC, LD_WCC, LD_WCC, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WCS, LD_WCS, LD_WCS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WGE, LD_WGE, LD_WGE, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLT, LD_WLT, LD_WLT, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WMI, LD_WMI, LD_WMI, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WPL, LD_WPL, LD_WPL, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLS, LD_WLS, LD_WLS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WGT, LD_WGT, LD_WGT, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLE, LD_WLE, LD_WLE, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WHI, LD_WHI, LD_WHI, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WVS, LD_WVS, LD_WVS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WVC, LD_WVC, LD_WVC, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WQS, LD_WQS, LD_WQS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WAL, LD_WAL, LD_WAL, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WHS, LD_WHS, LD_WCC, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_WLO, LD_WLO, LD_WCS, INTREG, INTREG_UDISP_W, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHEQ, LD_SHEQ, LD_SHEQ, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHNE, LD_SHNE, LD_SHNE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHCC, LD_SHCC, LD_SHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHCS, LD_SHCS, LD_SHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHGE, LD_SHGE, LD_SHGE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLT, LD_SHLT, LD_SHLT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHMI, LD_SHMI, LD_SHMI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHPL, LD_SHPL, LD_SHPL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLS, LD_SHLS, LD_SHLS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHGT, LD_SHGT, LD_SHGT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLE, LD_SHLE, LD_SHLE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHHI, LD_SHHI, LD_SHHI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHVS, LD_SHVS, LD_SHVS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHVC, LD_SHVC, LD_SHVC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHQS, LD_SHQS, LD_SHQS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHAL, LD_SHAL, LD_SHAL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHHS, LD_SHHS, LD_SHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SHLO, LD_SHLO, LD_SHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHEQ, LD_UHEQ, LD_UHEQ, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHNE, LD_UHNE, LD_UHNE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHCC, LD_UHCC, LD_UHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHCS, LD_UHCS, LD_UHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHGE, LD_UHGE, LD_UHGE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLT, LD_UHLT, LD_UHLT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHMI, LD_UHMI, LD_UHMI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHPL, LD_UHPL, LD_UHPL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLS, LD_UHLS, LD_UHLS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHGT, LD_UHGT, LD_UHGT, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLE, LD_UHLE, LD_UHLE, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHHI, LD_UHHI, LD_UHHI, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHVS, LD_UHVS, LD_UHVS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHVC, LD_UHVC, LD_UHVC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHQS, LD_UHQS, LD_UHQS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHAL, LD_UHAL, LD_UHAL, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHHS, LD_UHHS, LD_UHCC, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UHLO, LD_UHLO, LD_UHCS, INTREG, INTREG_UDISP_H, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBEQ, LD_SBEQ, LD_SBEQ, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBNE, LD_SBNE, LD_SBNE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBCC, LD_SBCC, LD_SBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBCS, LD_SBCS, LD_SBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBGE, LD_SBGE, LD_SBGE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLT, LD_SBLT, LD_SBLT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBMI, LD_SBMI, LD_SBMI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBPL, LD_SBPL, LD_SBPL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLS, LD_SBLS, LD_SBLS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBGT, LD_SBGT, LD_SBGT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLE, LD_SBLE, LD_SBLE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBHI, LD_SBHI, LD_SBHI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBVS, LD_SBVS, LD_SBVS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBVC, LD_SBVC, LD_SBVC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBQS, LD_SBQS, LD_SBQS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBAL, LD_SBAL, LD_SBAL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBHS, LD_SBHS, LD_SBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_SBLO, LD_SBLO, LD_SBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBEQ, LD_UBEQ, LD_UBEQ, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBNE, LD_UBNE, LD_UBNE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBCC, LD_UBCC, LD_UBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBCS, LD_UBCS, LD_UBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBGE, LD_UBGE, LD_UBGE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLT, LD_UBLT, LD_UBLT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBMI, LD_UBMI, LD_UBMI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBPL, LD_UBPL, LD_UBPL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLS, LD_UBLS, LD_UBLS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBGT, LD_UBGT, LD_UBGT, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLE, LD_UBLE, LD_UBLE, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBHI, LD_UBHI, LD_UBHI, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBVS, LD_UBVS, LD_UBVS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBVC, LD_UBVC, LD_UBVC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBQS, LD_UBQS, LD_UBQS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBAL, LD_UBAL, LD_UBAL, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBHS, LD_UBHS, LD_UBCC, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(LD_UBLO, LD_UBLO, LD_UBCS, INTREG, INTREG_UDISP, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WEQ, ST_WEQ, ST_WEQ, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WNE, ST_WNE, ST_WNE, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WCC, ST_WCC, ST_WCC, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WCS, ST_WCS, ST_WCS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WGE, ST_WGE, ST_WGE, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLT, ST_WLT, ST_WLT, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WMI, ST_WMI, ST_WMI, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WPL, ST_WPL, ST_WPL, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLS, ST_WLS, ST_WLS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WGT, ST_WGT, ST_WGT, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLE, ST_WLE, ST_WLE, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WHI, ST_WHI, ST_WHI, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WVS, ST_WVS, ST_WVS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WVC, ST_WVC, ST_WVC, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WQS, ST_WQS, ST_WQS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WAL, ST_WAL, ST_WAL, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WHS, ST_WHS, ST_WCC, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_WLO, ST_WLO, ST_WCS, INTREG_UDISP_W, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HEQ, ST_HEQ, ST_HEQ, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HNE, ST_HNE, ST_HNE, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HCC, ST_HCC, ST_HCC, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HCS, ST_HCS, ST_HCS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HGE, ST_HGE, ST_HGE, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLT, ST_HLT, ST_HLT, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HMI, ST_HMI, ST_HMI, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HPL, ST_HPL, ST_HPL, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLS, ST_HLS, ST_HLS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HGT, ST_HGT, ST_HGT, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLE, ST_HLE, ST_HLE, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HHI, ST_HHI, ST_HHI, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HVS, ST_HVS, ST_HVS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HVC, ST_HVC, ST_HVC, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HQS, ST_HQS, ST_HQS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HAL, ST_HAL, ST_HAL, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HHS, ST_HHS, ST_HCC, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_HLO, ST_HLO, ST_HCS, INTREG_UDISP_H, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BEQ, ST_BEQ, ST_BEQ, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BNE, ST_BNE, ST_BNE, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BCC, ST_BCC, ST_BCC, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BCS, ST_BCS, ST_BCS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BGE, ST_BGE, ST_BGE, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLT, ST_BLT, ST_BLT, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BMI, ST_BMI, ST_BMI, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BPL, ST_BPL, ST_BPL, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLS, ST_BLS, ST_BLS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BGT, ST_BGT, ST_BGT, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLE, ST_BLE, ST_BLE, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BHI, ST_BHI, ST_BHI, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BVS, ST_BVS, ST_BVS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BVC, ST_BVC, ST_BVC, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BQS, ST_BQS, ST_BQS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BAL, ST_BAL, ST_BAL, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BHS, ST_BHS, ST_BCC, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(ST_BLO, ST_BLO, ST_BCS, INTREG_UDISP, INTREG, AVR32_V2), ++ SYNTAX_NORMAL2(MOVH, MOVH, MOVH, INTREG, UNSIGNED_CONST, AVR32_V2), ++ ++ }; ++ ++#define NORMAL_MNEMONIC(name, syntax, str) \ ++ { \ ++ AVR32_MNEMONIC_##name, str, \ ++ &avr32_syntax_table[AVR32_SYNTAX_##syntax], \ ++ } ++#define FP_MNEMONIC(name, syntax, str) \ ++ NORMAL_MNEMONIC(name##_S, syntax##_S, str ".s"), \ ++ NORMAL_MNEMONIC(name##_D, syntax##_D, str ".d") ++ ++const struct avr32_mnemonic avr32_mnemonic_table[] = ++ { ++ NORMAL_MNEMONIC(ABS, ABS, "abs"), ++ NORMAL_MNEMONIC(ACALL, ACALL, "acall"), ++ NORMAL_MNEMONIC(ACR, ACR, "acr"), ++ NORMAL_MNEMONIC(ADC, ADC, "adc"), ++ NORMAL_MNEMONIC(ADD, ADD1, "add"), ++ NORMAL_MNEMONIC(ADDABS, ADDABS, "addabs"), ++ NORMAL_MNEMONIC(ADDHH_W, ADDHH_W, "addhh.w"), ++ NORMAL_MNEMONIC(AND, AND1, "and"), ++ NORMAL_MNEMONIC(ANDH, ANDH, "andh"), ++ NORMAL_MNEMONIC(ANDL, ANDL, "andl"), ++ NORMAL_MNEMONIC(ANDN, ANDN, "andn"), ++ NORMAL_MNEMONIC(ASR, ASR1, "asr"), ++ NORMAL_MNEMONIC(BFEXTS, BFEXTS, "bfexts"), ++ NORMAL_MNEMONIC(BFEXTU, BFEXTU, "bfextu"), ++ NORMAL_MNEMONIC(BFINS, BFINS, "bfins"), ++ NORMAL_MNEMONIC(BLD, BLD, "bld"), ++ NORMAL_MNEMONIC(BREQ, BREQ1, "breq"), ++ NORMAL_MNEMONIC(BRNE, BRNE1, "brne"), ++ NORMAL_MNEMONIC(BRCC, BRCC1, "brcc"), ++ NORMAL_MNEMONIC(BRCS, BRCS1, "brcs"), ++ NORMAL_MNEMONIC(BRGE, BRGE1, "brge"), ++ NORMAL_MNEMONIC(BRLT, BRLT1, "brlt"), ++ NORMAL_MNEMONIC(BRMI, BRMI1, "brmi"), ++ NORMAL_MNEMONIC(BRPL, BRPL1, "brpl"), ++ NORMAL_MNEMONIC(BRHS, BRHS1, "brhs"), ++ NORMAL_MNEMONIC(BRLO, BRLO1, "brlo"), ++ NORMAL_MNEMONIC(BRLS, BRLS, "brls"), ++ NORMAL_MNEMONIC(BRGT, BRGT, "brgt"), ++ NORMAL_MNEMONIC(BRLE, BRLE, "brle"), ++ NORMAL_MNEMONIC(BRHI, BRHI, "brhi"), ++ NORMAL_MNEMONIC(BRVS, BRVS, "brvs"), ++ NORMAL_MNEMONIC(BRVC, BRVC, "brvc"), ++ NORMAL_MNEMONIC(BRQS, BRQS, "brqs"), ++ NORMAL_MNEMONIC(BRAL, BRAL, "bral"), ++ NORMAL_MNEMONIC(BREAKPOINT, BREAKPOINT, "breakpoint"), ++ NORMAL_MNEMONIC(BREV, BREV, "brev"), ++ NORMAL_MNEMONIC(BST, BST, "bst"), ++ NORMAL_MNEMONIC(CACHE, CACHE, "cache"), ++ NORMAL_MNEMONIC(CASTS_B, CASTS_B, "casts.b"), ++ NORMAL_MNEMONIC(CASTS_H, CASTS_H, "casts.h"), ++ NORMAL_MNEMONIC(CASTU_B, CASTU_B, "castu.b"), ++ NORMAL_MNEMONIC(CASTU_H, CASTU_H, "castu.h"), ++ NORMAL_MNEMONIC(CBR, CBR, "cbr"), ++ NORMAL_MNEMONIC(CLZ, CLZ, "clz"), ++ NORMAL_MNEMONIC(COM, COM, "com"), ++ NORMAL_MNEMONIC(COP, COP, "cop"), ++ NORMAL_MNEMONIC(CP_B, CP_B, "cp.b"), ++ NORMAL_MNEMONIC(CP_H, CP_H, "cp.h"), ++ NORMAL_MNEMONIC(CP_W, CP_W1, "cp.w"), ++ NORMAL_MNEMONIC(CP, CP_W1, "cp"), ++ NORMAL_MNEMONIC(CPC, CPC1, "cpc"), ++ NORMAL_MNEMONIC(CSRF, CSRF, "csrf"), ++ NORMAL_MNEMONIC(CSRFCZ, CSRFCZ, "csrfcz"), ++ NORMAL_MNEMONIC(DIVS, DIVS, "divs"), ++ NORMAL_MNEMONIC(DIVU, DIVU, "divu"), ++ NORMAL_MNEMONIC(EOR, EOR1, "eor"), ++ NORMAL_MNEMONIC(EORL, EORL, "eorl"), ++ NORMAL_MNEMONIC(EORH, EORH, "eorh"), ++ NORMAL_MNEMONIC(FRS, FRS, "frs"), ++ NORMAL_MNEMONIC(SSCALL, SSCALL, "sscall"), ++ NORMAL_MNEMONIC(RETSS, RETSS, "retss"), ++ NORMAL_MNEMONIC(ICALL, ICALL, "icall"), ++ NORMAL_MNEMONIC(INCJOSP, INCJOSP, "incjosp"), ++ NORMAL_MNEMONIC(LD_D, LD_D1, "ld.d"), ++ NORMAL_MNEMONIC(LD_SB, LD_SB2, "ld.sb"), ++ NORMAL_MNEMONIC(LD_UB, LD_UB1, "ld.ub"), ++ NORMAL_MNEMONIC(LD_SH, LD_SH1, "ld.sh"), ++ NORMAL_MNEMONIC(LD_UH, LD_UH1, "ld.uh"), ++ NORMAL_MNEMONIC(LD_W, LD_W1, "ld.w"), ++ NORMAL_MNEMONIC(LDC_D, LDC_D3, "ldc.d"), ++ NORMAL_MNEMONIC(LDC_W, LDC_W3, "ldc.w"), ++ NORMAL_MNEMONIC(LDC0_D, LDC0_D, "ldc0.d"), ++ NORMAL_MNEMONIC(LDC0_W, LDC0_W, "ldc0.w"), ++ NORMAL_MNEMONIC(LDCM_D, LDCM_D, "ldcm.d"), ++ NORMAL_MNEMONIC(LDCM_W, LDCM_W, "ldcm.w"), ++ NORMAL_MNEMONIC(LDDPC, LDDPC, "lddpc"), ++ NORMAL_MNEMONIC(LDDSP, LDDSP, "lddsp"), ++ NORMAL_MNEMONIC(LDINS_B, LDINS_B, "ldins.b"), ++ NORMAL_MNEMONIC(LDINS_H, LDINS_H, "ldins.h"), ++ NORMAL_MNEMONIC(LDM, LDM, "ldm"), ++ NORMAL_MNEMONIC(LDMTS, LDMTS, "ldmts"), ++ NORMAL_MNEMONIC(LDSWP_SH, LDSWP_SH, "ldswp.sh"), ++ NORMAL_MNEMONIC(LDSWP_UH, LDSWP_UH, "ldswp.uh"), ++ NORMAL_MNEMONIC(LDSWP_W, LDSWP_W, "ldswp.w"), ++ NORMAL_MNEMONIC(LSL, LSL1, "lsl"), ++ NORMAL_MNEMONIC(LSR, LSR1, "lsr"), ++ NORMAL_MNEMONIC(MAC, MAC, "mac"), ++ NORMAL_MNEMONIC(MACHH_D, MACHH_D, "machh.d"), ++ NORMAL_MNEMONIC(MACHH_W, MACHH_W, "machh.w"), ++ NORMAL_MNEMONIC(MACS_D, MACS_D, "macs.d"), ++ NORMAL_MNEMONIC(MACSATHH_W, MACSATHH_W, "macsathh.w"), ++ NORMAL_MNEMONIC(MACU_D, MACUD, "macu.d"), ++ NORMAL_MNEMONIC(MACWH_D, MACWH_D, "macwh.d"), ++ NORMAL_MNEMONIC(MAX, MAX, "max"), ++ NORMAL_MNEMONIC(MCALL, MCALL, "mcall"), ++ NORMAL_MNEMONIC(MFDR, MFDR, "mfdr"), ++ NORMAL_MNEMONIC(MFSR, MFSR, "mfsr"), ++ NORMAL_MNEMONIC(MIN, MIN, "min"), ++ NORMAL_MNEMONIC(MOV, MOV3, "mov"), ++ NORMAL_MNEMONIC(MOVEQ, MOVEQ1, "moveq"), ++ NORMAL_MNEMONIC(MOVNE, MOVNE1, "movne"), ++ NORMAL_MNEMONIC(MOVCC, MOVCC1, "movcc"), ++ NORMAL_MNEMONIC(MOVCS, MOVCS1, "movcs"), ++ NORMAL_MNEMONIC(MOVGE, MOVGE1, "movge"), ++ NORMAL_MNEMONIC(MOVLT, MOVLT1, "movlt"), ++ NORMAL_MNEMONIC(MOVMI, MOVMI1, "movmi"), ++ NORMAL_MNEMONIC(MOVPL, MOVPL1, "movpl"), ++ NORMAL_MNEMONIC(MOVLS, MOVLS1, "movls"), ++ NORMAL_MNEMONIC(MOVGT, MOVGT1, "movgt"), ++ NORMAL_MNEMONIC(MOVLE, MOVLE1, "movle"), ++ NORMAL_MNEMONIC(MOVHI, MOVHI1, "movhi"), ++ NORMAL_MNEMONIC(MOVVS, MOVVS1, "movvs"), ++ NORMAL_MNEMONIC(MOVVC, MOVVC1, "movvc"), ++ NORMAL_MNEMONIC(MOVQS, MOVQS1, "movqs"), ++ NORMAL_MNEMONIC(MOVAL, MOVAL1, "moval"), ++ NORMAL_MNEMONIC(MOVHS, MOVHS1, "movhs"), ++ NORMAL_MNEMONIC(MOVLO, MOVLO1, "movlo"), ++ NORMAL_MNEMONIC(MTDR, MTDR, "mtdr"), ++ NORMAL_MNEMONIC(MTSR, MTSR, "mtsr"), ++ NORMAL_MNEMONIC(MUL, MUL1, "mul"), ++ NORMAL_MNEMONIC(MULHH_W, MULHH_W, "mulhh.w"), ++ NORMAL_MNEMONIC(MULNHH_W, MULNHH_W, "mulnhh.w"), ++ NORMAL_MNEMONIC(MULNWH_D, MULNWH_D, "mulnwh.d"), ++ NORMAL_MNEMONIC(MULS_D, MULSD, "muls.d"), ++ NORMAL_MNEMONIC(MULSATHH_H, MULSATHH_H, "mulsathh.h"), ++ NORMAL_MNEMONIC(MULSATHH_W, MULSATHH_W, "mulsathh.w"), ++ NORMAL_MNEMONIC(MULSATRNDHH_H, MULSATRNDHH_H, "mulsatrndhh.h"), ++ NORMAL_MNEMONIC(MULSATRNDWH_W, MULSATRNDWH_W, "mulsatrndwh.w"), ++ NORMAL_MNEMONIC(MULSATWH_W, MULSATWH_W, "mulsatwh.w"), ++ NORMAL_MNEMONIC(MULU_D, MULU_D, "mulu.d"), ++ NORMAL_MNEMONIC(MULWH_D, MULWH_D, "mulwh.d"), ++ NORMAL_MNEMONIC(MUSFR, MUSFR, "musfr"), ++ NORMAL_MNEMONIC(MUSTR, MUSTR, "mustr"), ++ NORMAL_MNEMONIC(MVCR_D, MVCR_D, "mvcr.d"), ++ NORMAL_MNEMONIC(MVCR_W, MVCR_W, "mvcr.w"), ++ NORMAL_MNEMONIC(MVRC_D, MVRC_D, "mvrc.d"), ++ NORMAL_MNEMONIC(MVRC_W, MVRC_W, "mvrc.w"), ++ NORMAL_MNEMONIC(NEG, NEG, "neg"), ++ NORMAL_MNEMONIC(NOP, NOP, "nop"), ++ NORMAL_MNEMONIC(OR, OR1, "or"), ++ NORMAL_MNEMONIC(ORH, ORH, "orh"), ++ NORMAL_MNEMONIC(ORL, ORL, "orl"), ++ NORMAL_MNEMONIC(PABS_SB, PABS_SB, "pabs.sb"), ++ NORMAL_MNEMONIC(PABS_SH, PABS_SH, "pabs.sh"), ++ NORMAL_MNEMONIC(PACKSH_SB, PACKSH_SB, "packsh.sb"), ++ NORMAL_MNEMONIC(PACKSH_UB, PACKSH_UB, "packsh.ub"), ++ NORMAL_MNEMONIC(PACKW_SH, PACKW_SH, "packw.sh"), ++ NORMAL_MNEMONIC(PADD_B, PADD_B, "padd.b"), ++ NORMAL_MNEMONIC(PADD_H, PADD_H, "padd.h"), ++ NORMAL_MNEMONIC(PADDH_SH, PADDH_SH, "paddh.sh"), ++ NORMAL_MNEMONIC(PADDH_UB, PADDH_UB, "paddh.ub"), ++ NORMAL_MNEMONIC(PADDS_SB, PADDS_SB, "padds.sb"), ++ NORMAL_MNEMONIC(PADDS_SH, PADDS_SH, "padds.sh"), ++ NORMAL_MNEMONIC(PADDS_UB, PADDS_UB, "padds.ub"), ++ NORMAL_MNEMONIC(PADDS_UH, PADDS_UH, "padds.uh"), ++ NORMAL_MNEMONIC(PADDSUB_H, PADDSUB_H, "paddsub.h"), ++ NORMAL_MNEMONIC(PADDSUBH_SH, PADDSUBH_SH, "paddsubh.sh"), ++ NORMAL_MNEMONIC(PADDSUBS_SH, PADDSUBS_SH, "paddsubs.sh"), ++ NORMAL_MNEMONIC(PADDSUBS_UH, PADDSUBS_UH, "paddsubs.uh"), ++ NORMAL_MNEMONIC(PADDX_H, PADDX_H, "paddx.h"), ++ NORMAL_MNEMONIC(PADDXH_SH, PADDXH_SH, "paddxh.sh"), ++ NORMAL_MNEMONIC(PADDXS_SH, PADDXS_SH, "paddxs.sh"), ++ NORMAL_MNEMONIC(PADDXS_UH, PADDXS_UH, "paddxs.uh"), ++ NORMAL_MNEMONIC(PASR_B, PASR_B, "pasr.b"), ++ NORMAL_MNEMONIC(PASR_H, PASR_H, "pasr.h"), ++ NORMAL_MNEMONIC(PAVG_SH, PAVG_SH, "pavg.sh"), ++ NORMAL_MNEMONIC(PAVG_UB, PAVG_UB, "pavg.ub"), ++ NORMAL_MNEMONIC(PLSL_B, PLSL_B, "plsl.b"), ++ NORMAL_MNEMONIC(PLSL_H, PLSL_H, "plsl.h"), ++ NORMAL_MNEMONIC(PLSR_B, PLSR_B, "plsr.b"), ++ NORMAL_MNEMONIC(PLSR_H, PLSR_H, "plsr.h"), ++ NORMAL_MNEMONIC(PMAX_SH, PMAX_SH, "pmax.sh"), ++ NORMAL_MNEMONIC(PMAX_UB, PMAX_UB, "pmax.ub"), ++ NORMAL_MNEMONIC(PMIN_SH, PMIN_SH, "pmin.sh"), ++ NORMAL_MNEMONIC(PMIN_UB, PMIN_UB, "pmin.ub"), ++ NORMAL_MNEMONIC(POPJC, POPJC, "popjc"), ++ NORMAL_MNEMONIC(POPM, POPM, "popm"), ++ NORMAL_MNEMONIC(PREF, PREF, "pref"), ++ NORMAL_MNEMONIC(PSAD, PSAD, "psad"), ++ NORMAL_MNEMONIC(PSUB_B, PSUB_B, "psub.b"), ++ NORMAL_MNEMONIC(PSUB_H, PSUB_H, "psub.h"), ++ NORMAL_MNEMONIC(PSUBADD_H, PSUBADD_H, "psubadd.h"), ++ NORMAL_MNEMONIC(PSUBADDH_SH, PSUBADDH_SH, "psubaddh.sh"), ++ NORMAL_MNEMONIC(PSUBADDS_SH, PSUBADDS_SH, "psubadds.sh"), ++ NORMAL_MNEMONIC(PSUBADDS_UH, PSUBADDS_UH, "psubadds.uh"), ++ NORMAL_MNEMONIC(PSUBH_SH, PSUBH_SH, "psubh.sh"), ++ NORMAL_MNEMONIC(PSUBH_UB, PSUBH_UB, "psubh.ub"), ++ NORMAL_MNEMONIC(PSUBS_SB, PSUBS_SB, "psubs.sb"), ++ NORMAL_MNEMONIC(PSUBS_SH, PSUBS_SH, "psubs.sh"), ++ NORMAL_MNEMONIC(PSUBS_UB, PSUBS_UB, "psubs.ub"), ++ NORMAL_MNEMONIC(PSUBS_UH, PSUBS_UH, "psubs.uh"), ++ NORMAL_MNEMONIC(PSUBX_H, PSUBX_H, "psubx.h"), ++ NORMAL_MNEMONIC(PSUBXH_SH, PSUBXH_SH, "psubxh.sh"), ++ NORMAL_MNEMONIC(PSUBXS_SH, PSUBXS_SH, "psubxs.sh"), ++ NORMAL_MNEMONIC(PSUBXS_UH, PSUBXS_UH, "psubxs.uh"), ++ NORMAL_MNEMONIC(PUNPCKSB_H, PUNPCKSB_H, "punpcksb.h"), ++ NORMAL_MNEMONIC(PUNPCKUB_H, PUNPCKUB_H, "punpckub.h"), ++ NORMAL_MNEMONIC(PUSHJC, PUSHJC, "pushjc"), ++ NORMAL_MNEMONIC(PUSHM, PUSHM, "pushm"), ++ NORMAL_MNEMONIC(RCALL, RCALL1, "rcall"), ++ NORMAL_MNEMONIC(RETEQ, RETEQ, "reteq"), ++ NORMAL_MNEMONIC(RETNE, RETNE, "retne"), ++ NORMAL_MNEMONIC(RETCC, RETCC, "retcc"), ++ NORMAL_MNEMONIC(RETCS, RETCS, "retcs"), ++ NORMAL_MNEMONIC(RETGE, RETGE, "retge"), ++ NORMAL_MNEMONIC(RETLT, RETLT, "retlt"), ++ NORMAL_MNEMONIC(RETMI, RETMI, "retmi"), ++ NORMAL_MNEMONIC(RETPL, RETPL, "retpl"), ++ NORMAL_MNEMONIC(RETLS, RETLS, "retls"), ++ NORMAL_MNEMONIC(RETGT, RETGT, "retgt"), ++ NORMAL_MNEMONIC(RETLE, RETLE, "retle"), ++ NORMAL_MNEMONIC(RETHI, RETHI, "rethi"), ++ NORMAL_MNEMONIC(RETVS, RETVS, "retvs"), ++ NORMAL_MNEMONIC(RETVC, RETVC, "retvc"), ++ NORMAL_MNEMONIC(RETQS, RETQS, "retqs"), ++ NORMAL_MNEMONIC(RETAL, RETAL, "retal"), ++ NORMAL_MNEMONIC(RETHS, RETHS, "reths"), ++ NORMAL_MNEMONIC(RETLO, RETLO, "retlo"), ++ NORMAL_MNEMONIC(RET, RETAL, "ret"), ++ NORMAL_MNEMONIC(RETD, RETD, "retd"), ++ NORMAL_MNEMONIC(RETE, RETE, "rete"), ++ NORMAL_MNEMONIC(RETJ, RETJ, "retj"), ++ NORMAL_MNEMONIC(RETS, RETS, "rets"), ++ NORMAL_MNEMONIC(RJMP, RJMP, "rjmp"), ++ NORMAL_MNEMONIC(ROL, ROL, "rol"), ++ NORMAL_MNEMONIC(ROR, ROR, "ror"), ++ NORMAL_MNEMONIC(RSUB, RSUB1, "rsub"), ++ NORMAL_MNEMONIC(SATADD_H, SATADD_H, "satadd.h"), ++ NORMAL_MNEMONIC(SATADD_W, SATADD_W, "satadd.w"), ++ NORMAL_MNEMONIC(SATRNDS, SATRNDS, "satrnds"), ++ NORMAL_MNEMONIC(SATRNDU, SATRNDU, "satrndu"), ++ NORMAL_MNEMONIC(SATS, SATS, "sats"), ++ NORMAL_MNEMONIC(SATSUB_H, SATSUB_H, "satsub.h"), ++ NORMAL_MNEMONIC(SATSUB_W, SATSUB_W1, "satsub.w"), ++ NORMAL_MNEMONIC(SATU, SATU, "satu"), ++ NORMAL_MNEMONIC(SBC, SBC, "sbc"), ++ NORMAL_MNEMONIC(SBR, SBR, "sbr"), ++ NORMAL_MNEMONIC(SCALL, SCALL, "scall"), ++ NORMAL_MNEMONIC(SCR, SCR, "scr"), ++ NORMAL_MNEMONIC(SLEEP, SLEEP, "sleep"), ++ NORMAL_MNEMONIC(SREQ, SREQ, "sreq"), ++ NORMAL_MNEMONIC(SRNE, SRNE, "srne"), ++ NORMAL_MNEMONIC(SRCC, SRCC, "srcc"), ++ NORMAL_MNEMONIC(SRCS, SRCS, "srcs"), ++ NORMAL_MNEMONIC(SRGE, SRGE, "srge"), ++ NORMAL_MNEMONIC(SRLT, SRLT, "srlt"), ++ NORMAL_MNEMONIC(SRMI, SRMI, "srmi"), ++ NORMAL_MNEMONIC(SRPL, SRPL, "srpl"), ++ NORMAL_MNEMONIC(SRLS, SRLS, "srls"), ++ NORMAL_MNEMONIC(SRGT, SRGT, "srgt"), ++ NORMAL_MNEMONIC(SRLE, SRLE, "srle"), ++ NORMAL_MNEMONIC(SRHI, SRHI, "srhi"), ++ NORMAL_MNEMONIC(SRVS, SRVS, "srvs"), ++ NORMAL_MNEMONIC(SRVC, SRVC, "srvc"), ++ NORMAL_MNEMONIC(SRQS, SRQS, "srqs"), ++ NORMAL_MNEMONIC(SRAL, SRAL, "sral"), ++ NORMAL_MNEMONIC(SRHS, SRHS, "srhs"), ++ NORMAL_MNEMONIC(SRLO, SRLO, "srlo"), ++ NORMAL_MNEMONIC(SSRF, SSRF, "ssrf"), ++ NORMAL_MNEMONIC(ST_B, ST_B1, "st.b"), ++ NORMAL_MNEMONIC(ST_D, ST_D1, "st.d"), ++ NORMAL_MNEMONIC(ST_H, ST_H1, "st.h"), ++ NORMAL_MNEMONIC(ST_W, ST_W1, "st.w"), ++ NORMAL_MNEMONIC(STC_D, STC_D3, "stc.d"), ++ NORMAL_MNEMONIC(STC_W, STC_W3, "stc.w"), ++ NORMAL_MNEMONIC(STC0_D, STC0_D, "stc0.d"), ++ NORMAL_MNEMONIC(STC0_W, STC0_W, "stc0.w"), ++ NORMAL_MNEMONIC(STCM_D, STCM_D, "stcm.d"), ++ NORMAL_MNEMONIC(STCM_W, STCM_W, "stcm.w"), ++ NORMAL_MNEMONIC(STCOND, STCOND, "stcond"), ++ NORMAL_MNEMONIC(STDSP, STDSP, "stdsp"), ++ NORMAL_MNEMONIC(STHH_W, STHH_W2, "sthh.w"), ++ NORMAL_MNEMONIC(STM, STM, "stm"), ++ NORMAL_MNEMONIC(STMTS, STMTS, "stmts"), ++ NORMAL_MNEMONIC(STSWP_H, STSWP_H, "stswp.h"), ++ NORMAL_MNEMONIC(STSWP_W, STSWP_W, "stswp.w"), ++ NORMAL_MNEMONIC(SUB, SUB1, "sub"), ++ NORMAL_MNEMONIC(SUBEQ, SUBEQ, "subeq"), ++ NORMAL_MNEMONIC(SUBNE, SUBNE, "subne"), ++ NORMAL_MNEMONIC(SUBCC, SUBCC, "subcc"), ++ NORMAL_MNEMONIC(SUBCS, SUBCS, "subcs"), ++ NORMAL_MNEMONIC(SUBGE, SUBGE, "subge"), ++ NORMAL_MNEMONIC(SUBLT, SUBLT, "sublt"), ++ NORMAL_MNEMONIC(SUBMI, SUBMI, "submi"), ++ NORMAL_MNEMONIC(SUBPL, SUBPL, "subpl"), ++ NORMAL_MNEMONIC(SUBLS, SUBLS, "subls"), ++ NORMAL_MNEMONIC(SUBGT, SUBGT, "subgt"), ++ NORMAL_MNEMONIC(SUBLE, SUBLE, "suble"), ++ NORMAL_MNEMONIC(SUBHI, SUBHI, "subhi"), ++ NORMAL_MNEMONIC(SUBVS, SUBVS, "subvs"), ++ NORMAL_MNEMONIC(SUBVC, SUBVC, "subvc"), ++ NORMAL_MNEMONIC(SUBQS, SUBQS, "subqs"), ++ NORMAL_MNEMONIC(SUBAL, SUBAL, "subal"), ++ NORMAL_MNEMONIC(SUBHS, SUBHS, "subhs"), ++ NORMAL_MNEMONIC(SUBLO, SUBLO, "sublo"), ++ NORMAL_MNEMONIC(SUBFEQ, SUBFEQ, "subfeq"), ++ NORMAL_MNEMONIC(SUBFNE, SUBFNE, "subfne"), ++ NORMAL_MNEMONIC(SUBFCC, SUBFCC, "subfcc"), ++ NORMAL_MNEMONIC(SUBFCS, SUBFCS, "subfcs"), ++ NORMAL_MNEMONIC(SUBFGE, SUBFGE, "subfge"), ++ NORMAL_MNEMONIC(SUBFLT, SUBFLT, "subflt"), ++ NORMAL_MNEMONIC(SUBFMI, SUBFMI, "subfmi"), ++ NORMAL_MNEMONIC(SUBFPL, SUBFPL, "subfpl"), ++ NORMAL_MNEMONIC(SUBFLS, SUBFLS, "subfls"), ++ NORMAL_MNEMONIC(SUBFGT, SUBFGT, "subfgt"), ++ NORMAL_MNEMONIC(SUBFLE, SUBFLE, "subfle"), ++ NORMAL_MNEMONIC(SUBFHI, SUBFHI, "subfhi"), ++ NORMAL_MNEMONIC(SUBFVS, SUBFVS, "subfvs"), ++ NORMAL_MNEMONIC(SUBFVC, SUBFVC, "subfvc"), ++ NORMAL_MNEMONIC(SUBFQS, SUBFQS, "subfqs"), ++ NORMAL_MNEMONIC(SUBFAL, SUBFAL, "subfal"), ++ NORMAL_MNEMONIC(SUBFHS, SUBFHS, "subfhs"), ++ NORMAL_MNEMONIC(SUBFLO, SUBFLO, "subflo"), ++ NORMAL_MNEMONIC(SUBHH_W, SUBHH_W, "subhh.w"), ++ NORMAL_MNEMONIC(SWAP_B, SWAP_B, "swap.b"), ++ NORMAL_MNEMONIC(SWAP_BH, SWAP_BH, "swap.bh"), ++ NORMAL_MNEMONIC(SWAP_H, SWAP_H, "swap.h"), ++ NORMAL_MNEMONIC(SYNC, SYNC, "sync"), ++ NORMAL_MNEMONIC(TLBR, TLBR, "tlbr"), ++ NORMAL_MNEMONIC(TLBS, TLBS, "tlbs"), ++ NORMAL_MNEMONIC(TLBW, TLBW, "tlbw"), ++ NORMAL_MNEMONIC(TNBZ, TNBZ, "tnbz"), ++ NORMAL_MNEMONIC(TST, TST, "tst"), ++ NORMAL_MNEMONIC(XCHG, XCHG, "xchg"), ++ NORMAL_MNEMONIC(MEMC, MEMC, "memc"), ++ NORMAL_MNEMONIC(MEMS, MEMS, "mems"), ++ NORMAL_MNEMONIC(MEMT, MEMT, "memt"), ++ NORMAL_MNEMONIC (FMAC_S, FMAC_S, "fmac.s"), ++ NORMAL_MNEMONIC (FNMAC_S, FNMAC_S, "fnmac.s"), ++ NORMAL_MNEMONIC (FMSC_S, FMSC_S, "fmsc.s"), ++ NORMAL_MNEMONIC (FNMSC_S, FNMSC_S, "fnmsc.s"), ++ NORMAL_MNEMONIC (FMUL_S, FMUL_S, "fmul.s"), ++ NORMAL_MNEMONIC (FNMUL_S, FNMUL_S, "fnmul.s"), ++ NORMAL_MNEMONIC (FADD_S, FADD_S, "fadd.s"), ++ NORMAL_MNEMONIC (FSUB_S, FSUB_S, "fsub.s"), ++ NORMAL_MNEMONIC (FCASTRS_SW, FCASTRS_SW, "fcastrs.sw"), ++ NORMAL_MNEMONIC (FCASTRS_UW, FCASTRS_UW, "fcastrs.uw"), ++ NORMAL_MNEMONIC (FCASTSW_S, FCASTSW_S, "fcastsw.s"), ++ NORMAL_MNEMONIC (FCASTUW_S, FCASTUW_S, "fcastuw.s"), ++ NORMAL_MNEMONIC (FCMP_S, FCMP_S, "fcmp.s"), ++ NORMAL_MNEMONIC (FCHK_S, FCHK_S, "fchk.s"), ++ NORMAL_MNEMONIC (FRCPA_S, FRCPA_S, "frcpa.s"), ++ NORMAL_MNEMONIC (FRSQRTA_S, FRSQRTA_S, "frsqrta.s"), ++ NORMAL_MNEMONIC(LDA_W, LDA_W, "lda.w"), ++ NORMAL_MNEMONIC(CALL, CALL, "call"), ++ NORMAL_MNEMONIC(PICOSVMAC, PICOSVMAC0, "picosvmac"), ++ NORMAL_MNEMONIC(PICOSVMUL, PICOSVMUL0, "picosvmul"), ++ NORMAL_MNEMONIC(PICOVMAC, PICOVMAC0, "picovmac"), ++ NORMAL_MNEMONIC(PICOVMUL, PICOVMUL0, "picovmul"), ++ NORMAL_MNEMONIC(PICOLD_D, PICOLD_D2, "picold.d"), ++ NORMAL_MNEMONIC(PICOLD_W, PICOLD_W2, "picold.w"), ++ NORMAL_MNEMONIC(PICOLDM_D, PICOLDM_D, "picoldm.d"), ++ NORMAL_MNEMONIC(PICOLDM_W, PICOLDM_W, "picoldm.w"), ++ NORMAL_MNEMONIC(PICOMV_D, PICOMV_D1, "picomv.d"), ++ NORMAL_MNEMONIC(PICOMV_W, PICOMV_W1, "picomv.w"), ++ NORMAL_MNEMONIC(PICOST_D, PICOST_D2, "picost.d"), ++ NORMAL_MNEMONIC(PICOST_W, PICOST_W2, "picost.w"), ++ NORMAL_MNEMONIC(PICOSTM_D, PICOSTM_D, "picostm.d"), ++ NORMAL_MNEMONIC(PICOSTM_W, PICOSTM_W, "picostm.w"), ++ NORMAL_MNEMONIC(RSUBEQ, RSUBEQ, "rsubeq"), ++ NORMAL_MNEMONIC(RSUBNE, RSUBNE, "rsubne"), ++ NORMAL_MNEMONIC(RSUBCC, RSUBCC, "rsubcc"), ++ NORMAL_MNEMONIC(RSUBCS, RSUBCS, "rsubcs"), ++ NORMAL_MNEMONIC(RSUBGE, RSUBGE, "rsubge"), ++ NORMAL_MNEMONIC(RSUBLT, RSUBLT, "rsublt"), ++ NORMAL_MNEMONIC(RSUBMI, RSUBMI, "rsubmi"), ++ NORMAL_MNEMONIC(RSUBPL, RSUBPL, "rsubpl"), ++ NORMAL_MNEMONIC(RSUBLS, RSUBLS, "rsubls"), ++ NORMAL_MNEMONIC(RSUBGT, RSUBGT, "rsubgt"), ++ NORMAL_MNEMONIC(RSUBLE, RSUBLE, "rsuble"), ++ NORMAL_MNEMONIC(RSUBHI, RSUBHI, "rsubhi"), ++ NORMAL_MNEMONIC(RSUBVS, RSUBVS, "rsubvs"), ++ NORMAL_MNEMONIC(RSUBVC, RSUBVC, "rsubvc"), ++ NORMAL_MNEMONIC(RSUBQS, RSUBQS, "rsubqs"), ++ NORMAL_MNEMONIC(RSUBAL, RSUBAL, "rsubal"), ++ NORMAL_MNEMONIC(RSUBHS, RSUBHS, "rsubhs"), ++ NORMAL_MNEMONIC(RSUBLO, RSUBLO, "rsublo"), ++ NORMAL_MNEMONIC(ADDEQ, ADDEQ, "addeq"), ++ NORMAL_MNEMONIC(ADDNE, ADDNE, "addne"), ++ NORMAL_MNEMONIC(ADDCC, ADDCC, "addcc"), ++ NORMAL_MNEMONIC(ADDCS, ADDCS, "addcs"), ++ NORMAL_MNEMONIC(ADDGE, ADDGE, "addge"), ++ NORMAL_MNEMONIC(ADDLT, ADDLT, "addlt"), ++ NORMAL_MNEMONIC(ADDMI, ADDMI, "addmi"), ++ NORMAL_MNEMONIC(ADDPL, ADDPL, "addpl"), ++ NORMAL_MNEMONIC(ADDLS, ADDLS, "addls"), ++ NORMAL_MNEMONIC(ADDGT, ADDGT, "addgt"), ++ NORMAL_MNEMONIC(ADDLE, ADDLE, "addle"), ++ NORMAL_MNEMONIC(ADDHI, ADDHI, "addhi"), ++ NORMAL_MNEMONIC(ADDVS, ADDVS, "addvs"), ++ NORMAL_MNEMONIC(ADDVC, ADDVC, "addvc"), ++ NORMAL_MNEMONIC(ADDQS, ADDQS, "addqs"), ++ NORMAL_MNEMONIC(ADDAL, ADDAL, "addal"), ++ NORMAL_MNEMONIC(ADDHS, ADDHS, "addhs"), ++ NORMAL_MNEMONIC(ADDLO, ADDLO, "addlo"), ++ NORMAL_MNEMONIC(ANDEQ, ANDEQ, "andeq"), ++ NORMAL_MNEMONIC(ANDNE, ANDNE, "andne"), ++ NORMAL_MNEMONIC(ANDCC, ANDCC, "andcc"), ++ NORMAL_MNEMONIC(ANDCS, ANDCS, "andcs"), ++ NORMAL_MNEMONIC(ANDGE, ANDGE, "andge"), ++ NORMAL_MNEMONIC(ANDLT, ANDLT, "andlt"), ++ NORMAL_MNEMONIC(ANDMI, ANDMI, "andmi"), ++ NORMAL_MNEMONIC(ANDPL, ANDPL, "andpl"), ++ NORMAL_MNEMONIC(ANDLS, ANDLS, "andls"), ++ NORMAL_MNEMONIC(ANDGT, ANDGT, "andgt"), ++ NORMAL_MNEMONIC(ANDLE, ANDLE, "andle"), ++ NORMAL_MNEMONIC(ANDHI, ANDHI, "andhi"), ++ NORMAL_MNEMONIC(ANDVS, ANDVS, "andvs"), ++ NORMAL_MNEMONIC(ANDVC, ANDVC, "andvc"), ++ NORMAL_MNEMONIC(ANDQS, ANDQS, "andqs"), ++ NORMAL_MNEMONIC(ANDAL, ANDAL, "andal"), ++ NORMAL_MNEMONIC(ANDHS, ANDHS, "andhs"), ++ NORMAL_MNEMONIC(ANDLO, ANDLO, "andlo"), ++ NORMAL_MNEMONIC(OREQ, OREQ, "oreq"), ++ NORMAL_MNEMONIC(ORNE, ORNE, "orne"), ++ NORMAL_MNEMONIC(ORCC, ORCC, "orcc"), ++ NORMAL_MNEMONIC(ORCS, ORCS, "orcs"), ++ NORMAL_MNEMONIC(ORGE, ORGE, "orge"), ++ NORMAL_MNEMONIC(ORLT, ORLT, "orlt"), ++ NORMAL_MNEMONIC(ORMI, ORMI, "ormi"), ++ NORMAL_MNEMONIC(ORPL, ORPL, "orpl"), ++ NORMAL_MNEMONIC(ORLS, ORLS, "orls"), ++ NORMAL_MNEMONIC(ORGT, ORGT, "orgt"), ++ NORMAL_MNEMONIC(ORLE, ORLE, "orle"), ++ NORMAL_MNEMONIC(ORHI, ORHI, "orhi"), ++ NORMAL_MNEMONIC(ORVS, ORVS, "orvs"), ++ NORMAL_MNEMONIC(ORVC, ORVC, "orvc"), ++ NORMAL_MNEMONIC(ORQS, ORQS, "orqs"), ++ NORMAL_MNEMONIC(ORAL, ORAL, "oral"), ++ NORMAL_MNEMONIC(ORHS, ORHS, "orhs"), ++ NORMAL_MNEMONIC(ORLO, ORLO, "orlo"), ++ NORMAL_MNEMONIC(EOREQ, EOREQ, "eoreq"), ++ NORMAL_MNEMONIC(EORNE, EORNE, "eorne"), ++ NORMAL_MNEMONIC(EORCC, EORCC, "eorcc"), ++ NORMAL_MNEMONIC(EORCS, EORCS, "eorcs"), ++ NORMAL_MNEMONIC(EORGE, EORGE, "eorge"), ++ NORMAL_MNEMONIC(EORLT, EORLT, "eorlt"), ++ NORMAL_MNEMONIC(EORMI, EORMI, "eormi"), ++ NORMAL_MNEMONIC(EORPL, EORPL, "eorpl"), ++ NORMAL_MNEMONIC(EORLS, EORLS, "eorls"), ++ NORMAL_MNEMONIC(EORGT, EORGT, "eorgt"), ++ NORMAL_MNEMONIC(EORLE, EORLE, "eorle"), ++ NORMAL_MNEMONIC(EORHI, EORHI, "eorhi"), ++ NORMAL_MNEMONIC(EORVS, EORVS, "eorvs"), ++ NORMAL_MNEMONIC(EORVC, EORVC, "eorvc"), ++ NORMAL_MNEMONIC(EORQS, EORQS, "eorqs"), ++ NORMAL_MNEMONIC(EORAL, EORAL, "eoral"), ++ NORMAL_MNEMONIC(EORHS, EORHS, "eorhs"), ++ NORMAL_MNEMONIC(EORLO, EORLO, "eorlo"), ++ NORMAL_MNEMONIC(LD_WEQ, LD_WEQ, "ld.weq"), ++ NORMAL_MNEMONIC(LD_WNE, LD_WNE, "ld.wne"), ++ NORMAL_MNEMONIC(LD_WCC, LD_WCC, "ld.wcc"), ++ NORMAL_MNEMONIC(LD_WCS, LD_WCS, "ld.wcs"), ++ NORMAL_MNEMONIC(LD_WGE, LD_WGE, "ld.wge"), ++ NORMAL_MNEMONIC(LD_WLT, LD_WLT, "ld.wlt"), ++ NORMAL_MNEMONIC(LD_WMI, LD_WMI, "ld.wmi"), ++ NORMAL_MNEMONIC(LD_WPL, LD_WPL, "ld.wpl"), ++ NORMAL_MNEMONIC(LD_WLS, LD_WLS, "ld.wls"), ++ NORMAL_MNEMONIC(LD_WGT, LD_WGT, "ld.wgt"), ++ NORMAL_MNEMONIC(LD_WLE, LD_WLE, "ld.wle"), ++ NORMAL_MNEMONIC(LD_WHI, LD_WHI, "ld.whi"), ++ NORMAL_MNEMONIC(LD_WVS, LD_WVS, "ld.wvs"), ++ NORMAL_MNEMONIC(LD_WVC, LD_WVC, "ld.wvc"), ++ NORMAL_MNEMONIC(LD_WQS, LD_WQS, "ld.wqs"), ++ NORMAL_MNEMONIC(LD_WAL, LD_WAL, "ld.wal"), ++ NORMAL_MNEMONIC(LD_WHS, LD_WHS, "ld.whs"), ++ NORMAL_MNEMONIC(LD_WLO, LD_WLO, "ld.wlo"), ++ NORMAL_MNEMONIC(LD_SHEQ, LD_SHEQ, "ld.sheq"), ++ NORMAL_MNEMONIC(LD_SHNE, LD_SHNE, "ld.shne"), ++ NORMAL_MNEMONIC(LD_SHCC, LD_SHCC, "ld.shcc"), ++ NORMAL_MNEMONIC(LD_SHCS, LD_SHCS, "ld.shcs"), ++ NORMAL_MNEMONIC(LD_SHGE, LD_SHGE, "ld.shge"), ++ NORMAL_MNEMONIC(LD_SHLT, LD_SHLT, "ld.shlt"), ++ NORMAL_MNEMONIC(LD_SHMI, LD_SHMI, "ld.shmi"), ++ NORMAL_MNEMONIC(LD_SHPL, LD_SHPL, "ld.shpl"), ++ NORMAL_MNEMONIC(LD_SHLS, LD_SHLS, "ld.shls"), ++ NORMAL_MNEMONIC(LD_SHGT, LD_SHGT, "ld.shgt"), ++ NORMAL_MNEMONIC(LD_SHLE, LD_SHLE, "ld.shle"), ++ NORMAL_MNEMONIC(LD_SHHI, LD_SHHI, "ld.shhi"), ++ NORMAL_MNEMONIC(LD_SHVS, LD_SHVS, "ld.shvs"), ++ NORMAL_MNEMONIC(LD_SHVC, LD_SHVC, "ld.shvc"), ++ NORMAL_MNEMONIC(LD_SHQS, LD_SHQS, "ld.shqs"), ++ NORMAL_MNEMONIC(LD_SHAL, LD_SHAL, "ld.shal"), ++ NORMAL_MNEMONIC(LD_SHHS, LD_SHHS, "ld.shhs"), ++ NORMAL_MNEMONIC(LD_SHLO, LD_SHLO, "ld.shlo"), ++ NORMAL_MNEMONIC(LD_UHEQ, LD_UHEQ, "ld.uheq"), ++ NORMAL_MNEMONIC(LD_UHNE, LD_UHNE, "ld.uhne"), ++ NORMAL_MNEMONIC(LD_UHCC, LD_UHCC, "ld.uhcc"), ++ NORMAL_MNEMONIC(LD_UHCS, LD_UHCS, "ld.uhcs"), ++ NORMAL_MNEMONIC(LD_UHGE, LD_UHGE, "ld.uhge"), ++ NORMAL_MNEMONIC(LD_UHLT, LD_UHLT, "ld.uhlt"), ++ NORMAL_MNEMONIC(LD_UHMI, LD_UHMI, "ld.uhmi"), ++ NORMAL_MNEMONIC(LD_UHPL, LD_UHPL, "ld.uhpl"), ++ NORMAL_MNEMONIC(LD_UHLS, LD_UHLS, "ld.uhls"), ++ NORMAL_MNEMONIC(LD_UHGT, LD_UHGT, "ld.uhgt"), ++ NORMAL_MNEMONIC(LD_UHLE, LD_UHLE, "ld.uhle"), ++ NORMAL_MNEMONIC(LD_UHHI, LD_UHHI, "ld.uhhi"), ++ NORMAL_MNEMONIC(LD_UHVS, LD_UHVS, "ld.uhvs"), ++ NORMAL_MNEMONIC(LD_UHVC, LD_UHVC, "ld.uhvc"), ++ NORMAL_MNEMONIC(LD_UHQS, LD_UHQS, "ld.uhqs"), ++ NORMAL_MNEMONIC(LD_UHAL, LD_UHAL, "ld.uhal"), ++ NORMAL_MNEMONIC(LD_UHHS, LD_UHHS, "ld.uhhs"), ++ NORMAL_MNEMONIC(LD_UHLO, LD_UHLO, "ld.uhlo"), ++ NORMAL_MNEMONIC(LD_SBEQ, LD_SBEQ, "ld.sbeq"), ++ NORMAL_MNEMONIC(LD_SBNE, LD_SBNE, "ld.sbne"), ++ NORMAL_MNEMONIC(LD_SBCC, LD_SBCC, "ld.sbcc"), ++ NORMAL_MNEMONIC(LD_SBCS, LD_SBCS, "ld.sbcs"), ++ NORMAL_MNEMONIC(LD_SBGE, LD_SBGE, "ld.sbge"), ++ NORMAL_MNEMONIC(LD_SBLT, LD_SBLT, "ld.sblt"), ++ NORMAL_MNEMONIC(LD_SBMI, LD_SBMI, "ld.sbmi"), ++ NORMAL_MNEMONIC(LD_SBPL, LD_SBPL, "ld.sbpl"), ++ NORMAL_MNEMONIC(LD_SBLS, LD_SBLS, "ld.sbls"), ++ NORMAL_MNEMONIC(LD_SBGT, LD_SBGT, "ld.sbgt"), ++ NORMAL_MNEMONIC(LD_SBLE, LD_SBLE, "ld.sble"), ++ NORMAL_MNEMONIC(LD_SBHI, LD_SBHI, "ld.sbhi"), ++ NORMAL_MNEMONIC(LD_SBVS, LD_SBVS, "ld.sbvs"), ++ NORMAL_MNEMONIC(LD_SBVC, LD_SBVC, "ld.sbvc"), ++ NORMAL_MNEMONIC(LD_SBQS, LD_SBQS, "ld.sbqs"), ++ NORMAL_MNEMONIC(LD_SBAL, LD_SBAL, "ld.sbal"), ++ NORMAL_MNEMONIC(LD_SBHS, LD_SBHS, "ld.sbhs"), ++ NORMAL_MNEMONIC(LD_SBLO, LD_SBLO, "ld.sblo"), ++ NORMAL_MNEMONIC(LD_UBEQ, LD_UBEQ, "ld.ubeq"), ++ NORMAL_MNEMONIC(LD_UBNE, LD_UBNE, "ld.ubne"), ++ NORMAL_MNEMONIC(LD_UBCC, LD_UBCC, "ld.ubcc"), ++ NORMAL_MNEMONIC(LD_UBCS, LD_UBCS, "ld.ubcs"), ++ NORMAL_MNEMONIC(LD_UBGE, LD_UBGE, "ld.ubge"), ++ NORMAL_MNEMONIC(LD_UBLT, LD_UBLT, "ld.ublt"), ++ NORMAL_MNEMONIC(LD_UBMI, LD_UBMI, "ld.ubmi"), ++ NORMAL_MNEMONIC(LD_UBPL, LD_UBPL, "ld.ubpl"), ++ NORMAL_MNEMONIC(LD_UBLS, LD_UBLS, "ld.ubls"), ++ NORMAL_MNEMONIC(LD_UBGT, LD_UBGT, "ld.ubgt"), ++ NORMAL_MNEMONIC(LD_UBLE, LD_UBLE, "ld.uble"), ++ NORMAL_MNEMONIC(LD_UBHI, LD_UBHI, "ld.ubhi"), ++ NORMAL_MNEMONIC(LD_UBVS, LD_UBVS, "ld.ubvs"), ++ NORMAL_MNEMONIC(LD_UBVC, LD_UBVC, "ld.ubvc"), ++ NORMAL_MNEMONIC(LD_UBQS, LD_UBQS, "ld.ubqs"), ++ NORMAL_MNEMONIC(LD_UBAL, LD_UBAL, "ld.ubal"), ++ NORMAL_MNEMONIC(LD_UBHS, LD_UBHS, "ld.ubhs"), ++ NORMAL_MNEMONIC(LD_UBLO, LD_UBLO, "ld.ublo"), ++ NORMAL_MNEMONIC(ST_WEQ, ST_WEQ, "st.weq"), ++ NORMAL_MNEMONIC(ST_WNE, ST_WNE, "st.wne"), ++ NORMAL_MNEMONIC(ST_WCC, ST_WCC, "st.wcc"), ++ NORMAL_MNEMONIC(ST_WCS, ST_WCS, "st.wcs"), ++ NORMAL_MNEMONIC(ST_WGE, ST_WGE, "st.wge"), ++ NORMAL_MNEMONIC(ST_WLT, ST_WLT, "st.wlt"), ++ NORMAL_MNEMONIC(ST_WMI, ST_WMI, "st.wmi"), ++ NORMAL_MNEMONIC(ST_WPL, ST_WPL, "st.wpl"), ++ NORMAL_MNEMONIC(ST_WLS, ST_WLS, "st.wls"), ++ NORMAL_MNEMONIC(ST_WGT, ST_WGT, "st.wgt"), ++ NORMAL_MNEMONIC(ST_WLE, ST_WLE, "st.wle"), ++ NORMAL_MNEMONIC(ST_WHI, ST_WHI, "st.whi"), ++ NORMAL_MNEMONIC(ST_WVS, ST_WVS, "st.wvs"), ++ NORMAL_MNEMONIC(ST_WVC, ST_WVC, "st.wvc"), ++ NORMAL_MNEMONIC(ST_WQS, ST_WQS, "st.wqs"), ++ NORMAL_MNEMONIC(ST_WAL, ST_WAL, "st.wal"), ++ NORMAL_MNEMONIC(ST_WHS, ST_WHS, "st.whs"), ++ NORMAL_MNEMONIC(ST_WLO, ST_WLO, "st.wlo"), ++ NORMAL_MNEMONIC(ST_HEQ, ST_HEQ, "st.heq"), ++ NORMAL_MNEMONIC(ST_HNE, ST_HNE, "st.hne"), ++ NORMAL_MNEMONIC(ST_HCC, ST_HCC, "st.hcc"), ++ NORMAL_MNEMONIC(ST_HCS, ST_HCS, "st.hcs"), ++ NORMAL_MNEMONIC(ST_HGE, ST_HGE, "st.hge"), ++ NORMAL_MNEMONIC(ST_HLT, ST_HLT, "st.hlt"), ++ NORMAL_MNEMONIC(ST_HMI, ST_HMI, "st.hmi"), ++ NORMAL_MNEMONIC(ST_HPL, ST_HPL, "st.hpl"), ++ NORMAL_MNEMONIC(ST_HLS, ST_HLS, "st.hls"), ++ NORMAL_MNEMONIC(ST_HGT, ST_HGT, "st.hgt"), ++ NORMAL_MNEMONIC(ST_HLE, ST_HLE, "st.hle"), ++ NORMAL_MNEMONIC(ST_HHI, ST_HHI, "st.hhi"), ++ NORMAL_MNEMONIC(ST_HVS, ST_HVS, "st.hvs"), ++ NORMAL_MNEMONIC(ST_HVC, ST_HVC, "st.hvc"), ++ NORMAL_MNEMONIC(ST_HQS, ST_HQS, "st.hqs"), ++ NORMAL_MNEMONIC(ST_HAL, ST_HAL, "st.hal"), ++ NORMAL_MNEMONIC(ST_HHS, ST_HHS, "st.hhs"), ++ NORMAL_MNEMONIC(ST_HLO, ST_HLO, "st.hlo"), ++ NORMAL_MNEMONIC(ST_BEQ, ST_BEQ, "st.beq"), ++ NORMAL_MNEMONIC(ST_BNE, ST_BNE, "st.bne"), ++ NORMAL_MNEMONIC(ST_BCC, ST_BCC, "st.bcc"), ++ NORMAL_MNEMONIC(ST_BCS, ST_BCS, "st.bcs"), ++ NORMAL_MNEMONIC(ST_BGE, ST_BGE, "st.bge"), ++ NORMAL_MNEMONIC(ST_BLT, ST_BLT, "st.blt"), ++ NORMAL_MNEMONIC(ST_BMI, ST_BMI, "st.bmi"), ++ NORMAL_MNEMONIC(ST_BPL, ST_BPL, "st.bpl"), ++ NORMAL_MNEMONIC(ST_BLS, ST_BLS, "st.bls"), ++ NORMAL_MNEMONIC(ST_BGT, ST_BGT, "st.bgt"), ++ NORMAL_MNEMONIC(ST_BLE, ST_BLE, "st.ble"), ++ NORMAL_MNEMONIC(ST_BHI, ST_BHI, "st.bhi"), ++ NORMAL_MNEMONIC(ST_BVS, ST_BVS, "st.bvs"), ++ NORMAL_MNEMONIC(ST_BVC, ST_BVC, "st.bvc"), ++ NORMAL_MNEMONIC(ST_BQS, ST_BQS, "st.bqs"), ++ NORMAL_MNEMONIC(ST_BAL, ST_BAL, "st.bal"), ++ NORMAL_MNEMONIC(ST_BHS, ST_BHS, "st.bhs"), ++ NORMAL_MNEMONIC(ST_BLO, ST_BLO, "st.blo"), ++ NORMAL_MNEMONIC(MOVH, MOVH, "movh"), ++ ++ }; ++#undef NORMAL_MNEMONIC ++#undef ALIAS_MNEMONIC ++#undef FP_MNEMONIC +--- /dev/null ++++ b/opcodes/avr32-opc.h +@@ -0,0 +1,2341 @@ ++/* Opcode tables for AVR32. ++ Copyright 2005,2006,2007,2008,2009 Atmel Corporation. ++ ++ Written by Haavard Skinnemoen, Atmel Norway, ++ ++ This file is part of libopcodes. ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ This program is distributed in the hope that it will be useful, but ++ WITHOUT ANY WARRANTY; without even the implied warranty of ++ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ++ General Public License for more details. ++ ++ You should have received a copy of the GNU General Public License ++ along with this program; if not, write to the Free Software ++ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ++ 02111-1307, USA. */ ++ ++#include "bfd.h" ++ ++#define AVR32_MAX_OPERANDS 8 ++#define AVR32_MAX_FIELDS 8 ++ ++#define AVR32_V1 (1 << 1) ++#define AVR32_SIMD (1 << 2) ++#define AVR32_DSP (1 << 3) ++#define AVR32_RMW (1 << 4) ++#define AVR32_V2 (1 << 5) ++#define AVR32_V3 (1 << 6) ++#define AVR32_V3FP (1 << 7) ++#define AVR32_PICO (1 << 17) ++ ++/* Registers we commonly refer to */ ++#define AVR32_REG_R12 12 ++#define AVR32_REG_SP 13 ++#define AVR32_REG_LR 14 ++#define AVR32_REG_PC 15 ++ ++struct avr32_ifield ++{ ++ int id; ++ unsigned short bitsize; ++ unsigned short shift; ++ unsigned long mask; ++ ++ /* If the value doesn't fit, it will be truncated with no warning */ ++ void (*insert)(const struct avr32_ifield *, void *, unsigned long); ++ void (*extract)(const struct avr32_ifield *, void *, unsigned long *); ++}; ++ ++struct avr32_opcode ++{ ++ int id; ++ int size; ++ unsigned long value; ++ unsigned long mask; ++ const struct avr32_syntax *syntax; ++ bfd_reloc_code_real_type reloc_type; ++ unsigned int nr_fields; ++ /* if relaxable, which field is variable, otherwise -1 */ ++ int var_field; ++ const struct avr32_ifield *fields[AVR32_MAX_FIELDS]; ++}; ++ ++struct avr32_alias ++{ ++ int id; ++ const struct avr32_opcode *opc; ++ struct { ++ int is_opindex; ++ unsigned long value; ++ } operand_map[AVR32_MAX_OPERANDS]; ++}; ++ ++struct avr32_syntax ++{ ++ int id; ++ unsigned long isa_flags; ++ const struct avr32_mnemonic *mnemonic; ++ int type; ++ union { ++ const struct avr32_opcode *opc; ++ const struct avr32_alias *alias; ++ } u; ++ const struct avr32_syntax *next; ++ /* negative means "vararg" */ ++ int nr_operands; ++ int operand[AVR32_MAX_OPERANDS]; ++}; ++ ++#if 0 ++#define AVR32_ALIAS_MAKE_CONST(val) ((val) | 0x80000000UL) ++#define AVR32_ALIAS_IS_CONST(mapval) (((mapval) & 0x80000000UL) != 0) ++#define AVR32_ALIAS_GET_CONST(mapval) ((mapval) & ~0x80000000UL) ++#endif ++ ++struct avr32_mnemonic ++{ ++ int id; ++ const char *name; ++ const struct avr32_syntax *syntax; ++}; ++ ++extern const struct avr32_ifield avr32_ifield_table[]; ++extern struct avr32_opcode avr32_opc_table[]; ++extern const struct avr32_syntax avr32_syntax_table[]; ++extern const struct avr32_alias avr32_alias_table[]; ++extern const struct avr32_mnemonic avr32_mnemonic_table[]; ++ ++extern void avr32_insert_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_bit5c(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_k10(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_k21(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_cpop(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++extern void avr32_insert_k12cp(const struct avr32_ifield *field, ++ void *buf, unsigned long value); ++ ++extern void avr32_extract_simple(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_bit5c(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_k10(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_k21(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_cpop(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++extern void avr32_extract_k12cp(const struct avr32_ifield *field, ++ void *buf, unsigned long *value); ++ ++enum avr32_operand_type ++{ ++ AVR32_OPERAND_INTREG, /* just a register */ ++ AVR32_OPERAND_INTREG_PREDEC, /* register with pre-decrement */ ++ AVR32_OPERAND_INTREG_POSTINC, /* register with post-increment */ ++ AVR32_OPERAND_INTREG_LSL, /* register with left shift */ ++ AVR32_OPERAND_INTREG_LSR, /* register with right shift */ ++ AVR32_OPERAND_INTREG_BSEL, /* register with byte selector */ ++ AVR32_OPERAND_INTREG_HSEL, /* register with halfword selector */ ++ AVR32_OPERAND_INTREG_SDISP, /* Rp[signed disp] */ ++ AVR32_OPERAND_INTREG_SDISP_H, /* Rp[signed hword-aligned disp] */ ++ AVR32_OPERAND_INTREG_SDISP_W, /* Rp[signed word-aligned disp] */ ++ AVR32_OPERAND_INTREG_UDISP, /* Rp[unsigned disp] */ ++ AVR32_OPERAND_INTREG_UDISP_H, /* Rp[unsigned hword-aligned disp] */ ++ AVR32_OPERAND_INTREG_UDISP_W, /* Rp[unsigned word-aligned disp] */ ++ AVR32_OPERAND_INTREG_INDEX, /* Rp[Ri << sa] */ ++ AVR32_OPERAND_INTREG_XINDEX, /* Rp[Ri:bytesel << 2] */ ++ AVR32_OPERAND_DWREG, /* Even-numbered register */ ++ AVR32_OPERAND_PC_UDISP_W, /* PC[unsigned word-aligned disp] or label */ ++ AVR32_OPERAND_SP, /* Just SP */ ++ AVR32_OPERAND_SP_UDISP_W, /* SP[unsigned word-aligned disp] */ ++ AVR32_OPERAND_CPNO, ++ AVR32_OPERAND_CPREG, ++ AVR32_OPERAND_CPREG_D, ++ AVR32_OPERAND_UNSIGNED_CONST, ++ AVR32_OPERAND_UNSIGNED_CONST_W, ++ AVR32_OPERAND_SIGNED_CONST, ++ AVR32_OPERAND_SIGNED_CONST_W, ++ AVR32_OPERAND_JMPLABEL, ++ AVR32_OPERAND_UNSIGNED_NUMBER, ++ AVR32_OPERAND_UNSIGNED_NUMBER_W, ++ AVR32_OPERAND_REGLIST8, ++ AVR32_OPERAND_REGLIST9, ++ AVR32_OPERAND_REGLIST16, ++ AVR32_OPERAND_REGLIST_LDM, ++ AVR32_OPERAND_REGLIST_CP8, ++ AVR32_OPERAND_REGLIST_CPD8, ++ AVR32_OPERAND_RETVAL, ++ AVR32_OPERAND_MCALL, ++ AVR32_OPERAND_JOSPINC, ++ AVR32_OPERAND_COH, ++ AVR32_OPERAND_PICO_REG_W, ++ AVR32_OPERAND_PICO_REG_D, ++ AVR32_OPERAND_PICO_REGLIST_W, ++ AVR32_OPERAND_PICO_REGLIST_D, ++ AVR32_OPERAND_PICO_IN, ++ AVR32_OPERAND_PICO_OUT0, ++ AVR32_OPERAND_PICO_OUT1, ++ AVR32_OPERAND_PICO_OUT2, ++ AVR32_OPERAND_PICO_OUT3, ++ AVR32_OPERAND__END_ ++}; ++#define AVR32_OPERAND_UNKNOWN AVR32_OPERAND__END_ ++#define AVR32_NR_OPERANDS AVR32_OPERAND__END_ ++ ++enum avr32_ifield_type ++{ ++ AVR32_IFIELD_RX, ++ AVR32_IFIELD_RY, ++ AVR32_IFIELD_COND4C, ++ AVR32_IFIELD_K8C, ++ AVR32_IFIELD_K7C, ++ AVR32_IFIELD_K5C, ++ AVR32_IFIELD_K3, ++ AVR32_IFIELD_RY_DW, ++ AVR32_IFIELD_COND4E, ++ AVR32_IFIELD_K8E, ++ AVR32_IFIELD_BIT5C, ++ AVR32_IFIELD_COND3, ++ AVR32_IFIELD_K10, ++ AVR32_IFIELD_POPM, ++ AVR32_IFIELD_K2, ++ AVR32_IFIELD_RD_E, ++ AVR32_IFIELD_RD_DW, ++ AVR32_IFIELD_X, ++ AVR32_IFIELD_Y, ++ AVR32_IFIELD_X2, ++ AVR32_IFIELD_Y2, ++ AVR32_IFIELD_K5E, ++ AVR32_IFIELD_PART2, ++ AVR32_IFIELD_PART1, ++ AVR32_IFIELD_K16, ++ AVR32_IFIELD_CACHEOP, ++ AVR32_IFIELD_K11, ++ AVR32_IFIELD_K21, ++ AVR32_IFIELD_CPOP, ++ AVR32_IFIELD_CPNO, ++ AVR32_IFIELD_CRD_RI, ++ AVR32_IFIELD_CRX, ++ AVR32_IFIELD_CRY, ++ AVR32_IFIELD_K7E, ++ AVR32_IFIELD_CRD_DW, ++ AVR32_IFIELD_PART1_K12, ++ AVR32_IFIELD_PART2_K12, ++ AVR32_IFIELD_K12, ++ AVR32_IFIELD_S5, ++ AVR32_IFIELD_K5E2, ++ AVR32_IFIELD_K4, ++ AVR32_IFIELD_COND4E2, ++ AVR32_IFIELD_K8E2, ++ AVR32_IFIELD_K6, ++ AVR32_IFIELD_MEM15, ++ AVR32_IFIELD_MEMB5, ++ AVR32_IFIELD_W, ++ AVR32_IFIELD_CM_HL, ++ AVR32_IFIELD_K12CP, ++ AVR32_IFIELD_K9E, ++ AVR32_IFIELD_FP_RX, ++ AVR32_IFIELD_FP_RY, ++ AVR32_IFIELD_FP_RD, ++ AVR32_IFIELD_FP_RA, ++ AVR32_IFIELD__END_, ++}; ++#define AVR32_NR_IFIELDS AVR32_IFIELD__END_ ++ ++enum avr32_opc_type ++{ ++ AVR32_OPC_ABS, ++ AVR32_OPC_ACALL, ++ AVR32_OPC_ACR, ++ AVR32_OPC_ADC, ++ AVR32_OPC_ADD1, ++ AVR32_OPC_ADD2, ++ AVR32_OPC_ADDABS, ++ AVR32_OPC_ADDHH_W, ++ AVR32_OPC_AND1, ++ AVR32_OPC_AND2, ++ AVR32_OPC_AND3, ++ AVR32_OPC_ANDH, ++ AVR32_OPC_ANDH_COH, ++ AVR32_OPC_ANDL, ++ AVR32_OPC_ANDL_COH, ++ AVR32_OPC_ANDN, ++ AVR32_OPC_ASR1, ++ AVR32_OPC_ASR3, ++ AVR32_OPC_ASR2, ++ AVR32_OPC_BLD, ++ AVR32_OPC_BREQ1, ++ AVR32_OPC_BRNE1, ++ AVR32_OPC_BRCC1, ++ AVR32_OPC_BRCS1, ++ AVR32_OPC_BRGE1, ++ AVR32_OPC_BRLT1, ++ AVR32_OPC_BRMI1, ++ AVR32_OPC_BRPL1, ++ AVR32_OPC_BREQ2, ++ AVR32_OPC_BRNE2, ++ AVR32_OPC_BRCC2, ++ AVR32_OPC_BRCS2, ++ AVR32_OPC_BRGE2, ++ AVR32_OPC_BRLT2, ++ AVR32_OPC_BRMI2, ++ AVR32_OPC_BRPL2, ++ AVR32_OPC_BRLS, ++ AVR32_OPC_BRGT, ++ AVR32_OPC_BRLE, ++ AVR32_OPC_BRHI, ++ AVR32_OPC_BRVS, ++ AVR32_OPC_BRVC, ++ AVR32_OPC_BRQS, ++ AVR32_OPC_BRAL, ++ AVR32_OPC_BREAKPOINT, ++ AVR32_OPC_BREV, ++ AVR32_OPC_BST, ++ AVR32_OPC_CACHE, ++ AVR32_OPC_CASTS_B, ++ AVR32_OPC_CASTS_H, ++ AVR32_OPC_CASTU_B, ++ AVR32_OPC_CASTU_H, ++ AVR32_OPC_CBR, ++ AVR32_OPC_CLZ, ++ AVR32_OPC_COM, ++ AVR32_OPC_COP, ++ AVR32_OPC_CP_B, ++ AVR32_OPC_CP_H, ++ AVR32_OPC_CP_W1, ++ AVR32_OPC_CP_W2, ++ AVR32_OPC_CP_W3, ++ AVR32_OPC_CPC1, ++ AVR32_OPC_CPC2, ++ AVR32_OPC_CSRF, ++ AVR32_OPC_CSRFCZ, ++ AVR32_OPC_DIVS, ++ AVR32_OPC_DIVU, ++ AVR32_OPC_EOR1, ++ AVR32_OPC_EOR2, ++ AVR32_OPC_EOR3, ++ AVR32_OPC_EORL, ++ AVR32_OPC_EORH, ++ AVR32_OPC_FRS, ++ AVR32_OPC_ICALL, ++ AVR32_OPC_INCJOSP, ++ AVR32_OPC_LD_D1, ++ AVR32_OPC_LD_D2, ++ AVR32_OPC_LD_D3, ++ AVR32_OPC_LD_D5, ++ AVR32_OPC_LD_D4, ++ AVR32_OPC_LD_SB2, ++ AVR32_OPC_LD_SB1, ++ AVR32_OPC_LD_UB1, ++ AVR32_OPC_LD_UB2, ++ AVR32_OPC_LD_UB5, ++ AVR32_OPC_LD_UB3, ++ AVR32_OPC_LD_UB4, ++ AVR32_OPC_LD_SH1, ++ AVR32_OPC_LD_SH2, ++ AVR32_OPC_LD_SH5, ++ AVR32_OPC_LD_SH3, ++ AVR32_OPC_LD_SH4, ++ AVR32_OPC_LD_UH1, ++ AVR32_OPC_LD_UH2, ++ AVR32_OPC_LD_UH5, ++ AVR32_OPC_LD_UH3, ++ AVR32_OPC_LD_UH4, ++ AVR32_OPC_LD_W1, ++ AVR32_OPC_LD_W2, ++ AVR32_OPC_LD_W5, ++ AVR32_OPC_LD_W6, ++ AVR32_OPC_LD_W3, ++ AVR32_OPC_LD_W4, ++ AVR32_OPC_LDC_D1, ++ AVR32_OPC_LDC_D2, ++ AVR32_OPC_LDC_D3, ++ AVR32_OPC_LDC_W1, ++ AVR32_OPC_LDC_W2, ++ AVR32_OPC_LDC_W3, ++ AVR32_OPC_LDC0_D, ++ AVR32_OPC_LDC0_W, ++ AVR32_OPC_LDCM_D, ++ AVR32_OPC_LDCM_D_PU, ++ AVR32_OPC_LDCM_W, ++ AVR32_OPC_LDCM_W_PU, ++ AVR32_OPC_LDDPC, ++ AVR32_OPC_LDDPC_EXT, ++ AVR32_OPC_LDDSP, ++ AVR32_OPC_LDINS_B, ++ AVR32_OPC_LDINS_H, ++ AVR32_OPC_LDM, ++ AVR32_OPC_LDMTS, ++ AVR32_OPC_LDMTS_PU, ++ AVR32_OPC_LDSWP_SH, ++ AVR32_OPC_LDSWP_UH, ++ AVR32_OPC_LDSWP_W, ++ AVR32_OPC_LSL1, ++ AVR32_OPC_LSL3, ++ AVR32_OPC_LSL2, ++ AVR32_OPC_LSR1, ++ AVR32_OPC_LSR3, ++ AVR32_OPC_LSR2, ++ AVR32_OPC_MAC, ++ AVR32_OPC_MACHH_D, ++ AVR32_OPC_MACHH_W, ++ AVR32_OPC_MACS_D, ++ AVR32_OPC_MACSATHH_W, ++ AVR32_OPC_MACUD, ++ AVR32_OPC_MACWH_D, ++ AVR32_OPC_MAX, ++ AVR32_OPC_MCALL, ++ AVR32_OPC_MFDR, ++ AVR32_OPC_MFSR, ++ AVR32_OPC_MIN, ++ AVR32_OPC_MOV3, ++ AVR32_OPC_MOV1, ++ AVR32_OPC_MOV2, ++ AVR32_OPC_MOVEQ1, ++ AVR32_OPC_MOVNE1, ++ AVR32_OPC_MOVCC1, ++ AVR32_OPC_MOVCS1, ++ AVR32_OPC_MOVGE1, ++ AVR32_OPC_MOVLT1, ++ AVR32_OPC_MOVMI1, ++ AVR32_OPC_MOVPL1, ++ AVR32_OPC_MOVLS1, ++ AVR32_OPC_MOVGT1, ++ AVR32_OPC_MOVLE1, ++ AVR32_OPC_MOVHI1, ++ AVR32_OPC_MOVVS1, ++ AVR32_OPC_MOVVC1, ++ AVR32_OPC_MOVQS1, ++ AVR32_OPC_MOVAL1, ++ AVR32_OPC_MOVEQ2, ++ AVR32_OPC_MOVNE2, ++ AVR32_OPC_MOVCC2, ++ AVR32_OPC_MOVCS2, ++ AVR32_OPC_MOVGE2, ++ AVR32_OPC_MOVLT2, ++ AVR32_OPC_MOVMI2, ++ AVR32_OPC_MOVPL2, ++ AVR32_OPC_MOVLS2, ++ AVR32_OPC_MOVGT2, ++ AVR32_OPC_MOVLE2, ++ AVR32_OPC_MOVHI2, ++ AVR32_OPC_MOVVS2, ++ AVR32_OPC_MOVVC2, ++ AVR32_OPC_MOVQS2, ++ AVR32_OPC_MOVAL2, ++ AVR32_OPC_MTDR, ++ AVR32_OPC_MTSR, ++ AVR32_OPC_MUL1, ++ AVR32_OPC_MUL2, ++ AVR32_OPC_MUL3, ++ AVR32_OPC_MULHH_W, ++ AVR32_OPC_MULNHH_W, ++ AVR32_OPC_MULNWH_D, ++ AVR32_OPC_MULSD, ++ AVR32_OPC_MULSATHH_H, ++ AVR32_OPC_MULSATHH_W, ++ AVR32_OPC_MULSATRNDHH_H, ++ AVR32_OPC_MULSATRNDWH_W, ++ AVR32_OPC_MULSATWH_W, ++ AVR32_OPC_MULU_D, ++ AVR32_OPC_MULWH_D, ++ AVR32_OPC_MUSFR, ++ AVR32_OPC_MUSTR, ++ AVR32_OPC_MVCR_D, ++ AVR32_OPC_MVCR_W, ++ AVR32_OPC_MVRC_D, ++ AVR32_OPC_MVRC_W, ++ AVR32_OPC_NEG, ++ AVR32_OPC_NOP, ++ AVR32_OPC_OR1, ++ AVR32_OPC_OR2, ++ AVR32_OPC_OR3, ++ AVR32_OPC_ORH, ++ AVR32_OPC_ORL, ++ AVR32_OPC_PABS_SB, ++ AVR32_OPC_PABS_SH, ++ AVR32_OPC_PACKSH_SB, ++ AVR32_OPC_PACKSH_UB, ++ AVR32_OPC_PACKW_SH, ++ AVR32_OPC_PADD_B, ++ AVR32_OPC_PADD_H, ++ AVR32_OPC_PADDH_SH, ++ AVR32_OPC_PADDH_UB, ++ AVR32_OPC_PADDS_SB, ++ AVR32_OPC_PADDS_SH, ++ AVR32_OPC_PADDS_UB, ++ AVR32_OPC_PADDS_UH, ++ AVR32_OPC_PADDSUB_H, ++ AVR32_OPC_PADDSUBH_SH, ++ AVR32_OPC_PADDSUBS_SH, ++ AVR32_OPC_PADDSUBS_UH, ++ AVR32_OPC_PADDX_H, ++ AVR32_OPC_PADDXH_SH, ++ AVR32_OPC_PADDXS_SH, ++ AVR32_OPC_PADDXS_UH, ++ AVR32_OPC_PASR_B, ++ AVR32_OPC_PASR_H, ++ AVR32_OPC_PAVG_SH, ++ AVR32_OPC_PAVG_UB, ++ AVR32_OPC_PLSL_B, ++ AVR32_OPC_PLSL_H, ++ AVR32_OPC_PLSR_B, ++ AVR32_OPC_PLSR_H, ++ AVR32_OPC_PMAX_SH, ++ AVR32_OPC_PMAX_UB, ++ AVR32_OPC_PMIN_SH, ++ AVR32_OPC_PMIN_UB, ++ AVR32_OPC_POPJC, ++ AVR32_OPC_POPM, ++ AVR32_OPC_POPM_E, ++ AVR32_OPC_PREF, ++ AVR32_OPC_PSAD, ++ AVR32_OPC_PSUB_B, ++ AVR32_OPC_PSUB_H, ++ AVR32_OPC_PSUBADD_H, ++ AVR32_OPC_PSUBADDH_SH, ++ AVR32_OPC_PSUBADDS_SH, ++ AVR32_OPC_PSUBADDS_UH, ++ AVR32_OPC_PSUBH_SH, ++ AVR32_OPC_PSUBH_UB, ++ AVR32_OPC_PSUBS_SB, ++ AVR32_OPC_PSUBS_SH, ++ AVR32_OPC_PSUBS_UB, ++ AVR32_OPC_PSUBS_UH, ++ AVR32_OPC_PSUBX_H, ++ AVR32_OPC_PSUBXH_SH, ++ AVR32_OPC_PSUBXS_SH, ++ AVR32_OPC_PSUBXS_UH, ++ AVR32_OPC_PUNPCKSB_H, ++ AVR32_OPC_PUNPCKUB_H, ++ AVR32_OPC_PUSHJC, ++ AVR32_OPC_PUSHM, ++ AVR32_OPC_PUSHM_E, ++ AVR32_OPC_RCALL1, ++ AVR32_OPC_RCALL2, ++ AVR32_OPC_RETEQ, ++ AVR32_OPC_RETNE, ++ AVR32_OPC_RETCC, ++ AVR32_OPC_RETCS, ++ AVR32_OPC_RETGE, ++ AVR32_OPC_RETLT, ++ AVR32_OPC_RETMI, ++ AVR32_OPC_RETPL, ++ AVR32_OPC_RETLS, ++ AVR32_OPC_RETGT, ++ AVR32_OPC_RETLE, ++ AVR32_OPC_RETHI, ++ AVR32_OPC_RETVS, ++ AVR32_OPC_RETVC, ++ AVR32_OPC_RETQS, ++ AVR32_OPC_RETAL, ++ AVR32_OPC_RETD, ++ AVR32_OPC_RETE, ++ AVR32_OPC_RETJ, ++ AVR32_OPC_RETS, ++ AVR32_OPC_RJMP, ++ AVR32_OPC_ROL, ++ AVR32_OPC_ROR, ++ AVR32_OPC_RSUB1, ++ AVR32_OPC_RSUB2, ++ AVR32_OPC_SATADD_H, ++ AVR32_OPC_SATADD_W, ++ AVR32_OPC_SATRNDS, ++ AVR32_OPC_SATRNDU, ++ AVR32_OPC_SATS, ++ AVR32_OPC_SATSUB_H, ++ AVR32_OPC_SATSUB_W1, ++ AVR32_OPC_SATSUB_W2, ++ AVR32_OPC_SATU, ++ AVR32_OPC_SBC, ++ AVR32_OPC_SBR, ++ AVR32_OPC_SCALL, ++ AVR32_OPC_SCR, ++ AVR32_OPC_SLEEP, ++ AVR32_OPC_SREQ, ++ AVR32_OPC_SRNE, ++ AVR32_OPC_SRCC, ++ AVR32_OPC_SRCS, ++ AVR32_OPC_SRGE, ++ AVR32_OPC_SRLT, ++ AVR32_OPC_SRMI, ++ AVR32_OPC_SRPL, ++ AVR32_OPC_SRLS, ++ AVR32_OPC_SRGT, ++ AVR32_OPC_SRLE, ++ AVR32_OPC_SRHI, ++ AVR32_OPC_SRVS, ++ AVR32_OPC_SRVC, ++ AVR32_OPC_SRQS, ++ AVR32_OPC_SRAL, ++ AVR32_OPC_SSRF, ++ AVR32_OPC_ST_B1, ++ AVR32_OPC_ST_B2, ++ AVR32_OPC_ST_B5, ++ AVR32_OPC_ST_B3, ++ AVR32_OPC_ST_B4, ++ AVR32_OPC_ST_D1, ++ AVR32_OPC_ST_D2, ++ AVR32_OPC_ST_D3, ++ AVR32_OPC_ST_D5, ++ AVR32_OPC_ST_D4, ++ AVR32_OPC_ST_H1, ++ AVR32_OPC_ST_H2, ++ AVR32_OPC_ST_H5, ++ AVR32_OPC_ST_H3, ++ AVR32_OPC_ST_H4, ++ AVR32_OPC_ST_W1, ++ AVR32_OPC_ST_W2, ++ AVR32_OPC_ST_W5, ++ AVR32_OPC_ST_W3, ++ AVR32_OPC_ST_W4, ++ AVR32_OPC_STC_D1, ++ AVR32_OPC_STC_D2, ++ AVR32_OPC_STC_D3, ++ AVR32_OPC_STC_W1, ++ AVR32_OPC_STC_W2, ++ AVR32_OPC_STC_W3, ++ AVR32_OPC_STC0_D, ++ AVR32_OPC_STC0_W, ++ AVR32_OPC_STCM_D, ++ AVR32_OPC_STCM_D_PU, ++ AVR32_OPC_STCM_W, ++ AVR32_OPC_STCM_W_PU, ++ AVR32_OPC_STCOND, ++ AVR32_OPC_STDSP, ++ AVR32_OPC_STHH_W2, ++ AVR32_OPC_STHH_W1, ++ AVR32_OPC_STM, ++ AVR32_OPC_STM_PU, ++ AVR32_OPC_STMTS, ++ AVR32_OPC_STMTS_PU, ++ AVR32_OPC_STSWP_H, ++ AVR32_OPC_STSWP_W, ++ AVR32_OPC_SUB1, ++ AVR32_OPC_SUB2, ++ AVR32_OPC_SUB5, ++ AVR32_OPC_SUB3_SP, ++ AVR32_OPC_SUB3, ++ AVR32_OPC_SUB4, ++ AVR32_OPC_SUBEQ, ++ AVR32_OPC_SUBNE, ++ AVR32_OPC_SUBCC, ++ AVR32_OPC_SUBCS, ++ AVR32_OPC_SUBGE, ++ AVR32_OPC_SUBLT, ++ AVR32_OPC_SUBMI, ++ AVR32_OPC_SUBPL, ++ AVR32_OPC_SUBLS, ++ AVR32_OPC_SUBGT, ++ AVR32_OPC_SUBLE, ++ AVR32_OPC_SUBHI, ++ AVR32_OPC_SUBVS, ++ AVR32_OPC_SUBVC, ++ AVR32_OPC_SUBQS, ++ AVR32_OPC_SUBAL, ++ AVR32_OPC_SUBFEQ, ++ AVR32_OPC_SUBFNE, ++ AVR32_OPC_SUBFCC, ++ AVR32_OPC_SUBFCS, ++ AVR32_OPC_SUBFGE, ++ AVR32_OPC_SUBFLT, ++ AVR32_OPC_SUBFMI, ++ AVR32_OPC_SUBFPL, ++ AVR32_OPC_SUBFLS, ++ AVR32_OPC_SUBFGT, ++ AVR32_OPC_SUBFLE, ++ AVR32_OPC_SUBFHI, ++ AVR32_OPC_SUBFVS, ++ AVR32_OPC_SUBFVC, ++ AVR32_OPC_SUBFQS, ++ AVR32_OPC_SUBFAL, ++ AVR32_OPC_SUBHH_W, ++ AVR32_OPC_SWAP_B, ++ AVR32_OPC_SWAP_BH, ++ AVR32_OPC_SWAP_H, ++ AVR32_OPC_SYNC, ++ AVR32_OPC_TLBR, ++ AVR32_OPC_TLBS, ++ AVR32_OPC_TLBW, ++ AVR32_OPC_TNBZ, ++ AVR32_OPC_TST, ++ AVR32_OPC_XCHG, ++ AVR32_OPC_MEMC, ++ AVR32_OPC_MEMS, ++ AVR32_OPC_MEMT, ++ AVR32_OPC_BFEXTS, ++ AVR32_OPC_BFEXTU, ++ AVR32_OPC_BFINS, ++ AVR32_OPC_RSUBEQ, ++ AVR32_OPC_RSUBNE, ++ AVR32_OPC_RSUBCC, ++ AVR32_OPC_RSUBCS, ++ AVR32_OPC_RSUBGE, ++ AVR32_OPC_RSUBLT, ++ AVR32_OPC_RSUBMI, ++ AVR32_OPC_RSUBPL, ++ AVR32_OPC_RSUBLS, ++ AVR32_OPC_RSUBGT, ++ AVR32_OPC_RSUBLE, ++ AVR32_OPC_RSUBHI, ++ AVR32_OPC_RSUBVS, ++ AVR32_OPC_RSUBVC, ++ AVR32_OPC_RSUBQS, ++ AVR32_OPC_RSUBAL, ++ AVR32_OPC_ADDEQ, ++ AVR32_OPC_ADDNE, ++ AVR32_OPC_ADDCC, ++ AVR32_OPC_ADDCS, ++ AVR32_OPC_ADDGE, ++ AVR32_OPC_ADDLT, ++ AVR32_OPC_ADDMI, ++ AVR32_OPC_ADDPL, ++ AVR32_OPC_ADDLS, ++ AVR32_OPC_ADDGT, ++ AVR32_OPC_ADDLE, ++ AVR32_OPC_ADDHI, ++ AVR32_OPC_ADDVS, ++ AVR32_OPC_ADDVC, ++ AVR32_OPC_ADDQS, ++ AVR32_OPC_ADDAL, ++ AVR32_OPC_SUB2EQ, ++ AVR32_OPC_SUB2NE, ++ AVR32_OPC_SUB2CC, ++ AVR32_OPC_SUB2CS, ++ AVR32_OPC_SUB2GE, ++ AVR32_OPC_SUB2LT, ++ AVR32_OPC_SUB2MI, ++ AVR32_OPC_SUB2PL, ++ AVR32_OPC_SUB2LS, ++ AVR32_OPC_SUB2GT, ++ AVR32_OPC_SUB2LE, ++ AVR32_OPC_SUB2HI, ++ AVR32_OPC_SUB2VS, ++ AVR32_OPC_SUB2VC, ++ AVR32_OPC_SUB2QS, ++ AVR32_OPC_SUB2AL, ++ AVR32_OPC_ANDEQ, ++ AVR32_OPC_ANDNE, ++ AVR32_OPC_ANDCC, ++ AVR32_OPC_ANDCS, ++ AVR32_OPC_ANDGE, ++ AVR32_OPC_ANDLT, ++ AVR32_OPC_ANDMI, ++ AVR32_OPC_ANDPL, ++ AVR32_OPC_ANDLS, ++ AVR32_OPC_ANDGT, ++ AVR32_OPC_ANDLE, ++ AVR32_OPC_ANDHI, ++ AVR32_OPC_ANDVS, ++ AVR32_OPC_ANDVC, ++ AVR32_OPC_ANDQS, ++ AVR32_OPC_ANDAL, ++ AVR32_OPC_OREQ, ++ AVR32_OPC_ORNE, ++ AVR32_OPC_ORCC, ++ AVR32_OPC_ORCS, ++ AVR32_OPC_ORGE, ++ AVR32_OPC_ORLT, ++ AVR32_OPC_ORMI, ++ AVR32_OPC_ORPL, ++ AVR32_OPC_ORLS, ++ AVR32_OPC_ORGT, ++ AVR32_OPC_ORLE, ++ AVR32_OPC_ORHI, ++ AVR32_OPC_ORVS, ++ AVR32_OPC_ORVC, ++ AVR32_OPC_ORQS, ++ AVR32_OPC_ORAL, ++ AVR32_OPC_EOREQ, ++ AVR32_OPC_EORNE, ++ AVR32_OPC_EORCC, ++ AVR32_OPC_EORCS, ++ AVR32_OPC_EORGE, ++ AVR32_OPC_EORLT, ++ AVR32_OPC_EORMI, ++ AVR32_OPC_EORPL, ++ AVR32_OPC_EORLS, ++ AVR32_OPC_EORGT, ++ AVR32_OPC_EORLE, ++ AVR32_OPC_EORHI, ++ AVR32_OPC_EORVS, ++ AVR32_OPC_EORVC, ++ AVR32_OPC_EORQS, ++ AVR32_OPC_EORAL, ++ AVR32_OPC_LD_WEQ, ++ AVR32_OPC_LD_WNE, ++ AVR32_OPC_LD_WCC, ++ AVR32_OPC_LD_WCS, ++ AVR32_OPC_LD_WGE, ++ AVR32_OPC_LD_WLT, ++ AVR32_OPC_LD_WMI, ++ AVR32_OPC_LD_WPL, ++ AVR32_OPC_LD_WLS, ++ AVR32_OPC_LD_WGT, ++ AVR32_OPC_LD_WLE, ++ AVR32_OPC_LD_WHI, ++ AVR32_OPC_LD_WVS, ++ AVR32_OPC_LD_WVC, ++ AVR32_OPC_LD_WQS, ++ AVR32_OPC_LD_WAL, ++ AVR32_OPC_LD_SHEQ, ++ AVR32_OPC_LD_SHNE, ++ AVR32_OPC_LD_SHCC, ++ AVR32_OPC_LD_SHCS, ++ AVR32_OPC_LD_SHGE, ++ AVR32_OPC_LD_SHLT, ++ AVR32_OPC_LD_SHMI, ++ AVR32_OPC_LD_SHPL, ++ AVR32_OPC_LD_SHLS, ++ AVR32_OPC_LD_SHGT, ++ AVR32_OPC_LD_SHLE, ++ AVR32_OPC_LD_SHHI, ++ AVR32_OPC_LD_SHVS, ++ AVR32_OPC_LD_SHVC, ++ AVR32_OPC_LD_SHQS, ++ AVR32_OPC_LD_SHAL, ++ AVR32_OPC_LD_UHEQ, ++ AVR32_OPC_LD_UHNE, ++ AVR32_OPC_LD_UHCC, ++ AVR32_OPC_LD_UHCS, ++ AVR32_OPC_LD_UHGE, ++ AVR32_OPC_LD_UHLT, ++ AVR32_OPC_LD_UHMI, ++ AVR32_OPC_LD_UHPL, ++ AVR32_OPC_LD_UHLS, ++ AVR32_OPC_LD_UHGT, ++ AVR32_OPC_LD_UHLE, ++ AVR32_OPC_LD_UHHI, ++ AVR32_OPC_LD_UHVS, ++ AVR32_OPC_LD_UHVC, ++ AVR32_OPC_LD_UHQS, ++ AVR32_OPC_LD_UHAL, ++ AVR32_OPC_LD_SBEQ, ++ AVR32_OPC_LD_SBNE, ++ AVR32_OPC_LD_SBCC, ++ AVR32_OPC_LD_SBCS, ++ AVR32_OPC_LD_SBGE, ++ AVR32_OPC_LD_SBLT, ++ AVR32_OPC_LD_SBMI, ++ AVR32_OPC_LD_SBPL, ++ AVR32_OPC_LD_SBLS, ++ AVR32_OPC_LD_SBGT, ++ AVR32_OPC_LD_SBLE, ++ AVR32_OPC_LD_SBHI, ++ AVR32_OPC_LD_SBVS, ++ AVR32_OPC_LD_SBVC, ++ AVR32_OPC_LD_SBQS, ++ AVR32_OPC_LD_SBAL, ++ AVR32_OPC_LD_UBEQ, ++ AVR32_OPC_LD_UBNE, ++ AVR32_OPC_LD_UBCC, ++ AVR32_OPC_LD_UBCS, ++ AVR32_OPC_LD_UBGE, ++ AVR32_OPC_LD_UBLT, ++ AVR32_OPC_LD_UBMI, ++ AVR32_OPC_LD_UBPL, ++ AVR32_OPC_LD_UBLS, ++ AVR32_OPC_LD_UBGT, ++ AVR32_OPC_LD_UBLE, ++ AVR32_OPC_LD_UBHI, ++ AVR32_OPC_LD_UBVS, ++ AVR32_OPC_LD_UBVC, ++ AVR32_OPC_LD_UBQS, ++ AVR32_OPC_LD_UBAL, ++ AVR32_OPC_ST_WEQ, ++ AVR32_OPC_ST_WNE, ++ AVR32_OPC_ST_WCC, ++ AVR32_OPC_ST_WCS, ++ AVR32_OPC_ST_WGE, ++ AVR32_OPC_ST_WLT, ++ AVR32_OPC_ST_WMI, ++ AVR32_OPC_ST_WPL, ++ AVR32_OPC_ST_WLS, ++ AVR32_OPC_ST_WGT, ++ AVR32_OPC_ST_WLE, ++ AVR32_OPC_ST_WHI, ++ AVR32_OPC_ST_WVS, ++ AVR32_OPC_ST_WVC, ++ AVR32_OPC_ST_WQS, ++ AVR32_OPC_ST_WAL, ++ AVR32_OPC_ST_HEQ, ++ AVR32_OPC_ST_HNE, ++ AVR32_OPC_ST_HCC, ++ AVR32_OPC_ST_HCS, ++ AVR32_OPC_ST_HGE, ++ AVR32_OPC_ST_HLT, ++ AVR32_OPC_ST_HMI, ++ AVR32_OPC_ST_HPL, ++ AVR32_OPC_ST_HLS, ++ AVR32_OPC_ST_HGT, ++ AVR32_OPC_ST_HLE, ++ AVR32_OPC_ST_HHI, ++ AVR32_OPC_ST_HVS, ++ AVR32_OPC_ST_HVC, ++ AVR32_OPC_ST_HQS, ++ AVR32_OPC_ST_HAL, ++ AVR32_OPC_ST_BEQ, ++ AVR32_OPC_ST_BNE, ++ AVR32_OPC_ST_BCC, ++ AVR32_OPC_ST_BCS, ++ AVR32_OPC_ST_BGE, ++ AVR32_OPC_ST_BLT, ++ AVR32_OPC_ST_BMI, ++ AVR32_OPC_ST_BPL, ++ AVR32_OPC_ST_BLS, ++ AVR32_OPC_ST_BGT, ++ AVR32_OPC_ST_BLE, ++ AVR32_OPC_ST_BHI, ++ AVR32_OPC_ST_BVS, ++ AVR32_OPC_ST_BVC, ++ AVR32_OPC_ST_BQS, ++ AVR32_OPC_ST_BAL, ++ AVR32_OPC_MOVH, ++ AVR32_OPC_SSCALL, ++ AVR32_OPC_RETSS, ++ AVR32_OPC_FMAC_S, ++ AVR32_OPC_FNMAC_S, ++ AVR32_OPC_FMSC_S, ++ AVR32_OPC_FNMSC_S, ++ AVR32_OPC_FMUL_S, ++ AVR32_OPC_FNMUL_S, ++ AVR32_OPC_FADD_S, ++ AVR32_OPC_FSUB_S, ++ AVR32_OPC_FCASTRS_SW, ++ AVR32_OPC_FCASTRS_UW, ++ AVR32_OPC_FCASTSW_S, ++ AVR32_OPC_FCASTUW_S, ++ AVR32_OPC_FCMP_S, ++ AVR32_OPC_FCHK_S, ++ AVR32_OPC_FRCPA_S, ++ AVR32_OPC_FRSQRTA_S, ++ AVR32_OPC__END_ ++}; ++#define AVR32_NR_OPCODES AVR32_OPC__END_ ++ ++enum avr32_syntax_type ++{ ++ AVR32_SYNTAX_ABS, ++ AVR32_SYNTAX_ACALL, ++ AVR32_SYNTAX_ACR, ++ AVR32_SYNTAX_ADC, ++ AVR32_SYNTAX_ADD1, ++ AVR32_SYNTAX_ADD2, ++ AVR32_SYNTAX_ADDABS, ++ AVR32_SYNTAX_ADDHH_W, ++ AVR32_SYNTAX_AND1, ++ AVR32_SYNTAX_AND2, ++ AVR32_SYNTAX_AND3, ++ AVR32_SYNTAX_ANDH, ++ AVR32_SYNTAX_ANDH_COH, ++ AVR32_SYNTAX_ANDL, ++ AVR32_SYNTAX_ANDL_COH, ++ AVR32_SYNTAX_ANDN, ++ AVR32_SYNTAX_ASR1, ++ AVR32_SYNTAX_ASR3, ++ AVR32_SYNTAX_ASR2, ++ AVR32_SYNTAX_BFEXTS, ++ AVR32_SYNTAX_BFEXTU, ++ AVR32_SYNTAX_BFINS, ++ AVR32_SYNTAX_BLD, ++ AVR32_SYNTAX_BREQ1, ++ AVR32_SYNTAX_BRNE1, ++ AVR32_SYNTAX_BRCC1, ++ AVR32_SYNTAX_BRCS1, ++ AVR32_SYNTAX_BRGE1, ++ AVR32_SYNTAX_BRLT1, ++ AVR32_SYNTAX_BRMI1, ++ AVR32_SYNTAX_BRPL1, ++ AVR32_SYNTAX_BRHS1, ++ AVR32_SYNTAX_BRLO1, ++ AVR32_SYNTAX_BREQ2, ++ AVR32_SYNTAX_BRNE2, ++ AVR32_SYNTAX_BRCC2, ++ AVR32_SYNTAX_BRCS2, ++ AVR32_SYNTAX_BRGE2, ++ AVR32_SYNTAX_BRLT2, ++ AVR32_SYNTAX_BRMI2, ++ AVR32_SYNTAX_BRPL2, ++ AVR32_SYNTAX_BRLS, ++ AVR32_SYNTAX_BRGT, ++ AVR32_SYNTAX_BRLE, ++ AVR32_SYNTAX_BRHI, ++ AVR32_SYNTAX_BRVS, ++ AVR32_SYNTAX_BRVC, ++ AVR32_SYNTAX_BRQS, ++ AVR32_SYNTAX_BRAL, ++ AVR32_SYNTAX_BRHS2, ++ AVR32_SYNTAX_BRLO2, ++ AVR32_SYNTAX_BREAKPOINT, ++ AVR32_SYNTAX_BREV, ++ AVR32_SYNTAX_BST, ++ AVR32_SYNTAX_CACHE, ++ AVR32_SYNTAX_CASTS_B, ++ AVR32_SYNTAX_CASTS_H, ++ AVR32_SYNTAX_CASTU_B, ++ AVR32_SYNTAX_CASTU_H, ++ AVR32_SYNTAX_CBR, ++ AVR32_SYNTAX_CLZ, ++ AVR32_SYNTAX_COM, ++ AVR32_SYNTAX_COP, ++ AVR32_SYNTAX_CP_B, ++ AVR32_SYNTAX_CP_H, ++ AVR32_SYNTAX_CP_W1, ++ AVR32_SYNTAX_CP_W2, ++ AVR32_SYNTAX_CP_W3, ++ AVR32_SYNTAX_CPC1, ++ AVR32_SYNTAX_CPC2, ++ AVR32_SYNTAX_CSRF, ++ AVR32_SYNTAX_CSRFCZ, ++ AVR32_SYNTAX_DIVS, ++ AVR32_SYNTAX_DIVU, ++ AVR32_SYNTAX_EOR1, ++ AVR32_SYNTAX_EOR2, ++ AVR32_SYNTAX_EOR3, ++ AVR32_SYNTAX_EORL, ++ AVR32_SYNTAX_EORH, ++ AVR32_SYNTAX_FRS, ++ AVR32_SYNTAX_SSCALL, ++ AVR32_SYNTAX_RETSS, ++ AVR32_SYNTAX_ICALL, ++ AVR32_SYNTAX_INCJOSP, ++ AVR32_SYNTAX_LD_D1, ++ AVR32_SYNTAX_LD_D2, ++ AVR32_SYNTAX_LD_D3, ++ AVR32_SYNTAX_LD_D5, ++ AVR32_SYNTAX_LD_D4, ++ AVR32_SYNTAX_LD_SB2, ++ AVR32_SYNTAX_LD_SB1, ++ AVR32_SYNTAX_LD_UB1, ++ AVR32_SYNTAX_LD_UB2, ++ AVR32_SYNTAX_LD_UB5, ++ AVR32_SYNTAX_LD_UB3, ++ AVR32_SYNTAX_LD_UB4, ++ AVR32_SYNTAX_LD_SH1, ++ AVR32_SYNTAX_LD_SH2, ++ AVR32_SYNTAX_LD_SH5, ++ AVR32_SYNTAX_LD_SH3, ++ AVR32_SYNTAX_LD_SH4, ++ AVR32_SYNTAX_LD_UH1, ++ AVR32_SYNTAX_LD_UH2, ++ AVR32_SYNTAX_LD_UH5, ++ AVR32_SYNTAX_LD_UH3, ++ AVR32_SYNTAX_LD_UH4, ++ AVR32_SYNTAX_LD_W1, ++ AVR32_SYNTAX_LD_W2, ++ AVR32_SYNTAX_LD_W5, ++ AVR32_SYNTAX_LD_W6, ++ AVR32_SYNTAX_LD_W3, ++ AVR32_SYNTAX_LD_W4, ++ AVR32_SYNTAX_LDC_D1, ++ AVR32_SYNTAX_LDC_D2, ++ AVR32_SYNTAX_LDC_D3, ++ AVR32_SYNTAX_LDC_W1, ++ AVR32_SYNTAX_LDC_W2, ++ AVR32_SYNTAX_LDC_W3, ++ AVR32_SYNTAX_LDC0_D, ++ AVR32_SYNTAX_LDC0_W, ++ AVR32_SYNTAX_LDCM_D, ++ AVR32_SYNTAX_LDCM_D_PU, ++ AVR32_SYNTAX_LDCM_W, ++ AVR32_SYNTAX_LDCM_W_PU, ++ AVR32_SYNTAX_LDDPC, ++ AVR32_SYNTAX_LDDPC_EXT, ++ AVR32_SYNTAX_LDDSP, ++ AVR32_SYNTAX_LDINS_B, ++ AVR32_SYNTAX_LDINS_H, ++ AVR32_SYNTAX_LDM, ++ AVR32_SYNTAX_LDMTS, ++ AVR32_SYNTAX_LDMTS_PU, ++ AVR32_SYNTAX_LDSWP_SH, ++ AVR32_SYNTAX_LDSWP_UH, ++ AVR32_SYNTAX_LDSWP_W, ++ AVR32_SYNTAX_LSL1, ++ AVR32_SYNTAX_LSL3, ++ AVR32_SYNTAX_LSL2, ++ AVR32_SYNTAX_LSR1, ++ AVR32_SYNTAX_LSR3, ++ AVR32_SYNTAX_LSR2, ++ AVR32_SYNTAX_MAC, ++ AVR32_SYNTAX_MACHH_D, ++ AVR32_SYNTAX_MACHH_W, ++ AVR32_SYNTAX_MACS_D, ++ AVR32_SYNTAX_MACSATHH_W, ++ AVR32_SYNTAX_MACUD, ++ AVR32_SYNTAX_MACWH_D, ++ AVR32_SYNTAX_MAX, ++ AVR32_SYNTAX_MCALL, ++ AVR32_SYNTAX_MFDR, ++ AVR32_SYNTAX_MFSR, ++ AVR32_SYNTAX_MIN, ++ AVR32_SYNTAX_MOV3, ++ AVR32_SYNTAX_MOV1, ++ AVR32_SYNTAX_MOV2, ++ AVR32_SYNTAX_MOVEQ1, ++ AVR32_SYNTAX_MOVNE1, ++ AVR32_SYNTAX_MOVCC1, ++ AVR32_SYNTAX_MOVCS1, ++ AVR32_SYNTAX_MOVGE1, ++ AVR32_SYNTAX_MOVLT1, ++ AVR32_SYNTAX_MOVMI1, ++ AVR32_SYNTAX_MOVPL1, ++ AVR32_SYNTAX_MOVLS1, ++ AVR32_SYNTAX_MOVGT1, ++ AVR32_SYNTAX_MOVLE1, ++ AVR32_SYNTAX_MOVHI1, ++ AVR32_SYNTAX_MOVVS1, ++ AVR32_SYNTAX_MOVVC1, ++ AVR32_SYNTAX_MOVQS1, ++ AVR32_SYNTAX_MOVAL1, ++ AVR32_SYNTAX_MOVHS1, ++ AVR32_SYNTAX_MOVLO1, ++ AVR32_SYNTAX_MOVEQ2, ++ AVR32_SYNTAX_MOVNE2, ++ AVR32_SYNTAX_MOVCC2, ++ AVR32_SYNTAX_MOVCS2, ++ AVR32_SYNTAX_MOVGE2, ++ AVR32_SYNTAX_MOVLT2, ++ AVR32_SYNTAX_MOVMI2, ++ AVR32_SYNTAX_MOVPL2, ++ AVR32_SYNTAX_MOVLS2, ++ AVR32_SYNTAX_MOVGT2, ++ AVR32_SYNTAX_MOVLE2, ++ AVR32_SYNTAX_MOVHI2, ++ AVR32_SYNTAX_MOVVS2, ++ AVR32_SYNTAX_MOVVC2, ++ AVR32_SYNTAX_MOVQS2, ++ AVR32_SYNTAX_MOVAL2, ++ AVR32_SYNTAX_MOVHS2, ++ AVR32_SYNTAX_MOVLO2, ++ AVR32_SYNTAX_MTDR, ++ AVR32_SYNTAX_MTSR, ++ AVR32_SYNTAX_MUL1, ++ AVR32_SYNTAX_MUL2, ++ AVR32_SYNTAX_MUL3, ++ AVR32_SYNTAX_MULHH_W, ++ AVR32_SYNTAX_MULNHH_W, ++ AVR32_SYNTAX_MULNWH_D, ++ AVR32_SYNTAX_MULSD, ++ AVR32_SYNTAX_MULSATHH_H, ++ AVR32_SYNTAX_MULSATHH_W, ++ AVR32_SYNTAX_MULSATRNDHH_H, ++ AVR32_SYNTAX_MULSATRNDWH_W, ++ AVR32_SYNTAX_MULSATWH_W, ++ AVR32_SYNTAX_MULU_D, ++ AVR32_SYNTAX_MULWH_D, ++ AVR32_SYNTAX_MUSFR, ++ AVR32_SYNTAX_MUSTR, ++ AVR32_SYNTAX_MVCR_D, ++ AVR32_SYNTAX_MVCR_W, ++ AVR32_SYNTAX_MVRC_D, ++ AVR32_SYNTAX_MVRC_W, ++ AVR32_SYNTAX_NEG, ++ AVR32_SYNTAX_NOP, ++ AVR32_SYNTAX_OR1, ++ AVR32_SYNTAX_OR2, ++ AVR32_SYNTAX_OR3, ++ AVR32_SYNTAX_ORH, ++ AVR32_SYNTAX_ORL, ++ AVR32_SYNTAX_PABS_SB, ++ AVR32_SYNTAX_PABS_SH, ++ AVR32_SYNTAX_PACKSH_SB, ++ AVR32_SYNTAX_PACKSH_UB, ++ AVR32_SYNTAX_PACKW_SH, ++ AVR32_SYNTAX_PADD_B, ++ AVR32_SYNTAX_PADD_H, ++ AVR32_SYNTAX_PADDH_SH, ++ AVR32_SYNTAX_PADDH_UB, ++ AVR32_SYNTAX_PADDS_SB, ++ AVR32_SYNTAX_PADDS_SH, ++ AVR32_SYNTAX_PADDS_UB, ++ AVR32_SYNTAX_PADDS_UH, ++ AVR32_SYNTAX_PADDSUB_H, ++ AVR32_SYNTAX_PADDSUBH_SH, ++ AVR32_SYNTAX_PADDSUBS_SH, ++ AVR32_SYNTAX_PADDSUBS_UH, ++ AVR32_SYNTAX_PADDX_H, ++ AVR32_SYNTAX_PADDXH_SH, ++ AVR32_SYNTAX_PADDXS_SH, ++ AVR32_SYNTAX_PADDXS_UH, ++ AVR32_SYNTAX_PASR_B, ++ AVR32_SYNTAX_PASR_H, ++ AVR32_SYNTAX_PAVG_SH, ++ AVR32_SYNTAX_PAVG_UB, ++ AVR32_SYNTAX_PLSL_B, ++ AVR32_SYNTAX_PLSL_H, ++ AVR32_SYNTAX_PLSR_B, ++ AVR32_SYNTAX_PLSR_H, ++ AVR32_SYNTAX_PMAX_SH, ++ AVR32_SYNTAX_PMAX_UB, ++ AVR32_SYNTAX_PMIN_SH, ++ AVR32_SYNTAX_PMIN_UB, ++ AVR32_SYNTAX_POPJC, ++ AVR32_SYNTAX_POPM, ++ AVR32_SYNTAX_POPM_E, ++ AVR32_SYNTAX_PREF, ++ AVR32_SYNTAX_PSAD, ++ AVR32_SYNTAX_PSUB_B, ++ AVR32_SYNTAX_PSUB_H, ++ AVR32_SYNTAX_PSUBADD_H, ++ AVR32_SYNTAX_PSUBADDH_SH, ++ AVR32_SYNTAX_PSUBADDS_SH, ++ AVR32_SYNTAX_PSUBADDS_UH, ++ AVR32_SYNTAX_PSUBH_SH, ++ AVR32_SYNTAX_PSUBH_UB, ++ AVR32_SYNTAX_PSUBS_SB, ++ AVR32_SYNTAX_PSUBS_SH, ++ AVR32_SYNTAX_PSUBS_UB, ++ AVR32_SYNTAX_PSUBS_UH, ++ AVR32_SYNTAX_PSUBX_H, ++ AVR32_SYNTAX_PSUBXH_SH, ++ AVR32_SYNTAX_PSUBXS_SH, ++ AVR32_SYNTAX_PSUBXS_UH, ++ AVR32_SYNTAX_PUNPCKSB_H, ++ AVR32_SYNTAX_PUNPCKUB_H, ++ AVR32_SYNTAX_PUSHJC, ++ AVR32_SYNTAX_PUSHM, ++ AVR32_SYNTAX_PUSHM_E, ++ AVR32_SYNTAX_RCALL1, ++ AVR32_SYNTAX_RCALL2, ++ AVR32_SYNTAX_RETEQ, ++ AVR32_SYNTAX_RETNE, ++ AVR32_SYNTAX_RETCC, ++ AVR32_SYNTAX_RETCS, ++ AVR32_SYNTAX_RETGE, ++ AVR32_SYNTAX_RETLT, ++ AVR32_SYNTAX_RETMI, ++ AVR32_SYNTAX_RETPL, ++ AVR32_SYNTAX_RETLS, ++ AVR32_SYNTAX_RETGT, ++ AVR32_SYNTAX_RETLE, ++ AVR32_SYNTAX_RETHI, ++ AVR32_SYNTAX_RETVS, ++ AVR32_SYNTAX_RETVC, ++ AVR32_SYNTAX_RETQS, ++ AVR32_SYNTAX_RETAL, ++ AVR32_SYNTAX_RETHS, ++ AVR32_SYNTAX_RETLO, ++ AVR32_SYNTAX_RETD, ++ AVR32_SYNTAX_RETE, ++ AVR32_SYNTAX_RETJ, ++ AVR32_SYNTAX_RETS, ++ AVR32_SYNTAX_RJMP, ++ AVR32_SYNTAX_ROL, ++ AVR32_SYNTAX_ROR, ++ AVR32_SYNTAX_RSUB1, ++ AVR32_SYNTAX_RSUB2, ++ AVR32_SYNTAX_SATADD_H, ++ AVR32_SYNTAX_SATADD_W, ++ AVR32_SYNTAX_SATRNDS, ++ AVR32_SYNTAX_SATRNDU, ++ AVR32_SYNTAX_SATS, ++ AVR32_SYNTAX_SATSUB_H, ++ AVR32_SYNTAX_SATSUB_W1, ++ AVR32_SYNTAX_SATSUB_W2, ++ AVR32_SYNTAX_SATU, ++ AVR32_SYNTAX_SBC, ++ AVR32_SYNTAX_SBR, ++ AVR32_SYNTAX_SCALL, ++ AVR32_SYNTAX_SCR, ++ AVR32_SYNTAX_SLEEP, ++ AVR32_SYNTAX_SREQ, ++ AVR32_SYNTAX_SRNE, ++ AVR32_SYNTAX_SRCC, ++ AVR32_SYNTAX_SRCS, ++ AVR32_SYNTAX_SRGE, ++ AVR32_SYNTAX_SRLT, ++ AVR32_SYNTAX_SRMI, ++ AVR32_SYNTAX_SRPL, ++ AVR32_SYNTAX_SRLS, ++ AVR32_SYNTAX_SRGT, ++ AVR32_SYNTAX_SRLE, ++ AVR32_SYNTAX_SRHI, ++ AVR32_SYNTAX_SRVS, ++ AVR32_SYNTAX_SRVC, ++ AVR32_SYNTAX_SRQS, ++ AVR32_SYNTAX_SRAL, ++ AVR32_SYNTAX_SRHS, ++ AVR32_SYNTAX_SRLO, ++ AVR32_SYNTAX_SSRF, ++ AVR32_SYNTAX_ST_B1, ++ AVR32_SYNTAX_ST_B2, ++ AVR32_SYNTAX_ST_B5, ++ AVR32_SYNTAX_ST_B3, ++ AVR32_SYNTAX_ST_B4, ++ AVR32_SYNTAX_ST_D1, ++ AVR32_SYNTAX_ST_D2, ++ AVR32_SYNTAX_ST_D3, ++ AVR32_SYNTAX_ST_D5, ++ AVR32_SYNTAX_ST_D4, ++ AVR32_SYNTAX_ST_H1, ++ AVR32_SYNTAX_ST_H2, ++ AVR32_SYNTAX_ST_H5, ++ AVR32_SYNTAX_ST_H3, ++ AVR32_SYNTAX_ST_H4, ++ AVR32_SYNTAX_ST_W1, ++ AVR32_SYNTAX_ST_W2, ++ AVR32_SYNTAX_ST_W5, ++ AVR32_SYNTAX_ST_W3, ++ AVR32_SYNTAX_ST_W4, ++ AVR32_SYNTAX_STC_D1, ++ AVR32_SYNTAX_STC_D2, ++ AVR32_SYNTAX_STC_D3, ++ AVR32_SYNTAX_STC_W1, ++ AVR32_SYNTAX_STC_W2, ++ AVR32_SYNTAX_STC_W3, ++ AVR32_SYNTAX_STC0_D, ++ AVR32_SYNTAX_STC0_W, ++ AVR32_SYNTAX_STCM_D, ++ AVR32_SYNTAX_STCM_D_PU, ++ AVR32_SYNTAX_STCM_W, ++ AVR32_SYNTAX_STCM_W_PU, ++ AVR32_SYNTAX_STCOND, ++ AVR32_SYNTAX_STDSP, ++ AVR32_SYNTAX_STHH_W2, ++ AVR32_SYNTAX_STHH_W1, ++ AVR32_SYNTAX_STM, ++ AVR32_SYNTAX_STM_PU, ++ AVR32_SYNTAX_STMTS, ++ AVR32_SYNTAX_STMTS_PU, ++ AVR32_SYNTAX_STSWP_H, ++ AVR32_SYNTAX_STSWP_W, ++ AVR32_SYNTAX_SUB1, ++ AVR32_SYNTAX_SUB2, ++ AVR32_SYNTAX_SUB5, ++ AVR32_SYNTAX_SUB3_SP, ++ AVR32_SYNTAX_SUB3, ++ AVR32_SYNTAX_SUB4, ++ AVR32_SYNTAX_SUBEQ, ++ AVR32_SYNTAX_SUBNE, ++ AVR32_SYNTAX_SUBCC, ++ AVR32_SYNTAX_SUBCS, ++ AVR32_SYNTAX_SUBGE, ++ AVR32_SYNTAX_SUBLT, ++ AVR32_SYNTAX_SUBMI, ++ AVR32_SYNTAX_SUBPL, ++ AVR32_SYNTAX_SUBLS, ++ AVR32_SYNTAX_SUBGT, ++ AVR32_SYNTAX_SUBLE, ++ AVR32_SYNTAX_SUBHI, ++ AVR32_SYNTAX_SUBVS, ++ AVR32_SYNTAX_SUBVC, ++ AVR32_SYNTAX_SUBQS, ++ AVR32_SYNTAX_SUBAL, ++ AVR32_SYNTAX_SUBHS, ++ AVR32_SYNTAX_SUBLO, ++ AVR32_SYNTAX_SUBFEQ, ++ AVR32_SYNTAX_SUBFNE, ++ AVR32_SYNTAX_SUBFCC, ++ AVR32_SYNTAX_SUBFCS, ++ AVR32_SYNTAX_SUBFGE, ++ AVR32_SYNTAX_SUBFLT, ++ AVR32_SYNTAX_SUBFMI, ++ AVR32_SYNTAX_SUBFPL, ++ AVR32_SYNTAX_SUBFLS, ++ AVR32_SYNTAX_SUBFGT, ++ AVR32_SYNTAX_SUBFLE, ++ AVR32_SYNTAX_SUBFHI, ++ AVR32_SYNTAX_SUBFVS, ++ AVR32_SYNTAX_SUBFVC, ++ AVR32_SYNTAX_SUBFQS, ++ AVR32_SYNTAX_SUBFAL, ++ AVR32_SYNTAX_SUBFHS, ++ AVR32_SYNTAX_SUBFLO, ++ AVR32_SYNTAX_SUBHH_W, ++ AVR32_SYNTAX_SWAP_B, ++ AVR32_SYNTAX_SWAP_BH, ++ AVR32_SYNTAX_SWAP_H, ++ AVR32_SYNTAX_SYNC, ++ AVR32_SYNTAX_TLBR, ++ AVR32_SYNTAX_TLBS, ++ AVR32_SYNTAX_TLBW, ++ AVR32_SYNTAX_TNBZ, ++ AVR32_SYNTAX_TST, ++ AVR32_SYNTAX_XCHG, ++ AVR32_SYNTAX_MEMC, ++ AVR32_SYNTAX_MEMS, ++ AVR32_SYNTAX_MEMT, ++ AVR32_SYNTAX_FMAC_S, ++ AVR32_SYNTAX_FNMAC_S, ++ AVR32_SYNTAX_FMSC_S, ++ AVR32_SYNTAX_FNMSC_S, ++ AVR32_SYNTAX_FMUL_S, ++ AVR32_SYNTAX_FNMUL_S, ++ AVR32_SYNTAX_FADD_S, ++ AVR32_SYNTAX_FSUB_S, ++ AVR32_SYNTAX_FCASTRS_SW, ++ AVR32_SYNTAX_FCASTRS_UW, ++ AVR32_SYNTAX_FCASTSW_S, ++ AVR32_SYNTAX_FCASTUW_S, ++ AVR32_SYNTAX_FCMP_S, ++ AVR32_SYNTAX_FCHK_S, ++ AVR32_SYNTAX_FRCPA_S, ++ AVR32_SYNTAX_FRSQRTA_S, ++ AVR32_SYNTAX_LDA_W, ++ AVR32_SYNTAX_CALL, ++ AVR32_SYNTAX_PICOSVMAC0, ++ AVR32_SYNTAX_PICOSVMAC1, ++ AVR32_SYNTAX_PICOSVMAC2, ++ AVR32_SYNTAX_PICOSVMAC3, ++ AVR32_SYNTAX_PICOSVMUL0, ++ AVR32_SYNTAX_PICOSVMUL1, ++ AVR32_SYNTAX_PICOSVMUL2, ++ AVR32_SYNTAX_PICOSVMUL3, ++ AVR32_SYNTAX_PICOVMAC0, ++ AVR32_SYNTAX_PICOVMAC1, ++ AVR32_SYNTAX_PICOVMAC2, ++ AVR32_SYNTAX_PICOVMAC3, ++ AVR32_SYNTAX_PICOVMUL0, ++ AVR32_SYNTAX_PICOVMUL1, ++ AVR32_SYNTAX_PICOVMUL2, ++ AVR32_SYNTAX_PICOVMUL3, ++ AVR32_SYNTAX_PICOLD_D2, ++ AVR32_SYNTAX_PICOLD_D3, ++ AVR32_SYNTAX_PICOLD_D1, ++ AVR32_SYNTAX_PICOLD_W2, ++ AVR32_SYNTAX_PICOLD_W3, ++ AVR32_SYNTAX_PICOLD_W1, ++ AVR32_SYNTAX_PICOLDM_D, ++ AVR32_SYNTAX_PICOLDM_D_PU, ++ AVR32_SYNTAX_PICOLDM_W, ++ AVR32_SYNTAX_PICOLDM_W_PU, ++ AVR32_SYNTAX_PICOMV_D1, ++ AVR32_SYNTAX_PICOMV_D2, ++ AVR32_SYNTAX_PICOMV_W1, ++ AVR32_SYNTAX_PICOMV_W2, ++ AVR32_SYNTAX_PICOST_D2, ++ AVR32_SYNTAX_PICOST_D3, ++ AVR32_SYNTAX_PICOST_D1, ++ AVR32_SYNTAX_PICOST_W2, ++ AVR32_SYNTAX_PICOST_W3, ++ AVR32_SYNTAX_PICOST_W1, ++ AVR32_SYNTAX_PICOSTM_D, ++ AVR32_SYNTAX_PICOSTM_D_PU, ++ AVR32_SYNTAX_PICOSTM_W, ++ AVR32_SYNTAX_PICOSTM_W_PU, ++ AVR32_SYNTAX_RSUBEQ, ++ AVR32_SYNTAX_RSUBNE, ++ AVR32_SYNTAX_RSUBCC, ++ AVR32_SYNTAX_RSUBCS, ++ AVR32_SYNTAX_RSUBGE, ++ AVR32_SYNTAX_RSUBLT, ++ AVR32_SYNTAX_RSUBMI, ++ AVR32_SYNTAX_RSUBPL, ++ AVR32_SYNTAX_RSUBLS, ++ AVR32_SYNTAX_RSUBGT, ++ AVR32_SYNTAX_RSUBLE, ++ AVR32_SYNTAX_RSUBHI, ++ AVR32_SYNTAX_RSUBVS, ++ AVR32_SYNTAX_RSUBVC, ++ AVR32_SYNTAX_RSUBQS, ++ AVR32_SYNTAX_RSUBAL, ++ AVR32_SYNTAX_RSUBHS, ++ AVR32_SYNTAX_RSUBLO, ++ AVR32_SYNTAX_ADDEQ, ++ AVR32_SYNTAX_ADDNE, ++ AVR32_SYNTAX_ADDCC, ++ AVR32_SYNTAX_ADDCS, ++ AVR32_SYNTAX_ADDGE, ++ AVR32_SYNTAX_ADDLT, ++ AVR32_SYNTAX_ADDMI, ++ AVR32_SYNTAX_ADDPL, ++ AVR32_SYNTAX_ADDLS, ++ AVR32_SYNTAX_ADDGT, ++ AVR32_SYNTAX_ADDLE, ++ AVR32_SYNTAX_ADDHI, ++ AVR32_SYNTAX_ADDVS, ++ AVR32_SYNTAX_ADDVC, ++ AVR32_SYNTAX_ADDQS, ++ AVR32_SYNTAX_ADDAL, ++ AVR32_SYNTAX_ADDHS, ++ AVR32_SYNTAX_ADDLO, ++ AVR32_SYNTAX_SUB2EQ, ++ AVR32_SYNTAX_SUB2NE, ++ AVR32_SYNTAX_SUB2CC, ++ AVR32_SYNTAX_SUB2CS, ++ AVR32_SYNTAX_SUB2GE, ++ AVR32_SYNTAX_SUB2LT, ++ AVR32_SYNTAX_SUB2MI, ++ AVR32_SYNTAX_SUB2PL, ++ AVR32_SYNTAX_SUB2LS, ++ AVR32_SYNTAX_SUB2GT, ++ AVR32_SYNTAX_SUB2LE, ++ AVR32_SYNTAX_SUB2HI, ++ AVR32_SYNTAX_SUB2VS, ++ AVR32_SYNTAX_SUB2VC, ++ AVR32_SYNTAX_SUB2QS, ++ AVR32_SYNTAX_SUB2AL, ++ AVR32_SYNTAX_SUB2HS, ++ AVR32_SYNTAX_SUB2LO, ++ AVR32_SYNTAX_ANDEQ, ++ AVR32_SYNTAX_ANDNE, ++ AVR32_SYNTAX_ANDCC, ++ AVR32_SYNTAX_ANDCS, ++ AVR32_SYNTAX_ANDGE, ++ AVR32_SYNTAX_ANDLT, ++ AVR32_SYNTAX_ANDMI, ++ AVR32_SYNTAX_ANDPL, ++ AVR32_SYNTAX_ANDLS, ++ AVR32_SYNTAX_ANDGT, ++ AVR32_SYNTAX_ANDLE, ++ AVR32_SYNTAX_ANDHI, ++ AVR32_SYNTAX_ANDVS, ++ AVR32_SYNTAX_ANDVC, ++ AVR32_SYNTAX_ANDQS, ++ AVR32_SYNTAX_ANDAL, ++ AVR32_SYNTAX_ANDHS, ++ AVR32_SYNTAX_ANDLO, ++ AVR32_SYNTAX_OREQ, ++ AVR32_SYNTAX_ORNE, ++ AVR32_SYNTAX_ORCC, ++ AVR32_SYNTAX_ORCS, ++ AVR32_SYNTAX_ORGE, ++ AVR32_SYNTAX_ORLT, ++ AVR32_SYNTAX_ORMI, ++ AVR32_SYNTAX_ORPL, ++ AVR32_SYNTAX_ORLS, ++ AVR32_SYNTAX_ORGT, ++ AVR32_SYNTAX_ORLE, ++ AVR32_SYNTAX_ORHI, ++ AVR32_SYNTAX_ORVS, ++ AVR32_SYNTAX_ORVC, ++ AVR32_SYNTAX_ORQS, ++ AVR32_SYNTAX_ORAL, ++ AVR32_SYNTAX_ORHS, ++ AVR32_SYNTAX_ORLO, ++ AVR32_SYNTAX_EOREQ, ++ AVR32_SYNTAX_EORNE, ++ AVR32_SYNTAX_EORCC, ++ AVR32_SYNTAX_EORCS, ++ AVR32_SYNTAX_EORGE, ++ AVR32_SYNTAX_EORLT, ++ AVR32_SYNTAX_EORMI, ++ AVR32_SYNTAX_EORPL, ++ AVR32_SYNTAX_EORLS, ++ AVR32_SYNTAX_EORGT, ++ AVR32_SYNTAX_EORLE, ++ AVR32_SYNTAX_EORHI, ++ AVR32_SYNTAX_EORVS, ++ AVR32_SYNTAX_EORVC, ++ AVR32_SYNTAX_EORQS, ++ AVR32_SYNTAX_EORAL, ++ AVR32_SYNTAX_EORHS, ++ AVR32_SYNTAX_EORLO, ++ AVR32_SYNTAX_LD_WEQ, ++ AVR32_SYNTAX_LD_WNE, ++ AVR32_SYNTAX_LD_WCC, ++ AVR32_SYNTAX_LD_WCS, ++ AVR32_SYNTAX_LD_WGE, ++ AVR32_SYNTAX_LD_WLT, ++ AVR32_SYNTAX_LD_WMI, ++ AVR32_SYNTAX_LD_WPL, ++ AVR32_SYNTAX_LD_WLS, ++ AVR32_SYNTAX_LD_WGT, ++ AVR32_SYNTAX_LD_WLE, ++ AVR32_SYNTAX_LD_WHI, ++ AVR32_SYNTAX_LD_WVS, ++ AVR32_SYNTAX_LD_WVC, ++ AVR32_SYNTAX_LD_WQS, ++ AVR32_SYNTAX_LD_WAL, ++ AVR32_SYNTAX_LD_WHS, ++ AVR32_SYNTAX_LD_WLO, ++ AVR32_SYNTAX_LD_SHEQ, ++ AVR32_SYNTAX_LD_SHNE, ++ AVR32_SYNTAX_LD_SHCC, ++ AVR32_SYNTAX_LD_SHCS, ++ AVR32_SYNTAX_LD_SHGE, ++ AVR32_SYNTAX_LD_SHLT, ++ AVR32_SYNTAX_LD_SHMI, ++ AVR32_SYNTAX_LD_SHPL, ++ AVR32_SYNTAX_LD_SHLS, ++ AVR32_SYNTAX_LD_SHGT, ++ AVR32_SYNTAX_LD_SHLE, ++ AVR32_SYNTAX_LD_SHHI, ++ AVR32_SYNTAX_LD_SHVS, ++ AVR32_SYNTAX_LD_SHVC, ++ AVR32_SYNTAX_LD_SHQS, ++ AVR32_SYNTAX_LD_SHAL, ++ AVR32_SYNTAX_LD_SHHS, ++ AVR32_SYNTAX_LD_SHLO, ++ AVR32_SYNTAX_LD_UHEQ, ++ AVR32_SYNTAX_LD_UHNE, ++ AVR32_SYNTAX_LD_UHCC, ++ AVR32_SYNTAX_LD_UHCS, ++ AVR32_SYNTAX_LD_UHGE, ++ AVR32_SYNTAX_LD_UHLT, ++ AVR32_SYNTAX_LD_UHMI, ++ AVR32_SYNTAX_LD_UHPL, ++ AVR32_SYNTAX_LD_UHLS, ++ AVR32_SYNTAX_LD_UHGT, ++ AVR32_SYNTAX_LD_UHLE, ++ AVR32_SYNTAX_LD_UHHI, ++ AVR32_SYNTAX_LD_UHVS, ++ AVR32_SYNTAX_LD_UHVC, ++ AVR32_SYNTAX_LD_UHQS, ++ AVR32_SYNTAX_LD_UHAL, ++ AVR32_SYNTAX_LD_UHHS, ++ AVR32_SYNTAX_LD_UHLO, ++ AVR32_SYNTAX_LD_SBEQ, ++ AVR32_SYNTAX_LD_SBNE, ++ AVR32_SYNTAX_LD_SBCC, ++ AVR32_SYNTAX_LD_SBCS, ++ AVR32_SYNTAX_LD_SBGE, ++ AVR32_SYNTAX_LD_SBLT, ++ AVR32_SYNTAX_LD_SBMI, ++ AVR32_SYNTAX_LD_SBPL, ++ AVR32_SYNTAX_LD_SBLS, ++ AVR32_SYNTAX_LD_SBGT, ++ AVR32_SYNTAX_LD_SBLE, ++ AVR32_SYNTAX_LD_SBHI, ++ AVR32_SYNTAX_LD_SBVS, ++ AVR32_SYNTAX_LD_SBVC, ++ AVR32_SYNTAX_LD_SBQS, ++ AVR32_SYNTAX_LD_SBAL, ++ AVR32_SYNTAX_LD_SBHS, ++ AVR32_SYNTAX_LD_SBLO, ++ AVR32_SYNTAX_LD_UBEQ, ++ AVR32_SYNTAX_LD_UBNE, ++ AVR32_SYNTAX_LD_UBCC, ++ AVR32_SYNTAX_LD_UBCS, ++ AVR32_SYNTAX_LD_UBGE, ++ AVR32_SYNTAX_LD_UBLT, ++ AVR32_SYNTAX_LD_UBMI, ++ AVR32_SYNTAX_LD_UBPL, ++ AVR32_SYNTAX_LD_UBLS, ++ AVR32_SYNTAX_LD_UBGT, ++ AVR32_SYNTAX_LD_UBLE, ++ AVR32_SYNTAX_LD_UBHI, ++ AVR32_SYNTAX_LD_UBVS, ++ AVR32_SYNTAX_LD_UBVC, ++ AVR32_SYNTAX_LD_UBQS, ++ AVR32_SYNTAX_LD_UBAL, ++ AVR32_SYNTAX_LD_UBHS, ++ AVR32_SYNTAX_LD_UBLO, ++ AVR32_SYNTAX_ST_WEQ, ++ AVR32_SYNTAX_ST_WNE, ++ AVR32_SYNTAX_ST_WCC, ++ AVR32_SYNTAX_ST_WCS, ++ AVR32_SYNTAX_ST_WGE, ++ AVR32_SYNTAX_ST_WLT, ++ AVR32_SYNTAX_ST_WMI, ++ AVR32_SYNTAX_ST_WPL, ++ AVR32_SYNTAX_ST_WLS, ++ AVR32_SYNTAX_ST_WGT, ++ AVR32_SYNTAX_ST_WLE, ++ AVR32_SYNTAX_ST_WHI, ++ AVR32_SYNTAX_ST_WVS, ++ AVR32_SYNTAX_ST_WVC, ++ AVR32_SYNTAX_ST_WQS, ++ AVR32_SYNTAX_ST_WAL, ++ AVR32_SYNTAX_ST_WHS, ++ AVR32_SYNTAX_ST_WLO, ++ AVR32_SYNTAX_ST_HEQ, ++ AVR32_SYNTAX_ST_HNE, ++ AVR32_SYNTAX_ST_HCC, ++ AVR32_SYNTAX_ST_HCS, ++ AVR32_SYNTAX_ST_HGE, ++ AVR32_SYNTAX_ST_HLT, ++ AVR32_SYNTAX_ST_HMI, ++ AVR32_SYNTAX_ST_HPL, ++ AVR32_SYNTAX_ST_HLS, ++ AVR32_SYNTAX_ST_HGT, ++ AVR32_SYNTAX_ST_HLE, ++ AVR32_SYNTAX_ST_HHI, ++ AVR32_SYNTAX_ST_HVS, ++ AVR32_SYNTAX_ST_HVC, ++ AVR32_SYNTAX_ST_HQS, ++ AVR32_SYNTAX_ST_HAL, ++ AVR32_SYNTAX_ST_HHS, ++ AVR32_SYNTAX_ST_HLO, ++ AVR32_SYNTAX_ST_BEQ, ++ AVR32_SYNTAX_ST_BNE, ++ AVR32_SYNTAX_ST_BCC, ++ AVR32_SYNTAX_ST_BCS, ++ AVR32_SYNTAX_ST_BGE, ++ AVR32_SYNTAX_ST_BLT, ++ AVR32_SYNTAX_ST_BMI, ++ AVR32_SYNTAX_ST_BPL, ++ AVR32_SYNTAX_ST_BLS, ++ AVR32_SYNTAX_ST_BGT, ++ AVR32_SYNTAX_ST_BLE, ++ AVR32_SYNTAX_ST_BHI, ++ AVR32_SYNTAX_ST_BVS, ++ AVR32_SYNTAX_ST_BVC, ++ AVR32_SYNTAX_ST_BQS, ++ AVR32_SYNTAX_ST_BAL, ++ AVR32_SYNTAX_ST_BHS, ++ AVR32_SYNTAX_ST_BLO, ++ AVR32_SYNTAX_MOVH, ++ AVR32_SYNTAX__END_ ++}; ++#define AVR32_NR_SYNTAX AVR32_SYNTAX__END_ ++ ++enum avr32_alias_type ++ { ++ AVR32_ALIAS_PICOSVMAC0, ++ AVR32_ALIAS_PICOSVMAC1, ++ AVR32_ALIAS_PICOSVMAC2, ++ AVR32_ALIAS_PICOSVMAC3, ++ AVR32_ALIAS_PICOSVMUL0, ++ AVR32_ALIAS_PICOSVMUL1, ++ AVR32_ALIAS_PICOSVMUL2, ++ AVR32_ALIAS_PICOSVMUL3, ++ AVR32_ALIAS_PICOVMAC0, ++ AVR32_ALIAS_PICOVMAC1, ++ AVR32_ALIAS_PICOVMAC2, ++ AVR32_ALIAS_PICOVMAC3, ++ AVR32_ALIAS_PICOVMUL0, ++ AVR32_ALIAS_PICOVMUL1, ++ AVR32_ALIAS_PICOVMUL2, ++ AVR32_ALIAS_PICOVMUL3, ++ AVR32_ALIAS_PICOLD_D1, ++ AVR32_ALIAS_PICOLD_D2, ++ AVR32_ALIAS_PICOLD_D3, ++ AVR32_ALIAS_PICOLD_W1, ++ AVR32_ALIAS_PICOLD_W2, ++ AVR32_ALIAS_PICOLD_W3, ++ AVR32_ALIAS_PICOLDM_D, ++ AVR32_ALIAS_PICOLDM_D_PU, ++ AVR32_ALIAS_PICOLDM_W, ++ AVR32_ALIAS_PICOLDM_W_PU, ++ AVR32_ALIAS_PICOMV_D1, ++ AVR32_ALIAS_PICOMV_D2, ++ AVR32_ALIAS_PICOMV_W1, ++ AVR32_ALIAS_PICOMV_W2, ++ AVR32_ALIAS_PICOST_D1, ++ AVR32_ALIAS_PICOST_D2, ++ AVR32_ALIAS_PICOST_D3, ++ AVR32_ALIAS_PICOST_W1, ++ AVR32_ALIAS_PICOST_W2, ++ AVR32_ALIAS_PICOST_W3, ++ AVR32_ALIAS_PICOSTM_D, ++ AVR32_ALIAS_PICOSTM_D_PU, ++ AVR32_ALIAS_PICOSTM_W, ++ AVR32_ALIAS_PICOSTM_W_PU, ++ AVR32_ALIAS__END_ ++ }; ++#define AVR32_NR_ALIAS AVR32_ALIAS__END_ ++ ++enum avr32_mnemonic_type ++{ ++ AVR32_MNEMONIC_ABS, ++ AVR32_MNEMONIC_ACALL, ++ AVR32_MNEMONIC_ACR, ++ AVR32_MNEMONIC_ADC, ++ AVR32_MNEMONIC_ADD, ++ AVR32_MNEMONIC_ADDABS, ++ AVR32_MNEMONIC_ADDHH_W, ++ AVR32_MNEMONIC_AND, ++ AVR32_MNEMONIC_ANDH, ++ AVR32_MNEMONIC_ANDL, ++ AVR32_MNEMONIC_ANDN, ++ AVR32_MNEMONIC_ASR, ++ AVR32_MNEMONIC_BFEXTS, ++ AVR32_MNEMONIC_BFEXTU, ++ AVR32_MNEMONIC_BFINS, ++ AVR32_MNEMONIC_BLD, ++ AVR32_MNEMONIC_BREQ, ++ AVR32_MNEMONIC_BRNE, ++ AVR32_MNEMONIC_BRCC, ++ AVR32_MNEMONIC_BRCS, ++ AVR32_MNEMONIC_BRGE, ++ AVR32_MNEMONIC_BRLT, ++ AVR32_MNEMONIC_BRMI, ++ AVR32_MNEMONIC_BRPL, ++ AVR32_MNEMONIC_BRHS, ++ AVR32_MNEMONIC_BRLO, ++ AVR32_MNEMONIC_BRLS, ++ AVR32_MNEMONIC_BRGT, ++ AVR32_MNEMONIC_BRLE, ++ AVR32_MNEMONIC_BRHI, ++ AVR32_MNEMONIC_BRVS, ++ AVR32_MNEMONIC_BRVC, ++ AVR32_MNEMONIC_BRQS, ++ AVR32_MNEMONIC_BRAL, ++ AVR32_MNEMONIC_BREAKPOINT, ++ AVR32_MNEMONIC_BREV, ++ AVR32_MNEMONIC_BST, ++ AVR32_MNEMONIC_CACHE, ++ AVR32_MNEMONIC_CASTS_B, ++ AVR32_MNEMONIC_CASTS_H, ++ AVR32_MNEMONIC_CASTU_B, ++ AVR32_MNEMONIC_CASTU_H, ++ AVR32_MNEMONIC_CBR, ++ AVR32_MNEMONIC_CLZ, ++ AVR32_MNEMONIC_COM, ++ AVR32_MNEMONIC_COP, ++ AVR32_MNEMONIC_CP_B, ++ AVR32_MNEMONIC_CP_H, ++ AVR32_MNEMONIC_CP_W, ++ AVR32_MNEMONIC_CP, ++ AVR32_MNEMONIC_CPC, ++ AVR32_MNEMONIC_CSRF, ++ AVR32_MNEMONIC_CSRFCZ, ++ AVR32_MNEMONIC_DIVS, ++ AVR32_MNEMONIC_DIVU, ++ AVR32_MNEMONIC_EOR, ++ AVR32_MNEMONIC_EORL, ++ AVR32_MNEMONIC_EORH, ++ AVR32_MNEMONIC_FRS, ++ AVR32_MNEMONIC_SSCALL, ++ AVR32_MNEMONIC_RETSS, ++ AVR32_MNEMONIC_ICALL, ++ AVR32_MNEMONIC_INCJOSP, ++ AVR32_MNEMONIC_LD_D, ++ AVR32_MNEMONIC_LD_SB, ++ AVR32_MNEMONIC_LD_UB, ++ AVR32_MNEMONIC_LD_SH, ++ AVR32_MNEMONIC_LD_UH, ++ AVR32_MNEMONIC_LD_W, ++ AVR32_MNEMONIC_LDC_D, ++ AVR32_MNEMONIC_LDC_W, ++ AVR32_MNEMONIC_LDC0_D, ++ AVR32_MNEMONIC_LDC0_W, ++ AVR32_MNEMONIC_LDCM_D, ++ AVR32_MNEMONIC_LDCM_W, ++ AVR32_MNEMONIC_LDDPC, ++ AVR32_MNEMONIC_LDDSP, ++ AVR32_MNEMONIC_LDINS_B, ++ AVR32_MNEMONIC_LDINS_H, ++ AVR32_MNEMONIC_LDM, ++ AVR32_MNEMONIC_LDMTS, ++ AVR32_MNEMONIC_LDSWP_SH, ++ AVR32_MNEMONIC_LDSWP_UH, ++ AVR32_MNEMONIC_LDSWP_W, ++ AVR32_MNEMONIC_LSL, ++ AVR32_MNEMONIC_LSR, ++ AVR32_MNEMONIC_MAC, ++ AVR32_MNEMONIC_MACHH_D, ++ AVR32_MNEMONIC_MACHH_W, ++ AVR32_MNEMONIC_MACS_D, ++ AVR32_MNEMONIC_MACSATHH_W, ++ AVR32_MNEMONIC_MACU_D, ++ AVR32_MNEMONIC_MACWH_D, ++ AVR32_MNEMONIC_MAX, ++ AVR32_MNEMONIC_MCALL, ++ AVR32_MNEMONIC_MFDR, ++ AVR32_MNEMONIC_MFSR, ++ AVR32_MNEMONIC_MIN, ++ AVR32_MNEMONIC_MOV, ++ AVR32_MNEMONIC_MOVEQ, ++ AVR32_MNEMONIC_MOVNE, ++ AVR32_MNEMONIC_MOVCC, ++ AVR32_MNEMONIC_MOVCS, ++ AVR32_MNEMONIC_MOVGE, ++ AVR32_MNEMONIC_MOVLT, ++ AVR32_MNEMONIC_MOVMI, ++ AVR32_MNEMONIC_MOVPL, ++ AVR32_MNEMONIC_MOVLS, ++ AVR32_MNEMONIC_MOVGT, ++ AVR32_MNEMONIC_MOVLE, ++ AVR32_MNEMONIC_MOVHI, ++ AVR32_MNEMONIC_MOVVS, ++ AVR32_MNEMONIC_MOVVC, ++ AVR32_MNEMONIC_MOVQS, ++ AVR32_MNEMONIC_MOVAL, ++ AVR32_MNEMONIC_MOVHS, ++ AVR32_MNEMONIC_MOVLO, ++ AVR32_MNEMONIC_MTDR, ++ AVR32_MNEMONIC_MTSR, ++ AVR32_MNEMONIC_MUL, ++ AVR32_MNEMONIC_MULHH_W, ++ AVR32_MNEMONIC_MULNHH_W, ++ AVR32_MNEMONIC_MULNWH_D, ++ AVR32_MNEMONIC_MULS_D, ++ AVR32_MNEMONIC_MULSATHH_H, ++ AVR32_MNEMONIC_MULSATHH_W, ++ AVR32_MNEMONIC_MULSATRNDHH_H, ++ AVR32_MNEMONIC_MULSATRNDWH_W, ++ AVR32_MNEMONIC_MULSATWH_W, ++ AVR32_MNEMONIC_MULU_D, ++ AVR32_MNEMONIC_MULWH_D, ++ AVR32_MNEMONIC_MUSFR, ++ AVR32_MNEMONIC_MUSTR, ++ AVR32_MNEMONIC_MVCR_D, ++ AVR32_MNEMONIC_MVCR_W, ++ AVR32_MNEMONIC_MVRC_D, ++ AVR32_MNEMONIC_MVRC_W, ++ AVR32_MNEMONIC_NEG, ++ AVR32_MNEMONIC_NOP, ++ AVR32_MNEMONIC_OR, ++ AVR32_MNEMONIC_ORH, ++ AVR32_MNEMONIC_ORL, ++ AVR32_MNEMONIC_PABS_SB, ++ AVR32_MNEMONIC_PABS_SH, ++ AVR32_MNEMONIC_PACKSH_SB, ++ AVR32_MNEMONIC_PACKSH_UB, ++ AVR32_MNEMONIC_PACKW_SH, ++ AVR32_MNEMONIC_PADD_B, ++ AVR32_MNEMONIC_PADD_H, ++ AVR32_MNEMONIC_PADDH_SH, ++ AVR32_MNEMONIC_PADDH_UB, ++ AVR32_MNEMONIC_PADDS_SB, ++ AVR32_MNEMONIC_PADDS_SH, ++ AVR32_MNEMONIC_PADDS_UB, ++ AVR32_MNEMONIC_PADDS_UH, ++ AVR32_MNEMONIC_PADDSUB_H, ++ AVR32_MNEMONIC_PADDSUBH_SH, ++ AVR32_MNEMONIC_PADDSUBS_SH, ++ AVR32_MNEMONIC_PADDSUBS_UH, ++ AVR32_MNEMONIC_PADDX_H, ++ AVR32_MNEMONIC_PADDXH_SH, ++ AVR32_MNEMONIC_PADDXS_SH, ++ AVR32_MNEMONIC_PADDXS_UH, ++ AVR32_MNEMONIC_PASR_B, ++ AVR32_MNEMONIC_PASR_H, ++ AVR32_MNEMONIC_PAVG_SH, ++ AVR32_MNEMONIC_PAVG_UB, ++ AVR32_MNEMONIC_PLSL_B, ++ AVR32_MNEMONIC_PLSL_H, ++ AVR32_MNEMONIC_PLSR_B, ++ AVR32_MNEMONIC_PLSR_H, ++ AVR32_MNEMONIC_PMAX_SH, ++ AVR32_MNEMONIC_PMAX_UB, ++ AVR32_MNEMONIC_PMIN_SH, ++ AVR32_MNEMONIC_PMIN_UB, ++ AVR32_MNEMONIC_POPJC, ++ AVR32_MNEMONIC_POPM, ++ AVR32_MNEMONIC_PREF, ++ AVR32_MNEMONIC_PSAD, ++ AVR32_MNEMONIC_PSUB_B, ++ AVR32_MNEMONIC_PSUB_H, ++ AVR32_MNEMONIC_PSUBADD_H, ++ AVR32_MNEMONIC_PSUBADDH_SH, ++ AVR32_MNEMONIC_PSUBADDS_SH, ++ AVR32_MNEMONIC_PSUBADDS_UH, ++ AVR32_MNEMONIC_PSUBH_SH, ++ AVR32_MNEMONIC_PSUBH_UB, ++ AVR32_MNEMONIC_PSUBS_SB, ++ AVR32_MNEMONIC_PSUBS_SH, ++ AVR32_MNEMONIC_PSUBS_UB, ++ AVR32_MNEMONIC_PSUBS_UH, ++ AVR32_MNEMONIC_PSUBX_H, ++ AVR32_MNEMONIC_PSUBXH_SH, ++ AVR32_MNEMONIC_PSUBXS_SH, ++ AVR32_MNEMONIC_PSUBXS_UH, ++ AVR32_MNEMONIC_PUNPCKSB_H, ++ AVR32_MNEMONIC_PUNPCKUB_H, ++ AVR32_MNEMONIC_PUSHJC, ++ AVR32_MNEMONIC_PUSHM, ++ AVR32_MNEMONIC_RCALL, ++ AVR32_MNEMONIC_RETEQ, ++ AVR32_MNEMONIC_RETNE, ++ AVR32_MNEMONIC_RETCC, ++ AVR32_MNEMONIC_RETCS, ++ AVR32_MNEMONIC_RETGE, ++ AVR32_MNEMONIC_RETLT, ++ AVR32_MNEMONIC_RETMI, ++ AVR32_MNEMONIC_RETPL, ++ AVR32_MNEMONIC_RETLS, ++ AVR32_MNEMONIC_RETGT, ++ AVR32_MNEMONIC_RETLE, ++ AVR32_MNEMONIC_RETHI, ++ AVR32_MNEMONIC_RETVS, ++ AVR32_MNEMONIC_RETVC, ++ AVR32_MNEMONIC_RETQS, ++ AVR32_MNEMONIC_RETAL, ++ AVR32_MNEMONIC_RETHS, ++ AVR32_MNEMONIC_RETLO, ++ AVR32_MNEMONIC_RET, ++ AVR32_MNEMONIC_RETD, ++ AVR32_MNEMONIC_RETE, ++ AVR32_MNEMONIC_RETJ, ++ AVR32_MNEMONIC_RETS, ++ AVR32_MNEMONIC_RJMP, ++ AVR32_MNEMONIC_ROL, ++ AVR32_MNEMONIC_ROR, ++ AVR32_MNEMONIC_RSUB, ++ AVR32_MNEMONIC_SATADD_H, ++ AVR32_MNEMONIC_SATADD_W, ++ AVR32_MNEMONIC_SATRNDS, ++ AVR32_MNEMONIC_SATRNDU, ++ AVR32_MNEMONIC_SATS, ++ AVR32_MNEMONIC_SATSUB_H, ++ AVR32_MNEMONIC_SATSUB_W, ++ AVR32_MNEMONIC_SATU, ++ AVR32_MNEMONIC_SBC, ++ AVR32_MNEMONIC_SBR, ++ AVR32_MNEMONIC_SCALL, ++ AVR32_MNEMONIC_SCR, ++ AVR32_MNEMONIC_SLEEP, ++ AVR32_MNEMONIC_SREQ, ++ AVR32_MNEMONIC_SRNE, ++ AVR32_MNEMONIC_SRCC, ++ AVR32_MNEMONIC_SRCS, ++ AVR32_MNEMONIC_SRGE, ++ AVR32_MNEMONIC_SRLT, ++ AVR32_MNEMONIC_SRMI, ++ AVR32_MNEMONIC_SRPL, ++ AVR32_MNEMONIC_SRLS, ++ AVR32_MNEMONIC_SRGT, ++ AVR32_MNEMONIC_SRLE, ++ AVR32_MNEMONIC_SRHI, ++ AVR32_MNEMONIC_SRVS, ++ AVR32_MNEMONIC_SRVC, ++ AVR32_MNEMONIC_SRQS, ++ AVR32_MNEMONIC_SRAL, ++ AVR32_MNEMONIC_SRHS, ++ AVR32_MNEMONIC_SRLO, ++ AVR32_MNEMONIC_SSRF, ++ AVR32_MNEMONIC_ST_B, ++ AVR32_MNEMONIC_ST_D, ++ AVR32_MNEMONIC_ST_H, ++ AVR32_MNEMONIC_ST_W, ++ AVR32_MNEMONIC_STC_D, ++ AVR32_MNEMONIC_STC_W, ++ AVR32_MNEMONIC_STC0_D, ++ AVR32_MNEMONIC_STC0_W, ++ AVR32_MNEMONIC_STCM_D, ++ AVR32_MNEMONIC_STCM_W, ++ AVR32_MNEMONIC_STCOND, ++ AVR32_MNEMONIC_STDSP, ++ AVR32_MNEMONIC_STHH_W, ++ AVR32_MNEMONIC_STM, ++ AVR32_MNEMONIC_STMTS, ++ AVR32_MNEMONIC_STSWP_H, ++ AVR32_MNEMONIC_STSWP_W, ++ AVR32_MNEMONIC_SUB, ++ AVR32_MNEMONIC_SUBEQ, ++ AVR32_MNEMONIC_SUBNE, ++ AVR32_MNEMONIC_SUBCC, ++ AVR32_MNEMONIC_SUBCS, ++ AVR32_MNEMONIC_SUBGE, ++ AVR32_MNEMONIC_SUBLT, ++ AVR32_MNEMONIC_SUBMI, ++ AVR32_MNEMONIC_SUBPL, ++ AVR32_MNEMONIC_SUBLS, ++ AVR32_MNEMONIC_SUBGT, ++ AVR32_MNEMONIC_SUBLE, ++ AVR32_MNEMONIC_SUBHI, ++ AVR32_MNEMONIC_SUBVS, ++ AVR32_MNEMONIC_SUBVC, ++ AVR32_MNEMONIC_SUBQS, ++ AVR32_MNEMONIC_SUBAL, ++ AVR32_MNEMONIC_SUBHS, ++ AVR32_MNEMONIC_SUBLO, ++ AVR32_MNEMONIC_SUBFEQ, ++ AVR32_MNEMONIC_SUBFNE, ++ AVR32_MNEMONIC_SUBFCC, ++ AVR32_MNEMONIC_SUBFCS, ++ AVR32_MNEMONIC_SUBFGE, ++ AVR32_MNEMONIC_SUBFLT, ++ AVR32_MNEMONIC_SUBFMI, ++ AVR32_MNEMONIC_SUBFPL, ++ AVR32_MNEMONIC_SUBFLS, ++ AVR32_MNEMONIC_SUBFGT, ++ AVR32_MNEMONIC_SUBFLE, ++ AVR32_MNEMONIC_SUBFHI, ++ AVR32_MNEMONIC_SUBFVS, ++ AVR32_MNEMONIC_SUBFVC, ++ AVR32_MNEMONIC_SUBFQS, ++ AVR32_MNEMONIC_SUBFAL, ++ AVR32_MNEMONIC_SUBFHS, ++ AVR32_MNEMONIC_SUBFLO, ++ AVR32_MNEMONIC_SUBHH_W, ++ AVR32_MNEMONIC_SWAP_B, ++ AVR32_MNEMONIC_SWAP_BH, ++ AVR32_MNEMONIC_SWAP_H, ++ AVR32_MNEMONIC_SYNC, ++ AVR32_MNEMONIC_TLBR, ++ AVR32_MNEMONIC_TLBS, ++ AVR32_MNEMONIC_TLBW, ++ AVR32_MNEMONIC_TNBZ, ++ AVR32_MNEMONIC_TST, ++ AVR32_MNEMONIC_XCHG, ++ AVR32_MNEMONIC_MEMC, ++ AVR32_MNEMONIC_MEMS, ++ AVR32_MNEMONIC_MEMT, ++ AVR32_MNEMONIC_FMAC_S, ++ AVR32_MNEMONIC_FNMAC_S, ++ AVR32_MNEMONIC_FMSC_S, ++ AVR32_MNEMONIC_FNMSC_S, ++ AVR32_MNEMONIC_FMUL_S, ++ AVR32_MNEMONIC_FNMUL_S, ++ AVR32_MNEMONIC_FADD_S, ++ AVR32_MNEMONIC_FSUB_S, ++ AVR32_MNEMONIC_FCASTRS_SW, ++ AVR32_MNEMONIC_FCASTRS_UW, ++ AVR32_MNEMONIC_FCASTSW_S, ++ AVR32_MNEMONIC_FCASTUW_S, ++ AVR32_MNEMONIC_FCMP_S, ++ AVR32_MNEMONIC_FCHK_S, ++ AVR32_MNEMONIC_FRCPA_S, ++ AVR32_MNEMONIC_FRSQRTA_S, ++ /* AVR32_MNEMONIC_FLD_S, ++ AVR32_MNEMONIC_FLD_D, ++ AVR32_MNEMONIC_FST_S, ++ AVR32_MNEMONIC_FST_D, */ ++ AVR32_MNEMONIC_LDA_W, ++ AVR32_MNEMONIC_CALL, ++ AVR32_MNEMONIC_PICOSVMAC, ++ AVR32_MNEMONIC_PICOSVMUL, ++ AVR32_MNEMONIC_PICOVMAC, ++ AVR32_MNEMONIC_PICOVMUL, ++ AVR32_MNEMONIC_PICOLD_D, ++ AVR32_MNEMONIC_PICOLD_W, ++ AVR32_MNEMONIC_PICOLDM_D, ++ AVR32_MNEMONIC_PICOLDM_W, ++ AVR32_MNEMONIC_PICOMV_D, ++ AVR32_MNEMONIC_PICOMV_W, ++ AVR32_MNEMONIC_PICOST_D, ++ AVR32_MNEMONIC_PICOST_W, ++ AVR32_MNEMONIC_PICOSTM_D, ++ AVR32_MNEMONIC_PICOSTM_W, ++ AVR32_MNEMONIC_RSUBEQ, ++ AVR32_MNEMONIC_RSUBNE, ++ AVR32_MNEMONIC_RSUBCC, ++ AVR32_MNEMONIC_RSUBCS, ++ AVR32_MNEMONIC_RSUBGE, ++ AVR32_MNEMONIC_RSUBLT, ++ AVR32_MNEMONIC_RSUBMI, ++ AVR32_MNEMONIC_RSUBPL, ++ AVR32_MNEMONIC_RSUBLS, ++ AVR32_MNEMONIC_RSUBGT, ++ AVR32_MNEMONIC_RSUBLE, ++ AVR32_MNEMONIC_RSUBHI, ++ AVR32_MNEMONIC_RSUBVS, ++ AVR32_MNEMONIC_RSUBVC, ++ AVR32_MNEMONIC_RSUBQS, ++ AVR32_MNEMONIC_RSUBAL, ++ AVR32_MNEMONIC_RSUBHS, ++ AVR32_MNEMONIC_RSUBLO, ++ AVR32_MNEMONIC_ADDEQ, ++ AVR32_MNEMONIC_ADDNE, ++ AVR32_MNEMONIC_ADDCC, ++ AVR32_MNEMONIC_ADDCS, ++ AVR32_MNEMONIC_ADDGE, ++ AVR32_MNEMONIC_ADDLT, ++ AVR32_MNEMONIC_ADDMI, ++ AVR32_MNEMONIC_ADDPL, ++ AVR32_MNEMONIC_ADDLS, ++ AVR32_MNEMONIC_ADDGT, ++ AVR32_MNEMONIC_ADDLE, ++ AVR32_MNEMONIC_ADDHI, ++ AVR32_MNEMONIC_ADDVS, ++ AVR32_MNEMONIC_ADDVC, ++ AVR32_MNEMONIC_ADDQS, ++ AVR32_MNEMONIC_ADDAL, ++ AVR32_MNEMONIC_ADDHS, ++ AVR32_MNEMONIC_ADDLO, ++ AVR32_MNEMONIC_ANDEQ, ++ AVR32_MNEMONIC_ANDNE, ++ AVR32_MNEMONIC_ANDCC, ++ AVR32_MNEMONIC_ANDCS, ++ AVR32_MNEMONIC_ANDGE, ++ AVR32_MNEMONIC_ANDLT, ++ AVR32_MNEMONIC_ANDMI, ++ AVR32_MNEMONIC_ANDPL, ++ AVR32_MNEMONIC_ANDLS, ++ AVR32_MNEMONIC_ANDGT, ++ AVR32_MNEMONIC_ANDLE, ++ AVR32_MNEMONIC_ANDHI, ++ AVR32_MNEMONIC_ANDVS, ++ AVR32_MNEMONIC_ANDVC, ++ AVR32_MNEMONIC_ANDQS, ++ AVR32_MNEMONIC_ANDAL, ++ AVR32_MNEMONIC_ANDHS, ++ AVR32_MNEMONIC_ANDLO, ++ AVR32_MNEMONIC_OREQ, ++ AVR32_MNEMONIC_ORNE, ++ AVR32_MNEMONIC_ORCC, ++ AVR32_MNEMONIC_ORCS, ++ AVR32_MNEMONIC_ORGE, ++ AVR32_MNEMONIC_ORLT, ++ AVR32_MNEMONIC_ORMI, ++ AVR32_MNEMONIC_ORPL, ++ AVR32_MNEMONIC_ORLS, ++ AVR32_MNEMONIC_ORGT, ++ AVR32_MNEMONIC_ORLE, ++ AVR32_MNEMONIC_ORHI, ++ AVR32_MNEMONIC_ORVS, ++ AVR32_MNEMONIC_ORVC, ++ AVR32_MNEMONIC_ORQS, ++ AVR32_MNEMONIC_ORAL, ++ AVR32_MNEMONIC_ORHS, ++ AVR32_MNEMONIC_ORLO, ++ AVR32_MNEMONIC_EOREQ, ++ AVR32_MNEMONIC_EORNE, ++ AVR32_MNEMONIC_EORCC, ++ AVR32_MNEMONIC_EORCS, ++ AVR32_MNEMONIC_EORGE, ++ AVR32_MNEMONIC_EORLT, ++ AVR32_MNEMONIC_EORMI, ++ AVR32_MNEMONIC_EORPL, ++ AVR32_MNEMONIC_EORLS, ++ AVR32_MNEMONIC_EORGT, ++ AVR32_MNEMONIC_EORLE, ++ AVR32_MNEMONIC_EORHI, ++ AVR32_MNEMONIC_EORVS, ++ AVR32_MNEMONIC_EORVC, ++ AVR32_MNEMONIC_EORQS, ++ AVR32_MNEMONIC_EORAL, ++ AVR32_MNEMONIC_EORHS, ++ AVR32_MNEMONIC_EORLO, ++ AVR32_MNEMONIC_LD_WEQ, ++ AVR32_MNEMONIC_LD_WNE, ++ AVR32_MNEMONIC_LD_WCC, ++ AVR32_MNEMONIC_LD_WCS, ++ AVR32_MNEMONIC_LD_WGE, ++ AVR32_MNEMONIC_LD_WLT, ++ AVR32_MNEMONIC_LD_WMI, ++ AVR32_MNEMONIC_LD_WPL, ++ AVR32_MNEMONIC_LD_WLS, ++ AVR32_MNEMONIC_LD_WGT, ++ AVR32_MNEMONIC_LD_WLE, ++ AVR32_MNEMONIC_LD_WHI, ++ AVR32_MNEMONIC_LD_WVS, ++ AVR32_MNEMONIC_LD_WVC, ++ AVR32_MNEMONIC_LD_WQS, ++ AVR32_MNEMONIC_LD_WAL, ++ AVR32_MNEMONIC_LD_WHS, ++ AVR32_MNEMONIC_LD_WLO, ++ AVR32_MNEMONIC_LD_SHEQ, ++ AVR32_MNEMONIC_LD_SHNE, ++ AVR32_MNEMONIC_LD_SHCC, ++ AVR32_MNEMONIC_LD_SHCS, ++ AVR32_MNEMONIC_LD_SHGE, ++ AVR32_MNEMONIC_LD_SHLT, ++ AVR32_MNEMONIC_LD_SHMI, ++ AVR32_MNEMONIC_LD_SHPL, ++ AVR32_MNEMONIC_LD_SHLS, ++ AVR32_MNEMONIC_LD_SHGT, ++ AVR32_MNEMONIC_LD_SHLE, ++ AVR32_MNEMONIC_LD_SHHI, ++ AVR32_MNEMONIC_LD_SHVS, ++ AVR32_MNEMONIC_LD_SHVC, ++ AVR32_MNEMONIC_LD_SHQS, ++ AVR32_MNEMONIC_LD_SHAL, ++ AVR32_MNEMONIC_LD_SHHS, ++ AVR32_MNEMONIC_LD_SHLO, ++ AVR32_MNEMONIC_LD_UHEQ, ++ AVR32_MNEMONIC_LD_UHNE, ++ AVR32_MNEMONIC_LD_UHCC, ++ AVR32_MNEMONIC_LD_UHCS, ++ AVR32_MNEMONIC_LD_UHGE, ++ AVR32_MNEMONIC_LD_UHLT, ++ AVR32_MNEMONIC_LD_UHMI, ++ AVR32_MNEMONIC_LD_UHPL, ++ AVR32_MNEMONIC_LD_UHLS, ++ AVR32_MNEMONIC_LD_UHGT, ++ AVR32_MNEMONIC_LD_UHLE, ++ AVR32_MNEMONIC_LD_UHHI, ++ AVR32_MNEMONIC_LD_UHVS, ++ AVR32_MNEMONIC_LD_UHVC, ++ AVR32_MNEMONIC_LD_UHQS, ++ AVR32_MNEMONIC_LD_UHAL, ++ AVR32_MNEMONIC_LD_UHHS, ++ AVR32_MNEMONIC_LD_UHLO, ++ AVR32_MNEMONIC_LD_SBEQ, ++ AVR32_MNEMONIC_LD_SBNE, ++ AVR32_MNEMONIC_LD_SBCC, ++ AVR32_MNEMONIC_LD_SBCS, ++ AVR32_MNEMONIC_LD_SBGE, ++ AVR32_MNEMONIC_LD_SBLT, ++ AVR32_MNEMONIC_LD_SBMI, ++ AVR32_MNEMONIC_LD_SBPL, ++ AVR32_MNEMONIC_LD_SBLS, ++ AVR32_MNEMONIC_LD_SBGT, ++ AVR32_MNEMONIC_LD_SBLE, ++ AVR32_MNEMONIC_LD_SBHI, ++ AVR32_MNEMONIC_LD_SBVS, ++ AVR32_MNEMONIC_LD_SBVC, ++ AVR32_MNEMONIC_LD_SBQS, ++ AVR32_MNEMONIC_LD_SBAL, ++ AVR32_MNEMONIC_LD_SBHS, ++ AVR32_MNEMONIC_LD_SBLO, ++ AVR32_MNEMONIC_LD_UBEQ, ++ AVR32_MNEMONIC_LD_UBNE, ++ AVR32_MNEMONIC_LD_UBCC, ++ AVR32_MNEMONIC_LD_UBCS, ++ AVR32_MNEMONIC_LD_UBGE, ++ AVR32_MNEMONIC_LD_UBLT, ++ AVR32_MNEMONIC_LD_UBMI, ++ AVR32_MNEMONIC_LD_UBPL, ++ AVR32_MNEMONIC_LD_UBLS, ++ AVR32_MNEMONIC_LD_UBGT, ++ AVR32_MNEMONIC_LD_UBLE, ++ AVR32_MNEMONIC_LD_UBHI, ++ AVR32_MNEMONIC_LD_UBVS, ++ AVR32_MNEMONIC_LD_UBVC, ++ AVR32_MNEMONIC_LD_UBQS, ++ AVR32_MNEMONIC_LD_UBAL, ++ AVR32_MNEMONIC_LD_UBHS, ++ AVR32_MNEMONIC_LD_UBLO, ++ AVR32_MNEMONIC_ST_WEQ, ++ AVR32_MNEMONIC_ST_WNE, ++ AVR32_MNEMONIC_ST_WCC, ++ AVR32_MNEMONIC_ST_WCS, ++ AVR32_MNEMONIC_ST_WGE, ++ AVR32_MNEMONIC_ST_WLT, ++ AVR32_MNEMONIC_ST_WMI, ++ AVR32_MNEMONIC_ST_WPL, ++ AVR32_MNEMONIC_ST_WLS, ++ AVR32_MNEMONIC_ST_WGT, ++ AVR32_MNEMONIC_ST_WLE, ++ AVR32_MNEMONIC_ST_WHI, ++ AVR32_MNEMONIC_ST_WVS, ++ AVR32_MNEMONIC_ST_WVC, ++ AVR32_MNEMONIC_ST_WQS, ++ AVR32_MNEMONIC_ST_WAL, ++ AVR32_MNEMONIC_ST_WHS, ++ AVR32_MNEMONIC_ST_WLO, ++ AVR32_MNEMONIC_ST_HEQ, ++ AVR32_MNEMONIC_ST_HNE, ++ AVR32_MNEMONIC_ST_HCC, ++ AVR32_MNEMONIC_ST_HCS, ++ AVR32_MNEMONIC_ST_HGE, ++ AVR32_MNEMONIC_ST_HLT, ++ AVR32_MNEMONIC_ST_HMI, ++ AVR32_MNEMONIC_ST_HPL, ++ AVR32_MNEMONIC_ST_HLS, ++ AVR32_MNEMONIC_ST_HGT, ++ AVR32_MNEMONIC_ST_HLE, ++ AVR32_MNEMONIC_ST_HHI, ++ AVR32_MNEMONIC_ST_HVS, ++ AVR32_MNEMONIC_ST_HVC, ++ AVR32_MNEMONIC_ST_HQS, ++ AVR32_MNEMONIC_ST_HAL, ++ AVR32_MNEMONIC_ST_HHS, ++ AVR32_MNEMONIC_ST_HLO, ++ AVR32_MNEMONIC_ST_BEQ, ++ AVR32_MNEMONIC_ST_BNE, ++ AVR32_MNEMONIC_ST_BCC, ++ AVR32_MNEMONIC_ST_BCS, ++ AVR32_MNEMONIC_ST_BGE, ++ AVR32_MNEMONIC_ST_BLT, ++ AVR32_MNEMONIC_ST_BMI, ++ AVR32_MNEMONIC_ST_BPL, ++ AVR32_MNEMONIC_ST_BLS, ++ AVR32_MNEMONIC_ST_BGT, ++ AVR32_MNEMONIC_ST_BLE, ++ AVR32_MNEMONIC_ST_BHI, ++ AVR32_MNEMONIC_ST_BVS, ++ AVR32_MNEMONIC_ST_BVC, ++ AVR32_MNEMONIC_ST_BQS, ++ AVR32_MNEMONIC_ST_BAL, ++ AVR32_MNEMONIC_ST_BHS, ++ AVR32_MNEMONIC_ST_BLO, ++ AVR32_MNEMONIC_MOVH, ++ AVR32_MNEMONIC__END_ ++}; ++#define AVR32_NR_MNEMONICS AVR32_MNEMONIC__END_ ++ ++enum avr32_syntax_parser ++ { ++ AVR32_PARSER_NORMAL, ++ AVR32_PARSER_ALIAS, ++ AVR32_PARSER_LDA, ++ AVR32_PARSER_CALL, ++ AVR32_PARSER__END_ ++ }; ++#define AVR32_NR_PARSERS AVR32_PARSER__END_ +--- a/opcodes/configure ++++ b/opcodes/configure +@@ -12417,6 +12417,7 @@ if test x${all_targets} = xfalse ; then + bfd_arc_arch) ta="$ta arc-dis.lo arc-opc.lo arc-ext.lo" ;; + bfd_arm_arch) ta="$ta arm-dis.lo" ;; + bfd_avr_arch) ta="$ta avr-dis.lo" ;; ++ bfd_avr32_arch) ta="$ta avr32-asm.lo avr32-dis.lo avr32-opc.lo" ;; + bfd_bfin_arch) ta="$ta bfin-dis.lo" ;; + bfd_cr16_arch) ta="$ta cr16-dis.lo cr16-opc.lo" ;; + bfd_cris_arch) ta="$ta cris-dis.lo cris-opc.lo cgen-bitset.lo" ;; +--- a/opcodes/configure.in ++++ b/opcodes/configure.in +@@ -223,6 +223,7 @@ if test x${all_targets} = xfalse ; then + bfd_arc_arch) ta="$ta arc-dis.lo arc-opc.lo arc-ext.lo" ;; + bfd_arm_arch) ta="$ta arm-dis.lo" ;; + bfd_avr_arch) ta="$ta avr-dis.lo" ;; ++ bfd_avr32_arch) ta="$ta avr32-asm.lo avr32-dis.lo avr32-opc.lo" ;; + bfd_bfin_arch) ta="$ta bfin-dis.lo" ;; + bfd_cr16_arch) ta="$ta cr16-dis.lo cr16-opc.lo" ;; + bfd_cris_arch) ta="$ta cris-dis.lo cris-opc.lo cgen-bitset.lo" ;; +@@ -285,7 +286,7 @@ if test x${all_targets} = xfalse ; then + ta="$ta sh64-dis.lo sh64-opc.lo" + archdefs="$archdefs -DINCLUDE_SHMEDIA" + break;; +- esac; ++ esac + done + ta="$ta sh-dis.lo cgen-bitset.lo" ;; + bfd_sparc_arch) ta="$ta sparc-dis.lo sparc-opc.lo" ;; +--- a/opcodes/disassemble.c ++++ b/opcodes/disassemble.c +@@ -27,6 +27,7 @@ + #define ARCH_arc + #define ARCH_arm + #define ARCH_avr ++#define ARCH_avr32 + #define ARCH_bfin + #define ARCH_cr16 + #define ARCH_cris +@@ -130,6 +131,11 @@ disassembler (abfd) + disassemble = print_insn_avr; + break; + #endif ++#ifdef ARCH_avr32 ++ case bfd_arch_avr32: ++ disassemble = print_insn_avr32; ++ break; ++#endif + #ifdef ARCH_bfin + case bfd_arch_bfin: + disassemble = print_insn_bfin; +@@ -489,6 +495,9 @@ disassembler_usage (stream) + #ifdef ARCH_i386 + print_i386_disassembler_options (stream); + #endif ++#ifdef ARCH_avr32 ++ print_avr32_disassembler_options (stream); ++#endif + #ifdef ARCH_s390 + print_s390_disassembler_options (stream); + #endif +--- a/bfd/elf32-avr32.c ++++ b/bfd/elf32-avr32.c +@@ -352,7 +352,8 @@ struct elf_avr32_link_hash_table + unsigned int relax_pass; + }; + #define avr32_elf_hash_table(p) \ +- ((struct elf_avr32_link_hash_table *)((p)->hash)) ++ (elf_hash_table_id ((struct elf_link_hash_table *) ((p)->hash)) \ ++ == AVR32_ELF_DATA ? ((struct elf_avr32_link_hash_table *) ((p)->hash)) : NULL) + + static struct bfd_hash_entry * + avr32_elf_link_hash_newfunc(struct bfd_hash_entry *entry, +@@ -414,7 +415,8 @@ avr32_elf_link_hash_table_create(bfd *ab + + if (! _bfd_elf_link_hash_table_init(&ret->root, abfd, + avr32_elf_link_hash_newfunc, +- sizeof (struct elf_avr32_link_hash_entry))) ++ sizeof (struct elf_avr32_link_hash_entry), ++ AVR32_ELF_DATA)) + { + free(ret); + return NULL; +@@ -497,6 +499,9 @@ avr32_elf_create_got_section (bfd *dynob + htab = avr32_elf_hash_table(info); + flags = bed->dynamic_sec_flags; + ++ if (htab == NULL) ++ return FALSE; ++ + if (htab->sgot) + return TRUE; + +@@ -534,6 +539,9 @@ avr32_elf_create_dynamic_sections (bfd * + htab = avr32_elf_hash_table(info); + flags = bed->dynamic_sec_flags; + ++ if (htab == NULL) ++ return FALSE; ++ + if (!avr32_elf_create_got_section (dynobj, info)) + return FALSE; + +@@ -574,6 +582,9 @@ avr32_check_relocs (bfd *abfd, struct bf + symtab_hdr = &elf_tdata(abfd)->symtab_hdr; + sym_hashes = elf_sym_hashes(abfd); + htab = avr32_elf_hash_table(info); ++ if (htab == NULL) ++ return FALSE; ++ + local_got_ents = elf_local_got_ents(abfd); + sgot = htab->sgot; + +@@ -756,6 +767,9 @@ avr32_elf_adjust_dynamic_symbol(struct b + havr = (struct elf_avr32_link_hash_entry *)h; + dynobj = elf_hash_table(info)->dynobj; + ++ if (htab == NULL) ++ return FALSE; ++ + /* Make sure we know what is going on here. */ + BFD_ASSERT (dynobj != NULL + && (h->u.weakdef != NULL +@@ -1066,6 +1080,9 @@ allocate_dynrelocs(struct elf_link_hash_ + htab = avr32_elf_hash_table(info); + havr = (struct elf_avr32_link_hash_entry *)h; + ++ if (htab == NULL) ++ return FALSE; ++ + got = h->got.glist; + + /* If got is NULL, the symbol is never referenced through the GOT */ +@@ -1117,6 +1134,9 @@ avr32_elf_size_dynamic_sections (bfd *ou + pr_debug("(4) size dynamic sections\n"); + + htab = avr32_elf_hash_table(info); ++ if (htab == NULL) ++ return FALSE; ++ + dynobj = htab->root.dynobj; + BFD_ASSERT(dynobj != NULL); + +@@ -3260,6 +3280,9 @@ avr32_elf_relocate_section(bfd *output_b + return TRUE; + + htab = avr32_elf_hash_table(info); ++ if (htab == NULL) ++ return FALSE; ++ + symtab_hdr = &elf_tdata(input_bfd)->symtab_hdr; + sym_hashes = elf_sym_hashes(input_bfd); + local_got_ents = elf_local_got_ents(input_bfd); +@@ -3582,6 +3605,9 @@ avr32_elf_finish_dynamic_symbol(bfd *out + pr_debug("(7) finish dynamic symbol: %s\n", h->root.root.string); + + htab = avr32_elf_hash_table(info); ++ if (htab == NULL) ++ return FALSE; ++ + got = h->got.glist; + + if (got && got->refcount > 0) +@@ -3648,6 +3674,9 @@ avr32_elf_finish_dynamic_sections(bfd *o + pr_debug("(8) finish dynamic sections\n"); + + htab = avr32_elf_hash_table(info); ++ if (htab == NULL) ++ return FALSE; ++ + sgot = htab->sgot; + sdyn = bfd_get_section_by_name(htab->root.dynobj, ".dynamic"); + diff --git a/toolchain/binutils/patches/2.22/112-arm-uclibc-gas-needs-libm.patch b/toolchain/binutils/patches/2.22/112-arm-uclibc-gas-needs-libm.patch new file mode 100644 index 000000000..a9e435701 --- /dev/null +++ b/toolchain/binutils/patches/2.22/112-arm-uclibc-gas-needs-libm.patch @@ -0,0 +1,35 @@ +Source: Khem Raj +Disposition: submit upstream. + +Description: + +We do not need to have the libtool patch anymore for binutils after +libtool has been updated upstream it include support for it. However +for building gas natively on uclibc systems we have to link it with +-lm so that it picks up missing symbols. + +/local/build_area/BUILD/arm_v5t_le_uclibc/binutils-2.17.50/objdir/libiberty/pic/libiberty.a(floatformat.o): In function `floatformat_from_double': +floatformat.c:(.text+0x1ec): undefined reference to `frexp' +floatformat.c:(.text+0x2f8): undefined reference to `ldexp' +/local/build_area/BUILD/arm_v5t_le_uclibc/binutils-2.17.50/objdir/libiberty/pic/libiberty.a(floatformat.o): In function `floatformat_to_double': +floatformat.c:(.text+0x38a): undefined reference to `ldexp' +floatformat.c:(.text+0x3d2): undefined reference to `ldexp' +floatformat.c:(.text+0x43e): undefined reference to `ldexp' floatformat.c:(.text+0x4e2): undefined reference to `ldexp' +collect2: ld returned 1 exit status +make[4]: *** [as-new] Error 1 + +--- a/gas/configure.tgt ++++ b/gas/configure.tgt +@@ -428,6 +428,12 @@ case ${generic_target} in + *-*-netware) fmt=elf em=netware ;; + esac + ++case ${generic_target} in ++ arm-*-*uclibc*) ++ need_libm=yes ++ ;; ++esac ++ + case ${cpu_type} in + alpha | arm | i386 | ia64 | microblaze | mips | ns32k | pdp11 | ppc | sparc | z80 | z8k) + bfd_gas=yes diff --git a/toolchain/binutils/patches/2.22/120-sh-conf.patch b/toolchain/binutils/patches/2.22/120-sh-conf.patch new file mode 100644 index 000000000..d92ceb52c --- /dev/null +++ b/toolchain/binutils/patches/2.22/120-sh-conf.patch @@ -0,0 +1,22 @@ +--- a/configure ++++ b/configure +@@ -3570,7 +3570,7 @@ case "${target}" in + mips*-*-*) + noconfigdirs="$noconfigdirs gprof" + ;; +- sh-*-* | sh64-*-*) ++ sh*-*-* | sh64-*-*) + case "${target}" in + sh*-*-elf) + ;; +--- a/configure.ac ++++ b/configure.ac +@@ -1006,7 +1006,7 @@ case "${target}" in + mips*-*-*) + noconfigdirs="$noconfigdirs gprof" + ;; +- sh-*-* | sh64-*-*) ++ sh*-*-* | sh64-*-*) + case "${target}" in + sh*-*-elf) + ;; diff --git a/toolchain/binutils/patches/2.22/300-001_ld_makefile_patch.patch b/toolchain/binutils/patches/2.22/300-001_ld_makefile_patch.patch new file mode 100644 index 000000000..aa853ff54 --- /dev/null +++ b/toolchain/binutils/patches/2.22/300-001_ld_makefile_patch.patch @@ -0,0 +1,22 @@ +--- a/ld/Makefile.am ++++ b/ld/Makefile.am +@@ -37,7 +37,7 @@ endif + # We put the scripts in the directory $(scriptdir)/ldscripts. + # We can't put the scripts in $(datadir) because the SEARCH_DIR + # directives need to be different for native and cross linkers. +-scriptdir = $(tooldir)/lib ++scriptdir = $(libdir) + + EMUL = @EMUL@ + EMULATION_OFILES = @EMULATION_OFILES@ +--- a/ld/Makefile.in ++++ b/ld/Makefile.in +@@ -366,7 +366,7 @@ AM_CFLAGS = $(WARN_CFLAGS) + # We put the scripts in the directory $(scriptdir)/ldscripts. + # We can't put the scripts in $(datadir) because the SEARCH_DIR + # directives need to be different for native and cross linkers. +-scriptdir = $(tooldir)/lib ++scriptdir = $(libdir) + BASEDIR = $(srcdir)/.. + BFDDIR = $(BASEDIR)/bfd + INCDIR = $(BASEDIR)/include diff --git a/toolchain/binutils/patches/2.22/300-012_check_ldrunpath_length.patch b/toolchain/binutils/patches/2.22/300-012_check_ldrunpath_length.patch new file mode 100644 index 000000000..1e0400034 --- /dev/null +++ b/toolchain/binutils/patches/2.22/300-012_check_ldrunpath_length.patch @@ -0,0 +1,20 @@ +--- a/ld/emultempl/elf32.em ++++ b/ld/emultempl/elf32.em +@@ -1273,6 +1273,8 @@ fragment <link_next) + if (bfd_get_flavour (abfd) == bfd_target_elf_flavour) diff --git a/toolchain/binutils/patches/2.22/400-fix_arm_gc_sections.patch b/toolchain/binutils/patches/2.22/400-fix_arm_gc_sections.patch new file mode 100644 index 000000000..04badab62 --- /dev/null +++ b/toolchain/binutils/patches/2.22/400-fix_arm_gc_sections.patch @@ -0,0 +1,12 @@ +--- a/bfd/elf32-arm.c ++++ b/bfd/elf32-arm.c +@@ -12408,7 +12408,8 @@ elf32_arm_check_relocs (bfd *abfd, struc + + /* If the symbol is a function that doesn't bind locally, + this relocation will need a PLT entry. */ +- root_plt->refcount += 1; ++ if (root_plt->refcount != -1) ++ root_plt->refcount += 1; + + if (!call_reloc_p) + arm_plt->noncall_refcount++; diff --git a/toolchain/binutils/patches/2.22/999-ppc-textrels.patch b/toolchain/binutils/patches/2.22/999-ppc-textrels.patch new file mode 100644 index 000000000..36e82f56d --- /dev/null +++ b/toolchain/binutils/patches/2.22/999-ppc-textrels.patch @@ -0,0 +1,74 @@ +http://bugs.gentoo.org/392645 +http://sourceware.org/bugzilla/show_bug.cgi?id=13470 + +2011-12-03 Alan Modra + + PR ld/13470 + * elf32-ppc.c (ppc_elf_copy_indirect_symbol): Revert substantive + change in 2011-07-01 commit. Comment. + * elf64-ppc.c (ppc64_elf_copy_indirect_symbol): Likewise. + +=================================================================== +RCS file: /cvs/src/src/bfd/elf32-ppc.c,v +retrieving revision 1.302.2.1 +retrieving revision 1.302.2.2 +--- a/bfd/elf32-ppc.c ++++ b/bfd/elf32-ppc.c +@@ -2987,10 +2987,6 @@ ppc_elf_copy_indirect_symbol (struct bfd + edir->elf.needs_plt |= eind->elf.needs_plt; + edir->elf.pointer_equality_needed |= eind->elf.pointer_equality_needed; + +- /* If we were called to copy over info for a weak sym, that's all. */ +- if (eind->elf.root.type != bfd_link_hash_indirect) +- return; +- + if (eind->dyn_relocs != NULL) + { + if (edir->dyn_relocs != NULL) +@@ -3022,6 +3018,16 @@ ppc_elf_copy_indirect_symbol (struct bfd + eind->dyn_relocs = NULL; + } + ++ /* If we were called to copy over info for a weak sym, that's all. ++ You might think dyn_relocs need not be copied over; After all, ++ both syms will be dynamic or both non-dynamic so we're just ++ moving reloc accounting around. However, ELIMINATE_COPY_RELOCS ++ code in ppc_elf_adjust_dynamic_symbol needs to check for ++ dyn_relocs in read-only sections, and it does so on what is the ++ DIR sym here. */ ++ if (eind->elf.root.type != bfd_link_hash_indirect) ++ return; ++ + /* Copy over the GOT refcount entries that we may have already seen to + the symbol which just became indirect. */ + edir->elf.got.refcount += eind->elf.got.refcount; +--- a/bfd/elf64-ppc.c ++++ b/bfd/elf64-ppc.c +@@ -4435,10 +4435,6 @@ ppc64_elf_copy_indirect_symbol (struct b + edir->elf.ref_regular_nonweak |= eind->elf.ref_regular_nonweak; + edir->elf.needs_plt |= eind->elf.needs_plt; + +- /* If we were called to copy over info for a weak sym, that's all. */ +- if (eind->elf.root.type != bfd_link_hash_indirect) +- return; +- + /* Copy over any dynamic relocs we may have on the indirect sym. */ + if (eind->dyn_relocs != NULL) + { +@@ -4471,6 +4467,16 @@ ppc64_elf_copy_indirect_symbol (struct b + eind->dyn_relocs = NULL; + } + ++ /* If we were called to copy over info for a weak sym, that's all. ++ You might think dyn_relocs need not be copied over; After all, ++ both syms will be dynamic or both non-dynamic so we're just ++ moving reloc accounting around. However, ELIMINATE_COPY_RELOCS ++ code in ppc64_elf_adjust_dynamic_symbol needs to check for ++ dyn_relocs in read-only sections, and it does so on what is the ++ DIR sym here. */ ++ if (eind->elf.root.type != bfd_link_hash_indirect) ++ return; ++ + /* Copy over got entries that we may have already seen to the + symbol which just became indirect. */ + if (eind->elf.got.glist != NULL) -- cgit v1.2.3